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how long after prostate surgery does the nerves to heal
<P> After surgery, a catheter (thin, flexible tube) is inserted through the penis and into the bladder. It remains in place for about a day to help urine drain while the prostate heals. You can usually leave the hospital after 1 to 2 days and return to normal activities in 1 to 2 weeks. You will probably have some blood in your urine after surgery. The catheter usually stays in place for 1 to 2 weeks while you are healing. You will be able to urinate on your own after the catheter is removed. You will probably stay in the hospital for a few days after the surgery, and your activities will be limited for about 3 to 5 weeks. <P> If you see any fullness in your erections in the months after your robotic prostatectomy surgery, this is a positive sign that some of the nerves are working or re-growing. You are taking the first steps down the potency recovery path. While regaining erectile functiom is not possible for all men, it is important to remember that erection is just one part of a satisfying sex life. The other parts remain intact despite prostate cancer surgery. Sexual feelings, sexual fulfillment, climax and the sensation of orgasm are still available without erection. <P> It is important to remember that regaining erectile function takes time after radical robotic prostatectomy. Most studies in the literature use endpoints of 18-36 months after prostate cancer surgery. Nerve tissue can be easily damaged during robotic prostatectomy, regardless of the skill of the surgeon, and takes a long time to regenerate. While regaining erectile functiom is not possible for all men, it is important to remember that erection is just one part of a satisfying sex life. The other parts remain intact despite prostate cancer surgery. Sexual feelings, sexual fulfillment, climax and the sensation of orgasm are still available without erection. <P> Radical Prostatectomy. Guide. A radical prostatectomy is an operation to remove the prostate gland and some of the tissue around it. It is done to remove prostate cancer. This operation may be done by open surgery. In open surgery, the surgeon makes an incision to reach the prostate gland. Depending on the case, the incision is made either in the lower belly or in the perineum between the anus and the scrotum. When the incision is made in the lower belly, it is called the retropubic approach. <P> Surgery for prostate cancer. Surgery is a common choice to try to cure prostate cancer if it is not thought to have spread outside the gland (stage T1 or T2 cancers). The main type of surgery for prostate cancer is known as a radical prostatectomy. The catheter usually stays in place for 1 to 2 weeks while you are healing. You will be able to urinate on your own after the catheter is removed. You will probably stay in the hospital for a few days after the surgery, and your activities will be limited for about 3 to 5 weeks. <P> Let the surgery heal for three to four weeks before attempting anything. After one month after the robotic prostatectomy, it is recommended that you resume sexual activity. Stimulation of the nerves is thought to be a first step on the journey back to potency. While regaining erectile functiom is not possible for all men, it is important to remember that erection is just one part of a satisfying sex life. The other parts remain intact despite prostate cancer surgery. Sexual feelings, sexual fulfillment, climax and the sensation of orgasm are still available without erection. <P> Open surgery. In open surgery, the surgeon makes an incision to reach the prostate gland. Depending on the case, the incision is made either in the lower belly or in the perineum between the anus and the scrotum. When the incision is made in the lower belly, it is called the retropubic approach. <P> What To Expect After Surgery. Prostatectomy usually requires general anesthesia and a hospital stay of 2 to 4 days. A thin, flexible tube called a catheter usually is left in your bladder to drain your urine for 1 to 3 weeks. In open surgery, the surgeon makes an incision to reach the prostate gland. Depending on the case, the incision is made either in the lower belly or in the perineum between the anus and the scrotum. When the incision is made in the lower belly, it is called the retropubic approach. <P> The catheter usually stays in place for 1 to 2 weeks while you heal. You will be able to urinate on your own after the catheter is removed. You will probably stay in the hospital for a few days after the surgery, and your activities will be limited for about 3 to 5 weeks. The catheter usually stays in place for 1 to 2 weeks while you are healing. You will be able to urinate on your own after the catheter is removed. You will probably stay in the hospital for a few days after the surgery, and your activities will be limited for about 3 to 5 weeks.
The surgery heal for three to four weeks before attempting anything.
diffusion definition gcse
<P> Diffusion gives the effect that the substance is moving from an area of high concentration to an area of low concentration (or 'down a concentration gradient'). Diffusion looks as if it has stopped when the particles are evenly spread out. Osmosis is the movement of water from a high water concentration to a low water concentration through a partially permeable membrane. Plants absorb water from the soil by osmosis through their root hair cells. <P> Diffusion diffusion: The movement of particles (molecules or ions) from an area of higher concentration to an area of lower concentration is a process in which material spreads throughout a liquid or a gas. Osmosis is the movement of water from a high water concentration to a low water concentration through a partially permeable membrane. Plants absorb water from the soil by osmosis through their root hair cells. <P> Very few particles travel the opposite way. The result is a concentration gradient with particles diffusing from an area of high concentration to an area of low concentration. Diffusion occurs in gases and with any substance in a solution. Therefore we can say that the definition of diffusion is as follows: Diffusion: The movement of particles from an area of high concentration to an area of low concentration until they spread out evenly. There are two important rules to remember. 1 The larger the particles the slower the rate of diffusion. <P> 474 pages on this wiki. Diffusion is the net movement of a substance from an area of high concentration to an area of low concentration. This difference in concentration is called the concentration gradient. 1 Concentration gradient-A greater concentration gradient will mean the rate of diffusion increases. 2 This concentration gradient is kept large by removing the substance as it moves across the place where it diffuses. <P> Diffusion is the random movement of one liquid or gas through another, from a region of high concentration to a region of low concentration. <P> Diffusion. Diffusion diffusion: The movement of particles (molecules or ions) from an area of higher concentration to an area of lower concentration is a process in which material spreads throughout a liquid or a gas. It is the overall movement of a substance from a region of high to low concentration. Osmosis is the movement of water from a high water concentration to a low water concentration through a partially permeable membrane. Plants absorb water from the soil by osmosis through their root hair cells. <P> Diffusion is the seemingly random movement of a substance from where these particles are in high concentration to where there are fewer. The diffusion stops where there is no concentration gradient existing. <P> Diffusion. Dissolved substances have to pass through the cell membrane to get into or out of a cell. Diffusion is one of the processes that allows this to happen. Diffusion diffusion: The movement of particles (molecules or ions) from an area of higher concentration to an area of lower concentration occurs when particles spread. They move from a region where they are in high concentration to a region where they are in low concentration. Diffusion happens when the particles are free to move. This is true in gases and for particles dissolved in solutions. Particles diffuse down a concentration gradient, from an area of high concentration to an area of low concentration. <P> Diffusion is the process by which substances move down a concentration gradient, from an area of high concentration to an area of low concentration. Diffusion happens in living systems, for example, it explains the movement of carbon dioxide in leaves. Osmosis is the movement of water from a high water concentration to a low water concentration through a partially permeable membrane. Plants absorb water from the soil by osmosis through their root hair cells. <P> Asker's rating. Report Abuse. 1. Osmosis is the diffusion of water through a semi-permeable membrane, from a solution of low solute concentration (high water potential) to a solution with high solute concentration (low water potential), up a solute concentration gradient.
Diffusion is the net movement of a substance from an area of high concentration to an area of low concentration.
how to tape heel spurs
<P> Taping is a measure not practical too often for treating heel spur / plantar fasciitis, though sometimes it is reported as one of the mainly successful methods. Objective is to apply tape in such a way that the fascia cannot over-stretch, therefore preventing further damage to the fascia and it's extra to the heel. While the plantar fascia pulls away from the heel bone, calcium puts form and a bony protrusion develop, resulting in pain. Heel spur relief can be severe especially when standing or walking. Women suffer from heel spurs more often than men due to the difference in footwear. <P> Order Athletic Tape Too much tension in the plantar fascia causes plantar fasciitis and heel spurs. There may be pain in the heel, arch, and other areas of the bottom of the foot, especially in the morning when the calf muscles are tight. Daily tension in the plantar fascia causes re-injury and prevents healing. Tension is in the tape instead of in the plantar fascia because the tape does not stretch. This allows the fascia to rest and heal. The tape has to stick to the skin for it to work because tension is being transferred through the skin. <P> How to Strap Your Foot. Create support for a heel spur with athletic tape. A heel spur is the result of an abnormal growth of the heel bone. When the plantar fascia pulls away from the heel bone, calcium deposits form and a bony protrusion develops, resulting in pain. Heel spur pain can be extreme especially when standing or walking. Women suffer from heel spurs more frequently than men due to the difference in footwear. The treatment of a heel spur includes nonsteroidal anti-inflammatory drugs, such as ibuprofen, naproxen and aspirin; ice; stretching exercises; and foot taping. <P> Heel spur and kinesio tape. Kinesio-taping of heel spur and plantar fasciitis is based on an entirely different principle as the standard taping concept. The aim of applying kinesiotape is to stimulate the healing process by reducing inflammation and relaxing muscles, without restricting body motion. Kinesio tape for treating heel spur can be applied in different ways, it also depends whether the narrow (2cm) tape or the wider version (4cm) is used. 1 The narrow 2cm-tape is applied by cutting 4 strips of tape of around 8cm, and applying them on the heel spur, slightly stretching the tape when putting it on. <P> To right this, athletic tape can be applied to the foot. Since athletic tape does not stretch, the tension is transferred from the fascia to the tape, allow the fascia to rest and get well from overuse. A heel spur is the effect of an abnormal growth of the heel bone. While the plantar fascia pulls away from the heel bone, calcium puts form and a bony protrusion develop, resulting in pain. Heel spur relief can be severe especially when standing or walking. Women suffer from heel spurs more often than men due to the difference in footwear. <P> Although it sounds painful, the heel spur itself does not cause uneasiness. The pain people with heel spurs feel is caused by the irritation and annoyance of the plantar fascia, the thick, stretchy connective tissue that originates at the heel and runs crossways the sole of the foot, connecting to the toes. While the plantar fascia pulls away from the heel bone, calcium puts form and a bony protrusion develop, resulting in pain. Heel spur relief can be severe especially when standing or walking. Women suffer from heel spurs more often than men due to the difference in footwear. <P> Heel spur and tape. Taping heel spur / plantar fasciitis can be a very effective method to treat the injury (see heelspurs.com). Also it is a relatively cost-effective way of treating fasciitis.It can even be used to prevent plantar fasciitis when severe strain is expected, like in sports, or mountain walking <P> Athletic tape is applied to the same area as the plantar fascia and reduces tension by preventing the fascia from stretching. Like the plantar fascia, the tape is connected to the front of the foot and to the heel. Tension is in the tape instead of in the plantar fascia because the tape does not stretch. This allows the fascia to rest and heal. The tape has to stick to the skin for it to work because tension is being transferred through the skin. Only athletic tape should be used <P> When too much tension is placed on the plantar fascia by excessive walking, running, or heavy lifting, heel spurs and plantar fasciitis occur. To correct this, athletic tape can be applied to the foot. Instructions. Tear off a strip of athletic tape long enough to span the width of your foot at its widest place, leaving enough tape to come up over the sides of the foot. Place the tape across the foot at the toe joints so that the tape covers the ball of the foot. If you're not sure where this is, wiggle your big toe. <P> To tape a foot for heel pain, use a roll of athletic tape to get good compression and support along the heel. Relieve heel pain with help from a physical therapist in this free video on physical therapy treatments. Part of the Video Series: Physical Therapy Treatments. 1 How to Treat Tendonitis in the Shoulder.
Tape Too much tension in the plantar fascia causes plantar fasciitis and heel spurs. There may be pain in the heel, arch, and other areas of the bottom of the foot, especially in the morning when the calf muscles are tight. Daily tension in the plantar fascia causes re-injury and prevents healing.ension is in the tape instead of in the plantar fascia because the tape does not stretch. This allows the fascia to rest and heal.
types of quaker granola bars
<P> Granola is a breakfast food and snack food consisting of rolled oats, nuts, honey, and sometimes puffed rice, that is usually baked until crisp. During the baking process the mixture is stirred to maintain a loose, breakfast cereal-type consistency. Dried fruits, such as raisins and dates, are sometimes added. Granola is often eaten in combination with yogurt, honey, fruit (such as bananas, strawberries, and/or blueberries), milk, and/or other forms of cereal. It can also serve as a topping for various types of pastries and/or desserts. <P> These granola bars are ideal for businesses, vending and the home. 1 48 individually wrapped bars. 2 Variety pack. 3 8g whole grains. <P> To clarify, these are not energy bars. You won't find any Luna Bars or Larabars here -- these are straight-on snack bars made of nuts, granola, rice and grains. What we learned most from this taste test: Read the ingredients that we have listed for you in each slide (make sure you scroll down to read them). We decided to round up the best-sounding granola bars to conduct a blind taste test and determine which actually taste the best. Twenty-four brands and flavors were tested, ranging from the fruit-and-nut-heavy KIND bars to the classic Quaker granola bars. Winners and losers were crowned, and some tears were shed. <P> For Cinnamon Raisin: 1 tsp cinnamon, 1/2 c raisins. TO prepare: grease an 9×13 cake pan, and line with parchment paper or release foil so that a ‘lip’ of 2 or more inches hangs off of each side. Grease the parchment or release foil. Grease a second sheet of foil or parchment for pressing purposes and have a second pan (such as a 9×13 pan) ready for pressing purposes. In a large, microwave proof bowl, mix together oil, brown sugar, and honey/syrup, mixing well to combine. Immediately turn out into the greased/lined pan. Taking the prepared second sheet of foil and the pan, apply pressure evenly across the pan, until you ‘flatten’ ‘ all of the granola mixture into the pan to a depth of about 1/2 inch. Allow to cool for about 20 minutes before lightly sprinkling with remaining ‘add ins’. Cut into bars and remove from pan <P> Granola bars consist of granola pressed and baked into a bar shape, resulting in the production of a more convenient snack. The product is most popular in the United States and Canada, Australia and New Zealand, parts of southern Europe, Brazil, Israel, South Africa and Japan. Granola is often eaten in combination with yogurt, honey, fruit (such as bananas, strawberries, and/or blueberries), milk, and/or other forms of cereal. It can also serve as a topping for various types of pastries and/or desserts. <P> Here at our office, the company-provided granola bars are at a premium. Those who arrive at the office early every morning get the lay of the land, patrolling the newsroom like hawks in search of prey. We decided to round up the best-sounding granola bars to conduct a blind taste test and determine which actually taste the best. Twenty-four brands and flavors were tested, ranging from the fruit-and-nut-heavy KIND bars to the classic Quaker granola bars. Winners and losers were crowned, and some tears were shed. <P> It is often combined into a bar form. Granola is often eaten in combination with yogurt, honey, fruit (such as bananas, strawberries, and/or blueberries), milk, and/or other forms of cereal. It can also serve as a topping for various types of pastries and/or desserts. <P> Categories: Camping, Restauant/Brand Clone Recipes, Specialty/Miscellanious. If you’re a fan of chewy granola bars, and of Quaker Chewy bars in particular, this recipe tastes so much like the real thing, you may find yourself eating a ‘whole box’ in one sitting, just to get all the little chocolate chips! Immediately turn out into the greased/lined pan. Taking the prepared second sheet of foil and the pan, apply pressure evenly across the pan, until you ‘flatten’ ‘ all of the granola mixture into the pan to a depth of about 1/2 inch. Allow to cool for about 20 minutes before lightly sprinkling with remaining ‘add ins’. Cut into bars and remove from pan.
Wrapped bars and whole grains
average water temperature in clearwater fl in july
<P> Clearwater, Florida, gets 51 inches of rain per year. The US average is 37. Snowfall is 0 inches. The average US city gets 25 inches of snow per year. The number of days with any measurable precipitation is 104. On average, there are 240 sunny days per year in Clearwater, Florida. The July high is around 90 degrees. The January low is 52. Our comfort index, which is based on humidity during the hot months, is a 28 out of 100, where higher is more comfortable. The US average on the comfort index is 44. <P> Clearwater Beach, Florida. © Visit St. Petersburg/Clearwater. Clearwater Beach, located on Central Florida's West Coast and home to the nightly Pier 60 Sunset Celebration, has an overall average high temperature of 83° and an average low of 63°. <P> Clearwater, located on Central Florida's West Coast, has an overall average high temperature of 83° and an average low of 63°. The highest recorded temperature in Clearwater was 102° in 1997 and the lowest recorded temperature was a very 19° in 1981. On average Clearwater's warmest month is August and January is the average coolest month. The maximum average rainfall usually falls in August. <P> Clearwater Beach: Annual Weather Averages. July is the hottest month in Clearwater Beach with an average temperature of 29°C (84°F) and the coldest is January at 16°C (61°F) . <P> Clearwater: Annual Weather Averages. July is the hottest month in Clearwater with an average temperature of 28°C (83°F) and the coldest is January at 14°C (58°F) with the most daily sunshine hours at 11 in July.
29°C (84°F)
passport application check payable to
<P> 1 Be sure to sign and date the form on the first page. 2 Locate your current passport. 3 Gather 1 color photograph that is acceptable. 4 Make your $110 check or money order payable to the Department of State ($140 for both the passport card and book). <P> Passport applications may be expedited for an additional fee of $60 per application. The turn-around time for an expedited passport is 3 to 4 weeks. Make your check or money order payable to: U.S. Department of State. This fee is in addition to regular passport fees. <P> The fees for the Passport Cards are payable to the Department of State by check or money order. IDENTIFICATION. In addition to submitting proof of your U.S. citizenship, it is also necessary to show current and acceptable documentation of identification (ID). <P> The $110 fee is sent to U.S. Department of State with the passport application. The $25 fee is paid to the Orange County Clerk-Recorder Department for processing the application. The $110 fee can be paid by check, cashier's check or money order payable to U.S. Department of State. <P> Must have a certified copy of Birth Certificate Cost:$110 (check or money order) payable to U.S. Department of State $25 (cash or check) payable to Clerk of Court for processing Ages under 16: Form DS-11 Ages under 16 - passport is valid for 5 years and cannot be renewed. <P> The $80 fee is sent to U.S. Department of State along with the passport application. The $25 fee is paid to the Orange County Clerk-Recorder Department for processing the application. The $80 fee can be paid by check, cashier's check or money order payable to U.S. Department of State. <P> Adult Passport Book Fee (age 16 and older) (check or money order only, payable to U.S. Dept of State). A U.S. passport book is an internationally recognized travel document that verifies the identity and nationality of the bearer. <P> $110.00 for application fee, $60.00 for expedited service, and $14.85 for mailing your new passport to you via overnight mail. The total of $184.85 must be in the form of a check or money order and payable to the U.S. Department of State.
U.S. Department of State.
cost of brake pads
<P> If you wish to replace the discs on the front an average price for a set of brake pads is approximately $60.00 - $111.00 but depending on the make and model of your car it could cost a lot more than that. <P> 1 For work on front and back brakes, CostHelper readers reported paying $273-$1,025 for an average of $567 at standard repair shops, or $280-$935 for an average of $578 at dealerships. Brake rotors/discs (the part the pads rub against to stop the vehicle) may last through two or three sets of pads before needing to be replaced; slightly scratched rotors can sometimes be resurfaced (shaving off enough metal to make them smooth again). <P> Depending on your car’s brake system, it may use between 4-8 brake pads. When you step on the brake pedal, the master cylinder sends fluid under pressure to the brake calipers (which hold the brake pads). The caliper presses the brake pad against the brake rotor, causing friction that slows down the car. Depending on where you drive (city driving tends to wear pads out quicker) brake pads usually last between 30,000-35,000 miles. Some vehicles (eg. BMW’s) are equipped with a low-pad-warning system. <P> Parts: $82 - $141. The average cost for a brake pad(s) replacement is between $179 to $264. Labor costs are estimated between $97 to $123 while parts are priced between $82 to $141. Get a personalized estimate based on your location and specific car. Estimate does not include taxes and fees. The brake rotors should be inspected when the pads are replaced, and depending on their condition, they may need resurfacing or replacement. We recommend braking gently for the first 40 to 50 miles of driving on new pads. <P> Parts: $145 - $213. The average cost for a brake pad and rotor replacement is between $297 to $406. Labor costs are estimated between $152 to $193 while parts are priced between $145 to $213. Get a personalized estimate based on your location and specific car. Estimate does not include taxes and fees. Brake rotors should be measured at every brake pad replacement. If found to be at or below the manufacturer's minimum thickness specification, they will require replacement. These measurements should always be noted on your repair order. We recommend braking gently for the first 40 to 50 miles of driving on new pads. <P> If the thickness of brake pads is less than 3mm, it is time to change the pads. Depending on where you drive (city driving tends to wear pads out quicker) brake pads usually last between 30,000-35,000 miles. Some vehicles (eg. BMW’s) are equipped with a low-pad-warning system. In these vehicles, you will also need to replace the brake sensors as part of the brake pad service <P> 1 Edmunds provides do-it-yourself instructions for replacing brake pads, calling it an easier-than-expected DIY project that requires standard tools and takes about an hour, for a savings of about $250 in labor costs on most cars. Brake rotors/discs (the part the pads rub against to stop the vehicle) may last through two or three sets of pads before needing to be replaced; slightly scratched rotors can sometimes be resurfaced (shaving off enough metal to make them smooth again).
$179 to $264
how much does a fire sprinkler system cost for a home
<P> The cost of a home-sprinkler system will depend on a number of factors. A new-home, stand-alone installation can run anywhere from $1.00 to $1.25 per square foot, while a retrofit could cost $5 to $6 per square foot. <P> 1 Most companies will want to install the sprinkler system throughout the whole home. 2 This is going to include the basement as well as all of the main floors. 3 On average, plan on spending anywhere from $1.50 to as much as $2.85 per square foot to have a complete system installed. 1 For those that are building a new home, adding a new fire sprinkler system will only increase your home mortgage by $3 to $5 per month on the average 30-year note. 2 Factor in the home insurance, and you may actually come out ahead. <P> 1 For a 3,500-square-foot home, expect to pay about $5,635. 2 Fire sprinklers cost 1%-2% of the cost of a new home. 3 In already existing properties, sprinkler systems typically cost $2,000-$16,000. 1 Nonmetallic installations average $1.18 per sprinklered square foot; a mix of both types costs on average $1.56 per sprinklered square foot; solely using metallic piping typically costs $3.19 per sprinklered square foot. 2 Location can play a role in the cost of fire sprinkler installation. <P> 1 Prices for underground sprinkler systems vary considerably by region and climate, but for an average 2,500-square-foot (50-x-50-foot) front yard, it's about $1,500-$2,500, while a sprinkler system for 5,000 square feet (front and back yards) costs about $2,500-$3,500. Related articles: Deck, Landscape Design, Sod. 1 <P> 1 On average, plan on spending anywhere from $1.50 to as much as $2.85 per square foot to have a complete system installed. 2 For example, a home that is 1,600 square feet should cost anywhere from $1,600 to $4,600 for a complete sprinkler system. 1 For those that are building a new home, adding a new fire sprinkler system will only increase your home mortgage by $3 to $5 per month on the average 30-year note. 2 Factor in the home insurance, and you may actually come out ahead. <P> 1 According to the Fire Protection Research Organization's 2009 Fire Sprinkler Cost Assessment, sprinkler installation costs homebuilders $0.38-$3.66 per sprinklered square foot, with an average cost of $1.61 per sprinklered square foot. 2 For an average 2,200-square-foot home, expect to pay about $3,542. 1 Nonmetallic installations average $1.18 per sprinklered square foot; a mix of both types costs on average $1.56 per sprinklered square foot; solely using metallic piping typically costs $3.19 per sprinklered square foot. 2 Location can play a role in the cost of fire sprinkler installation. <P> 1 This is going to include the basement as well as all of the main floors. 2 On average, plan on spending anywhere from $1.50 to as much as $2.85 per square foot to have a complete system installed. 3 For example, a home that is 1,600 square feet should cost anywhere from $1,600 to $4,600 for a complete sprinkler system. 1 For those that are building a new home, adding a new fire sprinkler system will only increase your home mortgage by $3 to $5 per month on the average 30-year note. 2 Factor in the home insurance, and you may actually come out ahead. <P> 1 For example, a home that is 1,600 square feet should cost anywhere from $1,600 to $4,600 for a complete sprinkler system. 2 According to FireSprinklerInitiative.org, the average cost of fire sprinklers is around $1.61 per square foot. 3 This was a price noted by the Fire Protection Research Foundation. 1 For those that are building a new home, adding a new fire sprinkler system will only increase your home mortgage by $3 to $5 per month on the average 30-year note. 2 Factor in the home insurance, and you may actually come out ahead. <P> 1 For an average 2,200-square-foot home, expect to pay about $3,542. 2 For a 3,500-square-foot home, expect to pay about $5,635. 3 Fire sprinklers cost 1%-2% of the cost of a new home. 4 In already existing properties, sprinkler systems typically cost $2,000-$16,000. 1 Nonmetallic installations average $1.18 per sprinklered square foot; a mix of both types costs on average $1.56 per sprinklered square foot; solely using metallic piping typically costs $3.19 per sprinklered square foot. 2 Location can play a role in the cost of fire sprinkler installation.
$0.38-$3.66 per sprinklered square foot.
what is crema
<P> from those lectures we picked up the following tidbits of info that play a part in the formation of crema first let s define our terms here crema is the initial light tawny colored liquid that comes out during an espresso extraction it is what causes that guinness effect that folks sometimes reference <P> lots of recipes if you re not familiar with media crema it s basically half and half or light cream that comes in a can see a picture of the can below you ll find it in the latin foods aisle of most grocery stores or in a mexican grocery the only bad side to media crema is the fat and calories yep unfortunately it is just like using cream if you re looking for a lower fat option use evaporated milk it also comes in a can and will last nearly forever it s not nearly as thick and rich though <P> 315 pages on this wiki crema is the term for the layer of foam found on the surface of a shot of espresso coffee generally golden to dark tan in color this foam is a result of several factors in the brewing of the espresso from the type of bean to the pressure employed by the espresso machine <P> crema is the mexican version of french creme crème fraiche fraîche both are slightly soured and thickened cream milder and less thick than american sour cream with crema being the thinnest the recipe for lime chicken with poblano sour cream will have a more authentic touch if made with crema you can buy crema in mexican markets or even in some supermarkets but it s easy to make it yourself and the result has a smoother flavor than that of the commercially prepared version use crema as you would sour cream dolloping or drizzling it on soups tacos potatoes or anything else that needs a little tang <P> definition crema is a flavorful aromatic reddish brown froth made when air bubbles combine with fine ground coffee s soluble oils the strong presence of crema in an espresso shot indicates a quality well ground coffee and a skilled barista professional coffee maker <P> table cream media crema or evaporated cream is a product of nestle ideal for strawberries with cream enchiladas the word enchilada invokes the image of a corn tortilla rolled around meat and cheese dipped in red or green chili sauce and topped with chopped onions cheese or sour cream <P> crema a sign of good espresso or a symptom of bad espresso the presence of crema the foam on your espresso means you are in the ballpark within range of having the variables of temperature pressure tamping etc under control that is unless your machine has a crema enhancing attachment <P> the commercial crema and commercial sour cream are different in consistency and sourness just as joanna lynne smith says in her answer but the crema i had when i was in mexico was very similar to the sour cream sold in supermarkets but with subtle differences that are hard to explain maybe is had a fresher taste with an ever so slight tinge of sweetness so i decided to make my own sour cream and voila it reminded me of the crema i had in mexico just mix together in a clean bowl a pint of either half and half or heavy cream with two ounces of buttermilk or sour cream the buttermilk or sour cream must say on the container it contains active cultures mix together and cover let the mixture sit on your counter for up until 24 hours <P> crema is a little bit of a holy grail in the espresso world folks are talking about it all the time searching for it measuring their technique equipment and coffee by it first let s define our terms here crema is the initial light tawny colored liquid that comes out during an espresso extraction it is what causes that guinness effect that folks sometimes reference
definition crema is a flavorful aromatic reddish brown froth made when air bubbles combine with fine ground coffee s soluble oils the strong presence of crema in an espresso .
what king of lock do I need for my tater dog kennel
<P> I love my dog. That’s why I have a Gunner Kennel. I have been using my Gunner Kennel everyday since the day it was delivered, I can not find anything bad to say about it. I have yet to see the kennel move even a half of an inch in my truckbed. This is the last dog kennel you will need to buy. <P> Really enhanced my room---and I feel good that my dog is going to have a lovely crate to chill out in. It's a lot of money---but if you are going to have the crate for a decade or so---it really is worth owning something nice. <P> We ship to all lower U.S. 48 States. K9 Kennels are designed not only to keep your dog confined within the area you need, but also to keep other animals from entering the dog kennel to cause injury to your pet. Safety and security of your pet should always be considered when purchasing a dog enclosure. <P> Tater sleeps all night in his crate with the door closed. When I get up in the morning I let him out to eat and go to the bathroom and to play for a little while. When I leave to go to work he goes back into his crate (his own doing). I do not lock the crate door and leave it wide open so he can see it. He stays in there all day until I get home at 5. My boyfriend has been home (laid-off) and can attest that Tater stays in there the entire day. I feel bad for Tater, he has the opporunity to come out and walk around but he doesn't. <P> I love my dog. That’s why I have a Gunner Kennel. Jason Cruise jasoncruise.com I have been using my Gunner Kennel everyday since the day it was delivered, I can not find anything bad to say about it. I have yet to see the kennel move even a half of an inch in my truckbed. This is the last dog kennel you will need to buy.
do not lock the crate door and leave it wide open so he can see it.
starting salary for geriatricians
<P> According to the Bureau of labor statistics, the mean annual salary for geriatricians is about $173,860 per annum while those working in physician’s offices received a maximum annual salary of about $179,060 as it is one of the fields with top ranking. The geriatricians who were employed in physician’s offices received about $179,060 per year while the geriatricians employed in the state governments received about $138,710 per year. According to percentile statistics, the median salary for 90th percentile of geriatricians has been around $212,699 per year. Similarly, about 75th percentile of geriatricians received $193,430, 25th percentile of them received $159,479 while 10th percentile received $147,837 per year <P> The mean annual salary for a geriatrician is about $173,860 while the starting salary for a geriatrician ranges from between $96,880 – $145,320. The geriatricians who were employed in physician’s offices received about $179,060 per year while the geriatricians employed in the state governments received about $138,710 per year. According to percentile statistics, the median salary for 90th percentile of geriatricians has been around $212,699 per year. Similarly, about 75th percentile of geriatricians received $193,430, 25th percentile of them received $159,479 while 10th percentile received $147,837 per year <P> Geriatricians’ average annual salary is about $166,000. The annual mean salary is about $173,860 while the starting salary ranges from between $96,880 – $145,320. Those working in physicians’ offices received a maximum annual salary of $179,060, while those who worked for state governments received on average $138,710. Regional salary variations depend on cost of living, how many physicians practice in the area and whether it’s a metropolitan or rural geographic area. Geriatricians made more than $194,550 in the following eight states: Arkansas, New Hampshire, Tennessee, Rhode Island, Iowa, Nebraska, Nevada and Wisconsin. <P> Average Geriatric Nursing salaries for job postings in Alaska are 26% lower than average Geriatric Nursing salaries for job postings nationwide. The average salary ranks 49th among states in the country. Average Geriatric Nursing salaries for job postings in Maryland are 3% higher than average Geriatric Nursing salaries for job postings nationwide. The average salary ranks 10 <P> For example the median expected annual pay for a typical Physician-Geriatrics in the United States is $180,224 so 50% of the people who perform the job of Physician-Geriatrics in the United States are expected to make less than $180,224. Source: HR Reported data as of October 2015. Median $180,224. 1 Salary. The annual salary for someone with the job title Physician-Geriatrics may vary depending on a number of factors including industry, company size, location, years of experience and level of education. <P> For example the median expected annual pay for a typical Staff Nurse-RN-Geriatric in the United States is $63,118 so 50% of the people who perform the job of Staff Nurse-RN-Geriatric in the United States are expected to make less than $63,118. Source: HR Reported data as of October 2015. Median $63,118. 1 Salary. <P> According to pay scale, the top earnings of geriatricians employed in public sectors ranges from between $138,400 – $207,600 per year while the self-employed geriatricians received an annual take-home salary ranging from between $120,000 and $194,000 per year. The geriatricians who were employed in physician’s offices received about $179,060 per year while the geriatricians employed in the state governments received about $138,710 per year. According to percentile statistics, the median salary for 90th percentile of geriatricians has been around $212,699 per year. Similarly, about 75th percentile of geriatricians received $193,430, 25th percentile of them received $159,479 while 10th percentile received $147,837 <P> Salary. The average among respondents to the 2011 National Salary Survey published by Advance for NPs & PAs showed that NPs working in geriatrics earned an average salary of $94,485. Non-salaried geriatric nurse practitioners working part time earned $49.41 per hour on average. <P> Nursing home geriatricians earned $160,000 on average while those working in colleges and universities only brought in about $154,000. The median hourly wage ranges from between $53 to $79 per hour. Starting hourly salary is between $43 and $65 per hour, and the top earning geriatricians make $62 to $93 per hour. Regional salary variations depend on cost of living, how many physicians practice in the area and whether it’s a metropolitan or rural geographic area. Geriatricians made more than $194,550 in the following eight states: Arkansas, New Hampshire, Tennessee, Rhode Island, Iowa, Nebraska, Nevada and Wisconsin.
$96,880 – $145,320.
what is psoriasis caused by
<P> The cause of psoriasis isn't fully known, but it's thought to be related to an immune system problem with cells in your body. More specifically, one key cell is a type of white blood cell called a T lymphocyte or T cell. <P> Psoriasis causes patches of thick red skin and silvery scales. Patches are typically found on the elbows, knees, scalp, lower back, face, palms, and soles of feet, but can affect other places (fingernails, toenails, and mouth). The most common type of psoriasis is called plaque psoriasis. <P> Psoriasis is a dry, scaly skin disorder. Doctors believe that it is genetic and is caused by the immune system being mistakenly triggered, resulting in skin cells being produced too quickly. Normally, skin cells take about 21-28 days to replace themselves. However, in patients with psoriasis they take around 2-6 days. Psoriasis can occur on any part of the body although it is most commonly found on the elbows, knees, lower back and the scalp. It can also cause intense itching and burning. Psoriasis affects approximately 3% of people globally. <P> Plaque psoriasis is the most common form of the disease and appears as raised, red patches covered with a silvery white buildup of dead skin cells. These patches or plaques most often show up on the scalp, knees, elbows and lower back. They are often itchy and painful, and they can crack and bleed. While scientists do not know what exactly causes psoriasis, we do know that the immune system and genetics play major roles in its development. Usually, something triggers psoriasis to flare. The skin cells in people with psoriasis grow at an abnormally fast rate, which causes the buildup of psoriasis lesions. <P> The result is the only part of psoriasis you can actually see: a plaque. Psoriasis is a chronic disease, meaning that it doesn't go away. Plaques may come and go, but your psoriasis is still there, active inside your body. For some patients, their disease involves more than just the skin. <P> Psoriasis is a skin disease that causes scaly pink patches. Guttate psoriasis is a particular form of the disease that usually affects children and young adults. It can happen on its own, or as a complication of ordinary (chronic plaque) psoriasis. Often, it follows a bacterial throat infection or tonsillitis. About Psoriasis. Psoriasis is a chronic (long-lasting) skin disease of scaling and inflammation that affects greater than 3 percent of the U.S. population, or more than 5 million adults. Although the disease occurs in all age groups, it primarily affects adults. <P> The symptoms of psoriasis vary depending on the type you have. Some common symptoms for plaque psoriasis -- the most common variety of the condition -- include: 1 Plaques of red skin, often covered with loose, silver-colored scales; these lesions may be itchy and painful, and they sometimes crack and bleed. Guttate psoriasis, which often starts in childhood or young adulthood, is characterized by small, red spots, mainly on the torso and limbs. Triggers may be respiratory infections, strep throat, tonsillitis, stress, injury to the skin, and use of anti-malarial and beta-blocker medications. <P> Most psoriasis causes patches of thick, red skin with silvery scales. These patches can itch or feel sore. They are often found on the elbows, knees, other parts of the legs, scalp, lower back, face, palms, and soles of the feet. <P> 1 Plaque psoriasis. 2 The most common form, plaque psoriasis causes dry, raised, red skin lesions (plaques) covered with silvery scales. 3 The plaques itch or may be painful and can occur anywhere on your body, including your genitals and the soft tissue inside your mouth. 4 You may have just a few plaques or many. These include: 1 <P> The exact cause of psoriasis is unknown. However, it's believed that your immune system and genes may contribute to the condition. Your body’s T-cells normally fight viruses and bacteria. In psoriasis, they may start to attack healthy skin cells.
Psoriasis causes patches of thick red skin and silvery scales. Patches are typically found on the elbows, knees, scalp, lower back, face, palms, and soles of feet, but can affect other places (fingernails, toenails, and mouth).
why is photosynthesis and cellular respiration considered to be complementary processes
<P> 922,102 questions onWikianswers. The products of one reaction are the reactants of another. So, cellular respiration consumes sugars and oxygen and creats carbon dioxide, water, and releases energy. Photosynthesis combines energy, carbon dioxide, and water to form sugar and oxygen <P> Rating Newest Oldest. Best Answer: Cellular respiration and photosynthesis are complementary processes because they use each others' products and reactants. Photosynthesis' products are cell respiration's reactants; likewise, cell respiration's products are photosynthesis' reactants. Also, photosynthesis is known to take away carbon dioxide from the air and put in oxygen while cellular respiration does the opposite, putting in carbon dioxide while taking away oxygen. <P> Photosynthesis takes Carbon dioxide, Water and light energy and makes Sugars and Oxygen. Cellular respiration takes Sugars and Oxygen and makes Carbon dioxide, water and energ … y. The two processes are the inverse of one another one stores energy and the other releases that stored energy. 17 people found this useful. Because the reactants required for cellular respiration (glucose and oxygen) are the products of photosyntheses And the and the products of cellular respiration (carbon dio … xide and water) are the reactants of photosynthesis. <P> Cellular respiration use oxygen to produce energy from food and photosynthesis use sunlight, carbon dioxide, and water to make food. Because the reactants required for cellular respiration (glucose and oxygen) are the products of photosyntheses And the and the products of cellular respiration (carbon dio … xide and water) are the reactants of photosynthesis. <P> Report Abuse. Photosynthesis occurs in the chloroplast and converts light energy to chemical energy, and uses carbon dioxide and water, while cellular respiration occurs in the cytosol and/or mitochondria and converts chemical energy (breaks down the glucose molecules) and they are both chemical energy. Anonymous · 8 months ago. <P> Photosynthesis and cellular respiration are complementary processes by which living things obtain needed substances. They both consume and create the same substances (water, glucose, oxygen, and carbon dioxide) but in different ways. Cellular respiration, on the other hand, is the process by which living things convert oxygen and glucose to carbon dioxide and water, thereby yielding energy. It does not require the presence of sunlight and is always occurring in living organisms. Cellular respiration takes place in the mitochondria of cells. <P> Photosynthesis takes Carbon dioxide, Water and light energy and makes Sugars and Oxygen. Cellular respiration takes Sugars and Oxygen and makes Carbon dioxide, water and energ … y. The two processes are the inverse of one another one stores energy and the other releases that stored energy. Because the reactants required for cellular respiration (glucose and oxygen) are the products of photosyntheses And the and the products of cellular respiration (carbon dio … xide and water) are the reactants of photosynthesis. <P> Photosynthesis and cellular respiration are said to be reverse chemical processes because the reactants of photosynthesis are the products of cell respiration and the reactant … s of cell respiration are the products of photosynthesis. Because the reactants required for cellular respiration (glucose and oxygen) are the products of photosyntheses And the and the products of cellular respiration (carbon dio … xide and water) are the reactan <P> Photosynthesis uses light energy to make ATP from carbon dioxide and water while cellular respiration makes carbon dioxide while using glucose to make ATP. The CO2 is used by the plants while animals make CO2. Because the reactants required for cellular respiration (glucose and oxygen) are the products of photosyntheses And the and the products of cellular respiration (carbon dio … xide and water) are the reactants of photosynthesis.
Photosynthesis takes Carbon dioxide, Water and light energy and makes Sugars and Oxygen. Cellular respiration takes Sugars and Oxygen and makes Carbon dioxide, water and energy.So, in this manner they complement each other.
what is the average salary of a doctor in the u.s. military
<P> Average military doctor salary and wage. The average annual salary for a military physician ranges from $38,080 – $57,120 per annum and an average hourly wage ranges from $17 – $26 per hour. The average starting salary for a military physician ranges from $31,360 – $47,040 per year and an hourly wage ranges from $14 – $21 per hour. The top paid military physician earns a yearly salary ranging from $44,800 – $67,200 and an hourly wage ranging from $20 – $30 per hour. <P> Based on the type of medical specialty, an average hourly wage for a medical doctor In the United States is as follows: The average hourly wage for a MD family physician ranges from between $39.73 – $81.03 per hour. The average hourly wage for a MD psychiatrist in the US is around $90 per hour. An average annual salary for a specialist MD in the United States is around $339,738; while an annual salary for an MD general practitioner is around $186,044 per annum. <P> For the specifics of military doctors by specialty, see below: 1 Anesthesiologists. 2 Monthly Base Salary: $4,722; Yearly Base Salary: $56,674.80. 3 Cardiologists. 4 Monthly Base Salary: $10,416; Yearly Base Salary: $125,000. 5 Emergency Medicine. 6 Monthly Base Salary: $7,250; Yearly Base Salary: $87,000. This depends on the amount of time you’ve been in service as well as your pay grade. Licensed doctors can receive addition pay, usually averaging around $15,000 each year. This means that a fully licensed military doctor can stand to earn about $75,000 per year after all considerations and bonuses. The average monthly wage and yearly salary for a military doctor is as follows: 1 1 year of service, rank E1 – E3: $4,910.48 per month; $58,930.13 per year. 2 2 years of service, rank E1 – E3: $5,192.99 per month; $62,315.87 per year <P> For example, an Army doctor with the rank of major in paygrade O4 and with four years of service would earn monthly basic pay of $5,462 or $65,544 annually as of 2013. Because physicians typically earn high civilian incomes, though, the military also adds a variety of specialty pay and bonuses to their compensation. However, on an apples-to-apples median pay basis, salaries for uniformed Army doctors are generally competitive with those of civilian sector physicians. Army doctors and other military personnel can also earn thousands more yearly in non-taxable allowances, such as those given to live in civilian housing off base. <P> Basic Pay. Basic pay is determined by rank and years of service. At the time of publication, a second lieutenant with less than two years of service has a monthly base pay rate of $2,828.40; pay increases to $2,943.90 during year two and then increases to $3,558.60 after three years of service. Salaries for generals range from $8,045.70 to $12,487.80 per month, depending on which of the four ranks of general has been reached. The maximum basic pay is $14,975.10 per month regardless of rank or <P> Military Doctor salary in USA. The average starting salary for a military physician ranges from $31,360 – $47,040 per year and an hourly wage ranges from $14 – $21 per hour. The top paid military physician earns a yearly salary ranging from $44,800 – $67,200 and an hourly wage ranging from $20 – $30 per hour. <P> Average Medical doctor salary in US. An average annual salary for a specialist MD in the United States is around $339,738; while an annual salary for an MD general practitioner is around $186,044 per annum. The average salaries for physicians possessing Doctor of Medicine (M.D.) degree depends on various determinants <P> Military doctors’s salary in the United States ranges from $18,000 to $60,000 per year based on the length of service and specialty. The Special monthly pay ranges from $100 to $1,000 per month depending upon the grade of pay and years of service. The average starting salary for a military physician ranges from $31,360 – $47,040 per year and an hourly wage ranges from $14 – $21 per hour. The top paid military physician earns a yearly salary ranging from $44,800 – $67,200 and an hourly wage ranging from $20 – $30 per hour. <P> Army Versus Civilian. According to the Bureau of Labor Statistics, 2010 median pay for civilian physicians and surgeons was $166,400 annually or $80 per hour. Of course, certain civilian doctors such as cardiologists can make more than $522,000 annually. However, on an apples-to-apples median pay basis, salaries for uniformed Army doctors are generally competitive with those of civilian sector physicians. Army doctors and other military personnel can also earn thousands more yearly in non-taxable allowances, such as those given to live in civilian housing off base.
$18,000 to $60,000 per year.
what does an anesthesiologist nurse do
<P> A nurse anesthetist is a nurse who specializes in the administration of anesthesia. In the United States, a certified registered nurse anesthetist (CRNA) is an advanced practice registered nurse (APRN) who has acquired graduate-level education and board certification in anesthesia. In the United States, there have been three challenges brought against nurse anesthetists for illegally practicing medicine: Frank v. South in 1917, Hodgins and Crile in 1919, and Chalmers-Francis v. Nelson in 1936. <P> The American Association of Nurse Anesthetists' (AANA) is the national association that represents more than 90% of the 45,000 nurse anesthetists in the United States. Certification is governed by the National Boards of Certification and Recertification of Nurse Anesthetists (NBCRNA). In the United States, there have been three challenges brought against nurse anesthetists for illegally practicing medicine: Frank v. South in 1917, Hodgins and Crile in 1919, and Chalmers-Francis v. Nelson in 1936. <P> A nurse anesthetist is an advanced practice nurse who specializes in administering anesthetics to patients and coordinating their care with other medical professionals. He or she may remain with a patient from pre-operative procedures through surgery and into recovery, ensuring that a patient is as safe and comfortable as possible. As a nurse anesthetist, you may work in several different medical settings, such as surgery clinics, dental clinics, or hospital operating rooms. <P> Nurse anesthetists are required to have a Bachelor's of Science degree in nursing or other appropriate undergraduate degree and a master's degree from one of the more than 100 graduate schools of nurse anesthesia. The designation of certified registered nurse anesthetist (CRNA) first came into existence in the late 1950s as a mode of providing advanced training to the specialty of anesthesia nursing. <P> A nurse anesthetist is a registered nurse who works closely with doctors to administer and monitor a patient's anesthesia for medical procedures. He or she may remain with a patient from pre-operative procedures through surgery and into recovery, ensuring that a patient is as safe and comfortable as possible. As a nurse anesthetist, you may work in several different medical settings, such as surgery clinics, dental clinics, or hospital operating rooms. <P> An anesthesiologist is a doctor (MD or DO) who practices anesthesia. Anesthesiologists are physicians specializing in perioperative care, development of an anesthetic plan, and the administration of anesthetics. <P> Nurses were the first providers of anesthesia care and have continued to work in the field for more than 150 years. The designation of certified registered nurse anesthetist (CRNA) first came into existence in the late 1950s as a mode of providing advanced training to the specialty of anesthesia nursing. <P> Certified registered nurse anesthetists (CRNAs) use their advanced training in pain management to relieve suffering and discomfort due to surgery, trauma, childbirth and illness. After administering anesthetic, they remain at the patient’s side, providing support and adjusting the dosage as needed. Training. Admission to most nurse anesthetist programs requires at least a year of professional nursing experience in an acute care setting—preferably surgery or critical care. During graduate school, CRNAs complete about 2,500 hours of clinical training and administer approximately 850 anesthetics, according to AANA. <P> Nurse Anesthesiology is a graduate prepared profession. In the United States of America, nurse anesthetists must be licensed registered nurse and complete a master's degree in anesthesia and/or nursing with a post-masters certification in anesthesia. In the United States, there have been three challenges brought against nurse anesthetists for illegally practicing medicine: Frank v. South in 1917, Hodgins and Crile in 1919, and Chalmers-Francis v. Nelson in 1936. <P> Training to Become a CRNA. Before becoming a certified registered nurse anesthetist, a nurse must have at least one year of experience in an acute care setting, such as an emergency room or critical care unit, and complete additional training in a large hospital setting. The designation of certified registered nurse anesthetist (CRNA) first came into existence in the late 1950s as a mode of providing advanced training to the specialty of anesthesia nursing.
A nurse anesthetist is an advanced practice nurse who specializes in administering anesthetics to patients and coordinating their care with other medical professionals. She may remain with a patient from pre-operative procedures through surgery and into recovery, ensuring that a patient is as safe and comfortable as possible.
what are cfcs bitesize
<P> Arctic Ozone Hole. CFCs Chlorofluorocarbon (CFC) is an organic compound that contains carbon, chlorine, and fluorine, produced as a volatile derivative of methane and ethane. A common subclass is the hydrochlorofluorocarbons (HCFCs), which contain hydrogen, as well. Freon is DuPont's brand name for CFCs, HCFCs and related compounds. One of the elements that make up CFCs is chlorine. Very little chlorine exists naturally in the atmosphere. But it turns out that CFCs are an excellent way of introducing chlorine into the ozone layer. The ultraviolet radiation at this altitude breaks down CFCs, freeing the chlorine. <P> The ozone layer is essential for complex living organisms (like you and me) to exist. Without the ozone layer, all but very simple life forms would be destroyed by the action of ultraviolet light. Some chemicals, particularly CFCs, destroy ozone in the upper atmosphere. A CFC is a chlorofluorocarbon molecule. It is similar to an alkane with all the hydrogen atoms replaced with chlorine and fluorine atoms. In the presence of ultraviolet light a CFC molecule will decompose producing highly reactive chlorine free radicals. These chlorine free radicals will react with ozone molecules and turn them back into oxygen molecules. <P> The ozone layer. The ozone layer is the part of the upper atmosphere where ozone is found in the highest concentrations. The ozone there absorbs ultraviolet radiation, preventing most of it from reaching the ground. This is important because ultraviolet radiation can lead to skin cancer. CFCs were once used widely in insulating foam and aerosol spray-cans. Once released, they gradually spread through the atmosphere, eventually reaching the ozone layer. Once there, they destroy ozone. CFCs have now been almost completely replaced by chemicals that do not cause this damage. <P> Chlorofluorocarbons (CFCs) are a group of compounds which contain the elements chlorine, fluorine and carbon. At room temperatures, they are usually colourless gases or liquids which evaporate easily. They are generally unreactive and stable, non-toxic and non-flammable. <P> Arctic Ozone Hole. The Ozone Layer The ozone layer is a layer in Earth's atmosphere which contains relatively high concentrations of ozone (O3). This layer absorbs 97-99% of the sun's high frequency ultraviolet light, which is potentially damaging to life on earth. <P> However, CFCs damage ozone in the ozone layer when they escape into the atmosphere. This allows more ultraviolet radiation to reach the Earth’s surface. When scientists discovered that CFCs damage the ozone layer, they suggested that CFCs should be banned. CFCs have some useful properties. For example: they are chemically inert (unreactive). they have a low boiling points (so they turn into gases easily). they are insoluble [insoluble: Unable to dissolve (usually in water).] in water. These properties made CFCs very useful in the past. They were used as refrigerants (the substances needed in refrigerators to remove the heat from inside). They were also used in aerosol cans as propellants (the gases that push the product out through the nozzle) <P> CFCs. Chlorofluorocarbon (CFC) is an organic compound that contains carbon, chlorine, and fluorine, produced as a volatile derivative of methane and ethane. A common subclass is the hydrochlorofluorocarbons (HCFCs), which contain hydrogen, as well. Freon is DuPont's brand name for CFCs, HCFCs and related compounds. One of the elements that make up CFCs is chlorine. Very little chlorine exists naturally in the atmosphere. But it turns out that CFCs are an excellent way of introducing chlorine into the ozone layer. The ultraviolet radiation at this altitude breaks down CFCs, freeing the chlorine.
Chlorofluorocarbons (CFCs) are a group of compounds which contain the elements chlorine, fluorine and carbon.
what is grappa
<P> Top 10 facts about the world. Grappa is an Italian alcohol which is made by distilling pomace, the leftovers of winemaking. The name is in fact a reference to this, as it means “grape stems” in an Italian dialect. Many winemaking nations have their own versions of this drink, and they tend to be very strong, fiery, and incredibly diverse. Grappa is traditionally served at a cool temperature, with many people erring on the side of serving it too cold, because it can always be warmed with the hands until it releases its rich aroma. Typically, it is offered in a tulip shaped glass, and it may be drunk alone, or consumed with fruits, cheeses, and desserts. <P> Grappa is an alcoholic beverage, a fragrant, grape-based pomace brandy of Italian origin that contains 35 to 60 percent alcohol by volume (70 to 120 US proof). In Italy, grappa is primarily served as a digestivo or after-dinner drink. Its main purpose is to aid in the digestion of heavy meals. Grappa may also be added to espresso coffee to create a caffe caffè, corretto meaning correct or proper. coffee <P> The flavour of grappa, like that of wine, depends on the type and quality of the grapes used, as well as the specifics of the distillation process. Grappa is made by distilling the skins, pulp, seeds, and stems (i.e., the pomace) left over from winemaking after pressing the grapes. It was originally made to prevent waste by using these leftovers. A similar drink, known as acquavite d'uva, is made by distilling whole must. In Italy, grappa is primarily served as a digestivo or after-dinner drink. Its main purpose is to aid in the digestion of heavy meals. Grappa may also be added to espresso coffee to create a caffe caffè, corretto meaning correct or proper. coffee <P> Best Answer: A simple analogy...if brandy were the same as a steak, grappa would be like sausage. Not that this is bad, just different. Brandy is distilled wine. Grappa is distilled from all the bits that are taken out of wine after the first part of fermentation...the stems, seeds, skins, pulp, etc (called pomace). Kind of like how sausage is made from all the cuts of meat and other bits that are trimmed from steak. Some of which are on par (quality wise) with a find brandy. Grappa is usually not aged so it's clear and colorless. It is a strong spirit that, because of being distilled from the pomace, carries more intense flavors from the grapes. To many, this tastes harsh when compared to vodka or even brandy. <P> a monovitigno grappa from Nonino. The main ingredient of grappa is pomace, which consists of the grape skins, seeds and stalks that are left over from the winemaking process. These are taken through a second process of distillation, which extracts the remaining flavours from the pomace before the waste is discarded. The grappa is then either bottled at once, which creates white grappa (grappa bianca), or aged in wooden casks to create the yellow or brown-hued grappa known as riserva. Grappa can either be made from a mixture of pomaces from different sources, or from one grape variety. <P> Grappa is made by heating the pomace, causing it to produce steam, and then forcing the steam through a distillation column. Freshly distilled grappa is colorless, with a strong odor of alcohol, and the alcohol content can vary from around 40 to 80% alcohol by volume. Grappa is traditionally served at a cool temperature, with many people erring on the side of serving it too cold, because it can always be warmed with the hands until it releases its rich aroma. Typically, it is offered in a tulip shaped glass, and it may be drunk alone, or consumed with fruits, cheeses, and desserts. <P> Grappa is a uniquely Italian drink. Traditionally made from pomace, the discarded grape seeds, stalks and stems that are a by-product of the winemaking process, Grappa has been around since the Middle Ages. Grappa's popularity has spread all around the globe. Once unknown outside of Italy, today Grappa is being produced all over the world, from Oregon to South Africa. These outposts use the indigenous grapes of their regions, such as Oregon's Pinot Noir, creating unique and tasty variations on the Italian theme. <P> Grappa is a crystal clear distilled liquid that packs a punch made from the leftovers of the winemaking process. After the grapes are pressed and the juice is drained off to ferment into wine, the leftover skins and seeds, called pomace, are made into Grappa.
It is an alcoholic beverage, a fragrant, grape-based pomace brandy of Italian origin that contains 35 to 60 percent alcohol by volume.
when is electroshock therapy used
<P> Electroconvulsive Therapy (ECT). Guide. Electroconvulsive therapy (ECT) is a procedure used to treat severe depression. It may be used in people who have symptoms such as delusions, hallucinations, or suicidal thoughts or when other treatments such as psychotherapy and antidepressant medicines have not worked. <P> Electroconvulsive therapy (ECT) is a procedure, done under general anesthesia, in which small electric currents are passed through the brain, intentionally triggering a brief seizure. ECT seems to cause changes in brain chemistry that can quickly reverse symptoms of certain mental illnesses. <P> It is also a misconception that ECT is used as a quick fix in place of long-term therapy or hospitalization. Nor is it correct to believe that the patient is painfully shocked out of the depression. Unfavorable news reports and media coverage have contributed to the controversy surrounding this treatment. <P> ECT is most often used as a “treatment of last resort” for the following disorders: 1 bipolar disorder: This mood disorder is characterized by periods of intense energy and elation (mania) followed by severe depression. 2 major depressive disorder: This is a common mental disorder. <P> Electroconvulsive therapy (ECT), formerly known as electroshock therapy and often referred to as shock treatment, is a psychiatric treatment in which seizures are electrically induced in patients to provide relief from psychiatric illnesses. It is the only currently used form of shock therapy in psychiatry. <P> ECT is one of the fastest ways to relieve symptoms in severely depressed or suicidal patients. It's also very effective for patients who suffer from mania or other mental illnesses. ECT is generally used when severe depression is unresponsive to other forms of therapy. Or it might be used when patients pose a severe threat to themselves or others and it is too dangerous to wait until medications take effect. <P> Electroconvulsive therapy (ECT) can provide rapid, significant improvements in severe symptoms of several mental health conditions. ECT is used to treat: 1 Severe depression, particularly when accompanied by detachment from reality (psychosis), a desire to commit suicide or refusal to eat.
Electroconvulsive therapy (ECT) is a procedure used to treat severe depression.
when has the supreme court ruled laws unconstitutional
<P> This argument is based in part on the U.S. Supreme Court decision in the case of United States v. Bevans. In Bevans, the parties argued over whether a federal court in Massachusetts had jurisdiction over the case of a U.S. Marine charged with a murder that occurred on a ship in Boston Harbor. Some tax protesters cite a case called Conner v. United States, with a quotation that Congress has taxed income, not compensation for the argument that wages are not taxable. This was the case cited unsuccessfully by LaKerra Sumter before the U.S. Court of Federal Claims in the case of Sumter v. United States. <P> In United States v. Windsor, the Supreme Court ruled that the 1996 Defense of Marriage Act (DOMA) was unconstitutional. In a 5 to 4 vote, the court ruled that DOMA violated the rights of gays and lesbians. The court also ruled that the law interferes with the states' rights to define marriage. It was the first case ever on the issue of gay marriage for the Supreme Court. Chief Justice John G. Roberts, Jr. voted against striking it down as did Antonin Scalia, Samuel Alito and Clarence Thomas. Gibbons lost the case and appealed to the U.S. Supreme Court, which reversed the decision. The Court held that the New York law was unconstitutional, since the power to regulate interstate commerce, which extended to the regulation of navigation, belonged exclusively to Congress. <P> Lawrence v. Texas, 539 U.S. 558 (2003) is a landmark decision by the United States Supreme Court. The United States Court of Appeals for the Armed Forces, the last court of appeals for Courts-Martial before the Supreme Court, has ruled that Lawrence applies to Article 125 of the Uniform Code of Military Justice, the article banning sodomy. <P> That task is: Hearing cases wherein the constitutionality of a law or regulation is challenged. The Supreme Court's nine Justices attempt to sort out what is, and what is not constitutional. This process is known as Judicial Review. But the states, in drafting the Constitution, did not delegate such a power to the Supreme Court, or to any branch of the government. 1 It is the Constitution, not the Supreme Court, which is the Supreme Law of the Land. 2 Even the Supreme Court should be accountable for overstepping Constitutional limits on federal power. 3 Judicial review turns the Constitution on its head. <P> In 1883, The United States Supreme Court ruled that the Civil Rights act of 1875, forbidding discrimination in hotels, trains, and other public spaces, was unconstitutional and not authorized by the 13th or 14th Amendments of the Constitution. The ruling read in part: <P> Marbury v. Madison was the first instance in which a law passed by Congress was declared unconstitutional. The decision greatly expanded the power of the Court by establishing its right to overturn acts of Congress, a power not explicitly granted by the Constitution. Gibbons lost the case and appealed to the U.S. Supreme Court, which reversed the decision. The Court held that the New York law was unconstitutional, since the power to regulate interstate commerce, which extended to the regulation of navigation, belonged exclusively to Congress. <P> The quoted material by Dave Champion is false; it does not appear in the Court's decision. In Evans v. Gore, the U.S. Supreme Court actually did rule that a federal income tax on certain income of federal judges was unconstitutional. Some tax protesters cite a case called Conner v. United States, with a quotation that Congress has taxed income, not compensation for the argument that wages are not taxable. This was the case cited unsuccessfully by LaKerra Sumter before the U.S. Court of Federal Claims in the case of Sumter v. United States. <P> 1 If 44.44% of the Supreme Court justices (four of nine) think a law is not constitutional, we should err on the side of caution and declare it unconstitutional. 2 The people and the states have little control over the makeup of the Supreme Court. 1 It is the Constitution, not the Supreme Court, which is the Supreme Law of the Land. 2 Even the Supreme Court should be accountable for overstepping Constitutional limits on federal power. 3 Judicial review turns the Constitution on its head. <P> Answer by Joachim57. Confidence votes 102. The list would be too long for this format. The US Supreme Court has declared a total of 1,315 laws (as of 2002, the most recent year for which statistics are available; the database may be updated in 2012) unconstitutional using the process of judicial review. Congress can attempt to rewrite the law so that it conforms with the Supreme Court's interpretation of the Constitution; or, they can abandon an ill-conceived law; or, the … y can attempt to work with the states to amend the Constitution (the least likely and most time-consuming solution). <P> Posted: 06/26/2013 10:03 am EDT Updated: 06/26/2013 3:03 pm EDT. WASHINGTON -- The Defense of Marriage Act, the law barring the federal government from recognizing same-sex marriages legalized by the states, is unconstitutional, the Supreme Court ruled Wednesday by a 5-4 vote.
In 1883
what is a pomsky
<P> About This Breed. The Pomsky — a cross between a Siberian Husky and a Pomeranian — is often referred to as a designer dog breed.. This relatively new breed tends to be of the fluffy, cuddly variety, but there's a lot of variation in these dogs, as well. Here's what you need to know about this newcomer breed. <P> Pedigree. A Pomsky is a cross between a Pomeranian and a Siberian Husky. A crossing usually consists of a female Husky and a male Pomeranian. This is to avoid any complications that may occur if the smaller Pomeranian were to carry puppies sired by the much larger Siberian Husky male. <P> The Pomsky is a beautiful mixed breed with a combined genetic heritage of the Siberian Husky and the Pomeranian. Through the culmination of these two breeds, the Pomsky has acquired many desirable traits of both a physical and temperamental nature. <P> A Pomsky puppy is without a doubt one of the most dangerous sights a dog lover could ever lay eyes upon. Simply because of the fact they are so darn cute. One of the more recent additions to the designer dog arena, Pomskies are a result of a crossing between a Siberian Husky and a Pomeranian. <P> Click here to edit subtitle. A Pomsky is a hybrid between a Husky and a Pomeranian. They exhibit traits from both breeds.If you have ever owned one or the other or maybe even both Huskies and Pomeranians you will find it fascinating to see these traits in your Pomsky. They can have any combination of these traits. <P> A Pomsky is a hybrid between a Husky and a Pomeranian. They exhibit traits from both breeds.If you have ever owned one or the other or maybe even both Huskies and Pomeranians you will find it fascinating to see these traits in your Pomsky. They can have any combination of these traits. <P> The Pomsky is not a purebred dog. It is a cross between the Pomeranian and the Husky. The best way to determine the temperament of a mixed breed is to look up all breeds in the cross and know you can get any combination of any of the characteristics found in either breed.
A Pomsky is a hybrid between a Husky and a Pomeranian.
hemoglobin on lower range of normal
<P> For people without diabetes, the normal range for the hemoglobin A1c test is between 4% and 5.6%. Hemoglobin A1c levels between 5.7% and 6.4% indicate increased risk of diabetes, and levels of 6.5% or higher indicate diabetes. <P> The normal range for hemoglobin is: 1 For men, 13.5 to 17.5 grams per deciliter. 2 For women, 12.0 to 15.5 grams per deciliter. If your hemoglobin level is lower than normal, you have anemia. There are many forms of anemia, each with different causes, which can include: 1 Iron deficiency. 2 Vitamin B-12 deficiency. 3 Folate <P> Hemoglobin level less than the lower range value for age (In general normal hemoglobin levels are 1-2 g/dL lower in women and African American men than in white men). <P> For older men, this hemoglobin value would be 132 g/L (13.2 g/dL). The corresponding value for women of all ages would be 122 g/L (12.2 g/dL). As shown in Table 1 and in a number of previous studies, the lower limit of normal of hemoglobin concentrations of African Americans are appreciably lower. Lower limits of normal of hemoglobin concentration of the blood of adult men and women as assessed by various sources. The differences in the stated lower limits of normal may seem small, but in their application they are far from trivial. <P> Low hemoglobin means that a person's hemoglobin level when measured, is below the lowest limits of normal for their age and sex (see above normal range of values). For example, a 19 year old male would have low hemoglobin if the detected blood value was below 13.6 g/dl. <P> Hemoglobin is the protein molecule in red blood cells that carries oxygen from the lungs to the body's tissues and returns carbon dioxide from the tissues back to the lungs. Hemoglobin is made up of four protein molecules (globulin chains) that are connected together. <P> Normal hemoglobin values are related to the person's age and sex. Normal values may vary slightly between test systems, and which groups of doctors have determined normal values for their group of patients; however, the value ranges are close (vary by about 0.5 g/dl) for almost every group. An example of normal ranges that is widely accepted by Family Practice physicians is as follows: 1 Birth: 13.5 to 24.0 g/dl (mean 16.5 g/dl). 2 Age 1-2 months: 10.0 to 18.0 g/dl (mean 11.2 g/dl). 3 Age 2-6 months: 9.5 to 14.0 g/dl (mean 12.6 g/dl). <P> If it gets more severe and causes symptoms, your low hemoglobin count may indicate you have anemia. A low hemoglobin count is generally defined as less than 13.5 grams of hemoglobin per deciliter (135 grams per liter) of blood for men and less than 12 grams per deciliter (120 grams per liter) for women. In children, the definition varies with age and sex. A low hemoglobin count is a commonly seen blood test result. Hemoglobin (Hb or Hgb) is a protein in red blood cells that carries oxygen throughout the body. In many cases, a low hemoglobin count is only slightly lower than normal and doesn't affect how you feel <P> Normal hemoglobin levels are different in women and in men. In non-pregnant women, normal hemoglobin ranges from 120 g/L to 160 g/L. In men, normal hemoglobin levels range from 140 g/L to 180 g/L. Canadian Blood Services tests each donor’s hemoglobin at the clinic and requires a minimum of 125 g/L for donatio
13.5 grams
pregnenolone what is it
<P> Made from cholesterol, pregnenolone is a natural steroid hormone produced primarily in the adrenal glands, but in smaller amounts by many other organs and tissues of the human body, including liver, brain, skin, gonads, and even the retina of the eye. Your adrenal glands are responsible for manufacturing DHEA. Because of the hormone's role as a precursor, pregnenolone has the unique ability to bring all of the other hormones into balance. It stimulates production of those other hormones, but only when they are needed. Taking pregnenolone therefore normalizes and rejuvenates the entire adrenal system. <P> Pregnenolone has been called the grandmother of all steroid hormones.. The body manufactures it from cholesterol, and then uses it to make testosterone, cortisone, progesterone, estrogen, DHEA, androstenedione, aldosterone, and all other hormones in the steroid family. One reason given for using pregnenolone is that the level of many of these hormones declines with age. <P> Pregnenolone. Pregnenolone is a chemical found in the brain that helps make many other chemicals in the body. It is used for sleeping problems, tension and stress, depression, premenstrual syndrome (PMS), to enhance the memory and help stop memory loss in conditions like Parkinson's disease and Alzheimer's. <P> Pregnenolone—The Basics. Pregnenolone, like DHEA, is a steroidal hormone manufactured in the body. Pregnenolone is a precursor hormone synthesized from cholesterol, principally in the adrenal glands, but also in the liver, skin, brain, testicles, ovaries, and retina of the eyes. By BioHealth Diagnostics Pregnenolone—The Basics Pregnenolone, like DHEA, is a steroidal hormone manufactured in the body. Pregnenolone is a precursor hormone synthesized from cholesterol, principally in the adrenal glands, but also in the liver, skin, brain, testicles, ovaries, and retina of the eyes. <P> Pregnenolone is a chemical that is found in our bodies. It can also be made in a laboratory. People use it for medicine. Pregnenolone is used for fatigue and increasing energy; Alzheimer ’s disease and enhancing memory; trauma and injuries; as well as stress and improving immunity. It is also is used for skin disorders including psoriasis and scleroderma <P> Story at-a-glance 1 +. Pregnenolone is a steroidal hormone manufactured primarily in your adrenal glands from its precursor, cholesterol, and has a number of beneficial effects, including enhancing your memory and reducing stress-induced fatigue. By BioHealth Diagnostics Pregnenolone—The Basics Pregnenolone, like DHEA, is a steroidal hormone manufactured in the body. Pregnenolone is a precursor hormone synthesized from cholesterol, principally in the adrenal glands, but also in the liver, skin, brain, testicles, ovaries, and retina of the eyes. <P> (Click Benefits of Pregnenolone for more information on what it is used for, including additional uses of the supplement.). Pregnenolone is a hormone that is used by the body to make all other steroid hormones in the body, including (but not limited to) progesterone, cortisol, aldosterone, testosterone, and estrogen. The body makes it using cholesterol. In addition to its use as a precursor for steroid hormones, pregnenolone can block the effects of GABA (gamma-aminobutyric acid), a brain chemical that can slow down or stop certain nerve signals in the brain.
It is a chemical found in the brain that helps make many other chemicals in the body.
where do pomegranates grow in the world
<P> Pomegranate is native to a region from Iran to northern India. Pomegranates have been cultivated throughout the Middle East, South Asia, and Mediterranean region for several millennia, and also thrive in the drier climates of California and Arizona. <P> Making the world better, one answer at a time. Pomegranates are typically found in California within the USA, but originally come from the Middle East and Asia. They prefer a warm Mediterranean climate and can grow up to 30 feet high, but are normally around 16 feet. <P> Soil: The pomegranate does best in well-drained ordinary soil, but also thrives on calcareous or acidic loam as well as rock strewn gravel. Irrigation: Once established, pomegranates can take considerable drought, but for good fruit production they must be irrigated. <P> Origin: The pomegranate is native from Iran to the Himalayas in northern India and was cultivated and naturalized over the whole Mediterranean region since ancient times. It is widely cultivated throughout India and the drier parts of southeast Asia, Malaya, the East Indies and tropical Africa. <P> The Pomegranate (Punica granatum) is a fruit-bearing deciduous shrub or small tree growing to 5–8 m tall. The pomegranate is native from Iran to the Himalayas in northern India and was cultivated and naturalized over the whole Mediterranean region including Armenia since ancient times. <P> Choose a variety of pomegranate. Punica granatum is a small deciduous tree. It will grow to about 2.5 metres (8.2 feet) tall, with orange flowers during the summer season. The dwarf variety Nana will grow shorter, to about 1 metre (3.2 feet) and are the best for growing in containers. <P> The pomegranate (Punica granatum) is a naturally dense, deciduous, bushy, multi-stemmed shrub that typically grows to heights of 10 to 12 feet and bears highly colored fruit with many juicy seeds inside. In some regions, pomegranates are trained into small trees with a single trunk. <P> So, just where do Pomegranates come from? The Pomegranate Tree is a compact, shrub-like tree that can grow to 30 feet tall, though most typically tops out at between 12 and 16 feet. Native to the Mediterranean region since ancient times, Pomegranates prefer semi-arid temperatures and naturally adapt to regions with cool winters and hot summers.
Iran and Himalayas in northern India.
does it cost anything for a marriage officiant
<P> A marriage officiant can charge around $500 to conduct a private wedding ceremony. The amount an officiant charges is entirely dependent on how much they can get for their services; couples are generally happy to fork over hundreds of dollars for a talented one. <P> The cost of a wedding officiant can vary wildly, from free to well over $1000 for a single ceremony. In order to understand the differences in fees between different officiants, it’s important to understand that that the word “officiant” can mean a lot of different things. While “officiant” is a general term describing any person who is able to legally sign a marriage license, a professional wedding officiant is someone who solicits business from the general public to perform marriage ceremonies for a fee. <P> January 2012 in Ceremony and Vow Ideas. We're not really affiliated with a church and don't have anyone we know in mind to (that is also ordained) marry us. I was looking into booking an officiant but the cost seems high to me ($500-$800). What is the average cost is you need to hire an officiant? <P> Discounts: 1 Some officiants charge extra for a rehearsal, and some charge a mileage fee of 30 to 50 cents a mile to travel to the wedding location. 2 The couple must pay the wedding license fee, which ranges from $10 to $95 or more, depending on the location. 1 Expect to pay $50 to $100 for a simple civil ceremony by a justice of the peace, possibly at your local city hall, county courthouse or at a park. 2 An intern minister or retired judge might charge $100 to $200. 3 And an experienced church minister or a professional celebrant might charge $200 to $400 or more <P> If your officiant is a civil official, simply call their office and ask what the going rate is. If your officiant doesn't have an office you can call, it's a good idea to reserach churches in the area, figure out an average of fees, and then decide how much you should pay based on that figure. On average, professional officiant fees range anywhere from $500-800. The officiant's fee is generally a donation to the house of worship or congregation. If you're marrying in a house of worship, call the church or temple office and ask how much is generally given. <P> 1 An intern minister or retired judge might charge $100 to $200. 2 And an experienced church minister or a professional celebrant might charge $200 to $400 or more. 3 The average cost for a pastor or priest to officiate at a wedding is $263, according to The Bridal Association of America. 1 Expect to pay $50 to $100 for a simple civil ceremony by a justice of the peace, possibly at your local city hall, county courthouse or at a park. 2 An intern minister or retired judge might charge $100 to $200. 3 And an experienced church minister or a professional celebrant might charge $200 to $400 or more <P> Quality should not be determined by how much you pay for something, but it should be gauged by the personalized respectful services you receive. I have created a spreadsheet that shows the wedding officiant cost of living increase from 4 percent (average) to 7 percent (high). The based wedding officiant cost was taken from my wedding in 1992. Rev. M offered me a sliding scale of $200 to $300. I chose to pay $200, and I was not offered an opportunity to customize my ceremony. His travel distance was less than 4 miles from Washington, DC to Silver Spring. <P> While amateur officiants and individuals simply looking to make a few dollars may charge a couple as little as $100-$250, the average fees for professional officiants typically range from $400 to $800 depending on experience and the level of service and customization they provide. While “officiant” is a general term describing any person who is able to legally sign a marriage license, a professional wedding officiant is someone who solicits business from the general public to perform marriage ceremonies for a fee. <P> 1 Some officiants charge extra for a rehearsal, and some charge a mileage fee of 30 to 50 cents a mile to travel to the wedding location. 2 The couple must pay the wedding license fee, which ranges from $10 to $95 or more, depending on the location. 1 Expect to pay $50 to $100 for a simple civil ceremony by a justice of the peace, possibly at your local city hall, county courthouse or at a park. 2 An intern minister or retired judge might charge $100 to $200. 3 And an experienced church minister or a professional celebrant might charge $200 to $400 or more
Yes but not necessarily.
type of blood cell produced by lymph nodes
<P> Red blood cells, most white blood cells, and platelets are produced in the bone marrow, the soft fatty tissue inside bone cavities. Two types of white blood cells, T and B cells (lymphocytes), are also produced in the lymph nodes and spleen, and T cells are produced and mature in the thymus gland. <P> The lymphatic system is composed of lymph vessels, lymph nodes, and organs. The functions of this system include the absorbtion of excess fluid and its return to the blood stream, absorption of fat (in the villi of the small intestine) and the immune system function. Some lymphocytes migrate to the thymus and become T cells that circulate in the blood and are associated with the lymph nodes and spleen. B cells remain in the bone marrow and develop before moving into the circulatory and lymph systems. B cells produce antibodies. Macrophage Attacking E.coli (SEM x8,800). <P> Lymph Nodes. A rounded mass of lymphatic tissue that is surrounded by a capsule of connective tissue. Lymph nodes filter lymph (lymphatic fluid), and they store lymphocytes (white blood cells). They are located along lymphatic vessels. Also called lymph gland. <P> Lymphocytes. Lymphocytes are a type of white blood cell generated by the immune system to defend the body against cancerous cells, pathogens, and foreign matter. Lymphocytes circulate in blood and lymph fluid and are found in body tissues including the spleen, thymus, bone marrow, lymph nodes, tonsils, and liver. <P> The white blood cells or lymphocytes produced by these lymph nodes kill bacteria and viruses entering the body. Lymph nodes are very small organs, only about 1-2 cm in size and are found as a network throughout the body. What Are Lymph Node, Locations And Diseases. Humans generally have immunity against pathogens and accidental infections that is owed to the presence of lymph nodes which form a part of the lymphatic system. They behave like mechanical filters and kill and eliminate microbes present in the blood stream. <P> White blood cells known as lymphocytes arise from by mitosis of stem cells in the bone marrow. Some lymphocytes migrate to the thymus and become T cells that circulate in the blood and are associated with the lymph nodes and spleen. B cells remain in the bone marrow and develop before moving into the circulatory and lymph systems. B cells produce antibodies. Macrophage Attacking E.coli (SEM x8,800). <P> This system-composed of lymph nodes in your neck, armpits, groin, chest, and abdomen-removes excess fluids from your body and produces immune cells. Abnormal lymphocytes, a type of white blood cell that fights infection, become lymphoma cells, which multiply and collect in your lymph nodes. <P> Lymph organs include the bone marrow, lymph nodes, spleen, and thymus. Bone marrow contains tissue that produces lymphocytes. B-lymphocytes (B-cells) mature in the bone marrow. T-lymphocytes (T-cells) mature in the thymus gland. Other blood cells such as monocytes and leukocytes are produced in the bone marrow. Lymph nodes are areas of concentrated lymphocytes and macrophages along the lymphatic veins. Some lymphocytes migrate to the thymus and become T cells that circulate in the blood and are associated with the lymph nodes and spleen. B cells remain in the bone marrow and develop before moving into the circulatory and lymph systems. B cells produce antibodies. Macrophage Attacking E.coli (SEM x8,800). <P> Lymph nodes are major sites of B, T, and other immune cells. Lymph nodes are important for the proper functioning of the immune system, acting as filters for foreign particles and cancer cells. Lymph nodes do not deal with toxicity, which is primarily dealt with by the liver and kidneys. <P> 1 About 2 litres of lymph fluid circulate in the body every day while collecting, destroying and eliminating foreign agents and disease causing microbes. 2 There are two types of lymphocytes or white blood cells produced in the lymph nodes, called B & T lymphocytes. What Are Lymph Node, Locations And Diseases. Humans generally have immunity against pathogens and accidental infections that is owed to the presence of lymph nodes which form a part of the lymphatic system. They behave like mechanical filters and kill and eliminate microbes present in the blood stream.
The white blood cells or lymphocytes.
what is etizolam
<P> The etizolam molecule differs from a benzodiazepine in that the benzene ring has been replaced by a thiophene ring, making the drug a thienodiazepine. <P> Sealed vial of etizolam dissolved in propylene glycol. Etizolam is a research chemical analogue of the benzodiazepine class of drugs-the benzene ring being replaced by a thiophene ring, making it a thienodiazepineClose analogues of benzodiazepines. . <P> Etizolam, like benzodiazepines, binds to modulatory sites on the GABA gamma-aminobutyric acid receptors. Etizolam is not commonly prescribed and is not recognised as a controlled substance in many parts of the world, leading to its rise in popularity as a product of many research chemical vendors. <P> Etizolam or “etizzy” is a benzodiazepine-like drug that produces the five characteristic benzo effects: relax, don’t worry, sleep, get loose with it, and don’t have a seizure. <P> Etizolam (marketed under the brand name Etilaam, Etizola, Sedekopan, Etizest, Pasaden or Depas) is a benzodiazepine analog. <P> Etizolam is one molecule short of being labeled a benzodiazepine drug like Xanax or Valium. It is in a group of drugs called research chemicals, which are legal to take. Federal authorities say this drug is trending on the street, and they are seeing it being shipped into this country more frequently. <P> You won't believe these 10 facts about people. Etizolam is a thienodiazepine-based drug with multiple therapeutic properties that is sometimes used to treat anxiety, panic disorder, depression, or sleep disorders. At least one clinical trial has found etizolam to be more effective than a placebo in alleviating symptoms of depression and generalized anxiety disorder.
Thienodiazepine based drug with multiple therapeutic properties.
how to cook filet mignon on gas grill
<P> How to Grill Filet Mignon. 1 For a charcoal grill, place the meat on a grill rack directly over medium coals; grill uncovered. 2 For a gas grill, preheat the grill; reduce the heat to medium. 3 Place the filet on the grill rack over the heat. 4 Cover the grill. <P> A filet, also called a filet mignon, is the smallest and tenderest of all beef steaks. With a size of no more than 2 to 3 inches in diameter and 1 to 2 inches thick, it is the smallest because a filet is a cut from the small end of the tenderloin. <P> 1 Place the filet on the grill rack over the heat. 2 Cover the grill. 3 Use the following timings for grilling filet mignon, and turn once halfway through the grilling time: 4 For a 1-inch cut, grill 10 to 12 minutes for medium rare (145 degrees F) or 12 to 15 minutes for medium (160 degrees F). <P> Place the steaks on a work surface, and cover the top and bottom with freshly ground pepper if desired. Wait to add salt until serving. Let the steaks rest for 45 minutes to 1 hour to come to room temperature. Preheat the gas grill burners to their highest setting. Hold your hand 2 inches above the grate. When you can hold it there for no more than 5 seconds, bring the steaks to the grill. <P> Once the steaks have been seared for 3 minutes on each side, cook them for an addition 1-6 minutes on each side by indirect heat, depending on preference and thickness of the steak. For a gas grill, turn the middle burner off, and for a charcoal grill, move the majority of the charcoal to one side and cook on the other. <P> Set your gas grill to the highest possible temperature and allow it to heat for 30 minutes with the lid down. Place the steak on the grill with a pair of large tongs. Let the steak cook for one minute for rare, two minutes for medium-rare, and three minutes maximum. Rotate the meat 90 degrees on the same side. <P> 1 Place the beef filet mignon on the unheated rack of the broiler pan. 2 Using the following timings, broil the meat, turning once halfway through the broiling time: 3 For a 1-inch filet cut, broil 12 to 14 minutes for medium rare (145 degrees F) or 15 to 18 minutes for medium (160 degrees F).
30 minutes
what is dna molecule
<P> A molecule of DNA is double-stranded. The molecule has the shape of a double helix, typically right handed (B form DNA). The DNA molecule consists of two complementary strands oriented in an antiparallel fashion. Each strand is composed of nucleotides. A nucleotide consists of a base (a purine or pyrimidine), a sugar (between the other two components) named deoxyribose, and a phosphate group. Nucleotides are linked to each other via phosphodiester bonds, forming a sugar-phosphate backbone to each strand. The twisted ladder metaphorA DNA molecule is often likened to a spiral (or twisted) ladder. In this analogy, the rungs of the ladder are the base pairs (A-T and G-C). The sides of the ladder are the sugar-phosphate backbones of the two strands. This refers to B form DNA <P> DNA, short for deoxyribonucleic acid, is the molecule that contains the genetic code of organisms. This includes animals, plants, protists, archaea and bacteria. DNA is in each cell in the organism and tells cells what proteins to make. Mostly, these proteins are enzymes. <P> DNA structure. DNA is made up of molecules called nucleotides. Each nucleotide contains a phosphate group, a sugar group and a nitrogen base. The four types of nitrogen bases are adenine (A), thymine (T), guanine (G) and cytosine (C). The order of these bases is what determines DNA's instructions, or genetic code. The bases on one strand pair with the bases on another strand: adenine pairs with thymine, and guanine pairs with cytosine. DNA molecules are long — so long, in fact, that they can't fit into cells without the right packaging. To fit inside cells, DNA is coiled tightly to form structures we call chromosomes. <P> The DNA molecule consists of two polynucleotide chains in the form of a double helix, containing phosphate and the sugar deoxyribose and linked by hydrogen bonds between the complementary bases adenine and thymine or cytosine and guanine. 1. DNA - (biochemistry) a long linear polymer found in the nucleus of a cell and formed from nucleotides and shaped like a double helix; associated with the transmission of genetic information; DNA is the king of molecules. deoxyribonucleic acid, desoxyribonucleic acid. <P> Deoxyribonucleic acid (/diˌɒksiˌraɪbɵ.njuːˌkleɪ.ɨk ˈaesɪd/ ; ˈæSɪD) dna is a molecule that carries most of the genetic instructions used in the, development functioning and reproduction of all known living organisms and many. viruses The two DNA strands are known as polynucleotides since they are composed of simpler units called nucleotides. Each nucleotide is composed of a nitrogen-containing nucleobase —either cytosine (C), guanine (G), adenine (A), or thymine (T)—as well as a monosaccharide sugar called deoxyribose and a phosphate group. <P> DNA is a double helix formed by base pairs attached to a sugar-phosphate backbone. DNA, or deoxyribonucleic acid, is the hereditary material in humans and almost all other organisms. Nearly every cell in a person’s body has the same DNA. Each base is also attached to a sugar molecule and a phosphate molecule. Together, a base, sugar, and phosphate are called a nucleotide. Nucleotides are arranged in two long strands that form a spiral called a double helix. <P> Earlier work had shown that DNA is composed of building blocks called nucleotides consisting of a deoxyribose sugar, a phosphate group, and one of four nitrogen bases — adenine (A), thymine (T), guanine (G), and cytosine (C). Phosphates and sugars of adjacent nucleotides link to form a long polymer. <P> deoxyribonucleic acid: an extremely long, double-stranded nucleic acid molecule arranged as a double helix that is the main constituent of the chromosome and that carries the genes as segments along its strands: found chiefly in the chromatin of cells and in many viruses. 1. DNA - (biochemistry) a long linear polymer found in the nucleus of a cell and formed from nucleotides and shaped like a double helix; associated with the transmission of genetic information; DNA is the king of molecules. deoxyribonucleic acid, desoxyribonucleic acid.
That carries most of the genetic instructions used in the, development functioning and reproduction of all known living organisms and many.
approx cost of new windows
<P> Additional costs: 1 A window installer should remove the existing windows, install the new ones, cleanup and dispose of the old windows, and wash the new windows. 2 Estimates are usually based on united inches, which is equal to the sum of the length and width of each window; a 40x55-inch window is 95 united inches. 1 <P> In Ohio (labor) prices range from $400 for a complete tear-out and install to $100 for a replacement 3 1/4 jamb window. If they were quoting you installation price of $2,000 like your heading says, they are extremely out of touch with the industry. $300-800. Vinyl and Clad Window prices vary greatly so add the cost of the window to the installation price then add tax. $2000 seems high but would have to see the home. Lots of things to consider. <P> 1 This are called new construction windows, and can cost as much as 50-100 percent more than replacement windows, or $5,000-$40,000 for completely rebuilding all the windows in a home. 1 A window installer should remove the existing windows, install the new ones, cleanup and dispose of the old windows, and wash the new windows. 2 Estimates are usually based on united inches, which is equal to the sum of the length and width of each window; a 40x55-inch window is 95 united inches. <P> I have a 2000 sqft colonial that we just fully remodeled with about 20-30 windows. at 199 a window that $4000-$6000 installed. we put in new construction andersens and the cost of the windows WITHOUT install was $11,000 and we didn't go with the top of the line. <P> There is a huge range in window replacement costs -- anywhere from $100 at home depot to over a $1000 for a Pella casement window. The average replacement window cost is $300-$700 for a single window inserted into existing frames. This would equate to $3,000 to $10,000 for a home with about ten windows. A 30- by 48-inch window can range anywehere from $150 to $500. A low-end Harvey vinyl window could run you about $300, while a high-end brand like Pella or Anderson window could cost close to $1000 per window installed. For additional pricing estimates, check our replacement window cost estimator <P> Mid-Grade Windows. If you live in Philadelphia, for example, the total cost to install mid-grade windows on average is between $346 and $470 per window. Included in this cost would be between $848 and $1,669 for the labor to install 10 windows -- the average number of windows in a home. Additional tools and supplies run from $168 to a high of $182 per window at the time of publication. For discount or closeout windows, costs range from $270 to $400 for the individual window, while better-grade windows cost between $425 to $595 just for the windows alone. <P> Our free calculator uses recent, trusted data to estimate costs for your Replacement Window Installation project. For a basic 1 window project in zip code 47474, the benchmark cost to Install Replacement Windows ranges between $340.04 - $593.63 per window. To estimate costs for your project: 1. Set Project Zip Code Enter the Zip Code for the location where labor is hired and materials purchased. <P> These new construction windows can cost 50%-100% more -- new construction windows, the frames, plus the installation can run as much as $40,000 to do every window of the home. A 30- by 48-inch window can range anywehere from $150 to $500. A low-end Harvey vinyl window could run you about $300, while a high-end brand like Pella or Anderson window could cost close to $1000 per window installed.
$80 (really cheap self installed) up to about $200.
what is a jaguars predator
<P> The jaguar (/ˈdʒaeɡjuːər, ˈdʒæɡjuːər, ˈdʒaeɡjʊər/ ˈdʒæɡjʊər /ˈdʒaeɡjuːɑr/), ˈdʒæɡjuːɑr or, ˈdʒaeɡwɑr ˈdʒæɡwɑr panthera onca, is a big cat A feline, in the panthera genus and Is the only extant panthera Species. Native to the americas the-jaguar is the third largest feline after the, tiger and the lion and The. largest in the americas The jaguar is largely a solitary, opportunistic, stalk-and-ambush predator at the top of the food chain (an apex predator). It is a keystone species, playing an important role in stabilizing ecosystems and regulating the populations of the animals it hunts. <P> Only from the close distance, characteristic spots could be seen. Name jaguar is derived from Indian word yaguar which means: he who kills in a single leap. Jaguars are ambush predators that kill their victims using the element of surprise. They will pierce the skull of an animal and kill it with a single bite. They can eat 85 different types of animals. Fish, caimans, capybaras, peccaries, tapirs...are usually on the jaguar's menu. Although jaguars eat meat almost exclusively, they can eat avocado occasionally. Jaguars are nocturnal (hunt at night) and solitary animals (live on their own). Anaconda is the only natural enemy of jaguar. <P> The jaguar is the third-largest feline after the tiger and the lion, and the largest in the Americas. The jaguar's present range extends from Southwestern United States and Mexico across much of Central America and south to Paraguay and northern Argentina. The jaguar is largely a solitary, opportunistic, stalk-and-ambush predator at the top of the food chain (an apex predator). It is a keystone species, playing an important role in stabilizing ecosystems and regulating the populations of the animals it hunts. <P> The jaguar is the largest cat in the western hemisphere. In its habitat, the jaguar is the top predator. It is the third largest cat in the world; only lions and tigers are larger. The jaguar is stockier and heavier than the leopard, with a shorter, thicker tail. Jaguars are night stalkers that prefer to ambush their prey rather than chase it. They have large jaw muscles which enable them to pierce the skulls of their prey with their sharp teeth. The jaguar is known in South America as “the animal that kills in a single bound”. Jaguars love water and will swim readily. <P> Jaguar Facts. Jaguar is third largest cat in the world (tiger and lion are on the first two places), and largest cat that lives in America. It can be found in North, Central and South America, in the wide variety of ecosystems: rainforests, swamps, grasslands, scrub woodlands, forests… Jaguars are endangered species. Fish, caimans, capybaras, peccaries, tapirs...are usually on the jaguar's menu. Although jaguars eat meat almost exclusively, they can eat avocado occasionally. Jaguars are nocturnal (hunt at night) and solitary animals (live on their own). Anaconda is the only natural enemy of jaguar. <P> Jaguars prey are: tapirs, deer, sloth, peccaries and others. Jaguars predators are man and other jaguars in combat. Jaguars prey are: tapirs, deer, sloth, peccaries and others. Jaguars predators are man and other jaguars in combat. <P> The jaguar (/ˈdʒaeɡjuːər, ˈdʒæɡjuːər, ˈdʒaeɡjʊər/ ˈdʒæɡjʊər /ˈdʒaeɡjuːɑr/), ˈdʒæɡjuːɑr or, ˈdʒaeɡwɑr ˈdʒæɡwɑr panthera onca, is a big cat A feline, in the panthera genus and Is the only extant panthera Species. native to the americas The jaguar is largely a solitary, opportunistic, stalk-and-ambush predator at the top of the food chain (an apex predator). It is a keystone species, playing an important role in stabilizing ecosystems and regulating the populations of the animals it hunts. <P> Jaguars are members of the cat family, and like all big cats, they are predators. They stalk and hunt smaller or docile animals (usually herbivores) for food, including … gazelles and other types of wild deer, small wild pigs, and the babies of larger animals such as water-buffalo. 8 people found this useful. Jaguars are animals that live in the rain-forests and are only killed by humans and other jaguars. Humans kill them for their territory, and they kill each other for mating rights.
The jaguar is largely a solitary, opportunistic, stalk-and-ambush predator at the top of the food chain (an apex predator). It is a keystone species, playing an important role in stabilizing ecosystems and regulating the populations of the animals.
indemnity or non indemnity meaning
<P> Non-indemnity insurance tends to cover things with no real replacement value. The amount of compensation received cannot be directly correlated with the loss. For example, life insurance is non-indemnity insurance because you cannot place a value or a cost of replacement on a person’s life. <P> In non-indemnity insurance the sum which the insured is entitled to receive from the insurer does not necessarily bear any relation to the actual loss, if any, suffered by the insured. Life insurance contracts, personal accident and sickness insurance are examples of non-indemnity insurance. Rgds [email protected]. <P> DEFINITION of 'Indemnity'. Indemnity is compensation for damages or loss. Indemnity in the legal sense may also refer to an exemption from liability for damages. The concept of indemnity is based on a contractual agreement made between two parties, in which one party agrees to pay for potential losses or damages caused by the other party <P> DEFINITION of 'Indemnity Insurance'. An insurance policy that aims to protect business owners and employees when they are found to be at fault for a specific event such as misjudgment. Typical examples of indemnity insurance include professional insurance policies such as malpractice insurance, and errors and omissions insurance, which indemnify professionals against claims made in the workplace. <P> indemnity reinsurance. An agreement between two or more insurance companies under which the reinsuring companies agree to accept and to indemnify the issuing company for all or part of the risk of loss under policies specified in the agreement. The ceding company retains its liability to and its contractual relationship with the insured. Administration of the claim is retained by the ceding company <P> Recompense for loss, damage, or injuries; restitution or reimbursement. An indemnity contract arises when one individual takes on the obligation to pay for any loss or damage that has been or might be incurred by another individual. The right to indemnity and the duty to indemnify ordinarily stem from a contractual agreement, which generally protects against liability, loss, or damage <P> Insurance can be broken down into two groups, indemnity and non-indemnity. For example, property insurance is indemnity insurance while life insurance is non-indemnity insurance. The amount of compensation received cannot be directly correlated with the loss. For example, life insurance is non-indemnity insurance because you cannot place a value or a cost of replacement on a person’s life. <P> Indemnity insurance is a way for a company (or individual) to be protected against indemnity claims. This insurance protects the holder from having to pay the full sum of an indemnity, even if the holder is at fault for the cause of the indemnity in the first place. Indemnity in the legal sense may also refer to an exemption from liability for damages. <P> Look up indemnity in Wiktionary, the free dictionary. An indemnity is an obligation by a person (indemnitor) to provide compensation for a particular loss suffered by another person (indemnitee). 1 An indemnity guarantees compensation equal to the amount of loss subject to the indemnity, while a warranty only guarantees compensation for the reduction in value of the acquired asset due to the warranted fact being untrue (and the beneficiary must prove such diminution in value). <P> Indemnity means that the insured is entitled to a specific amount of compensation for a loss that is tied to a replacement, reimbursement, or fair-market value. The primary difference is that with indemnity insurance, there is no “profit” so to speak. The amount of compensation received cannot be directly correlated with the loss. For example, life insurance is non-indemnity insurance because you cannot place a value or a cost of replacement on a person’s life.
Indemnity means that the insured is entitled to a specific amount of compensation for a loss that is tied to a replacement, reimbursement, or fair-market value.and In non-indemnity insurance the sum which the insured is entitled to receive from the insurer does not necessarily bear any relation to the actual loss, if any, suffered by the insured.
what county is cardiff
<P> Cardiff was made a city in 1905, and proclaimed the capital of Wales in 1955. Since the 1990s, Cardiff has seen significant development. A new waterfront area at Cardiff Bay contains the Senedd building, home to the Welsh Assembly and the Wales Millennium Centre arts complex. The northern part of the county, being higher and inland—for example, The Garth (Welsh: Mynydd y Garth), about 7 miles (11 km) north west of Cardiff city centre, (elevation 1,007 feet (307 m))—tends to be cooler and wetter than the city centre. <P> The County Council of the City and County of Cardiff (Welsh: Dinas a Sir Caerdydd) is the governing body for Cardiff, one of the Principal Areas of Wales. The council consists of 75 councillors, representing 29 electoral wards. The first Mayor of Cardiff is listed by the County Borough Records as Ralph Prepositus de Kardi who took up office in 1126. In 1835, Thomas Revel Guest became the first elected Mayor of Cardiff when the first council elections were held. <P> News on Cardiff County, Wales continually updated from thousands of sources around the net. <P> In 1905, Cardiff became a City, and the Borough Council became a City Council. The City of Cardiff is the county town of Glamorgan. However, prior to 1974, Cardiff was a County Borough in its own right and not subject to Glamorgan County Council. Council reorganisation in 1974 paired Cardiff and the Vale of Glamorgan together as district councils subject to the new county of South Glamorgan. The first Mayor of Cardiff is listed by the County Borough Records as Ralph Prepositus de Kardi who took up office in 1126. In 1835, Thomas Revel Guest became the first elected Mayor of Cardiff when the first council elections were held. <P> The city is county town of Glamorgan, although this role has diminished since council reorganisation in 1974 paired Cardiff and the Vale of Glamorgan together as the new county of South Glamorgan. Further local government restructuring in 1996 resulted in Cardiff City's district council becoming a unitary authority. · just now. Report Abuse. Cardiff is the main town in Cardiff county, in Wales, UK.. It has the county of Vale of Glamorgan to the west, Newport to the east and to the north two counties:Rhondda Cynon Taff and Caerphilly. abuela Nany · 9 years ago. Thumbs up <P> Welcome to the Cardiff and County Club, where the finest traditions of dining and friendship continue to be enjoyed in magnificent surroundings. The Club has an enviable reputation for its tradition of serving fine food in a convivial atmosphere, surrounded by magnificent Victorian splendour. <P> Cardiff is part of the Cardiff and south Wales valleys metropolitan area of about 1,100,000 people. Cardiff is a significant tourist centre and the most popular visitor destination in Wales with 18.3 million visitors in 2010. The northern part of the county, being higher and inland—for example, The Garth (Welsh: Mynydd y Garth), about 7 miles (11 km) north west of Cardiff city centre, (elevation 1,007 feet (307 m))—tends to be cooler and wetter than the city centre. <P> The city of Cardiff is the county town of the historic county of Glamorgan (and later South Glamorgan). Cardiff is part of the Eurocities network of the largest European cities. The Cardiff Urban Area covers a slightly larger area outside the county boundary, and includes the towns of Dinas Powys and Penarth. The northern part of the county, being higher and inland—for example, The Garth (Welsh: Mynydd y Garth), about 7 miles (11 km) north west of Cardiff city centre, (elevation 1,007 feet (307 m))—tends to be cooler and wetter than the city centre.
Glamorgan (and later South Glamorgan)
what is a hgh
<P> Growth hormone deficiency in adults is rare and may be caused by pituitary adenoma — a tumor on the pituitary gland — or treatment of the adenoma with surgery or radiotherapy. For adults who have a growth hormone deficiency, injections of human growth hormone can: 1 Increase exercise capacity. 2 Increase bone density. <P> Some people turn to a substance called human growth hormone (HGH) in hopes that it will keep them feeling and looking youthful. But experts say that hope is unfounded. And worse, these products can be harmful. HGH, produced by the pituitary gland, spurs growth in children and adolescents. It also helps to regulate body composition, body fluids, muscle and bone growth, sugar and fat metabolism, and possibly heart function. <P> Growth hormone is produced by the pituitary gland — a pea-sized structure at the base of the brain — to fuel childhood growth and help maintain tissues and organs throughout life. <P> The off-label use of human growth hormone (HGH) has spawned a multi-billion dollar industry. Some doctors see it as a fountain of youth, while others are staunchly opposed and fear that the risks far outweigh the potential benefits. The FDA has not approved the use of human growth hormone as an anti-aging therapy. <P> HGH or Human Growth Hormone is a hormone that is secreted in nature by the pituitary gland deep within your brain. The pituitary doesn’t cease production of HGH or Human Growth Hormone after the age of 25 years, but there can be a reduction in the levels leading to a low HGH level. <P> By Tom Fordyce What is human growth hormone? Growth hormone is a powerful anabolic hormone that occurs naturally in the human body. It is produced by the pituitary gland in the brain and stimulates the growth of muscle, cartilage, and bone.
HGH or Human Growth Hormone is a hormone that is secreted in nature by the pituitary gland deep within your brain.
what is helicobacter pylori bacteria
<P> Helicobacter pylori is a type of bacteria that is a major cause of stomach (gastric) and upper small intestine (duodenal) ulcers. Infection with H. pylori may also increase the risk of stomach cancer. <P> Helicobacter pylori (H. pylori) is a type of bacteria. These germs can enter your body and live in your digestive tract. After many years, they can cause sores, called ulcers, in the lining of your stomach or the upper part of your small intestine. For some people, an infection can lead to stomach cancer. <P> H. pylori infection occurs when a type of bacteria called Helicobacter pylori (H. pylori) infects your stomach. This usually happens during childhood. A common cause of peptic ulcers, H. pylori infection may be present in more than half the people in the world. <P> H. pylori infection is a common cause of peptic ulcer disease in the United States. Peptic ulcer is a localized area of erosion occurring in the stomach or duodenal (the beginning of the small intestine) lining, resulting in abdominal pain, possible bleeding, and other gastrointestinal symptoms. <P> Helicobacter pylori (H. pylori) is a spiral-shaped bacterium that is found in the gastric mucous layer or adherent to the epithelial lining of the stomach. H. pylori causes more than 90% of duodenal ulcers and up to 80% of gastric ulcers. <P> Helicobacter pylori (H. pylori) is a bacterium that causes chronic inflammation of the inner lining of the stomach (gastritis) in humans. This bacterium also is considered as a common cause of ulcers worldwide; as many as 90% of people with ulcers have detectable organisms. <P> Helicobacter pylori (H pylori) is the name of a bacteria that can cause peptic ulcers. It can infect the stomach lining, dissolving the mucus film that protects it from the highly acidic stomach contents. This causes a burning pain in the stomach. Helicobacter pylori is the most common human bacterial infection.
Helicobacter pylori (H pylori) is the name of a bacteria that can cause peptic ulcers. It can infect the stomach lining, dissolving the mucus film that protects it from the highly acidic stomach contents.
accounting definition of material cost
<P> cost. In accounting, cost is defined as the cash amount (or the cash equivalent) given up for an asset. Cost includes all costs necessary to get an asset in place and ready for use. For example, the cost of an item in inventory also includes the item's freight-in cost. <P> Definition. The amount of money invested in the production of a product. The ingredients of a meal or the parts of a machine would be things that incur material costs. This cost is apart from the cost of labor to produce the product. The material cost together with the cost of labor helps determine the total cost of a product and its eventual sale price <P> Full Definition of COST ACCOUNTING. : the systematic recording and analysis of the costs of material, labor, and overhead incident to production. See cost accounting defined for English-language learners. ADVERTISEMENT. <P> Definition: a cost of materials or supplies used, or an aggregate of such costs. A material cost may be either a ‘direct material cost’ or an ‘indirect material cost’ depending on whether it is a direct cost or an indirect cost. An alternative form of the term is ‘materials cost’. <P> Cost and Cost Classifications. Cost is a sacrifice of resources to obtain a benefit or any other resource. For example in production of a car, we sacrifice material, electricity, the value of machine's life (depreciation), and labor wages etc. Thus these are our costs. Costs are usually classified as follows: 1 Manufacturing overhead: Represents all production costs except those for direct labor and direct materials, for example the cost of an accountant's time in an organization, depreciation on equipment, electricity, fuel, etc. <P> Introduction to Standard Costing. Standard costing is an important subtopic of cost accounting. Standard costs are usually associated with a manufacturing company's costs of direct material, direct labor, and manufacturing overhead. <P> Raw Materials Inventory. Definition: Raw materials inventory is the total cost of all component parts currently in stock that have not yet been used in work-in-process or finished goods production. There are two subcategories of raw materials, which are: 1 Direct materials. 2 These are materials incorporated into the final product. The accounting is: 1 Direct materials. 2 Debit the work-in-process inventory account and credit the raw materials inventory asset account. 3 Or, if the production process is brief, bypass the work-in-process account and debit the finished goods inventory account instead. 4 Indirect materials.
A cost of materials or supplies used, or an aggregate of such costs.
what is a NVR
<P> A network video recorder (NVR) is a software program that records video in a digital format to a disk drive, USB flash drive, SD memory card or other mass storage device. Video on a DVR is encoded and processed at the DVR, while video on an NVR is encoded and processed at the camera, then streamed to the NVR for storage or remote viewing. Hybrid NVR/DVR security systems exist which incorporate functions of both NVR and DVR; these are considered a form of NVR. <P> NVR, Inc. (NYSE: NVR) is a United States homebuilding and mortgage company. The homebuilding unit sells and constructs new homes under the Ryan Homes, NVHomes, Rymarc Homes, Fox Ridge Homes and Heartland Homes trade names. <P> Let’s begin by outlining the name structural. DVR (Digital Video Recorder): An analog and/or IP based recorder is a consumer electronic device or application software that records video in a digital format to a disk drive, USB flash drive, SD memory card or other local or networked mass storage device. Video on a DVR is encoded and processed at the DVR, while video on an NVR is encoded and processed at the camera, then streamed to the NVR for storage or remote viewing. An NVR is a software program that records video in a digital format to a disk drive, USB flash drive, SD memory card or other mass storage device. An NVR contains no dedicated video capture hardware. However, the software is typically run on a dedicated device, usually with an embedded operating system <P> This is a quick video demonstration of the differences between a DVR and an NVR. In this video you can learn how an NVR is connected to a Router and also the type of cables that it uses. Also you can see the type of cable that a regular DVR uses. To find out more information or to purchase one go here: <P> A Network Video Recorder, or NVR is an internet protocol (IP) based device that sits on your computer network. Since the NVR sits on your computer network, Network Video Recorders can be accessed and managed remotely via your Local Area Network (LAN) or over the Internet, allowing you greater flexibility. A Digital Video Recorder (DVR) is a device that records video in a digital format to a disk drive. DVRs made specifically for CCTV Security Surveillance System applications record video signals from security cameras. <P> 3. Another difference between a DVR and an NVR is access. To view the video that was recorded, you need to be at the DVR (or burn a disk if you want to view it elsewhere). But with an NVR, due to its very nature of being on a network, you can view it remotely. 4. Finally, paring security cameras with NVR’s is actually more restrictive than doing so with DVR’s. <P> Organization. NVR, Inc. operates in two business segments: homebuilding and mortgage banking. The homebuilding unit sells and constructs homes under the Ryan Homes, NVHomes, Fox Ridge Homes and Heartland Homes. As a corporate entity, NVR, Inc. provides various support functions for each of its sub-entities. NVR homebuilding operations serve 27 metropolitan areas in fourteen states, including Maryland, Virginia, West Virginia, Pennsylvania, New York, New Jersey, Delaware, Indiana, Illinois, Ohio, North Carolina, South Carolina, Florida and Tennessee, as well as Washington D.C.
A network video recorder (NVR) is a software program that records video in a digital format to a disk drive, USB flash drive, SD memory card or other mass storage device.
what is pacific time in gmt
<P> UTC+5h or GMT +5h would refer to that time zone being five hours ahead of UTC of GMT and so forth for the other time zones. The usage of UTC and GMT is based upon a twenty four hour clock, similar to military time, and is based upon the 0 longitude meridian, referred to as the Greenwich meridian in Greenwich, England. <P> In most states in the USA and in most provinces in Canada, Daylight-Saving Time (DST) is observed. During DST PT or PDT is 7 hours behind Greenwich Mean Time (GMT-7). After the Summer months Pacific Time is shifted back by 1 hour to US Pacific Standard Time (PST) or (GMT-8). <P> Observes PST – Pacific Standard Time part of the year, but not currently. Currently has same time zone offset as PST (UTC -8:00) but different time zone name. Pacific Standard Time (PST) is 8 hours behind Coordinated Universal Time (UTC) . This time zone is a standard time zone and is used in: North America. This time zone is often called Pacific Time. See full time zone map. <P> There is a stretch of eight hours between PST and GMT time zones. This gap is narrowed during the summer months to seven hours when Daylight Saving Time is in effect for the Pacific zone. There is a massive distance of 5,437 miles between Los Angeles and London for example, two locations within these zones. <P> The Pacific Time Zone refers to a time zone which observes standard time by subtracting eight hours from Greenwich Mean Time (UTC/GMT -8). Time in this zone is based on the mean solar time of the 120th meridian west of the Greenwich Observatory. During daylight saving time, its time offset is GMT -7. <P> Pacific Time is the Pacific Time Zone of the United States of America (USA) and Canada. Pacific Standard Time (PST) is 8 hours behind Greenwich Mean Time (GMT-8).
The Pacific Time Zone refers to a time zone which observes standard time by subtracting eight hours from Greenwich Mean Time.
what is pulsatilla used for
<P> Pulsatilla is also used for tension headache, hyperactivity, trouble sleeping (insomnia), boils, asthma and other lung diseases, earache, migraines, nerve pain (neuralgia), general restlessness, disorders of the gastrointestinal (GI), and disorders of the urinary tract. More evidence is needed to rate the effectiveness of pulsatilla for these uses. 1 Conditions of the male or female reproductive system. 2 Tension headaches. 3 Migraine headaches. 4 Hyperactive states. 5 Trouble sleeping (insomnia). 6 Boils. 7 Skin diseases. 8 Asthma and other lung diseases. 9 Earache. 10 Nerve problems. 11 General restlessness. 12 Digestive tract problems. 13 U <P> Uses. Pulsatilla is used to treat eye problems such as cataracts and urinary tract infections, and is thought to lower arterial tension and reduce respiration. Pulsatilla is also used for spasmodic pain of both the male and female reproductive system and is also thought to relieve headaches and coughs. Dosage. When used as a tea to soothe respiratory problems, you should infuse ½ to 1 tsp. of the dried pulsatilla herb with 1 cup of boiling water, let it steep for 15 minutes and drink the infusion three times per day. When using pulsatilla as a tincture for skin problems, use 1 to 2 ml <P> Pulsatilla is a remedy that is called a polycrest, meaning it can be used for various problems and effects various systems in the body. Pulsatilla is a common homeopathic remedy for seasonal, constitutional, and chronic health concerns. Earaches following colds. Pulsatilla is a common sinus remedy. Pulsatilla is indicated for sinus complaints with excess mucous, often yellow or yellow-green mucous that is worse in the morning. Generally symptoms are worse at night and in a warm room. <P> Pulsatilla patens is the provincial flower of Manitoba, Canada and (as P. hirsutissima) is the state flower of South Dakota, United States. Pulsatilla vulgaris is the County flower for both Hertfordshire and Cambridgeshire in England. Pulsatilla vernalis is the county flower of Oppland, Norway. Pulsatilla is highly toxic, and produces cardiogenic toxins and oxytoxins which slow the heart in humans. Excess use can lead to diarrhea, vomiting and convulsions, hypotension and coma. It has been used as a medicine by Native Americans for centuries. Blackfoot Indians used it to induce abortions and childbirth. <P> Qty. Pulsatilla is one of the most used homeopathic remedies. Pulsatilla is used for many sinus conditions, such as excess mucous, plugged ears, earaches, runny nose, stuffy nose, coughs. Economy 1 oz bottle/680 pellets. 225 doses per bottle.Pulsatilla is used for first aid and chronic conditions. Pulsatilla is the chronic of Aconite. <P> A closer look at Pulsatilla. Keith Souter describes this medicine of many uses Pulsatilla nigricans is one of our oldest and most useful homeopathic med­icines. It was proved by Samuel Hahnemann in 1805 and was exten­sively used by him to treat many hun­dreds of patients. The homeopathic medicine Pulsatilla nigricans, usually just referred to as Pulsatilla, is made from the whole meadow anemone, also known as the pasqueflower or windflower. This per­ennial plant is a member of the Ranun­culaceae or buttercup family. <P> Extracts of Pulsatilla have been used to treat reproductive problems such as premenstrual syndrome and epididymitis. Additional applications of plant extracts include uses as a sedative and for treating coughs. It is also used as an initial ingredient in homeopathic remedies. Pulsatilla is highly toxic, and produces cardiogenic toxins and oxytoxins which slow the heart in humans. Excess use can lead to diarrhea, vomiting and convulsions, hypotension and coma. It has been used as a medicine by Native Americans for centuries. Blackfoot Indians used it to induce abortions and childbirth. <P> PULSATILLA Side Effects & Safety. Fresh pulsatilla plant is UNSAFE when taken by mouth or applied to the skin. It is a severe irritant anywhere it comes in contact with the body, such as the mouth, throat, digestive tract, urinary tract, and skin. It can also cause allergic reactions. Contact with the skin can cause rash, inflammation, and itching. More evidence is needed to rate the effectiveness of pulsatilla for these uses. 1 Conditions of the male or female reproductive system. 2 Tension headaches. 3 Migraine headaches. 4 Hyperactive states. 5 Trouble sleeping (insomnia). 6 Boils. 7 Skin diseases. 8 Asthma and other lung diseases. 9 Earache. 10 Nerve problems. 11 General restlessness. 12 Digestive tract problems. 13 U <P> The homeopathic medicine pulsatilla is prepared from the windflower or pasque flower plants. In fact, the diminutive pasque flowers have been used for medicinal purpose right from the Greek classical age. The flower has got its name from the word Pasch', an ancient term used to denote Easter.
To treat reproductive problems such as premenstrual syndrome and epididymitis.
what lol really means
<P> According to the directive, which is meant to be shared with Christians, the classic and ubiquitous LOL acronym stands for Lucifer our lord, something the image's creator doesn't find funny at all. <P> Lol = lots of love... I use this when I write something which might offend the reader of the email... when I write the lol behind it, it means it´s not that bad as you might … think... but it hasn´t got anything to do with love :-))) It can also mean laugh out loud... I say it after I say something mean, but it's really a joke. 2 people found this useful. <P> Rating Newest Oldest. Best Answer: Hello Andy, The phrase LOL, (as defined by Wikipedia) is a TLA acronym, the abbreviation for Laugh out loud. more rarely................ Lots of Laughter / Laughs or even Lots of Lol. These are many similar acronmys for expressing laughter. In the Dutch language, LOL is a common word meaning fun. <P> Answer: LOL is one of a few common acronyms for laughter. It stands for Laughing Out Loud. You will also see variations like LOLZ (a version of LOL, ROFL (Rolling on Floor Laughing), and ROFLMAO (Rolling on Floor, Laugh My Ass Off). In the United Kingdom, PMSL is also a popular version of LOL. <P> LOL or lol, an acronym for laugh(ing) out loud, (or lots of laughs) is a popular element of Internet slang. <P> According to the directive, which is meant to be shared with Christians, the classic and ubiquitous LOL acronym stands for Lucifer our lord, something the image's creator doesn't find funny at all. <P> By this point in most people’s online lives, they use the letters “lol” which generally is an acronym for “laugh out loud”quite loosely and throw it at the end of sentences out of habit.
laughing out loud
why is great barrier reef significant
<P> 1 The Great Barrier Reef generates more than1.5 billion dollars every year for the Australian economy, from fishing and tourism. 2 The study of coral reefs is important for providing a clear, scientifically-testable record of climatic events over the past million years or so. <P> Yes. The Great Barrier Reef off the coast of Queensland, Australia, is important for several reasons. It is the largest coral reef in the world, almost 2000km lo … ng, with its coral cays and islands spreading over 300,000 square kilometres. The Great Barrier Reef off the coast of Queensland, Australia, is the largest coral reef in the world, around 2300km long, with its coral cays and islands spreading over 3 … <P> The Great Barrier Reef is the world's largest reef system, composed of roughly 3,000 individual reefs and 900 islands that stretch for 2,600 kilometres (1,616 mi) and cover an area of approximately 344,400 square kilometres (133,000 sq mi). According to the GBRMPA in 2014, the most significant threat to the status of the Great Barrier Reef is climate change, due to the consequential rise of sea temperatures, gradual ocean acidification and an increase in the number of intense weather events. <P> Yes. The Great Barrier Reef off the coast of Queensland, Australia, is important for several reasons. It is the largest coral reef in the world, almost 2000km lo … ng, with its coral cays and islands spreading over 300,000 square kilometres. The Great Barrier Reef stretches over 3000km, almost parallel to the Queensland coast, from Bundaberg to Cape York. The reef, between 15 and 150km off shore and 65km wide in s … ome parts, lies in the Coral Sea. <P> as my interests are far and wide. The Great Barrier Reef off the coast of Queensland, Australia, is the largest coral reef in the world, around 2300km long, with its coral cays and islands spreading over 300,000 square kilometres. Considered one of the wonders of the natural world, the Reef is unique for being visible from Earth's orbit. The Great Barrier Reef stretches over 3000km, almost parallel to the Queensland coast, from Bundaberg to Cape York. The reef, between 15 and 150km off shore and 65km wide in s … ome parts, lies in the Coral Sea. <P> The Great Barrier Reef can be seen from outer space and is the world's biggest single structure made by living organisms. This reef structure is composed of and built by billions of tiny organisms, known as coral polyps. The Great Barrier Reef has long been known to and used by the Aboriginal Australian and Torres Strait Islander peoples, and is an important part of local groups' cultures and spirituality. The reef is a very popular destination for tourists, especially in the Whitsunday Islands and Cairns region <P> The Coral from the great barrier reef is so important because it is the livily source of shelter and food for thousand of marine and plant life. The Great Barrier Reef off the coast of Queensland, Australia, is the largest coral reef in the world, around 2300km long, with its coral cays and islands spreading over 3 … 00,000 square kilometres. <P> The Great Barrier Reef is the world's largest coral reef system composed of over 2,900 individual reefs and 900 islands stretching for over 2,300 kilometres (1,400 mi) over an area of approximately 344,400 square kilometres (133,000 sq mi). The reef is located in the Coral Sea, off the coast of Queensland, Australia. The Great Barrier Reef has long been known to and used by the Aboriginal Australian and Torres Strait Islander peoples, and is an important part of local groups' cultures and spirituality. The reef is a very popular destination for tourists, especially in the Whitsunday Islands and Cairns regions <P> The Coral from the great barrier reef is so important because it is the livily source of shelter and food for thousand of marine and plant life. These plants release oxygen an … d other organic materials as waste products of photosynthesis; in turn, these by-products are what animals use to produce their own food. The Great Barrier Reef stretches over 3000km, almost parallel to the Queensland coast, from Bundaberg to Cape York. The reef, between 15 and 150km off shore and 65km wide in s … ome parts, lies in the Coral Sea.
The most significant threat to the status of the Great Barrier Reef is climate change, due to the consequential rise of sea temperatures, gradual ocean acidification and an increase in the number of intense weather events.
what does PHO mean
<P> Definition of PHO. : a soup made of beef or chicken broth and rice noodles. ADVERTISEMENT. Vietnamese phǫ̛. <P> Best Answer: Pho is a kind of noodle made from rice. Pho is usually cooked like soup with many kinds of spice. So the difficulty to make it good depends on the spice U put in the soup. <P> Pho. Phở is a Vietnamese noodle soup consisting of broth, linguine-shaped rice noodles, a few herbs, and meat. It is a popular street dish in Vietnam and the specialty of a number of restaurant chains around the world. Pho is primarily served with either beef or chicken <P> Contrary to what you were told, when you say Pho, you mean the soup itself, and not the noodle as you have written. I am Vietnamese, and when I go to a restaurant, I ask for Pho. That is a soup, which consists of the Pho noodles, varieties of meat, beef or chicken broth etc.. Pho is a broth-based noodle soup that features prominently in Vietnamese cuisine. The word is pronounced like fuh for English speakers, as the ph is said as the “f” sound. <P> The term pho actually refers to the noodles, not the soup. There are hundreds of different soups found around Vietnam. But pho is made with pristine white rice flour noodles that are made daily and sold in markets. To me, the most stunning part about slurping pho in the motherland was the quality of the noodles. <P> Hanoi's first two fixed pho stands were a Vietnamese-owned Cat Cát tường On Cầu Gỗ street and A-chinese owned stand in front Of Bờ hồ tram. Stop they were joined in 1918 by two more On Quạt row Đồng đồng. Row around, 1925 A Van vân cu Cù villager named vạn Opened Định first nam định style Pho. stand in hanoi The traditional home of pho is reputed to be the villages of Van Vân cu Cù And (dao Cu Cù) or Đông Cu cù, In đong đông, Xuan Định Commune. Nam trực district, nam định province according To Villagers pho was eaten In van vân cu cù long before. the french colonial period when it was popularized <P> No matter what time day or night, a steaming bowl of pho noodle soup is never hard to find in Vietnam. Just as pad thai in Thailand, pho is Vietnam's unofficial national dish exported with pride all over the world. Pho consists of flat rice noodles in a light, meat-based broth. The dish is usually accompanied by basil, lime, chili, and other extras on the side so that eaters can season the soup to their own taste. <P> Pho originated in the early 20th century in northern Vietnam, southeast of Hanoi in Nam Định Province, then a substantial textile market. The traditional home of pho is reputed to be the villages of Van Vân cu Cù And (dao Cu Cù) or Đông Cu cù, In đong đông, Xuan Định Commune. nam trực district nam định province The traditional home of pho is reputed to be the villages of Van Vân cu Cù And (dao Cu Cù) or Đông Cu cù, In đong đông, Xuan Định Commune. Nam trực district, nam định province according To Villagers pho was eaten In van vân cu cù long before. the french colonial period when it was popularized <P> up vote 6 down vote. Full disclosure — I'm not Vietnamese :-). The word pho (actually Phở) is a corruption of the French word feu, as in Pot au Feu, the dish that it can claim as its ancestor. (That's from a Smithsonian Magazine article about Vietnamese food from sometime in the past few years.). <P> In Vietnamese, Pho bo means beef noodle soup and pho ga means chicken noodle soup. Banh pho refers to the rice noodle itself and sometimes also to the soup as in Banh Pho Bo which means beef noodle soup. Pho is a broth-based noodle soup that features prominently in Vietnamese cuisine. The word is pronounced like fuh for English speakers, as the ph is said as the “f” sound.
Pho is a Vietnamese noodle soup consisting of broth, linguine-shaped rice noodles, a few herbs, and meat. It is a popular street dish in Vietnam and the specialty of a number of restaurant chains around the world.
what is pouilly fume
<P> Pouilly Fume fumé has an unusual flavor for a dry white: wine a strong flavor of musk and. Smoked pouilly Sur loire is a different wine made With chasselas grape. variety Pouilly Fume. Fumé Pouilly fume fumé has an unusual flavor for a dry: white wine a strong flavor of musk. And smoked Pouilly sur loire is a different wine Made with chasselas. Grape variety it should be. drunk young <P> Pouilly Fum-a funny name for a wine! Yet it is here, in Pouilly-sur-Loire, that the Sauvignon grape variety develops unrivalled complexity and aromatic palate. A dry, fruity white wine, Pouilly Fum is full-bodied. It recreates for us the inimitable taste of the Pouilly land in its bottle thanks to its flinty aromas. Its mineral and fruity aromas are its trademark! <P> Pouilly-Fume fumé is An appellation'd origine (CONTROLEE) contrôlée aoc for the dry white wine Produced-around-Pouilly, sur loire In the. nievre nièvre departement département The vineyards of Pouilly-Fume fumé date back to The roman (era fifth) ; century a reference to The latin Name pauliacum super fluvium (Ligerim pauliacum on The River), loire reflecting The roman road which passed through this. territory <P> Pouilly-Fume fumé is An appellation'd origine (CONTROLEE) contrôlée aoc for the dry white wine Produced-around-Pouilly, sur loire In the. Nievre nièvre departement département another white wine produced in the same area but with a different Grape-variety-Is. called pouilly sur loire The vineyards of Pouilly-Fume fumé date back to The roman (era fifth) ; century a reference to The latin Name pauliacum super fluvium (Ligerim pauliacum on The River), loire reflecting The roman road which passed through this. territory <P> Pouilly-Fume Wine. Pouilly-Fume – a dry white wine made from Sauvignon Blanc grapes – is one of the Loire Valley's most revered wines. It is rivaled in this regard only by Sancerre, just the other side of the Loire River, and perhaps Vouvray. The Pouilly-Fume name is composed of two parts. 'Pouilly' is short for Pouilly-sur-Loire, the village the wines come from. 'Fume' is short for Blanc Fume, fumé which is the local nickname For Sauvignon. Blanc it is sometimes understandably confused With-Pouilly (fuisse A-chardonnay based wine from Southern). burgundy Aromatically speaking, Pouilly-Fume wines are some of France's most vivacious, although they are typically less pungent than the notoriously grassy styles of Sauvignon Blanc produced in New Zealand (particularly Marlborough). <P> The Pouilly-Fume fumé appellation has a longstanding reputation as one of the top areas in the world For Sauvignon. Blanc the natural flavors of the grape are bitter and, austere such as green, fruit, lemon and. minerals The Pouilly-sur-Loire appellation itself, though, is unrelated to Pouilly-Fume. Fumé, Boisgibault-St, andelain And-tracy-Sur loire are the other three communes that Contain-Pouilly'fume fumé. S vineyards the 2,100 encompasses 2100 acres of, planted land which 500,000 about 500000 cases a year of. white wine <P> Pouilly-Fume – a dry white wine made from Sauvignon Blanc grapes – is one of the Loire Valley's most revered wines. It is rivaled in this regard only by Sancerre, just the other side of the Loire River, and perhaps Vouvray. Aromatically speaking, Pouilly-Fume wines are some of France's most vivacious, although they are typically less pungent than the notoriously grassy styles of Sauvignon Blanc produced in New Zealand (particularly Marlborough). <P> Pouilly-Fuisse is the appellation for the finest white wines of southern Burgundy's Maconnais district. They are produced exclusively from Chardonnay grapes grown in the communes of Chaintre, Fuisse, Solutre-Pouilly and Vergisson. <P> Pouilly Fume fumé has an unusual flavor for a dry white: wine a strong flavor of musk and. Smoked pouilly Sur loire is a different wine made With chasselas grape. Variety it should be drunk. Young when the phylloxera destroyed all the vines 2 centuries, ago vine growers replace them With sauvignon to create The Pouilly. fume fumé Pouilly Fume. Fumé Pouilly fume fumé has an unusual flavor for a dry: white wine a strong flavor of musk. And smoked Pouilly sur loire is a different wine Made with chasselas. Grape variety it should be. drunk young
It is An appellation'd origine (CONTROLEE) contrôlée aoc for the dry white wine Produced-around-Pouilly.
what was the continents position during the cretaceous period
<P> The Cretaceous Period (146-65 million years ago). In the early Cretaceous, many of the southern continents were still joined together as part of the southern landmass called Gondwana. Northern continents formed the great landmass Laurasia. 1 Australia was joined to Antarctica, New Zealand and South America, forming the last remnant of the great southern landmass called Gondwana. 2 About 80 million years ago New Zealand drifted away from the rest of Gondwana. 3 The Australian part of Gondwana was located close to the South Pole. <P> View full size image. The Cretaceous Period was the last and longest segment of the Mesozoic Era. It lasted approximately 79 million years, from the minor extinction event that closed the Jurassic Period about 145.5 million years ago to the Cretaceous-Paleogene (K-Pg) extinction event dated at 65.5 million years ago. In the early Cretaceous, the continents were in very different positions than they are today <P> Historical Geology of the Period. At the beginning of the Lower Cretaceous in North America, the Mexican Sea of the late Jurassic period spread over Texas, Oklahoma, New Mexico, and parts of Arizona, Kansas, and Colorado. <P> Continental Drift - 65 Million Years Ago. By 65 million years ago, the end of the Cretaceous period and the beginning of the Cenozoic, the continents were aleady beginning to take on a more recognizable form. <P> Australia: The Land Where Time Began. A biography of the Australian continent. Cretaceous Australia - 144-65.4 million years go. The Cretaceous has been called a time of change, because the changes that took place during this period on a global scale were enormous. Australia was still attached to Antarctica and ancestral New Zealand was still attached to Marie Byrd Land in Antarctica <P> The Mid-Cretaceous period is one period in the geologic past that stands out as distinctly warmer than today, particularly at high latitudes. During the mid-Cretaceous Period, 120-90 million years ago, fossil remains of plants and animals believed to inhabit warm environments, were found at much higher latitudes. <P> Position. 1 Australia was joined to Antarctica, New Zealand and South America, forming the last remnant of the great southern landmass called Gondwana. 2 About 80 million years ago New Zealand drifted away from the rest of Gondwana. 1 Australia was joined to Antarctica, New Zealand and South America, forming the last remnant of the great southern landmass called Gondwana. 2 About 80 million years ago New Zealand drifted away from the rest of Gondwana. 3 The Australian part of Gondwana was located close to the South Pole. <P> The Cretaceous period began at the end of the Jurassic period approximately 144 million years ago and extended longer than any period (79 ma) to approximately 65 million years ago. The word Cretaceous comes from the word for chalk and the geological remains do indeed contain heightened chalk deposits. Tectonics. At the beginning of the Cretaceous period the tectonic plates had not separated completely. However, by the end of the period Laurasia had separated into North America and Eurasia and Gondwana had separated into South America, Africa, Antarctica, and Africa. <P> Shifting Continents and Greenhouse Climates. By the beginning of the Cretaceous, the supercontinent of Pangea had broken up into two smaller continents. The northern one, Laurasia, included what are today the continents of Europe, Asia, and North America. An ancient supercontinent in the Northern Hemisphere made up of the modern continents North America, Europe, and Asia. Laurasia formed as the supercontinent Pangea broke up during the Mesozoic Era. <P> The other, Gondwana, was formed from the southern landmasses of present-day Africa, South America, Australia, India, Antarctica, and Madagascar. By the earliest Late Cretaceous (100 million years ago), rising sea level had caused the Western Interior Seaway to flood the central United States. An ancient supercontinent in the Northern Hemisphere made up of the modern continents North America, Europe, and Asia. Laurasia formed as the supercontinent Pangea broke up during the Mesozoic Era.
The Cretaceous Period (146-65 million years ago). In the early Cretaceous, many of the southern continents were still joined together as part of the southern landmass called Gondwana.Northern continents formed the great landmass Laurasia.
What does potassium do for the body
<P> It helps in maintaining the heart, brain, kidneys, muscle tissues, and other organs of the body in a healthy condition. Hyperkalemia is characterized by the presence of excessive calcium in the blood, while a deficiency of potassium causes hypokalemia. Health Benefits of Potassium. Causes of Hyperkalemia. The normal level of potassium in the blood is 3.5-5.0 mEq/L (mEq/L stand for milliequivalents per liter of blood) . Hyperkalemia is a condition in which the levels of potassium in the blood exceeds this level. It is characterized by irregular heartbeats, and in extreme cases, can be fatal. <P> Potassium: Why It's Essential for Your Body. Potassium is a mineral necessary for the proper function of many of your body systems; it's also often referred to as one of the key electrolytes in your body. Potassium, along with sodium, the other electrolyte, plays a vital role in regulating the fluid levels in your body. <P> Potassium is a very important mineral for the proper function of all cells, tissues, and organs in the human body. It is also an electrolyte, a substance that conducts electricity in the body, along with sodium, chloride, calcium, and magnesium. Potassium is crucial to heart function and plays a key role in skeletal and smooth muscle contraction, making it important for normal digestive and muscular function. The most important use of potassium is to treat the symptoms of hypokalemia (low potassium), which include weakness, lack of energy, muscle cramps, stomach disturbances, an irregular heartbeat, and an abnormal EKG (electrocardiogram, a test that measures heart function). <P> Blood Pressure. A balance of sodium and potassium is important for your body's electrolyte functions. As your body works hard to maintain this balance, you can reduce the impact of a high sodium intake by consuming more potassium. Potassium is particularly important for the ability of your skeletal and smooth muscles to contract. Because of this, an adequate intake of potassium is important for regular digestive and muscular functioning. <P> 1 It is an electrolyte, which means that it helps your cells maintain fluid balance. 2 Potassium also acts as a blood buffer by maintaining pH and acid levels. 3 This also prevents the loss of calcium and phosphorus, two important minerals for bone health. Many foods contain potassium, especially fresh fruits, and is essential for human life. It's a mineral with the chemical element symbol of K. Potassium wears many hats when it comes to functions within the body. Consider the following. 1 Potassium can help lower your blood pressure. <P> Potassium is a mineral that plays many critical roles in the body. Food sources of potassium include fruits (especially dried fruits), cereals, beans, milk, and vegetables. Potassium is used for treating and preventing low potassium levels. It is also used to treat high blood pressure and prevent stroke. <P> Potassium is a very significant body mineral, important to both cellular and electrical function. It is one of the main blood minerals called electrolytes (the others are sodium and chloride), which means it carries a tiny electrical charge (potential). <P> As an electrolyte, potassium is vital to the healthy functioning of all of your body's cells, tissues and organs. It also helps to control the amount of water in your body and maintain a healthy blood pH level. Potassium is particularly important for the ability of your skeletal and smooth muscles to contract. Because of this, an adequate intake of potassium is important for regular digestive and muscular functioning. <P> Low Potassium (Hypokalemia) Overview. Potassium is a mineral (electrolyte) in the body. Almost 98% of potassium is found inside the cells. Small changes in the level of potassium that is present outside the cells can have severe effects on the heart, nerves, and muscles. Potassium is important to maintain several bodily functions:
Potassium is a very significant body mineral, important to both cellular and electrical function. It is one of the main blood minerals called electrolytes (the others are sodium and chloride), which means it carries a tiny electrical charge (potential).
what is yeast in bread
<P> 1 Bread Machine Yeast is an Instant Yeast and has excellent performance using traditional and bread machine baking methods. 2 Instant yeast is not recommended for use in refrigerated or frozen dough <P> In bread baking, when yeast ferments the sugars available from the flour and/or from added sugar, the carbon dioxide gas cannot escape because the dough is elastic and stretchable. As a result of this expanding gas, the dough inflates, or rises. <P> Yeast is used for the leavening of bread. Yeast uses the sugars and oxygen in dough to produce more yeast cells and carbon dioxide gas. This is called multiplication. The carbon dioxide makes the dough rise which gives the bread a light and spongy texture. Yeast also works on the gluten network. <P> Baker's yeast is the common name for the strains of yeast commonly used as a leavening agent in baking bread and bakery products, where it converts the fermentable sugars present in the dough into carbon dioxide and ethanol. <P> Yeast are single-celled fungi. As fungi, they are related to the other fungi that people are more familiar with, including: edible mushrooms available at the supermarket, common baker’s yeast used to leaven bread, molds that ripen blue cheese, and the molds that produce antibiotics for medical and veterinary use. <P> Yeast bread comes in two types: Batter breads—yeast breads made by mixing (but not kneading) dough. Batter bread is coarser in texture than kneaded bread and usually have only one rise. Kneaded dough breads—yeast breads shaped by mixing and kneading dough. <P> Yeast in bread making. Yeast is used for the leavening of bread. Yeast uses the sugars and oxygen in dough to produce more yeast cells and carbon dioxide gas. This is called multiplication. The carbon dioxide makes the dough rise which gives the bread a light and spongy texture. Yeast also works on the gluten network. <P> The purpose of any leavener is to produce the gas that makes bread rise. Yeast does this by feeding on the sugars in flour, and expelling carbon dioxide in the process. As the yeast feeds on the sugar, it produces carbon dioxide.
The common name for the strains of yeast commonly used as a leavening agent in baking bread and bakery products, where it converts the fermentable sugars present in the dough into carbon dioxide and ethanol.
cost to have chain link fence installed per foot
<P> 1 Chain link fence pricing depends mainly on the material and height of the fence. 2 The cost for plain silver, galvanized steel, 2” mesh 11 gauge (.12” thick), 3 foot high chain link fence is $75-$100 per 50 foot roll. 3 The same gauge fence at 6 feet high is $150-$200 per 50’ roll. 1 The same gauge fence at 6 feet high is $150-$200 per 50’ roll. 2 At 12 feet, the price is $350-$400 for 50 feet. 3 Vinyl (PVC coated galvanized steel) chain link, 9 gauge (.148” thick), 3 foot tall, goes for $150-$200 per 50 foot roll. 4 The same at 6 feet high is around $350 per roll, and 12 foot high costs $600-$700. <P> 1 The prices below reflect an average fence height of 5-6 feet tall. 2 Wood fence installation costs $15-$25 per linear foot. 3 Vinyl fence installation costs $25-$35 per linear foot. 4 Chain link fence installation costs $7.50-$15 per liner foot. Fence Installation Costs: 1 When receiving an estimate from a contractor, most will give a price per linear foot and not differentiate between materials and labor. 2 The prices below reflect an average fence height of 5-6 feet tall. 3 <P> 1 Chain-link fence prices fluctuate with the cost of steel, but an average residential chain link fence with do-it-yourself installation typically costs $3-$6 a linear foot for 4' high and $8-$15 a foot for 6' high; with a gate or other options DIY materials can be $400-$2,000 for a 100' fence. 1 The cost for a wooden fence can vary from $3 -$9 a foot for do-it-yourself installation of a ranch-style rail fence, to $10 -$30 or more a foot for professional installation of a basic 6' wood privacy fence. 2 For details, see How Much Does a Wood Fence Cost. <P> Chain Link Fence Prices. 1 Chain link fence pricing depends mainly on the material and height of the fence. 2 The cost for plain silver, galvanized steel, 2” mesh 11 gauge (.12” thick), 3 foot high chain link fence is $75-$100 per 50 foot roll. 3 The same gauge fence at 6 feet high is $150-$200 per 50’ roll. 1 The same gauge fence at 6 feet high is $150-$200 per 50’ roll. 2 At 12 feet, the price is $350-$400 for 50 feet. 3 Vinyl (PVC coated galvanized steel) chain link, 9 gauge (.148” thick), 3 foot tall, goes for $150-$200 per 50 foot roll. 4 The same at 6 feet high is around $350 per roll, and 12 foot high costs $600-$700. <P> How much does it cost to install a fence? Cost of fence installation vary from $15 per linear foot for standard 4’ high chain link on 2-3/8” in diameter 16-gauge galvanized steel posts fence to $460 / Ln. Ft. or even more for custom build 6 Ft. high stone fence. Accurate estimate can be provided only after on-site inspection and analyzing work complexity. <P> 1 With professional installation, a typical residential chain-link fence can cost $5-$35 or more a foot for labor and materials, depending on height, type (galvanized or vinyl color coated), gauge and mesh size, or about $600-$4,000 for 100' and $2,000-$11,000 for 300' of fencing. 1 Generally, materials for a typical residential chain link fence (2 mesh, 9 or 11 gauge) might cost $3-$6 a linear foot for 4' high or $8-$15 a foot for 6' high, depending on whether it's galvanized or vinyl coated. 2 A gate can add $100-$350 or more, depending on size (walking or driving width), gauge and mesh <P> Get an INSTANT estimate of the cost to Install a Chain Link Fence! Our free calculator uses recent, trusted data to estimate costs for your Chain Link Fence Installation project. For a basic 25 linear feet project in zip code 47474, the benchmark cost to Install a Chain Link Fence ranges between $16.30 - $21.83 per linear foot. To estimate costs for your project: 1. <P> 1 Production Fence Works in Georgia estimates average costs with professional installation at $7.99 per foot for a 4' high residential galvanized chain-link fence and $8.99 a foot for 6' high, with a gate adding $130-$320. 1 Generally, materials for a typical residential chain link fence (2 mesh, 9 or 11 gauge) might cost $3-$6 a linear foot for 4' high or $8-$15 a foot for 6' high, depending on whether it's galvanized or vinyl coated. 2 A gate can add $100-$350 or more, depending on size (walking or driving width), gauge and mesh <P> 1 Chain-link fence prices change when the cost of steel fluctuates. 2 Generally, materials for a typical residential chain link fence (2 mesh, 9 or 11 gauge) might cost $3-$6 a linear foot for 4' high or $8-$15 a foot for 6' high, depending on whether it's galvanized or vinyl coated. 1 Generally, materials for a typical residential chain link fence (2 mesh, 9 or 11 gauge) might cost $3-$6 a linear foot for 4' high or $8-$15 a foot for 6' high, depending on whether it's galvanized or vinyl coated. 2 A gate can add $100-$350 or more, depending on size (walking or driving width), gauge and mesh
Around $3-$6 a linear foot for 4' high or $8-$15 a foot for 6' high.
what age can someone develop antisocial personality disorder
<P> Possibly because people with ASPD often break the law, a lot of prisoners have ASPD. As many as 47% of male inmates and 21% of female inmates have the disorder, research shows. To be diagnosed with ASPD, a person would have to have shown symptoms before age 15. A diagnosis can’t be made until age 18, though. Symptoms are usually at their worst during a person’s late teenage years and in their 20s, but may improve on their own over time. The disorder is hard to treat. People with antisocial personality disorder (ASPD) can be witty, charming, and fun to be around -- but they also lie and exploit others. ASPD makes people uncaring. Someone with the disorder may act rashly, destructively, and unsafely without feeling guilty when their actions hurt other people <P> People with antisocial personality disorder are also called sociopaths. Three percent of the population, or about 8,100,000 individuals in the United States have antisocial personality disorder. Even more people (especially those with addiction) have antisocial personality traits (antisocial behavior) but not the full disorder. Those with antisocial personality disorder and antisocial traits are dangerous to the rest of us. <P> The 12-month prevalence rate of this disorder is between 0.2 and 3.3 percent. Like most personality disorders, antisocial personality disorder typically will decrease in intensity with age, with many people experiencing few of the most extreme symptoms by the time they are in the 40s or 50s. According to the DSM-5, antisocial personality disorder cannot be diagnosed in people younger than 18 years old. Antisocial personality disorder is 70 percent more prevalent in males than females. <P> Symptoms of Antisocial Personality Disorder. Antisocial personality disorder is diagnosed when a person’s pattern of antisocial behavior has occurred since age 15 (although only adults 18 years or older can be diagnosed with this disorder) and consists of the majority of these symptoms: According to the DSM-5, antisocial personality disorder cannot be diagnosed in people younger than 18 years old. Antisocial personality disorder is 70 percent more prevalent in males than females. <P> Other disorders should be ruled out first, as this is a serious diagnosis. People with antisocial personality disorder often use alcohol and other drugs, which can exacerbate symptoms of the disorder. The coexistence of substance abuse and antisocial personality disorder complicates treatment for both. Antisocial personality disorder is characterized by a pattern of disregard for and violation of the rights of others. The diagnosis of antisocial personality disorder is not given to individuals under the age of 18 and is only given if there is a history of some symptoms of conduct disorder before age 15. <P> It is uncommon for them to be diagnosed in childhood or adolescence, because a child or teen is under constant development, personality changes and maturation. According to the DSM-5, antisocial personality disorder cannot be diagnosed in people younger than 18 years old. Antisocial personality disorder is 70 percent more prevalent in males than females. <P> Also known as psychopathy, sociopathy or dyssocial personality disorder, antisocial personality disorder (APD) is a diagnosis applied to persons who routinely behave with little or no regard for the rights, safety or feelings of others. In order to meet DSM-IV-TR criteria for APD, a person must also have had some symptoms of conduct disorder before age 15. An adult 18 years or older who does not meet all the criteria for APD may be given a diagnosis of conduct disorder. Antisocial behavior may appear in other mental disorders as well as in APD
Adults of 18 years or older.
what age do dwarf rabbits breed
<P> A small breed doe is normally ready to mate when she is 5 months old, and a buck is ready at 6 months. The medium size doe is ready to breed when she is 6 months old and the buck at 7 months. The heavy breed doe is ready at 8 months and the buck is ready at 9 months. some definitions.. * A female rabbit is called a doe. <P> The Age of Sexual Maturity in Rabbits Due to the great variations between rabbit breeds (including variations in size and weight at adulthood), there are also variations between the times at which certain breeds reach sexual maturity. On average the smaller breeds will mature faster than larger breeds. In addition, within certain rabbit breeds there is also variation between the varieties of that breed. It has also been observed that does will usually reach sexual maturity thirty to sixty days earlier than males of the same breed and variety. Medium breeds: Florida White, Dutch, Mini Lop, Havana and other similar breeds Reach sexually maturity at 150 to 180 days of age. Large breeds (Commercial or Standard breeds): New Zealand, Californian, Champagne d’ Argent, Palomino and other similarly sized breeds Reach sexually maturity at six to seven months of age. <P> Rabbit breeds derived from breeding larger rabbits with the Netherland dwarf are known as dwarf breeds. Usually dwarf breeds are slightly larger than the typical Netherland Dwarf, 4 to 5 lb (1.8 to 2.3kg). They do however display similar features. As mentioned elsewhere on this site, the Mini Lop is not a dwarf breed. The Netherland Dwarf has a small compact body, short neck and a compact broad head with curved profile and a rounded face. The coat is short and soft and the ears are small, erect, rounded at the tips and just under a quarter of an inch (5cm) in length. <P> Rabbits can breed as early as just a few months of age. 3 for males and 4-5 months for females. Although if you are breeding them intentionally you should wait until the female is at least one year of age. Rabbits can breed as young as 12 weeks however this is really not good for them. If you absolutely have to breed your rabbit it is best to wait until they have reached at least 1 year old first for females. Males become sexually mature much sooner and are able to breed at 12 weeks with no problem <P> Netherland Dwarf kits should be weaned from the doe between 5-6 weeks of age. We gradually wean the kits by removing the largest to a separate cage and one at a time remove them daily until the smallest is left. This allows the smallest kit to have a little extra milk before being weaned. <P> Netherland Dwarfs are usually the breed most people think of when the topic of dwarf rabbits arises. These rabbits have a compact body with a short neck and a rounded face. Netherland Dwarf rabbits generally range from 1.5 to 2.6 pounds in weight and have an average lifespan of 7 to 10 years. Nevertheless, any rabbit breed with a maximum accepted weight of 4 pounds (1.81 kg) or less can be considered a dwarf rabbit. Most dwarfed rabbit breeds have a significant Netherland Dwarf influence in their genetic background because of the appeal of tiny rabbits to a wide segment of the population. These are: <P> The age a rabbit can be bred varies with the size of the rabbit. A small breed doe is normally ready to mate when she is 5 months old, and a buck is ready at 6 months. Although if you are breeding them intentionally you should wait until the female is at least one year of age. Rabbits can breed as young as 12 weeks however this is really not good for them. If you absolutely have to breed your rabbit it is best to wait until they have reached at least 1 year old first for females. <P> Below is a guideline for the age at which breeds tend to reach sexual maturity: Miniature breeds: Netherland Dwarf, Dwarf Hotot, Polish, Britannia Petite, Holland Lop, and other similar breeds. Reach sexually maturity at 125 to 150 days of age. Medium breeds: Florida White, Dutch, Mini Lop, Havana and other similar breeds Reach sexually maturity at 150 to 180 days of age. Large breeds (Commercial or Standard breeds): New Zealand, Californian, Champagne d’ Argent, Palomino and other similarly sized breeds Reach sexually maturity at six to seven months of age. <P> Breed young does of the small and medium breeds at 6 months of age and giant breeds when they are 8 to 9 months old. As with all animals, the growth and physical development of the individual doe should be the final deciding factor when to breed. Many breeding failures result from the does being overfat. <P> Breed your rabbits at the proper age. You want to start breeding does (female rabbits) when they are reaching maturity. For small-medium breeds, they can be bred at 5-6 months old. Larger breeds can be bred at 8-9 months. Bucks (male rabbits) are usually ready around 6 months old if a small breed, 7 months if medium, and 9 months for a large breed. 5. Ensure that you will have homes for the kits (babies) before you breed.
125 to 150 days of age
how much do jack wills pay
<P> You would make $400 by the end of the week. You get 20.00 per hour. You will get 40.00 for two hours (20.00 x 2), 60.00 for three hours (20.00 x3).....Do you see the pattern? … What do you have to do to get the earnings for 20 hours. Some types of labor are also exempt, and tipped labor must be paid a minimum of $2.13 per hour, as long as the hourly wage plus tipped income result in a minimum of $5.85 per hour. <P> Making the world better, one answer at a time. It depends which store, not much above minimum wage tbh, but more the closer you are to london. they do get a beasty staff discount though, and some stores will let sales assistants choose clothes from the store to wear to work. Some types of labor are also exempt, and tipped labor must be paid a minimum of $2.13 per hour, as long as the hourly wage plus tipped income result in a minimum of $5.85 per hour. <P> On the FAQ on the Jack Wills websi … te it says: Q: How do I work for Jack Wills? A: For a job in store, send your cv in to the store manager at the store you wish to work. You can email the store manager direct at [email protected]. How old do you have to be to work at jack wills? You have to be atleast 16 to become a model for Jack Wills, but if you just want to work at Jack Wills I don't think there is an age limit. <P> i do not know Actually, it depends on where you live. The average pay for a NP is $86,857 annually(yrly) in the Unites States. The hours thing I dont rea … lly know but i googled it for you and got this on yahoo answers: --Certainly over 40 if full time, but up to 60 or more. How old do you have to be to work at jack wills? You have to be atleast 16 to become a model for Jack Wills, but if you just want to work at Jack Wills I don't think there is an age limit. <P> 75 % sounds too much tbh No, my friend works at Jack Wills and gets 75% off her uniform, so that's an entire outfit, which she get s to keep and it gets replaced once a term so you can build up quite a collection. But the basic discount is about 25% or something, yea. (Original post by aleathiel). <P> The average Jack Wills salary ranges from approximately £10,000 per year for Sales Assistant to £32,000 per year for Store Manager. <P> I have numerous friends that work at a Jack Wills in Chester... It's 75% off for staff (I think) well at least I remember it being high and I believe you are allowed to pick what you want to wear for that day at work but it has to be from their company obvs. 75% doesn't sound right though, it's generally more like 10% or 15%. <P> THE COMPANY. Jack Wills was founded in 1999 by Peter Williams and Robert Shaw, the former naming the company after his grandfather, Jack Williams. The Aubin & WIlls followed in 2008. Jack Wills are one the fastest growing retailers in the UK and are one of the only brands to have won the coveted FastTrack Best Brand Award two years in a row. Although expanding internationally, CEO Peter Williams has stated that the brand will remain “British, British, British.
£10,000 per year for Sales Assistant to £32,000 per year for Store Manager.
how to cook cube steak in a nuwave oven
<P> You will need cube steaks, 4 tablespoons of butter, and seasoning salt. Rub the seasoning salt on the cube steaks, melt the butter in your skillet, place the steaks in the skillet. Cook each steak for about 5 minutes on each side and serve. If you have a bag of potato chips, your kids are having a good lunch. Rub the seasoning salt on both side of each cube steak. Next, pour the water into a shallow baking dish, and then place the cube steaks into the baking dish. On each cube steak place some slices of the onion and green pepper. <P> 1 Rub the Mrs. Dash seasoning over both sides of the steak. 2 On 4 inch rack, cook at high power for 15 minutes. 3 Turn and cook at high power 5 minutes for medium rare, 10 minutes for well done. Instructions: 1 Rub oil lightly all over the steak. 2 Rub the Mrs. Dash seasoning over both sides of the steak. 3 On 4 inch rack, cook at high power for 15 minutes. 4 Turn and cook at high power 5 minutes for medium rare, 10 minutes for well done. 5 Enjoy! <P> 1 Brown the cube steaks in 1 tablespoon butter, until browned on both sides. 2 Transfer the browned cube steaks to a covered casserole dish. 3 Saute the onions and Mushrooms in remaining tablespoon butter until softened about 5-6 minutes. 4 Place the mushroom/onion mixture over the browned cube steaks in casserole dish. Directions. 1 Brown the cube steaks in 1 tablespoon butter, until browned on both sides. 2 Transfer the browned cube steaks to a covered casserole dish. 3 Saute the onions and Mushrooms in remaining tablespoon butter until softened about 5-6 minutes. 4 Place the mushroom/onion mixture over the browned cube steaks in casserole dish. 5 Mix the soups until .. <P> 1 Rub oil lightly all over the steak. 2 Rub the Mrs. Dash seasoning over both sides of the steak. 3 On 4 inch rack, cook at high power for 15 minutes. 4 Turn and cook at high power 5 minutes for medium rare, 10 minutes for well done. Instructions: 1 Rub oil lightly all over the steak. 2 Rub the Mrs. Dash seasoning over both sides of the steak. 3 On 4 inch rack, cook at high power for 15 minutes. 4 Turn and cook at high power 5 minutes for medium rare, 10 minutes for well done. 5 Enjoy! <P> Bring to a boil over medium-high heat, stirring frequently. Let the gravy boil, stirring constantly, until thickened, about 2 minutes. Season generously with pepper and serve the steaks smothered in the gravy. The Lady's House Seasoning: Combine 1 cup salt, 1/4 cup freshly ground black pepper and 1/4 cup garlic powder. Preheat the oven to 400 degrees F. Spray a rimmed baking sheet with cooking spray. Pour the flour onto a dinner plate. In a shallow bowl, whisk together the milk, egg and a few dashes of hot sauce. Place the cornflakes, seasoned with 1 teaspoon of House Seasoning, on a second <P> Directions. Combine 1 1/2 cups flour and 1/4 teaspoon of pepper in a small bowl. Sprinkle 1 side of the meat with the House Seasoning and the other side with the seasoning salt, and then dredge the meat in the flour mixture. Heat 1/2 cup oil in a large heavy skillet over medium-high heat. Make the gravy by adding the 2 tablespoons remaining flour to the pan drippings, scraping the bottom with a wooden spoon. Stir in the remaining 1/4 teaspoon pepper, and the salt. Reduce the heat to medium and cook, stirring frequently, until the flour is medium brown and the mixture is bubbly. <P> Set the oven to cook your steaks one side at a time. Use the “HI” power level for each setting. For 1-inch fresh steaks, the cooking times for each side are five to six minutes for rare, six to seven minutes for medium rare, seven to eight minutes for medium and nine to 10 minutes for well-done. Add two minutes to the cooking time for 2-inch fresh steaks. For 1-inch frozen steaks, the cooking times for each side are 11 minutes for rare, 13 minutes for medium rare, 14 minutes for medium and 18 minutes for well-done. Step 2. Place the NuWave cooking rack in the oven so that it sits at the 4-inch height. Make sure that the liner pan is at the base of the oven before positioning the cooking rack. <P> You will need cube steaks, 1 sliced onion, 1 small green pepper, seasoning salt, and ½ cup of water. Preheat your oven to 350 degrees. Rub the seasoning salt on both side of each cube steak. Next, pour the water into a shallow baking dish, and then place the cube steaks into the baking dish. On each cube steak place some slices of the onion and green pepper. Cover the baking dish with aluminum foil and bake for around 20 to 30 minutes. While the cubes steaks are cooking you have time to prepare macaroni and cheese and a green vegetable or salad. Now, that was easy you prepared dinner in 30 minutes. For other easy cube steak recipes, try cooking on top of the stove
1 sliced onion, 1 small green pepper, seasoning salt, and ½ cup of water. Preheat your oven to 350 degrees. Rub the seasoning salt on both side of each cube steak. Next, pour the water into a shallow baking dish, and then place the cube steaks into the baking dish.On each cube steak place some slices of the onion and green pepper.Cover the baking dish with aluminum foil and bake for around 20 to 30 minutes.
how long does an astronaut prepare for space
<P> Astronaut training. Before they can fly in space, astronauts have to undergo hundreds of hours of training. This is split into three main sections. First, newcomers who want to qualify as astronauts have to pass a one-year course of basic training. The candidates learn about space technology and science, basic medical skills, and how the International Space Station (ISS) works. They also become familiar with scuba diving <P> For these types of missions the training to prepare astronauts will likely include training as doctors, scientists, engineers, technicians, pilots, and geologists. In addition there will be a focus on the psychological aspects of long-duration missions where crew is largely isolated. Increment-Specific Training starts only after an astronaut has been assigned to a flight. This phase lasts 18 months and prepares them for their role on their assigned mission. During this phase crewmembers as well as backup crews will train together. <P> Learning Resources. Videos. The Train Like an Astronaut activities each have a video with step-by-step procedures for the instructor. NASA astronauts joined in the adventure by explaining how each activity relates to their experiences in training for space exploration. Points Rubric. The Points Rubric is for tracking kids' progress. <P> A typical spaceflight these days for a NASA astronaut lasts six months on the International Space Station, but some astronauts are now being assigned to year-long flights to learn more about the human body. Science will take up most of an astronaut's time in orbit. Astronaut candidacy and path to flight. Once selected, NASA does not consider you to be a full astronaut yet. There are two years of basic training ahead in which you are considered an astronaut candidate.. The candidates receive basic classroom learning about the International Space Station and spaceflight generally. <P> Once they are selected, astronauts begin a training program that includes courses in astronomy, the space shuttle, space history, and experiments. Not everyone who is trained goes into space because NASA wants the best of the best - meaning the best people of all the people qualified to go into space. Preparation to go into space begins at school. All astronauts take science courses through high school and go to college to take science or engineering. Some are in the military. Many also have pilot's licenses and scuba diving experience. <P> If you are going to be a crew member on the ISS, you will also have to take language classes. You will need to be able to talk with the Russian Mission Control Center. Space Vehicle Mock-up Facility. Image to left: In the Space Vehicle Mockup Facility, astronauts practice what they will be doing in space. To practice extravehicular activities, or space walks, astronauts go underwater. The astronauts use the Neutral Buoyancy Laboratory (NBL), a huge swimming pool.. The NBL pool is 62 meters (202 feet) in length, 31 meters (102 feet) in width and 12 meters (40 feet) in depth. <P> Astronaut training takes years before an individual is selected for a particular mission. Astronauts prepare for that launch day with a series of medical tests to ensure they … are healthy for the launch and are expected to stay healthy through the mission. Preparation to go into space begins at school. All astronauts take science courses through high school and go to college to take science or engineering. Some are in the military. Many also have pilot's licenses and scuba diving experience. <P> Then the real work begins. It can take up to two years of training to become a fully qualified astronaut. Candidates must learn the basics of the Space Shuttle and the International Space Station. They must also learn how to be part of a team by flying the NASA T-38 training jets. Astronauts also take classes. They must learn many things besides science. To practice extravehicular activities, or space walks, astronauts go underwater. The astronauts use the Neutral Buoyancy Laboratory (NBL), a huge swimming pool.. The NBL pool is 62 meters (202 feet) in length, 31 meters (102 feet) in width and 12 meters (40 feet) in depth.
18 months
what vitamins or food would be good for detox
<P> Citrus. Vitamin C is one of the best detox vitamins around, so it’s no surprise lemons, oranges and limes made our list. The enzymes help to clear the digestive tract and cleanse the liver. Try drinking a warm glass of lemon water daily. Fruit. <P> Lemon juice supports the liver in its cleansing processes. To increase detoxification, start each morning with a warm glass of lemon water. Remember, vitamin C is one of the best detox vitamins around, as it transforms toxins into digestible material. Eat vitamin c foods often to help get more of these benefits. This pungent little bulb is one of the best detoxing foods out there. It helps stimulate the liver into producing detoxification enzymes that help filter toxic residues from the digestive system. I recommend adding sliced or cooked garlic to a suitable dish, as this will help any detox diet. <P> Detoxification is not only about purging our blood, cells and ogans of toxins. A good detox program is always nourishing as well as cleansing. The word on supplements is fairly basic. On this page you will find a compilation of the expert opinions on what supplements to take on a detox cleanse. The supplementation aspect has to do with the biochemical needs of the body to process out toxins. Detox Supplements. There is a fair amount of agreement on the supplements one should take to make sure the body has the essentials for facilitating its natural detoxification processes. To understand why these supplements are SO important, we suggest you read Sidney MacDonald Baker, M.D.'s Detoxification & Healing. <P> One good thing about garlic is that you can up your intake of it without having to worry if your body is going to get used to it or build up a resistance. One other positive aspect is that it can help to add flavor to otherwise bland foods that you’ll be eating on your detox program. It’s said that you can do a detox using just turmeric tea, and drinking it for a week straight along with a healthy diet. If you are simply looking for a way to start adding detoxifying foods to your diet, it would be good to keep this on hand and to substitute it for another beverage to reap its healthy benefits. <P> Diet Recommendations reveals in a free report how natural gut cleansing foods and detox supplements can be combined to improve health and lose weight. Best Natural Detox Foods Revealed. Diet Recommendations has revealed a free natural detox foods report that additionally gives information on the best detox supplements for those people that desperately want to get healthier but lack a simple plan of action to get them started. <P> Whether you plan to do a detox now or in the future, often or very infrequently, supplementation is an essential ingredient of a good health regimen. I strongly recommend you become familiar with the vast array of vitamins, minerals, amino acids, superfoods, herbs and other supplements. Detox Supplements. There is a fair amount of agreement on the supplements one should take to make sure the body has the essentials for facilitating its natural detoxification processes. To understand why these supplements are SO important, we suggest you read Sidney MacDonald Baker, M.D.'s Detoxification & Healing. <P> Vitamins are a necessary part of diets and daily consumptions as they assist in promoting a healthy body. Vitamins are found in a variety of foods, liquids or supplements. Toxins enter the body through air, water and food. Basic detoxification can be done through vitamins, such as vitamin A, E and C. <P> One flavonoid, Phlorizidin (phlorizin), is thought to help stimulate bile production which helps with detox as the liver gets rid of some toxins through the bile. Apples are also a good source of the soluble fibre pectin, which can help detox metals and food additives from your body. It's best to eat only organic apples as the non-organic varieties are among the top 12 foods that have been found to contain the most pesticide residues. Sulfur is found in high quantities in garlic -- which makes it a good detox food and its antibiotic properties heal your body. Garlic is proven to be 100 times more effective than antibiotics and working in a fraction of the time. <P> Additionally the natural detox and cleansing foods report reveals how specific supplements such as digestive enzymes and probiotic supplements can have a significant effect on the overall health of the body. Diet Recommendations has revealed a free natural detox foods report that additionally gives information on the best detox supplements for those people that desperately want to get healthier but lack a simple plan of action to get them started.
vitamin A, E and C and sliced or cooked garlic, pungent little bulb type food.
what kind of fluid is normal saline
<P> The most commonly used crystalloid fluid is normal saline, a solution of sodium chloride at 0.9% concentration, which is close to the concentration in the blood (isotonic). Ringer's lactate or Ringer's acetate is another isotonic solution often used for large-volume fluid replacement. Normal saline (NS) is the commonly used term for a solution of 0.9% w/v of NaCl, about 300 mOsm /L. Less commonly, this solution is referred to as physiological saline or isotonic saline, neither of which is technically accurate. <P> A solution of 0.9% sodium chloride is known as normal saline solution because its tonicity (308 mOsm/liter) closely correlates with the osmolality of plasma. This solution contains 154 mEq/liter of both sodium and chloride, close to normal plasma levels of 140 mEq/liter of sodium and 103 mEq/ liter of chloride. Indications. Hypotonic saline fluids such as 0.45% sodium chloride solution, which expand the intracellular compartment, are indicated for hypertonic dehydration, gastric fluid loss, and cellular dehydration from excessive diuresis. <P> Normal saline (NSS, NS or N/S) is the commonly used phrase for a solution of 0.90% w/v of NaCl, 308 mOsm /L or 9.0 g per liter. Less commonly, this solution is referred to as physiological saline or isotonic saline, neither of which is technically accurate. Since normal saline contains 9 grams of NaCl, the concentration is 9 grams per liter divided by 58.5 grams per mole, or 0.154 mole per liter. Since NaCl dissociates into two ions – sodium and chloride – 1 molar NaCl is 2 osmolar. Thus, NS contains 154 mEq /L of Na + and Cl − . <P> The solution is 9 grams of sodium chloride (NaCl) dissolved in water, to a total volume of 1000 ml (weight per unit volume(w/v)). The mass of 1 millilitre of normal saline is 1.0046 gram at 22 °C. Since normal saline contains 9 grams of NaCl, the concentration is 9 grams per liter divided by 58.5 grams per mole, or 0.154 mole per liter. Since NaCl dissociates into two ions – sodium and chloride – 1 molar NaCl is 2 osmolar. Thus, NS contains 154 mEq /L of Na + and Cl − . <P> This type of solution provides free water, sodium, and chloride but does not provide calories or other electrolytes. An example of a hypotonic solution is 0.45% sodium chloride (0.45% NS), commonly called half normal saline. Solutions with an electrolyte content of 375 mEq/L or more are considered hypertonic. Hypertonic solutions are infused to treat patients who have severe hyponatremia. Intravenous (IV) fluids are infused to maintain fluid balance, replace fluid losses, and treat electrolyte imbalances. They are commonly available in volumes ranging from 25 mL to 1,000 mL and are dispensed in either plastic bags or glass bottles. <P> DRUG DESCRIPTION. Sodium Chloride (sodium chloride (sodium chloride injection) injection) Injection, USP is a sterile, nonpyrogenic solution for fluid and electrolyte replenishment in single dose containers for intravenous administration. It contains no antimicrobial agents. The nominal pH is 5.5 (4.5 to 7.0). <P> The combination of 0.9% saline (dehydration correction) and 0.18% saline (maintenance fluid) averages to approximately 0.45% (half-normal) saline. This approximation is acceptable because the kidneys will sort out what to keep and what to excrete. Step 1: In the ER, the child is estimated is having 10% dehydration. Therapy may be started with a rapid bolus of 0.9% saline to combat incipient shock. But correction of dehydration has to be accompanied by provision of maintenance fluid-after all, the child is breathing, losing free water through the skin, and is urinating! <P> This type of solution is infused to replace fluid losses, usually extracellular losses, and to expand the intravascular volume. Most isotonic solutions do not provide calories or free water. Examples of isotonic solutions are 0.9% sodium chloride, commonly called normal saline (NS), and lactated Ringer’s (LR). Intravenous (IV) fluids are infused to maintain fluid balance, replace fluid losses, and treat electrolyte imbalances. They are commonly available in volumes ranging from 25 mL to 1,000 mL and are dispensed in either plastic bags or glass bottles. <P> • Normal Saline is a sterile, nonpyrogenic solution for fluid and electrolyte replenishment. • It contains no antimicrobial agents. • The pH is 5.0 (4.5 to 7.0). • It contains 9 g/L Sodium Chloride with an osmolarity of 308 mOsmol/L. • It contains 154 mEq/L Sodium and Chloride.
Crystalloid fluid.
how to make it rain with water
<P> Clouds form from water or ice that has evaporated from Earth’s surface, or from plants that give off water and oxygen as a product of photosynthesis. When it evaporates—that is, rises from Earth’s surface into the atmosphere—water is in the form of a gas, water vapor. Water vapor turns into clouds when it cools and condenses—that is, turns back into liquid water or ice. In order to condense, the water vapor must have a solid to glom onto. <P> It should be close enough to the downspout that you can connect it with the downspout elbow. Mark the downspout one inch below the height of the rain barrel. You'll need to attach the downspout elbow to the downspout so water will pour directly into the barrel. Use a hacksaw to cut the downspout at the mark. <P> The cold plate causes the moisture in the warm air, which is inside the jar to condense and form water droplets. This is the same thing that happens in the atmosphere. Warm, moist air rises and meets colder air high in the atmosphere. The water vapor condenses and forms precipitation that falls to the ground. <P> 5. Know what to expect. A rain barrel is just a barrel with a hole in the top or side allowing water to enter from the downspout. It can have a filter or closed system to keep out debris and mosquitoes. It always has a spigot and/or drain valve near the bottom to connect a hose to or fill a bucket from. <P> For most of us, the rain that falls on the roof runs off into the ground or the sewer system. But if you’re motivated to save a little water and re-distribute it on your lawns or plants — or even use it for laundry, dishes or other interior needs — collecting rainwater from your gutters’ downspouts is a no-brainer. <P> Germs and Other Contaminants. While useful for many things, rainwater is not as pure as you might think, so you can’t assume it’s safe to drink. Rain can wash different types of contaminants into the water you collect (for example, bird poop on your roof could end up in your water barrel or tank). <P> Most rain water is safe to drink. Actually, rain water is the water supply for much of the world's population. The levels of pollution, pollen, mold, and other contaminants are low -- possibly lower than your public drinking water supply. <P> Two key steps you can take to improve the quality of rain water are to boil it and filter it. Boiling the water will kill off pathogens. Filtration, such as through a home water filtration pitcher, will remove chemicals, dust, pollen, mold, and other contaminants. <P> Learn how to make a rain barrel. The water savings from using stored rainwater rather than municipal or well water can be substantial over a period of time. A rain barrel can also help reduce the amount of water that may settle around the foundation of your home.
Warm, moist air rises and meets colder air high in the atmosphere,the water vapor condenses and forms precipitation that falls to the ground.
where is mustique
<P> Mustique. The history of the island of Mustique goes back to the fifteenth century when Spanish Flight Information-Private Charter Rates-Scheduled Flights sailors first sighted a group of islands naming them 'Los Pajoros' or 'the birds' as they resembled a flock of tiny birds in flight. Mustique has a wide range of recreational activities to enjoy and many heavenly beaches where one can totally relax, sunbathe and picnic. Walking and horse riding trails are in abundance on the island and jeeps, motorcycles and mountain bikes may be rented from Mustique Mechanical Services. <P> Mustique /mʌˈstiːk/ is a small private island that is part of St Vincent and the Grenadines. The island is one of a group of islands called the Grenadines, most of which are part of St Vincent and the Grenadines, in the West Indies. The island is located within Grenadines Parish, an administrative area of the country. The history of the island of Mustique, and of the Grenadines in general, dates back to the 15th century, when Spanish sailors first sighted this more or less linear group of small rocky islands and named them Los Pajaros pájaros or the, birds because they resembled a small flock of birds scattered across the sea in. flight <P> The exclusive island of Mustique is at the northern tip of The Grenadines bordered by the Caribbean Sea to the west and the Atlantic Ocean to the east. It is part of the Lesser Antilles that are, in turn, part of the Windward Islands of the Caribbean. Mustique has a wide range of recreational activities to enjoy and many heavenly beaches where one can totally relax, sunbathe and picnic. Walking and horse riding trails are in abundance on the island and jeeps, motorcycles and mountain bikes may be rented from Mustique Mechanical Services. <P> Welcome to Mustique Island on the Paradise Islands website. Mustique island is part of the St Vincent and Grenadines group of islands and lies 18 miles south of St Vincent. Mustique island is 3 miles long and 1.5 miles wide, approx 14,000 acres. <P> In 1989, Mustique Island was transformed from a family estate into a private limited company, The Mustique Company, with the homeowners as shareholders. Kate Middleton is not the only celebrity to visit Mustique. The island is a favorite of celebrities like Jennifer Lopez, Mick Jagger, and the late Amy Winehouse. Queen Elizabeth II herself visited with Prince Philip in 1966, 1977, and 1985 <P> The island of Mustique is owned by the Mustique Company, which in turn is owned by the island's home owners. The history of the island of Mustique, and of the Grenadines in general, dates back to the 15th century, when Spanish sailors first sighted this more or less linear group of small rocky islands and named them Los Pajaros pájaros or the, birds because they resembled a small flock of birds scattered across the sea in. flight <P> Basil's Bar-Mustique, located on the beautiful island of Mustique, St. Vincent & the Grenadines in the West Indies. Perched on stilts over the Caribbean Sea, Basil's hosts wonderful times for people from many countries. Mustique has a wide range of recreational activities to enjoy and many heavenly beaches where one can totally relax, sunbathe and picnic. Walking and horse riding trails are in abundance on the island and jeeps, motorcycles and mountain bikes may be rented from Mustique Mechanical Services. <P> Autumn is a fabulous time on Mustique. Why not extend your summer with a few precious sun soaked days, and enjoy the peace and tranquility of your own private island. Choose your ultimate holiday retreat from our Villa Collection. <P> Mustique is reached by air from North America and Europe through Barbados, St. Vincent, Canouan, Grenada, Martinique, St. Lucia, Puerto Rico or Trinidad. Mustique has a wide range of recreational activities to enjoy and many heavenly beaches where one can totally relax, sunbathe and picnic. Walking and horse riding trails are in abundance on the island and jeeps, motorcycles and mountain bikes may be rented from Mustique Mechanical Services.
St Vincent and the Grenadines.
what are supply partners
<P> ::About Partners Supply. Partners Supply has worked very hard to build an infrastructure of skilled people and a large inventory. This infrastructure allows us to quickly and effectively handle a significant amount of business at fair prices. Our highly experienced staff is able to assist you with any question or task. <P> LG Solar Rising Solar Performe ... The last two years have been brutal for the solar panel industry, h ... <P> When Group Purchasing Isn’t Enough. Given the ever-changing health care landscape, and the trend of declining reimbursements, providers are seeking every opportunity to save. Needing to drive expenses out of the supply chain and other cost centers, they’re expecting more from their Group Purchasing Organization (GPO). <P> Contact Us. Supply Chain Equity encourages direct inquiries from business owners, industry executives, intermediaries, accountants, attorneys, lending institutions and consultants. <P> Lab Equipment & Supplies. MedSupply Partners has been providing quality lab supplies, laboratory equipment, scientific instruments and laboratory chemicals since 2003. Our managing partners bring over 25 years of industry experience to MedSupply Partners. MedSupply Partners-Your Source for. MedSupply Partners has been providing quality lab supplies, laboratory equipment, scientific instruments and laboratory chemicals since 2003. <P> Welcome. Supply Chain Equity Partners is the only private equity firm in the world that focuses exclusively on the distribution industry. We acquire or invest solely in wholesale distributors and related logistics companies that are a critical link in the supply chain, regardless of sub-sector. <P> End-to-end Supply Chain Security. We help companies ensure that their products and brands are safe across the entire supply chain — from the raw materials to the shelf. We work hard to arrive at the right solution for the project at hand, in a technology-agnostic, innovation-forward way. Mitigating Risk Reducing Cost Complexity Creating Shared Value. <P> Supply Partners. We distribute high quality, branded solar power products that hold secure, reliable warranties at competitive prices. Phono Solar, Hyundai Solar Modules, Q Cells, LG Electronics, Power One Aurora, SMA, Clenergy, and ABB are just some of the high quality range of solar products. At Supply Partners we understand that having the right information is key to making the right choices, so as your wholesale partner we are constantly evaluating and assessing the market to determine and source the best products at the best prices. 1 Manufacturer stability and financial security. <P> Home » Supply Partners. Panasonic is the world’s largest laminator of thin core laminates and prepregs. The company specializes in high TG epoxies, non-dicy substrates and high speed laminates. Visit website. KingBoard is the world’s largest rigid laminate producer.
They worked very hard to build an infrastructure of skilled people and a large inventory.
azithromycin dose for chlamydia
<P> (See INDICATIONS AND USAGE and CLINICAL PHARMACOLOGY .). The recommended dose of ZITHROMAX (azithromycin for injection) for the treatment of adult patients with community-acquired pneumonia due to the indicated organisms is: 500 mg as a single daily dose by the intravenous route for at least two days. 250 mL. It is recommended that a 500-mg dose of ZITHROMAX (azithromycin for injection), diluted as above, be infused over a period of not less than 60 minutes. ZITHROMAX (azithromycin for injection) should not be given as a bolus or as an intramuscular injection. <P> Single Dose Azithromycin Treatment for Chlamydia. Chlamydia is a sexually transmitted disease that affects the reproductive organs. 1 How to Give a Child Azithromycin. Azithromycin is one of three drugs used to treat urinary tract infections caused by chlamydia. Chlamydia is a sexually transmitted disease (STD)... <P> Treat chlamydia with azithromycin, a strong antibiotic also known as Zithromax. Dosage of this strong antibiotic is often one gram. Azithromycin is known to be effective against multiple bacteria, preventing it from creating proteins essential for multiplication. Azithromycin is one of three drugs used to treat urinary tract infections caused by chlamydia. Chlamydia is a sexually transmitted disease (STD)... <P> Patients in the study group received 500 mg of oral azithromycin once daily for 5 days, which was repeated after a gap of 10 days (total of 24 courses in the 1-year trial period). This is a comparable dose to one that was recently used to effectively treat chronic plaque psoriasis. Randomized secondary prevention trial of azithromycin in patients with coronary artery disease and serological evidence for Chlamydia pneumoniae infection: The Azithromycin in Coronary Artery Disease: Elimination of Myocardial Infection with Chlamydia (ACADEMIC) study. <P> The recommended dose of ZITHROMAX (azithromycin for injection) for the treatment of adult patients with pelvic inflammatory disease due to the indicated organisms is: 500 mg as a single daily dose by the intravenous route for one or two days. 250 mL. It is recommended that a 500-mg dose of ZITHROMAX (azithromycin for injection), diluted as above, be infused over a period of not less than 60 minutes. ZITHROMAX (azithromycin for injection) should not be given as a bolus or as an intramuscular injection. <P> Treatment options for uncomplicated urogenital infections include a single 1-g dose of azithromycin orally, or doxycycline at a dosage of 100 mg orally twice per day for seven days. The recommended treatment during pregnancy is erythromycin base or amoxicillin. <P> OR. Ofloxacin 300 mg orally twice a day for 7 days. A meta-analysis of 12 randomized clinical trials of azithromycin versus doxycycline for the treatment of genital chlamydial infection demonstrated that the treatments were equally efficacious, with microbial cure rates of 97% and 98%, respectively (284). Chlamydia treatment should be provided promptly for all persons testing positive for infection; delays in receiving chlamydia treatment have been associated with complications (e.g., PID) in a limited proportion of chlamydia-infected subjects (283). <P> 1 Avoid any sexual contact for 7 days after taking Azithromycin, until no longer infectious. 2 People with a positive chlamydia test and their sexual partners should be treated at the same time if possible. 3 Chlamydia tests take 6 weeks to go negative after chlamydia has been successfully treated. Single dose antibiotic for chlamydia-preventing fertility problems. Buy Azithromycin on prescription to protect you and your partner. 1 Complete medical questionnaire. 2 Register, order and pay. <P> Patients in the study group received 500 mg of oral azithromycin once daily for 5 days, which was then repeated after a gap of 10 days (total of 24 courses in the 1-year trial period). The control group did not have azithromycin added to their standard CAD treatment. Randomized secondary prevention trial of azithromycin in patients with coronary artery disease and serological evidence for Chlamydia pneumoniae infection: The Azithromycin in Coronary Artery Disease: Elimination of Myocardial Infection with Chlamydia (ACADEMIC) study. <P> Chlamydia can be easily treated and cured with antibiotics. A single dose of azithromycin or a week of doxycycline (twice daily) are the most commonly used treatments. HIV-positive persons with... It works against several different bacteria, especially chlamydia, hemophilus and streptococcus. These bacteria can infect the skin, nose, throat, and lungs. They can also be transmitted through sexual activity and cause infections in the genital area. Many germs live in our...
Single-dose one gram.
how much does a walmart fitting room clerk make per hour
<P> The retail giant, which for years has been the target of widespread criticism over its low pay structure and increasing reliance on part-time workers, said that all of its United States workers would earn at least $9 an hour by April and at least $10 by next February. Walmart says its part-time workers already earn an average wage of $9.48, and full-timers an average of $12.85. Walmart lags behind major retailers like Gap and Ikea, which have moved recently to set hourly wages at or above $9, to try to reduce turnover and attract more workers. <P> I worked at Wal Mart for two years between the ages of 18-20(this is nearly 10 years ago now). I got the job because my mother had been laid off and we needed an income in the house. I started part time as a cashier with my hours stated at time of hire 5:30-11:30, which was when the store closed at that time. <P> How much do Walmart employees get paid in the US? * In 2001, sales associates, the most common job in Wal-Mart, earned on average $8.23 an hour for annual wages of $13,861. R.J.: My brother works with a door greeter that has been with the company (In Florida) for about 40 years. He makes over $50 an hour, no that wasn't a typo. They've now changed the policy so that the job 'tops out' at around $24 an hour. <P> I make $10 per hour working third shift. R.J.: My brother works with a door greeter that has been with the company (In Florida) for about 40 years. He makes over $50 an hour, no that wasn't a typo. They've now changed the policy so that the job 'tops out' at around $24 an hour. <P> (United States). An average Cashier in the United States can expect to take home roughly $8.59 per hour. The income range spans the entire spectrum between $7.35 per hour and $11.09. The specific employer is the biggest factor affecting pay for this group, followed by career length and location. Men are in the minority of survey respondents, with female Cashiers making up 76 percent. Experience does not seem to be a strong driver of pay increase in this role. Salaries for the relatively untried average out to around $18K, but survey participants with five to 10 years of experience earn a significantly higher median of $19K. <P> Dressing room assistants help customers with personal items and potential purchases, according to the U.S. Bureau of Labor Statistics. In May 2012, wages ranged from $7.94 per hour to $14.41 per hour. Dressing room assistants often work in department stores or other retail establishments. The top-paying states for this occupation include Washington, D.C., Hawaii, Rhode Island, Connecticut and New York <P> In Jobs for Teens. How much Walmart employees get paid varies with the type of position they hold and how long they have worked for Walmart. On average, a new employee earns about 7 dollars … to about 18 dollars per hour. R.J.: My brother works with a door greeter that has been with the company (In Florida) for about 40 years. He makes over $50 an hour, no that wasn't a typo. They've now changed the policy so that the job 'tops out' at around $24 an hour. <P> How much do stock clerks make? The average hourly pay for a stock clerk is usually around $10 per hour. This varies by industry, with warehouse and storage clerks making the most ($13.34 per hour) and department stores having the lowest hourly wage (around $9.29 per hour). 1 Stock clerks average around $10 per hour. 2 Jobs as a stock clerk offer decent job security. 3 You'll need to be hard-working, physically fit and an independent worker. <P> Average Marshalls hourly pay ranges from approximately $7.35 per hour for Sales Representative to $16.64 per hour for Loss Prevention Manager. The average Marshalls salary ranges from approximately $15,000 per year for Backroom Associate to $85,000 per year for Store Manager.
$10 per hour.
what is bonding
<P> A chemical bond is an attraction between atoms that allows the formation of chemical substances that contain two or more atoms. The bond is caused by the electrostatic force of attraction between opposite charges, either between electrons and nuclei, or as the result of a dipole attraction. A single bond between two atoms corresponds to the sharing of one pair of electrons. The electron density of these two bonding electrons is concentrated in the region between the two atoms, which is the defining quality of a sigma bond. <P> Being bonded means that a bonding company has secured money that is available to the consumer in the event they file a claim against the company. The secured money is in the control of the state, a bond, and not under the control of the company. <P> Full Definition of BONDING. 1. : the formation of a close relationship (as between a mother and child or between a person and an animal) especially through frequent or constant association. 2. : the attaching of a material (as porcelain) to a tooth surface especially for cosmetic purposes. See bonding defined for English-language learners. <P> Benefits. Bonding is among the easiest and least expensive cosmetic dental procedure. The composite resin used in bonding can be shaped and polished to match the surrounding teeth. Most often, bonding is used for cosmetic purposes to improve the appearance of a discolored or chipped tooth. <P> From Wikipedia, the free encyclopedia. Human bonding is the process of development of a close, interpersonal relationship. It most commonly takes place between family members or friends, but can also develop among groups, such as sporting teams and whenever people spend time together. Any two people who spend time together may form a bond. Male bonding refers to the establishment of relationships between men through shared activities that often exclude females. The term female bonding refers to the formation of close personal relationships between women. <P> Bonding is a mutual, interactive process, and is different from simple liking. Bonding typically refers to the process of attachment that develops between romantic partners, close friends, or parents and children. This bond is characterized by emotions such as affection and trust. Any two people who spend time together may form a bond. Male bonding refers to the establishment of relationships between men through shared activities that often exclude females. The term female bonding refers to the formation of close personal relationships between women. <P> A less often mentioned type of bonding is metallic bonding. In this type of bonding, each atom in a metal donates one or more electrons to a sea of electrons that reside between many metal atoms. In this sea, each electron is free (by virtue of its wave nature) to be associated with great many atoms at once. A single bond between two atoms corresponds to the sharing of one pair of electrons. The electron density of these two bonding electrons is concentrated in the region between the two atoms, which is the defining quality of a sigma bond. <P> The H 2 molecule is a good example of the first type of covalent bond, the nonpolar bond. Because both atoms in the H 2 molecule have an equal attraction (or affinity) for electrons, the bonding electrons are equally shared by the two atoms, and a nonpolar covalent bond is formed. Chemical bonding between atoms results in compounds that can be very different from the parent atoms. This module, the second in a series on chemical reactions, describes how atoms gain, lose, or share electrons to form ionic or covalent bonds. The module lists features of ionic and covalent compounds <P> A. A. A. Dental bonding is a procedure in which a tooth-colored resin material (a durable plastic material) is applied and hardened with a special light, which ultimately bonds the material to the tooth to restore or improve person's smile.
Bonding typically refers to the process of attachment that develops between romantic partners, close friends, or parents and children.
what schooling is required to become a forensic anthropologist
<P> Forensic anthropology applies knowledge of biological or physical anthropology to the legal process. Forensic scientists specialize in the analysis of skeletal remains. They assist law enforcement investigators in identifying human remains and even aided war crimes investigations in Bosnia. Graduate Degree. After completing a bachelor's degree, the aspiring forensic anthropologist should apply for admission to a graduate program in the field and pursue a Ph.D. or at least a master's degree in the field. <P> Students who want to become forensic anthropologists will find that they have a number of different courses that they will likely have to take at forensic anthropology schools. Some of the most common courses include chemistry, biology, biochemistry, forensic anthropology, and even field archeology. <P> According to the American Board of Forensic Anthropology (ABFA), individuals need a bachelor's degree in anthropology or a related field and a master's degree in anthropology to meet the minimum requirements to work as a forensic anthropologist (www.theabfa.org). Forensic Anthropologist: Job Description, Outlook and Salary. Forensic anthropologists require significant formal education. Learn about the training, job duties and requirements to see if this is the right career for you. <P> Graduate Courses. Graduate courses to become a forensic anthropologist involve numerous classes in physical anthropology, focusing on various physical aspects of human beings, such as bones, evolution, development, nutrition and disease. <P> Being a forensic Anthropologist requires a great deal of educational preparation. You need a bachelor's Degree in a subject Such as Chemistry, Biology, Anatomy, Physiology, or Anthropology, and a Grauate Degree, Preferably a doctorate in anthropology or human biology. You need a PhD and at least three years of experience in forensic anthropology when seeking board certification in the field. <P> Forensic anthropology is a specialized field that requires a graduate-level degree in anthropology, as well as extensive study in the physical sciences, including biology, physiology and genetics. Graduate Degree. After completing a bachelor's degree, the aspiring forensic anthropologist should apply for admission to a graduate program in the field and pursue a Ph.D. or at least a master's degree in the field. <P> The first step toward becoming a forensic anthropologist is to earn a bachelor's degree in anthropology. A strong undergraduate program should include courses in the three main subfields of anthropology, according to Dr. A. Midori Albert, a forensic anthropologist at the University of North Carolina at Wilmington. Graduate Degree. After completing a bachelor's degree, the aspiring forensic anthropologist should apply for admission to a graduate program in the field and pursue a Ph.D. or at least a master's degree in the field. <P> Requirements to Become a Forensics Anthropologist. This is a career requiring extensive education. You will need a bachelor’s degree in anatomy, biology, chemistry, physiology or anthropology as well as a graduate degree in human biology or anthropology. Though a degree at the Master’s level may qualify you to begin your investigative career, most forensic anthropologists have a Ph.D. degree <P> The testing for forensic anthropology students is anything but easy. Many students are required to write a thesis in their second year during a Master s of Science program, and some schools will provide rigorous testing for long periods of time during the first year. Forensic Anthropology Schools. If you ve decided that forensic anthropology is your ideal future career, then you ll need to choose from some really great forensic anthropology schools. However, this kind of education and training is not for the faint of heart.
Individuals need a bachelor's degree in anthropology or a related field and a master's degree in anthropology to meet the minimum requirements to work as a forensic anthropologist
what colour is miscarriage ribbon
<P> Meaning: The brown awareness ribbon is an anti-tobacco symbol as well as a symbol of colon cancer (alternative ribbon color: blue), and colorectal cancer (alternative ribbon color: blue). Meaning: The gray awareness ribbon is a symbol of diabetes, asthma, and brain cancer. Meaning: Meaning: The light yellow awareness ribbon is a symbol of spina bifida. Meaning: Most commonly associated with the fight against AIDS and HIV, the red awareness ribbon is also a symbol for heart disease, stroke, substance abuse, MADD, DARE, Epidermolysis Bullosa, and Reflex Sympathetic Dystrophy. <P> Pregnancy and Infant Loss is not just something that happens to 'somebody else'. It happens to your sister, your friend, your coworker, the girl who checks out your groceries. It affects many families every day. Everyone knows the yellow ribbon stands for 'Support our Troops'. Pink is for breast cancer, red for AIDS. It is my goal that this pink and blue ribbon is as instantly recognizable a symbol. On May 8, 2002 I recieved the news no mother wants to hear. I am sorry, but this baby does not have a heartbeat. <P> Here is a handy list we maintain regularly of Cause Awareness Colors and the corresponding causes, cancer or meanings. Click on a ribbon to see all the causes represented by that color and all the items offered for each cause. <P> Grey Ribbon: Meaning: This color is a symbol of diabetes, asthma, and brain cancer. Silver Ribbon: Meaning: This color is a symbol for children with disabilities, Parkinson's disease, and mental illnesses such as severe depression, bipolar disorder, schizophrenia, and anxiety disorders. Dark Blue Ribbon: Meaning: This color is a symbol of arthritis, child abuse prevention, victim's rights, free speech, water quality, and water safety. Light Blue Ribbon: Meaning: This color is a symbol of childhood cancer (alternative color: pink), prostate cancer, Trisomy 18, and scleroderma. <P> Meaning: The pink and blue awareness ribbon is a symbol for miscarriage, stillbirth, and infant death due to SIDS or other causes. Meaning: The purple and blue awareness ribbon is a symbol for pediatric strokes. Meaning: The prism awareness ribbon is a symbol for multiple sclerosis. Meaning: Meaning: The light yellow awareness ribbon is a symbol of spina bifida. Meaning: Most commonly associated with the fight against AIDS and HIV, the red awareness ribbon is also a symbol for heart disease, stroke, substance abuse, MADD, DARE, Epidermolysis Bullosa, and Reflex Sympathetic Dystrophy. <P> Awareness Ribbon Colors. Find awareness ribbon color meanings to guide you in showing support for your favorite cause in a unique way-wear a ribbon badge reel to work, carry a support ribbon keychain or metal wallet, engrave a keepsake ornament of someone you loved and lost. <P> Pink and Blue Ribbon: Meaning: This style of ribbon is a symbol for miscarriage, stillbirth, and infant death due to SIDS or other causes. Flag Ribbon: Meaning: This style of ribbon is a symbol for both the victims and heros of the 9/11 attacks. It is also a symbol of patriotism and support of our troops. Dark Blue Ribbon: Meaning: This color is a symbol of arthritis, child abuse prevention, victim's rights, free speech, water quality, and water safety. Light Blue Ribbon: Meaning: This color is a symbol of childhood cancer (alternative color: pink), prostate cancer, Trisomy 18, and scleroderma. <P> Meaning: Most commonly associated with breast cancer awareness, the pink awareness ribbon is also a symbol for birth parents, and childhood cancer awareness (alternative color: light blue). We also now have a CafePress.com store offering pink ribbon clothing and pink ribbon items for the home and office. Meaning: Meaning: The light yellow awareness ribbon is a symbol of spina bifida. Meaning: Most commonly associated with the fight against AIDS and HIV, the red awareness ribbon is also a symbol for heart disease, stroke, substance abuse, MADD, DARE, Epidermolysis Bullosa, and Reflex Sympathetic Dystrophy. <P> Burgundy Ribbon: Meaning: This color is a symbol of brain aneurysm, Cesarean section (worn upside down), headaches, hemangioma, vascular malformation, hospice care, multiple myeloma, William's syndrome, Thrombophilia, Antiphospholid Antibody Syndrome, and adults with disabilities. Dark Blue Ribbon: Meaning: This color is a symbol of arthritis, child abuse prevention, victim's rights, free speech, water quality, and water safety. Light Blue Ribbon: Meaning: This color is a symbol of childhood cancer (alternative color: pink), prostate cancer, Trisomy 18, and scleroderma.
Pink and Blue.
what is a rainforest
<P> Tropical rainforests can be characterized in two words: hot and wet. Mean monthly temperatures exceed 18 °C (64 °F) during all months of the year. Average annual rainfall is no less than 168 cm (66 in) and can exceed 1,000 cm (390 in) although it typically lies between 175 cm (69 in) and 200 cm (79 in). Most tropical rainforests are located around and near the equator, therefore having what is called an equatorial climate characterized by three major climatic parameters: temperature, rainfall, and dry season intensity. <P> The reason it is called a rain forest is because of the high amount of rainfall it gets per year. Rainforests have an annual rainfall of at least 100 inches (254 centimeters) and often much more. <P> This region includes territory belonging to nine nations. The majority of the forest is contained within Brazil, with 60% of the rainforest, followed by Peru with 13%, Colombia with 10%, and with minor amounts in Venezuela, Ecuador, Bolivia, Guyana, Suriname and French Guiana. States or departments in four nations contain Amazonas in their names. <P> In Brazil, which houses 30 percent of the remaining tropical rain forest on Earth, more than 50,000 square miles of rain forest were lost to deforestation between 2000 and 2005. Biologists worry about the long-term consequences. Drought may be one. <P> **** Rainforests by Michael G. 2001 In an average year the climate in a tropical rain forest is very humid because of all the rainfall. A tropical rainforest gets about 150 cm of rain per year. It gets lots of rain because it is very hot and wet in rain forests. The hotter the air, the more water vapor it can hold. The tropical rain forest is a forest of tall trees in a region of year-round warmth. An average of 50 to 260 inches (125 to 660 cm.) of rain falls yearly. Rain forests belong to the tropical wet climate group. <P> A tropical rainforest is a biome type that occurs roughly within the latitudes 28 degrees north or south of the equator (in the equatorial zone between the Tropic of Cancer and Tropic of Capricorn). Most tropical rainforests are located around and near the equator, therefore having what is called an equatorial climate characterized by three major climatic parameters: temperature, rainfall, and dry season intensity. <P> The Amazon Rainforest is a moist broad leaf forest that covers nearly the entire Amazon river basin which makes it the single largest stretch of rainforest in the world, accounting for more than half of the entire natural rainforest on the earth. In short, this is an OLD rainforest, much of which is around 55 million years old. It appeared just when the Atlantic Ocean had widened enough to provide a warm, moist climate to the Amazon basin, just the right conditions for a tropical rainforest. <P> rainforest. n. 1. (Forestry) dense forest found in tropical areas of heavy rainfall. The trees are broad-leaved and evergreen, and the vegetation tends to grow in three layers (undergrowth, intermediate trees and shrubs, and very tall trees, which form a canopy). Also called: selva. Noun. 1. rainforest-a forest with heavy annual rainfall. rain forest. forest, woods, wood-the trees and other plants in a large densely wooded area. temperate rain forest-a rain forest in a temperate area. selva, tropical rain forest-a rain forest in a tropical area. Translations. [ˈreɪnfɒrɪst]. <P> Tropical rainforests are forests with tall trees, warm climates, and lots of rain. In some rainforests it rains more than one inch nearly every day of the year! Rainforests are found in Africa, Asia, Australia, and Central and South America. The largest rainforest in the world is the Amazon rainforest in South America.
It is a forest with heavy annual rainfall.
what is frenuloplasty
<P> frenoplasty. the correction of an abnormally attached frenum or frenulum, by surgically repositioning it. A cosmetic procedure in which a frenulum is surgically altered, either of the tongue (which may performed in children for ankyloglossia, or “tongue-tie”) or of the penis (due to a tightly adherent foreskin). <P> A frenuloplasty is the surgical procedure used to correct ankyloglossia commonly known as tongue-tie. When is a frenuloplasty a consideration? If you raise your tongue to the roof of your mouth you will see a band of tissue underneath your tongue called the frenulum. <P> A frenuloplasty is a surgical procedure that will adjust the frenulum in different areas of the body. Newborns born with ankyloglossia usually undergo a frenuloplasty within the first few days of life. The incision site during a frenuloplasty should be kept clean in order to avoid infection. Frenulum tissue is designed to secure the mobility of the organ or muscle involved. When the frenulum is too small, it causes the movement to be restricted. Frenuloplasty can help clear up childhood speech problems, infant feeding difficulties, and relieve the pain of intercourse that some men experience. <P> Many men undergo a frenuloplasty when intercourse becomes painful due to the restricted movement of the foreskin. The frenulum tissue connects the foreskin to the vernal mucosa and aids in the retraction of the foreskin when the penis is erect. A frenuloplasty can correct this abnormal restriction of the foreskin while preventing the need for a circumcision. The penile frenuloplasty is performed on an outpatient basis. Frenulum tissue is designed to secure the mobility of the organ or muscle involved. When the frenulum is too small, it causes the movement to be restricted. Frenuloplasty can help clear up childhood speech problems, infant feeding difficulties, and relieve the pain of intercourse that some men experience. <P> Frenuloplasty is the surgical alteration of a frenulum when its presence restricts range of motion between interconnected tissues. Two of the common sites for a frenuloplasty are: <P> Frenuloplasty for Tongue-Tie. Frenuloplasty is a procedure in which a doctor clips the tissue (lingual frenulum) that attaches the tongue to the floor of the mouth. Stitches are used to close the triangular-shaped wound. And pressure may be applied to stop any bleeding <P> A frenuloplasty is a surgical procedure that adjusts the frenulum to allow for unrestricted movement of the organ or muscle affected. Frenulum tissue is designed to secure the mobility of the organ or muscle involved. When the frenulum is too small, it causes the movement to be restricted. Frenuloplasty can help clear up childhood speech problems, infant feeding difficulties, and relieve the pain of intercourse that some men experience. <P> Lingual Frenectomy versus Lingual Frenuloplasty. Lingual frenectomy and lingual frenuloplasty are both dental procedures used to correct a condition called ankyloglossia. Ankylogloassia, more commonly known as ‘tied tongue’, is an abnormality of the lingual frenulum…. Lingual frenuloplasty differs from lingual frenectomy in that the frenulum is not completely removed, but only altered. The goal of lingual frenuloplasty is to snip the lingual frenulum just enough to loosen it and increase the mobility of the tongue. <P> View Photos of Frenuloplasty. If an uncircumcised man has a problem with his foreskin (the loose skin that covers the end of the penis) such that it is very tightly attached to the undersurface of the glans of the penis, it can cause difficulty in movement of the skin as well as pain during erections. <P> By Adam Sinicki | Mens Health | Unrated. A frenuloplasty is a surgical procedure that involves a slight modification usually to the foreskin, lips or tongue. Frenuloplasty of the penis the most common form is similar to a circumcision but is less invasive and has a different aim and purposes. Here we will look at what a frenuloplasty is, when it's used and what you should expect if you are getting the procedure.
Frenuloplasty is a surgical procedure that involves a slight modification usually to the foreskin, lips or tongue.
what did scientist believe to be start of universe
<P> This point, later called the big bang, was the beginning of the universe as we understand it today. The expanding universe is finite in both time and space. The reason that the universe did not collapse, as Newton's and Einstein's equations said it might, is that it had been expanding from the moment of its creation. <P> The conclusion of this lecture is that the universe has not existed forever. Rather, the universe, and time itself, had a beginning in the Big Bang, about 15 billion years ago. The beginning of real time, would have been a singularity, at which the laws of physics would have broken down. <P> The beginning of the universe, the start of space, and even the initial start of time itself. Nothing we observe today existed prior to that exact moment. Further, it was something outside of time, outside of space, and outside of matter that caused all of this to come into existence. The realization that our universe started, and did not always exist, brings enormous challenges to nontheistic scientists. <P> Scientists believe that our universe began with one enormous explosion of energy and light, which we now call the Big Bang. Nothing we observe today existed prior to that exact moment. Further, it was something outside of time, outside of space, and outside of matter that caused all of this to come into existence. The realization that our universe started, and did not always exist, brings enormous challenges to nontheistic scientists. <P> In the beginning -- before the 1920s, these words had no place in our scientific understanding of the universe. Astronomers believed the cosmos to be eternal and unchanging. We knew of only one galaxy and a few million visible stars, and this was the scope of our observabl <P> Editor's Note: We asked several scientists from various fields what they thought were the greatest mysteries today, and then we added a few that were on our minds, too. This article is one of 15 in LiveScience's Greatest Mysteries series running each weekday. <P> A spoken word. Let there be light.. Looking at the sacred texts of all the major religions, only the Bible describes what scientists have since discovered: there was an explosion of light and a beginning to our universe...from outside of the universe itself. With it came the very start of space, matter and time.
Its due to big bang
why is calcium hydroxide cloudy
<P> For Ca(OH) 2, see calcium hydroxide. Limewater is the common name for a diluted solution of calcium hydroxide. Calcium hydroxide, Ca(OH) 2, is sparsely soluble in water (1.5 g/L at 25 °C). Pure limewater is clear and colourless, with a slight earthy smell and an alkaline bitter taste of calcium hydroxide. When excess calcium hydroxide is added to limewater, a suspension of calcium hydroxide particles results, giving it a milky aspect, in which case it has the common name of milk of lime. <P> Lime water is a solution of calcium hydroxide (slaked lime). When carbon dioxide is bubbled through it, a solid precipitate of calcium carbonate is formed. Calcium carbonate is chalk or limestone, and it is this that makes the lime water cloudy. calcium hydroxide + carbon dioxide calcium carbonate + water. <P> Because calcium hydroxide readily reacts with carbon dioxide, CO 2, to form calcium carbonate, a mixture of gases can be tested for the presence of CO 2 by shaking it with limewater in a clear container; if CO 2 is present, a cloudy calcium carbonate precipitate will form. <P> Lime water is nothing but a solution of Calcium oxide in water. Calcium oxide reacts exothermically with water to form calcium hydroxide. The solution of Calcium Hydroxide is initially clear. However, due to reaction with atmospheric carbon dioxide, soluble Calcium Hydroxide gets converted to insoluble calcium carbonate. As a result the solution appears cloudy. Similar result is obtained if carbon dioxide is bubbled for a short time through lime water. <P> For (Ca(OH) 2) (aq) , see limewater. For the application of slaked lime as a wall colorant, see limewash. Calcium hydroxide, traditionally called slaked lime, is an inorganic compound with the chemical formula Ca (OH) 2. It is a colorless crystal or white powder and is obtained when calcium oxide (called lime or quicklime) is mixed, or slaked with water. Ca(OH) 2 → CaO + H 2 O. A suspension of fine calcium hydroxide particles in water is called milk of lime. The solution is called limewater and is a medium strength base that reacts with acids and attacks many metals. Limewater turns milky in the presence of carbon dioxide due to formation of calcium carbonate, a process called carbonatation : <P> Because calcium hydroxide readily reacts with carbon dioxide, CO 2, to form calcium carbonate, a mixture of gases can be tested for the presence of CO 2 by shaking it with limewater in a clear container; if CO 2 is present, a cloudy calcium carbonate precipitate will form. An aqueous solution of calcium hydroxide is known as lime water; a suspension is known as milk of lime. Calcium hydroxide readily absorbs atmospheric carbon dioxide: Ca(OH) 2 + CO 2 = CaCO 3 + H 2 O. The compound serves as an inexpensive alkali. <P> Carbon dioxide gas from a cylinder is bubbled through limewater and calcium carbonate solid is formed causing the limewater to become cloudy. Catch carbon dioxide gas in a jar from a burning bunsen burner. Pour in fresh limewater and it will become cloudy indicating that there was in fact CO2 in that jar. <P> Limewater is actually a solution of calcium hydroxide, an alkali, and like any alkali, it will react with an acid. When carbon dioxide dissolves in water, it forms an acid which can react with the calcium hydroxide. If, however, you were to keep bubbling carbon dioxide through your cloudy limewater, it would indeed go clear again. The reason for this is that the cloudiness (calcium carbonate, chalk) reacts with more water and carbon dioxide to form a new compound called calcium hydrogencarbonate that is soluble in water. <P> When carbon dioxide is mixed with lime water, the lime and the carbon dioxide react to form calcium carbonate, meaning a solid in the particles is formed and this turns the lime water cloudy. When carbon dioxide is bubbled through lime water, it can react with the lime to form calcium carbonate, and this forms as a solid in small particles that make the water appea … r cloudy.
Lime water is a solution of calcium hydroxide (slaked lime). When carbon dioxide is bubbled through it, a solid precipitate of calcium carbonate is formed. Calcium carbonate is chalk or limestone, and it is this that makes the lime water cloudy.
what is oxycontin prescribed for
<P> oxycodone is a narcotic medication used to relieve moderate to severe pain oxycontin is a brand of timed release oxycodone made by purdue pharma that works for up to 12 hours <P> manufactured by purdue pharma l p oxycontin is a controlled release form of oxycodone prescribed to treat chronic pain when used properly oxycontin can provide pain relief for up to 12 hours recently there has been a lot of media focus on this prescription drug due to increasing reports of its abuse <P> when oxycontin is crushed or chewed all the oxycodone is released at once as happens with percocet but with oxycontin there is much more oxycodone and no acetaminophen to make you sick if you take a lot when you take oxycontin without a prescription or not as prescribed you could overdose <P> oxycontin oxycodone oxycontin is the brand name of a time release formula of the analgesic chemical oxycodone oxycontin which is produced by the pharmaceutical company purdue pharma is prescribed as a pain medication instances of abuse of this drug have increased in recent years <P> a oxycontin oxycodone extended release is a prescription medication approved to treat moderate to severe pain it is a strong narcotic painkiller that should not be used to treat mild or short term pain oxycontin is meant to be used around the clock at scheduled times twice a day <P> oxycontin oxy or oc on the street is a time released pain medication it was developed in 1995 for people needing around the clock pain relief so they don t have to take pills as often oxycontin contains oxycodone which is an opioid drug like morphine codeine heroin and methadone
Aapproved to treat moderate to severe pain.
what is a xylem in a plant
<P> Phloem and xylem are complex tissues that perform transportation of food and water in a plant. They are the vascular tissues of the plant and together form vascular bundles. They work together as a unit to bring about effective transportation of food, nutrients, minerals and water. <P> Plants have two different types of transport tissue. Xylem transports water and solutes from the roots to the leaves, phloem transports food from the leaves to the rest of the plant. Transpiration is the process by which water evaporates from the leaves, which results in more water being drawn up from the roots. Plants have adaptations to reduce excessive water loss. Xylem. Xylem vessels xylem vessel: Vein-like tissue which transports water and minerals up a plant are involved in the movement of water through a plant from its roots to its leaves. Water: 1 Is absorbed from the soil through root hair cells. 2 Is transported through the xylem vessels up the stem to the leaves. <P> xylem. Xylem cells in the stem carry water from a plant's roots to its leaves. The phloem distributes food that is made in the plant's leaves to other parts of the plant. The cambium cells divide into either xylem or phloem cells. The cortex and pith, seen in the stem cross section, provide structural support <P> Abstract. Xylem is the specialised tissue of vascular plants that transports water and nutrients from the plant–soil interface to stems and leaves, and provides mechanical support and storage. Phloem transports products of photosynthesis, primarily sucrose, from the leaves to the stem tissues and the roots. Xylem transport through sapwood moves water and nutrients from the roots to stems and leaves. Heartwood represents xylem that is no longer involved in transport. <P> Xylem (pronounced zye'-lum) is a pipeline that carries water and nutrients from the roots of a plant to the leaves. The term comes from the Greek, xylos or wood. It’s part of a plant’s vascular system that also includes phloem. Unlike most plant cells, the cells that form the xylem have no end walls. Xylem sap moves from roots to the leaves. It actually flows through the xylem system. In addition to carrying water and nutrients from the roots into the leaves and stems of a plant, it also repolaces water lost through transpiration and photosynthesis. The flow system is caused by three things: <P> Xylem and phloem are the two types of vascular tissues found in plants. Xylem tissues transport water from the roots throughout the plant, while phloem transports food (suga … rs) from photosysnthesis throughout the plant. Xylem: tubes that brings water and minerals from the roots into the leaf. <P> xylem vessel is a vessel in plants that transport water and minerals from the roots to parts of the plant where it is needed, through transpiration and turgor pressure in root … s. 26 people found this useful. The xylem is responsible for the transport (translocation) of water and soluble mineral nutrients from the roots throughout the plant, this facilitates the replacement of water lost during transpiration and photosynthesis. <P> Xylem. Definition. noun. (1) A type of vascular tissue in terrestrial plants composed of tracheary elements, tracheids and wood vessels and of additional xylem fibers, and is primarily involved in transporting water and nutrient (from the roots to the shoot and leaves) and providing structural support. <P> Key Concepts: Xylem is the tissue of vascular plants that transports water and nutrients from the soil to the stems and leaves. Xylem plays an essential ‘supporting’ role providing strength to tissues and organs, to maintain plant architecture and resistance to bending. Phloem transports products of photosynthesis, primarily sucrose, from the leaves to the stem tissues and the roots. Xylem transport through sapwood moves water and nutrients from the roots to stems and leaves. Heartwood represents xylem that is no longer involved in transport.
Xylem is the tissue of vascular plants that transports water and nutrients from the soil to the stems and leaves. Xylem plays an essential ‘supporting’ role providing strength to tissues and organs, to maintain plant architecture and resistance to bending.
what is the temperature range for spraying roundup
<P> Because Roundup is nonselective, avoid spraying on windy days; overspray may kill your desirable garden plants. Also avoid spraying when rain is in the forecast; if it rains within six hours you may have to reapply the Roundup to kill the weeds. Roundup is a nonselective weed killer, usually applied to the foliage of weeds and other unwanted plants. To ensure success, spray the weeds' leaves until they're completely wet, but not dripping. <P> Time of Day. Controlling weeds with Roundup is best between 10 a.m. and 4 p.m. Even if the temperature is right, do not apply Roundup if rain is expected for one or two hours. Do not apply Roundup at otherwise optimal temperatures if the wind is blowing. Wind can blow Roundup onto your good plants. The air should be calm. Roundup is a systemic herbicide. That means it must be absorbed by the leaves. It moves down the plant and into the roots. This takes time. In about seven to 10 days plants sprayed with Roundup will begin turn yellow, after which they will die. <P> Roundup Transorb® HC or Roundup WeatherMAX® herbicides should be applied at 0.67 L/ac for pre-harvest applications. Using 10 gallons of water per acre is recommended for dense crop canopies and for weeds that are hidden by the crop, such as dandelions. Post Harvest: If forecasted daytime temperatures are a minimum of 8-10°C, start spraying in the morning provided there has not been a killing frost and the dew or snowmelt is not causing the herbicide to run off the plant. <P> Schedule spraying for moderate temperature. The effectiveness of Roundup decreases with very low or high temperatures. Choose a day for application with mild temperatures in the 65 to 75 degree F range. Applying herbicide on hot days causes quick evaporation of the weed killer from plant leaves. <P> Cool weather and frost also reduce the ability of Roundup to kill weeds. Likewise, the effectiveness of Roundup declines at temperatures above 85 degrees Fahrenheit. The best temperature to apply Roundup is between 60 degrees and 85 degrees. Roundup is a systemic herbicide. That means it must be absorbed by the leaves. It moves down the plant and into the roots. This takes time. In about seven to 10 days plants sprayed with Roundup will begin turn yellow, after which they will die. <P> Ideal Weather. The recommended temperature for spraying Roundup for the quickest results is between 70 and 85 degrees Fahrenheit on a clear day. You may see results on annual grasses within to two to four days and seven or more days for perennial grasses when you apply the herbicide within these temperature ranges. Apply Roundup to healthy grass for the best control. Roundup is a nonselective herbicide produced by Monsanto Company. When properly mixed with water it can kill many varieties of plants, including grasses. Weather is one of the factors that can determine the efficacy of Roundup. <P> Roundup is effective on grasses and broadleaf weeds. Donning your armor of long sleeves and pants, safety glasses and plastic gloves, you're ready to do battle with the never-ending weeds in your garden. Wielding your sprayer filled with Roundup (glyphosate), you briskly step outside into the chilly morning air. While you may wonder if it's too cold to spray those weeds, according to the manufacturer the ideal temperature for applying Roundup is between 53 and 77 degrees Fahrenheit. Roundup is a nonselective weed killer, usually applied to the foliage of weeds and other unwanted plants. To ensure success, spray the weeds' leaves until they're completely wet, but not dripping.
70 and 85 degrees Fahrenheit
at what age should calves be vaccinated for leptospirosis
<P> • The vaccinations of young calves should be carried out before young cattle become infected. When the calves are from cows vaccinated in late pregnancy, vaccination should commence at about 3 months of age. Otherwise calves can be vaccinated from 1 month. <P> • If unvaccinated stock are brought onto the property, they should be vaccinated on arrival with two injections of leptospirosis vaccine 4–6 weeks apart, followed by an annual booster. • The vaccine is always injected under the skin and can be administered to lactating cattle. <P> However, it is often more practical to give these vaccines at 6 weeks of age with the second dose at 12 weeks of age, negating the need for the third dose. The vaccines that are not effective in the presence of maternal antibody should be given at 6 months of age, with a second dose given 4 to 6 weeks later. It is possible to use these vaccines earlier than 6 months of age, but the two shots need to be repeated at 6 months of age. <P> Ultravac 5-in-1. The 5 in 1 vaccine includes five clostridia serotypes which protect against Tetanus, Blackleg, Blacks Disease, Malignant Oedema and Enterotoxaemia. This vaccine should be given to calves at 6-8 weeks of age, then a booster given 4-6 weeks later. <P> Calves at high risk of exposure should be vaccinated twice 4-6weeks apart before they are 6months old. They then require a 3rd booster injection at 6 months of age due to the possibility of maternal antibodies interfering with the initial 2 injections. Calves over 6months old need two vaccinations, 4-6weeks apart. <P> 1 - A second dose should be given four–six weeks later. - 2 Calves vaccinated before six months of age (to protect against pomona redwater) require revaccinating at six months, and again four–six weeks later, as maternal antibodies may interfere with acquiring long-term immunity before six months of age. <P> Some vaccines will reduce or even eliminate shedding of leptospirosis organisms in urine. • While the general recommendation is to revaccinate cattle herds every 12 months, some herds which may be at a high risk of becoming infected should be vaccinated more frequently – every 6 months.
1 month.
caffeine supplements as pe disadvantages
<P> If you have osteoporosis or low bone density, caffeine should be limited to less than 300 mg per day (approximately 2-3 cups of coffee). It is also a good idea to get extra calcium to make up for the amount that may be lost in the urine. Caffeine is POSSIBLY UNSAFE when taken by mouth for a long time or in fairly high doses. Caffeine can cause insomnia, nervousness and restlessness, stomach irritation, nausea and vomiting, increased heart rate and respiration, and other side effects. <P> You are at a higher risk of undesirable side effects from caffeine if you have more than 500 to 600 milligrams of caffeine per day, which is contained in more than 4 cups of brewed coffee. In the long term, drinking a lot of caffeine throughout the day might lead to a vicious cycle of insomnia and fatigue, wherein you consistently lose sleep because of caffeine’s effects, but then you need to drink caffeine to be alert during the day. <P> As with so many things, there are benefits and there are risks. Caffeine, the main ingredient found in coffee is a stimulant. It causes your heart rate to increase, your pupils to dilate, and your muscles to tighten up. Caffeine injects adrenalin into your system to give you a boost and make you feel good <P> Some medicines and dietary supplements for weight loss also include a dose of caffeine. Coke is even planning to roll out a new negative calorie carbonated green tea beverage this fall called Enviga that combines caffeine with other ingredients to -- according to the company -- increase calorie burning. Caffeine does boost blood pressure. Repeated elevations in blood pressure and increases in your reactions to daily stress that occur with caffeine intake could boost the risk of heart disease. The boost in blood glucose levels that accompanies caffeine intake is also a health risk. <P> Caffeine is a cheap and effective supplement for bodybuilders and endurance athletes alike. Caffeine comes in different forms and surprisingly, coffee is not the best way! Several studies have shown that the anhydrous caffeine in the pill form is more effective in improving performance than the caffeine in coffee. This makes caffeine unlike many other supplements. So, how much should you take? The research shows there is no benefit to taking more than 6mg/kg before your sports activity, I would recommend starting at half that or 3mg/kg – so for a 150lb person that’s 200mg. <P> 1 Weight loss. 2 Taking caffeine in combination with ephedrine seems to help reduce weight, short-term. 3 Taking 192 mg of caffeine in combination with 90 mg of ephedra daily for 6 months seems to cause a modest weight reduction (5.3 kg or 11.66 pounds) in overweight people. Caffeine is POSSIBLY UNSAFE when taken by mouth for a long time or in fairly high doses. Caffeine can cause insomnia, nervousness and restlessness, stomach irritation, nausea and vomiting, increased heart rate and respiration, and other side effects. <P> When taking caffeine pills or pure caffeine powder, take care to consume the recommended dose and not more. If you're concerned about side effects or contraindications with other drugs or supplements you're taking, be sure to check with your doctor to determine if this is the right option for your health needs. For those unable to consume caffeine in traditional forms (coffee, tea, soda), caffeine pills or powders offer a convenient fix of this potentially health-boosting substance. <P> Caffeine is a bitter substance that stimulates your central nervous system. This means it can help boost your alertness and eliminate your drowsiness, according to MedlinePlus.com. Chances are you consume some caffeine on a regular basis if you drink coffee or tea, drink soda or eat chocolate. In the long term, drinking a lot of caffeine throughout the day might lead to a vicious cycle of insomnia and fatigue, wherein you consistently lose sleep because of caffeine’s effects, but then you need to drink caffeine to be alert during the day.
Can cause insomnia, nervousness and restlessness, stomach irritation, nausea and vomiting, increased heart rate and respiration, and other side effects.
cost of home staging
<P> The average professional home staging costs between three and five thousand dollars. Professionally staged homes sell in an average of 35 days (compared to 175 days for non-staged homes), according to StagedHomes.com. <P> Most professional home stagers are willing to do as much or as little of your home staging as you want. In the Saratoga and Albany areas, professional home stagers will do a consultation that should cost between $200 and $500, depending on the size of the home. <P> The costs associated with working with a professional home stager will vary widely and can begin as low as $150 for a consultation, and range well above $6000 for a massive undertaking. Stagers may charge by the hour, while others request a flat fee. <P> 1 For a full-service staging service that will covers the entire home will normally cost anywhere from $3,000 to $6,500 for an occupied home. 2 This is going to greatly depend on the size of the home, but if your home is between 1,200 and 2,400 square feet, this should be a great estimate to use for planning. <P> Criteria for Home Staging Cost. There is no set price for home staging services. The geographical location, size of the home, staging professional chosen, scope of the project, condition of the housing market and other factors will all contribute to the pricetag. It can be a complicated equation. <P> This means that a homeowner who dedicates $3000 to a home staging project, and who sells their home for $500k, will have earned $15000 for their effort. Clearly, this indicates that such a project is well worth the expense. <P> 1 A home that is completely empty can cost anywhere from $4,500 to as much as $8,000. 2 According to Saratoga.com, the cost of a stager can range anywhere from $200 for a basic consultation to as much as $7,000 for an unoccupied home.
$3,000 to $6,500
how long does it take to change domain name register
<P> Copyright© 2008 2. Domain Transfers Transferring Domains From Register.comThe updated contact information displays.Note that it may take up to 24 hours for the changes to take effect. Authorization Code To transfer a .com, .net, .biz, .info, .name, .org, or .us domain name you will need an authorization code. To transfer a domain from Register.com to this registrar you will need the following information: ✔ Domain status – Locked or Active ✔ Administrative contact for registered domain ✔ Authorization or EPP code (.com, .net, .org, .biz, .us, .name, and .info TLDs only). <P> - Top. From the time you change the DNS on your domain name to point to our name servers it will take approximately 12-24 hours for the change to propagate throughout the Internet and become active. During this time your website may be down until the change has fully propagated through the Internet. - Top. Once your domain name has been registered (or transferred, if applicable), it usually takes about 12-24 hours to be active. All Internet providers must update their records (DNS tables) to reflect the new site's location. <P> Comments: 14. When a domain is newly registered, the nameservers are changed, or DNS changes are made, you can expect a propagation time up to 24 hours. This is because it takes time for the DNS to take effect across the internet. The actual time of propagation may vary in some locations based on your network setup. When a domain is newly registered, the nameservers are changed, or DNS changes are made, you can expect a propagation time up to 24 hours. This is because it takes time for the DNS to take effect across the internet <P> 1 Unlock your domain name. 2 See Unlock domains for more information. 3 Check with your new registrar to see if you need an authorization code. (Some domain name extensions do not require this code.) If you need an authorization code, see Get an authorization code for transfers. 1 Initiate the domain name transfer at your new registrar. 2 You might need to consult the other registrar's Help or support for specific instructions. 3 Authorize the transfer in your account with the <P> Hits: 5,087. I have asked for a domain transfer, domain name is eastwestwedding.com, the status is Awaiting Registrar. It's been 4-5 days now, how long it will take and what I can do to expedite the transfer. You must login before you can ask a follow up question. You must login before you can submit an answer. <P> Article Rating: 2 / 5 Votes: 57. Transferring a domain name registration from another registrar to Network Solutions typically takes 5 days from the time the losing Account Holder’s Administrative Contact (as listed in the current registrar’s WHOIS record), authorizes the transfer.
4-5 days
what are different cuisines
<P> The following is a list of cuisines. A cuisine is a specific set of cooking traditions and practices, often associated with a specific culture or region. Each cuisine involves food preparation in a particular style, of food and drink of particular types, to produce individually consumed items or distinct meals. Cuisines by region [edit]. 1 Global cuisine – a cuisine that is practiced around the world. 2 A cuisine is a characteristic style of cooking practices and traditions, often associated with a specific region, country or culture. <P> 1. Cuisines reflect the cultural variety of countries regions and their diverse history affected by the civilization. Each country has its own cuisine that differs from other countries and represents the country's customes, traditions and the kinds of foods that its people adore. Middle eastern cuisine encompasses a range of cooking styles from a number of different countries. Arabian, Syrian, Moroccan, Greek, Egyptian, and many other cuisines. The spices and flavors of Middle Eastern food awaken the senses, sparkling against the thicker, richer tastes of the main ingredients. <P> • Thai Cuisine. Thai food is one of the most popular of world cuisines in recent times. Thai food is different from the Chinese cuisine most of us know and love. Even though the two use many similar ingredients, Thai food uses more noodle dishes, fresh herbs and broths. Unlike Chinese cuisine, there are a great many Thai dishes with vegetables in a thick extra rich source. The food of Japan is probably the cooking that is most unique. Many ingredients used in dishes are simply not found in the food of other countries. The mastery of Japanese food relies on the freshest ingredients meticulously prepared. Seasonality is also a major factor in Japanese cuisine. <P> 1 Global cuisine – a cuisine that is practiced around the world. 2 A cuisine is a characteristic style of cooking practices and traditions, often associated with a specific region, country or culture. 3 To become a global cuisine, a local, regional or national cuisine must spread around the world; it's food served world-wide. Cuisines by region [edit]. 1 Global cuisine – a cuisine that is practiced around the world. 2 A cuisine is a characteristic style of cooking practices and traditions, often associated with a specific region, country or culture. <P> List Criteria: Distinctive styles of food. This is a list of the favorite types of cuisine, chosen by Ranker users. Whether it's Italian cuisine (real Italian, we're not just talking pizza here), Chinese or something a bit more exotic, like Moroccan food, people are passionate with their palates. <P> Search: Switch to Cambridge Pubs. This page lists the different types of cuisine. Click on a category to view the restaurants in that type. Some restaurants serve a variety of dishes from around the globe and therefore do not conform to any single category. <P> RE: what are different types of cuisine? i know theres like italian, and mediterranean, american, asian, etc. but could someone tell me what kinds/types of foods u&#39;d get from different cuisines (like i figured u could get pastas, and stuff from itallian cuisine). show more i know theres like italian, and mediterranean, american, asian, etc. but could someone tell me what kinds/types of foods u' <P> The following outline is provided as an overview of and topical guide to cuisines: Cuisine – specific set of cooking traditions and practices, often associated with a specific culture. <P> 1 A cuisine is a characteristic style of cooking practices and traditions, often associated with a specific region, country or culture. 2 To become a global cuisine, a local, regional or national cuisine must spread around the world; it's food served world-wide. Cuisines by region [edit]. 1 Global cuisine – a cuisine that is practiced around the world. 2 A cuisine is a characteristic style of cooking practices and traditions, often associated with a specific region, country or culture.
Thai food is one of the most popular of world cuisines in recent times. Thai food is different from the Chinese cuisine most of us know and love Thai food uses more noodle dishes, fresh herbs and broths.
where did the myall creek massacre take place
<P> Massacre [edit]. A group of eleven stockmen, consisting of assigned convicts and former convicts, ten of them men of European extraction and one African (John Johnstone), led by a squatter, John Fleming from Mungie Bundie Run near Moree, arrived at Henry Dangar 's Myall Creek station on 10 June 1838. The Myall Creek massacre has been claimed to be the first and only time in Australia's history that Europeans were executed for the massacre of Australian Aborigines. <P> The Myall Creek Massacre took place in June of that year, on Myall Creek Station near the Gwydir River. The Myall Creek Massacre. The escalating conflict between settlers and Aboriginal people on the frontier was one of the issues confronting Governor Gipps on his arrival in the New South Wales colony in 1838. The brutal massacre at Myall Creek of around 30 men, women and children of the Wirrayaraay and Gamilaroi peoples in June 1838, the subsequent court cases and the hanging of the seven settlers for their role in the massacre, was pivotal in the development of the relationship between settlers and Aboriginal people in NSW. <P> as my interests are far and wide. The Myall Creek massacre in Australia took place on 10 June 1838. On this day, a gang of stockmen, heavily armed, rounded up between 40 and 50 Aboriginal women, children and elderly men at Myall Creek Station, near Bingara which is not far from Inverell in New South Wales. 28 Aborigines were murdered. The Myall Creek massacre was one of Australia's more shameful events in history. On 10 June 1838, a group of armed stockmen rounded up 40 - 50 Aboriginal women, children and e … lderly men at Myall Creek Station, near Bingara in gold-bearing country of northern New South Wales. 28 Aborigines were murdered. <P> The Myall Creek massacre in Australia took place on 10 June 1838. On this day, a gang of stockmen, heavily armed, rounded up between 40 and 50 Aboriginal women, children and … elderly men at Myall Creek Station, near Bingara which is not far from Inverell in New South Wales. There were trials following the Myall Creek massacre. The first trial was held on 15 November 1838, and twelve white settlers were charged with murder, but acquitted. <P> On June 10, 1838, the infamous Myall Creek Massacre took place at Myall Creek Station where twenty eight Aboriginal men, women and children were massacred and their bodies burned. The ensuing court case marked the first time in Australian history that white men were tried for crimes against Aborigines. A large crowd took part in the annual ceremony at the Myall Creek Memorial on Sunday to observe the annual commemoration of the massacre of 28 Aboriginal children, women and men on June 10, 1838. “We can’t as a nation walk on an international stage if we don’t clean our backyard.” (26-May-14) [ Read more... <P> The Myall Creek massacre of aboriginal women, children and elderly men took place at Myall Creek Station, near Bingara, which is not far from Inverell in northern New South Wales. There were trials following the Myall Creek massacre. The first trial was held on 15 November 1838, and twelve white settlers were charged with murder, but acquitted. <P> The key people involved in what took place at Myall Creek on 10 th June 1838 and its aftermath are: At Myall Creek Station. George Anderson – from London. Transported for life in 1833 at the age of 19 for robbing his master. Early in 1838 his master Henry Dangar had him flogged (100 lashes) for leaving his post. He was then sent to Myall Creek station where he was the hut keeper, a lower position than a stockman. Had a relationship with a young Aboriginal woman, named Ipeta. He refused to take part in the massacre. He was crucial in the arrest and identification of the perpetrators and was the key witness at the trials. <P> Large crowd at Myall Creek Memorial (12-Jun-14) [ Read more... ]. A large crowd took part in the annual ceremony at the Myall Creek Memorial on Sunday to observe the annual commemoration of the massacre of 28 Aboriginal children, women and men on June 10, 1838. “We can’t as a nation walk on an international stage if we don’t clean our backyard.” (26-May-14) [ Read more...
On the Myall Creek Station near the Gwydir River, Australia.
what did elway get drafted
<P> Comments. John Elway 's NFL career got off to a bumpy start when he was drafted No. 1 overall to the Indianapolis Colts. ESPN's 30 for 30 series will chronicle Elway's draft saga in its Elway to Marino special on Tuesday night at 8 p.m. ET. Elway was the first of six quarterbacks selected in the 1983 NFL draft. He didn't want to play for the Colts—a team that hadn't had success for quite some time—and had warned the team not to select him with the first overall pick. <P> By MICHAEL JANOFSKY. John Elway, the Stanford University quarterback who insisted he would not play for the Baltimore Colts when they made him the first pick in the National Football League draft last week, was traded last night to the Denver Broncos. <P> The Stanford quarterback was one of a record six quarterbacks to be taken in the first round that year. The story of Elway and Dan Marino, the final quarterback taken in the first round, is the focus of Elway to Marino. Airing at 8 p.m. on ESPN, it's the latest gem in the network's 30 for 30 series of documentaries. Directed by Ken Rodgers of NFL Films, the documentary's central figure is agent Marvin Demoff. <P> The draft spans over three days, and the process is constantly in motion. The Broncos can expect certain picks to be off the board by the time they pick, but they might be shocked with the value found in certain rounds. Elway was happy with what the Broncos did this year in the draft. “We felt very good about <P> Best Answer: In the1983 NFL Draft he refused to play for the Baltimore Colts. He was drafted by Baltimore with the first pick in the draft but the Colts owner Robert Irsay gave in and traded him to the Denver Broncos. <P> John Elway 's NFL career got off to a bumpy start when he was drafted No. 1 overall to the Indianapolis Colts.
Elway was the first of six quarterbacks selected in the 1983 NFL draft
how to cook eggs in the oven in a muffin pan
<P> Grease each muffin cup with nonstick spray or oil and crack an egg into it. Top the egg with 1 to 2 tablespoons of cream, to prevent it from drying out, or just salt and pepper, and bake in a preheated 325 F oven for about 15 minutes for a firm yolk. If you're cooking breakfast or brunch for a crowd, use a muffin pan to make up to a dozen eggs -- poached, scrambled or hard-boiled -- at once. Prepare eggs en masse in the pan for a week's worth of quick breakfast treats that are a snap to reheat in the morning. <P> 1 Preheat oven to 350 degrees F (175 degrees C). 2 Put 1 egg in each of 12 muffin cups. 3 Bake in preheated oven for 30 minutes. 4 Plunge baked eggs in a large bowl filled with ice water until cooled completely, about 10 minutes. Ready In. 1 <P> Directions. 1 Preheat oven 375 degrees. 2 In medium frying pan fry bacon to soft transparent stage. 3 Drain on paper towels. 4 Line each slice around the side of each muffin cup. 5 Ends may overlap. 6 Break egg directly in the center of each muffin cup. 12 cup muffin pan. 7 Slightly salt and pepper. 8 Cook 15 to 20 minutes. <P> Instructions. Preheat the oven to 350. 1. Crack eggs into a lightly greased muffin tin. 2. Sprinkle a bit of salt and pepper onto the eggs. 3. Bake at 350 for fifteen minutes. You can scramble the yolk if you’d like, but we prefer them with the yolk still intact. <P> Directions. 1 Preheat oven to 350°. 2 In a large skillet, cook sausage over medium heat until no longer pink; drain. 3 In a large bowl, beat eggs. 4 Add onion, green pepper, salt, garlic powder and pepper. 5 Stir in sausage and cheese. 6 Spoon by 1/3 cupfuls into muffin cups coated with cooking spray. 1 <P> Boiling a lot of eggs at once requires a big pot and attention to the stovetop. Corral them in a muffin tin while they bake in the oven for an easy preparation process. Place 1 whole egg in each tin and bake in a preheated 350 F oven for about 30 minutes. Remove them from the oven and place them into an ice-water bath to cool; then, peel for a quick snack or to use in recipes. If you're cooking breakfast or brunch for a crowd, use a muffin pan to make up to a dozen eggs -- poached, scrambled or hard-boiled -- at once. Prepare eggs en masse in the pan for a week's worth of quick breakfast treats that are a snap to reheat in the morning. <P> Preheat the oven to 350 degrees Fahrenheit and place a teaspoon of plain water into each muffin cup. Crack an egg into each section and carefully place the eggs in the oven. Bake 11 to 12 minutes for poached eggs that are runny in the center, with a firm white, according to testers at The Kitchn website. If you're cooking breakfast or brunch for a crowd, use a muffin pan to make up to a dozen eggs -- poached, scrambled or hard-boiled -- at once. Prepare eggs en masse in the pan for a week's worth of quick breakfast treats that are a snap to reheat in the morning. <P> 6 large eggs. Heat an oven to 400 degrees. Bring about 2 cups of water to a boil, either on your stove top or in your microwave oven. Pour about 2 tablespoons of boiling water into each tin in a muffin tin pan (regular or large size muffin tins work fine, just depends on the shape you like for your finished egg). Crack a large egg into each tin. Pour about 2 more tablespoons of water on top of each egg. Bake in oven for EXACTLY six minute <P> All you have to do is set your oven to 350F, grease a muffin tin with non stick cooking spray, and crack your eggs into the tin. Then add some flavor with a little shake of salt and pepper. Bake for about 17 minutes and viola. How to Bake Eggs in the Oven. <P> This oven method, of cooking eggs in the shell, is not only fool proof, but the eggs come out absolutely perfect and you can make a ba-jillion at once!! Preheat your oven to 350 and place large size eggs in a mini-muffin pan (large end down). If you don't have a mini-muffin pan, you can use a regular cupcake pan (they they will just roll around a little more).
1 Preheat oven to 350 degrees F (175 degrees C). 2 Put 1 egg in each of 12 muffin cups. 3 Bake in preheated oven for 30 minutes. 4 Plunge baked eggs in a large bowl filled with ice water until cooled completely, about 10 minutes.
dog age vs human age
<P> 1 human year = 7 dog years. Different breeds of dogs age at vastly different rates so this rule of thumb only goes so far. Giant dogs like Great Danes and St. Bernards may have a life expectancy of under 10 years. Chihuahuas might still be going strong at 15. <P> This means is that a 15-year-old human and a 1-year-old dog are at the same point in physical maturity. After adulthood, the aging rate slows to 4 times that of humans for small dogs, around 5 for medium, and between 5 and 6 for large breeds. <P> In this article. If you own a dog, you've heard this rule: 1 year for Fido equals 7 years for you. Turns out, the math isn't that simple. Dogs mature more quickly than we do early on. So the first year of your fuzzy friend’s life is equal to about 15 human years. Size and breed also play a role. <P> The oldest recorded age for a dog is 27 years. What age is my dog in Human Years-Dog Years to Human Years. There are many tables for converting between dog years (age) and human years (age). Many of them use a very simple calculation e.g. 1 dog year equals 7 human years. <P> A popular old wives' tale claims that one year of a dog's life is equal to seven human years. This has been proven to be false. For example, dogs are capable of reproducing at around one year of age, but a seven-year-old child is far from sexually mature. <P> Dogs mature relatively quickly, and therefore, age faster than humans. The calculation is that, 1 dog year may be equivalent to 7 years or less, of human years, depending on the life expectancy of a certain breed. With dogs, small breeds live the longest, while large breeds live for a shorter time.
1 human year = 7 dog years.
how to make edge smooth in photoshop
<P> You can smooth the hard edges of a selection by feathering. Feathering blurs edges by building a transition between the selection and surrounding pixels. This blurring can cause some loss of detail at the edge of the selection. You can create a feathered selection with the Elliptical Marquee, Rectangular Marquee, Lasso, Polygonal Lasso, or Magnetic Lasso tool. You can also add feathering to an existing selection by using the Select menu. <P> Now is the time to apply layer mask to our shape. Right click on the layer mask and select Apply layer mask. Congratulations, you now know how to smooth edges of a shape in Photoshop. <P> To refine the edges of a selection: 1 Create a selection. 2 With your selection tool still chosen, click Refine Edge on the Options bar or press Ctrl-Alt-R/Cmd-Option-R. 3 Set the zoom level to 100% or 200% by pressing Ctrl- +/Cmd- +. <P> Open the photo with the rough edges in Adobe Photoshop CS5, and then select the Blur tool from the toolbox. Step 2. Hold down Alt and use the mouse scroll wheel to zoom in on the section of the image with the rough edges. Alternatively, use the Zoom tool to view the jagged edges from close-up. <P> (Shortcut: Hold down the Ctrl key and click on the channel to select the shape). a. Now go back to the layer palette and make sure you have the shape layer selected and fill the selection with your chosen color. <P> You can smooth the hard edges of a selection by anti-aliasing or feathering. Anti-aliasing smoothes the jagged edges of a selection by softening the color transition between edge pixels and background pixels. Because only the edge pixels change, no detail is lost. <P> Nothing really, it's just the way I work and believe me, I have spent a lot of time trying to find an easier way to do this. So, I'm going to show you step by step how to smooth your corners without getting the jaggy edges. a. Create a new file in Photoshop. <P> Project 6 guide Adobe Photoshop CS6 4 How to blend, feather, and smooth © 2012 Adobe Systems Incorporated 21. Click in the new layer to add a new background color.Observe that the background layer now displays a thumbnail of a solid color (Figure 9).
You can smooth the hard edges of a selection by feathering
why is my insurance tracking my cell phone records
<P> I am sorry to hear about your vehicle being stolen. It is often common for insurance companies to request phone records. They are likely trying to determine if any fraud was involved. Of course you don't have to give them the records, however, they may not proceed any further with the claim without the records. However, you should also note that some states and/or phone carrier will not release this information without a court order or subpoena. If it will cost a significant amount of money, you can request that the insurance company pay for them or reimburse you. Also if they are requesting the records for a long period of time, you can maybe ask the insurance company to cut back on the period of time they are requesting the records for. <P> So, the short answer is, yes they can ask for your cell phone records. The longer answer is, the request should be based on a valid investigation, not on a fishing expedition. If you have nothing to hide, you should give them the records. Your insurance policy no doubt has a clause that requires you to cooperate. QUESTION: My car was stolen from a shopping center parking lot. I have a witness who saw my car prior and receipts from that afternoon. I supplied the insurance company everything they requested except for my cell phone call details. <P> If a lawsuit has not yet been filed, then you are not required to turn over your cell phone records. Insurance adjusters may try to convince you that they need your records before the claim can be processed, but it is important to avoid giving them sensitive information that they may attempt to use against you. Civil discovery can involve any material(s) which may be reasonably expected to lead to admissible evidence in a lawsuit. In some instances the opposing side may argue that your cell phone records are admissible evidence to support their case, and you may be orde <P> QUESTION: Thank you for your quick response. Just a follow up: My cell phone provider doesn't bill me. The insurance company sent me a form to complete so they can obtain the records for two days prior and the day of the theft. QUESTION: My car was stolen from a shopping center parking lot. I have a witness who saw my car prior and receipts from that afternoon. I supplied the insurance company everything they requested except for my cell phone call details. <P> Zip Code: Naturally, the cell phone service provider that you use has access to your cell phone records, but it’s subject to privacy laws and is supposed to keep your information safely stored away from the public. Moreover, the Patriot Act makes it illegal for the cell phone company that has delivered your records to the FBI or NSA to make it publicly known or even discuss the fact that your phone records have been investigated. <P> Government agencies can access to your cell phone records (including call logs and text records) with a subpoena if you’re part of or connected to a criminal investigation or a civil lawsuit. Your cell phone company is required by law to comply with subpoenas that request the records. Moreover, the Patriot Act makes it illegal for the cell phone company that has delivered your records to the FBI or NSA to make it publicly known or even discuss the fact that your phone records have been investigated. <P> In my experience, when they ask for cell phone records, they suspect you might be involved. They use the records to see who you called and when. As an investigator myself, I have done this. However, I should add that I had good reason-based on solid investigation-that the cell phone records were material to the claim. QUESTION: My car was stolen from a shopping center parking lot. I have a witness who saw my car prior and receipts from that afternoon. I supplied the insurance company everything they requested except for my cell phone call details. <P> Generally speaking, you are not required to turn over your cell phone records to your insurance company or the other driver's insurance company unless a lawsuit has been filed in connection with the crash. Civil discovery can involve any material(s) which may be reasonably expected to lead to admissible evidence in a lawsuit. In some instances the opposing side may argue that your cell phone records are admissible evidence to support their case, and you may be ordered to turn over your cell phone records. <P> Thank you for responding. While it's customary to thoroughly investigate a claim, of my legal experience, it's sounds a bit unusual for an insurance company to request cell phone records for such an incident. I'm not saying that they have no right to-for if they have found a valid reason, then-yes, it would be legal. Reply to The Mystic Wave's Post: My car was stolen on Oct. 1, 2005 and they told me they wanted my cell phone records, receipts for the day and all of my oil change records, the name of the person who picked me up from the scene, their description, name and number.
Government agencies can access to your cell phone records (including call logs and text records) with a subpoena if you’re part of or connected to a criminal investigation or a civil lawsuit.
what is stifle in a cow
<P> A horse is unable to flex the hock without flexing the stifle and hip joints. Potential problems. Upward fixation of the Patella: Also referred to as an uncontrollable locking of the stifle. The hind limb is locked in extention and the hock can not be flexed. This can start intermittently during forward motion. This can also progress to the point of the joint being stuck and a horse hopping on 3 legs. Some Simple Signs of Trouble. It is not uncommon for stifle or hock problems to show some similar signs when trying to determine which joint is involved. It is my experience it is best to watch a horse from the side and from behind when lameness is suspected. <P> Making the world better, one answer at a time. The stifle joint in a cow is very much like your knee.. It is a complex structure and is subject to many problems. The stifle is found on the cow's hind legs. <P> I have a cow that has come up lame today which what appears to be a stifle injury. I had a vet come out to farm and he agreed. Wanted to get your opinion on how about treating this injury so that the cow can come back as much as she can. She is a BC Marathon PB Angus bred to Bodacious so I want to make sure I see her calve out and raise her calf without problems. Please provide me your insight or experiences in handling this injury. Thanks. I have currently placed her on the smallest flattest pasture on the place where she doesnt have to walk very far for both hay/grass and water. We can only hope for the best. If there is anything else I can be doing, please share. <P> Stifle injuries in cattle. Ducharme NG(1). Author information: (1)Large Animal Clinic, College of Veterinary Medicine, Cornell University, Ithaca, New York, USA. Lameness of the hindlimbs originating from the stifle joint may be difficult to diagnose and treat. This article describes anatomic considerations and the diagnostic procedures necessary to accurately evaluate the bovine stifle joint. The emphasis is toward obtaining a diagnosis based on physical examination and simple diagnostic procedures in field situation. <P> The stifle joint in a horse is very much like your knee.. It is a complex structure and is subject to many problems. The stifle is found on the horse's hind legs. Just an interesting note about the horse's forelimb knee.. It works more like a human wrist. Communication from the patella or kneecap is sent to the femur through the femoral-patella joint. The stifle is made up of these two joints. A thin capsule surrounds the entire stifle joint that has a specialized fluid to help with shock absorption and lubrication. <P> Stifle joint problems (OCD, arthritis, cruciate ligament) are also a main source of stifle problems. The stifle is a complex joint that carries a lot of weight. There are two thick pieces of C-shaped fibro cartilage that act as shock absorbers. They are located between the femur and the tibia. Communication from the patella or kneecap is sent to the femur through the femoral-patella joint. The stifle is made up of these two joints. A thin capsule surrounds the entire stifle joint that has a specialized fluid to help with shock absorption and lubrication. <P> Lameness is an abnormal gait or stance of an animal that is the result of dysfunction of the locomotor system. In the horse, it is most commonly caused by pain, but can be due to neurologic or mechanical dysfunction. Lameness is a common veterinary problem in racehorses, sport horses, and pleasure horses. <P> The stifle joint (often simply stifle) is a complex joint in the hind limbs of quadruped mammals such as the sheep, horse or dog. It is the equivalent of the human knee and is often the largest synovial joint in the animal's body. The stifle joint joins three bones: the femur, patella, and tibia. Caudal to the joint, in the dog for example, are the two fabellae, which lie in the two tendons of origin of gastrocnemius. Fourth, there is often a small sesamoid bone in the tendon of origin of popliteus in many species. Humans possess only the patella. <P> It is located cranially to the joint and sits in the trochlear groove of the femur. It guides the patellar ligament of the quadriceps over the knee joint to its point of insertion on the tibia. Caudal to the joint, in the dog for example, are the two fabellae, which lie in the two tendons of origin of gastrocnemius. Fourth, there is often a small sesamoid bone in the tendon of origin of popliteus in many species. Humans possess only the patella. <P> Rupture of Cranial Cruciate Ligament of the Stifle. Definition: Tearing or disruption of the cranial cruciate ligament as a result of twisting or rotary movement. Incidence: Not uncommon. Seen more in older bulls and in heavy cows, especially when first put out on pasture after being restricted. Often cows are in late pregnancy
It is very much like the knee,is a complex structure The stifle is found on the cow's hind legs.
what causes slurred
<P> Confusion and Slurred speech. WebMD Symptom Checker helps you find the most common medical conditions indicated by the symptoms confusion and slurred speech including Medication reaction or side-effect, Stroke, and Insulin reaction (hypoglycemia). There are 46 conditions associated with confusion and s <P> The following drugs, medications, substances or toxins are some of the possible causes of Slurred speech as a symptom. Always advise your doctor of any medications or treatments you are using, including prescription, over-the-counter, supplements, herbal or alternative treatments. The following medical conditions are some of the possible causes of Slurred speech. There are likely to be other possible causes, so ask your doctor about your symptoms. 1 Drunkenness (see Alcohol use). 2 Alcohol intoxication. 3 Drug <P> Dysarthria often is characterized by slurred or slow speech that can be difficult to understand. Common causes of dysarthria include nervous system (neurological) disorders such as stroke, brain injury, brain tumors, and conditions that cause facial paralysis or tongue or throat muscle weakness. Certain medications also can cause dysarthria. Dysarthria treatment is directed at treating the underlying cause of your condition when possible, which may improve your speech. You may have speech therapy to help improve speech. For dysarthria caused by prescription medications, changing or discontinuing the medications may help. 1 Symptoms. <P> Slurred Speech From Anxiety: Causes and Treatments. Many of the worst anxiety symptoms can make you feel like there is something wrong with your brain. Our brains are arguably the most important part of our bodies, and deep down many people with anxiety have a fear that their brain may fail them. 1 Anxiety Medications Slurred speech is the side effect of many different anxiety medications. 2 Most often it's because these medications act as muscle relaxants and make it harder and harder to move the muscles in your mouth and face. <P> Proper speech requires normal function of the brain, mouth, tongue, and vocal cords (larynx). Damage or disease affecting any of these organs may cause slurred speech. Common causes of slurred speech include alcohol or drug intoxication, traumatic brain injury, stroke, and neuromuscular disorders. Slurred speech is a symptom characterized by poor pronunciation of words, mumbling, or a change in speed or rhythm during talking. The medical term for slurred speech is dysarthria. <P> Fatigue and Slurred speech. WebMD Symptom Checker helps you find the most common medical conditions indicated by the symptoms fatigue and slurred speech including Medication reaction or side-effect, Multiple sclerosis, and Anemia. There are 88 conditions associated with fatigue and s <P> Here we will look at a range of possible causes for slurred speech, how to diagnose it and how to treat it. Stroke. A stroke can cause slurred speech if it affects the motor control around parts of the face, mouth or tongue. Often this will be in conjunction with visible facial paralysis, perhaps on just one half of the face. This is commonly a side effect of stroke and in some cases the patient can recover <P> Seek immediate medical care (call 911) if you have slurred speech and other serious symptoms, such as numbness or weakness on one side of your body; a change in level of consciousness or alertness, such as passing out or unresponsiveness; or the worst headache of your life, as these can be signs of stroke. Slurred speech is a symptom characterized by poor pronunciation of words, mumbling, or a change in speed or rhythm during talking. The medical term for slurred speech is dysarthria. <P> While it's important to talk with your doctor about the cause of your slurred speech, slurred speech caused by anxiety is not dangerous. It's not a sign that you have something else coming, or that your brain will somehow be inefficient for handling life tasks in the future. 1 Anxiety Medications Slurred speech is the side effect of many different anxiety medications. 2 Most often it's because these medications act as muscle relaxants and make it harder and harder to move the muscles in your mouth and face.
Common causes include nervous system (neurological) disorders such as stroke,brain injury,brain tumors and conditions that cause facial paralysis or tongue or throat muscle weakness.
how far apart should potatoes be planted
<P> For an average size tuber, plant 12-15 inches apart. And if you want big, storage potatoes plant them 18-24 inches apart. Plant potatoes in a trench 10-12 inches deep and cover with 2-4 inches of soil. As the plants grow taller, you gradually fill in the trench with soil around the plant. On average, each plant will produce 2-4 pounds of potatoes. If the plants are spaced far apart, you will get bigger tubers but fewer of them. However, if the plants are spaced close together, you will get a greater number of smaller sized tubers. For new potatoes, you can plant as close as 8-10 <P> Dad planted his potatoes 18 inches apart in rows 3 to 4 feet apart You can plant them closer but you will get small potatoes. We also started hilling the plants as soon as they got two to three inches high. Don’t plant any other vegetables near the potatoes by at least 3 to 4 feet. Growing Instructions. Once the plants begin to grow, about 12 inches above the soil, you should “hill up” the earth to cover them by another 4 inches. You’ll likely be covering up some healthy green leaves, and that’s fine. <P> Put your seed potatoes about four inches deep. Potatoes should be planted in rows about 12 inches apart and at a depth of about 4 inches. Build up the soil along the rows, forming a mound. Potatoes should be far enough apart that they shouldn't run into each other underground as they grow. <P> Potatoes can be a fun and easy crop to grow. Field growing: This is the conventional way most potatoes are grown. Generally, the seed potatoes are planted about 12 inches apart in rows that are spaced 2 to 3 feet apart. The seed pieces' are planted about 1 inch deep, then covered with additional soil as the sprouts develop. Straw: For centuries, Scandinavians have grown potatoes in stacks of straw or other mulching material <P> Potato Spacing. Seed potatoes require loose, moist soil, but should never be planted where water puddles. Plant individual seed potatoes 1 to 1 1/2 feet apart in rows. Many gardeners build mounded rows for planting to ensure good drainage around the potatoes. Row Spacing. Potatoes are a successful crop, so many gardeners plant row after row of seed potatoes. Rows should be spaced at 2 to 3 feet, to give the vining plants plenty of room to grow and expand. <P> Planting Seed Potatoes. You can plant seed potatoes as soon as the ground can be worked in the spring, making sure to choose a sunny location. The tubers need room to grow, so plant them about 3 inches deep and 12 inches apart within the rows, leaving about 3 feet of space between the rows. When planting, you should make sure the soil is moist. If you want a late season crop, you can plant seed potatoes in mid-June to have potatoes all winter <P> Trenches should be between 2-3 feet apart and then covered with soil. The planting depth of potatoes starts at 4 inches deep and then as the potato plants grow, you gradually create a “hill” around the plants with loosely hoed soil up to the base of the plant. Repeat in 2-3 weeks. <P> Plant two seed potatoes, whole or halved, about 2 inches deep. Once the potatoes have developed 3 or 4 inches of foliage growth, a second tire can be put on top of the first, Fill in with more soil, always leaving at least 2 inches of leaf growth above the soil level. Continue to fill as the plants grow. Field growing: This is the conventional way most potatoes are grown. Generally, the seed potatoes are planted about 12 inches apart in rows that are spaced 2 to 3 feet apart. The seed pieces' are planted about 1 inch deep, then covered with additional soil as the sprouts develop.
12 inches apart.
what does crust mean in science
<P> Lack of oxygen delayed animal life on Earth by AKIpress News Agency. The volcanic rock formations including the Samail ophiolite (a large slab of oceanic crust that is made of volcanic rocks and ultramafic rocks from the Earth's upper mantle, which was thrust onto the. <P> ♦ The crust that lies underneath the oceans is called oceanic crust, and is approximately 3 to 6 miles (4.8 to 9.7 kilometers) thick. It has a similar composition to that of continental crust, but has higher concentrations of iron, magnesium, and calcium. crust-form a crust or form into a crust; The bread crusted in the oven. change surface-undergo or cause to undergo a change in the surface. <P> crustal plate; plate (a rigid layer of the Earth's crust that is believed to drift slowly). Holonyms (Earth's crust is a part of...): geosphere; lithosphere (the solid part of the earth consisting of the crust and outer mantle). Meronyms (substance of Earth's crust): sial (the granitelike rocks that form the outermost layer of the earth's crust; rich in silicon and aluminum). sima (rock that form the continuous lower layer of the earth's crust; rich in silicon and magnesium). Hyponyms (each of the following is a kind <P> The oceanic crust is part of the crust that is made fully out of basaltic rock and is several times thinner than the continental crust which is made out of granitic rock. Ocea … nic crust underlies Earth's oceans and is produced at divergent plate boundaries which are commonly referred to as mid-ocean ridges. The crust is the outermost chemical layer of the Earth, of hard and brittle rock, composed of oceanic crust and continental crust. The crust is typically about 23 miles thick … beneath continents, and about 6.5 miles thick beneath oceans. <P> Meronyms (parts of crust): asthenosphere (the lower layer of the crust). Meronyms (substance of crust): sial (the granitelike rocks that form the outermost layer of the earth's crust; rich in silicon and aluminum). sima (rock that form the continuous lower layer of the earth's crust; rich in silicon and magnesium). Hyponyms (each of the following is a kind of crust): 2. a hard outer layer that covers something. 3. the trait of being rude and impertinent; inclined to take liberties. Familiarity information: CRUST used as a noun is uncommon. • CRUST (verb). The verb CRUST has 1 sense: 1. form a crust or form into a crust. Familiarity information: CRUST used as a verb is very rare. <P> Oceanic crust. Oceanic crust is the part of Earth's lithosphere that surfaces in the ocean basins. Oceanic crust is primarily composed of mafic rocks, or sima, which is rich in iron and magnesium. <P> The Earth's Crust The crust is the top part of the Earth. It is where we live. The Earth's crust is 6 miles deep. That is the Earth's crust. If you have a pet snail, or have seen a snail in your garden with crust on the hole of it's shell, well, first, good job at being so observant! What you have discovered is a s … nail in hibernation! Yes, believe it or not, snails do hibernate <P> crust. The solid, outermost layer of the Earth. ♦ The crust that lies underneath the continents is called continental crust, and is approximately 22 to 37 miles (35.4 to 59.6 kilometers) thick. It consists mostly of rocks rich in silica and aluminum, with minor amounts of iron, magnesium, calcium, sodium, and potassium. crust-form a crust or form into a crust; The bread crusted in the oven. change surface-undergo or cause to undergo a change in the surface.
The solid, outermost layer of the Earth.
how long does it take for adderall to work in adults
<P> Adderall use is growing among adults, including women who take extended-release versions of the drug to suppress appetite and help with weight loss, Diller says. In fact, prescriptions for Adderall-style attention deficit drugs have roughly quintupled in the U.S. since 1996. [ Tweet this news !]. <P> But in general, how much Adderall is safe is up to 40 mg per day for children, and 60 mg per day for adults, more or less dosage depending upon physical tolerance to amphetamines. How fast does Adderall work. Adderall reaches its peak level in the blood in 1-2 hours. At that point, Adderall has taken full effect. Sometimes people will crush and snort the powder from the tablets to try to get more immediate effects. <P> Adderall® is now available in an extended release version that lasts for 24 hours, called Adderall XR® (an abbreviation for eXtended Release). Adderall XR® is an extended-release version of the drug that only needs to be taken once daily and is only indicated for childhood and adult ADHD, not narcolepsy. I as just diagnosed with ADD at the age of 44. Its being 4 days taking Adderall 10mg in the morning and 10mg in the afternoon, I have all the side effects but I don’t feel any difference than before. Low dosage or should I give it more days to work. <P> Thanked 27 Times in 22 Posts. Re: How long did adderall take to work for you? I take about 80 mg a day 40 in morning and 40 in afternoon a little more than usual since I am a big guy (310 lbs) so it takes more to get a good effect and I am in grad school so studying in 3-5 hour stretches. <P> Although the time required for Adderall® to take effect may be different for each individual, instant-release drugs in this class generally take 1 – 3 hours. The amount of instant release Adderall® in the bloodstream peaks at about 3 hours. I as just diagnosed with ADD at the age of 44. Its being 4 days taking Adderall 10mg in the morning and 10mg in the afternoon, I have all the side effects but I don’t feel any difference than before. Low dosage or should I give it more days to work. <P> A: Adderall (amphetamine/dextroamphetamine) is a medication that is used to treat ADD/ADHD or narcolepsy. It is in the class of medications that are considered stimulants and although it goes against the way you would think a stimulant would work, it calms down the patient with ADD/ADHD. Adderall (amphetamine and dextroamphetamine) is a stimulant that affects chemicals in the brain that are associated with hyperactivity and impulse control. Adderall is used in attention deficit hyperactivity disorder (ADHD). Adderall is available as a short-acting and long-acting formulation. <P> Share. 1. 1. 18. Adderall is a prescription drug that’s used to treat ADHD and narcolepsy. Adderall shows up in urine tests as an amphetamine up to four (4) days after a single dose and up to a week or longer after chronic use. How fast does Adderall work. Adderall reaches its peak level in the blood in 1-2 hours. At that point, Adderall has taken full effect. Sometimes people will crush and snort the powder from the tablets to try to get more immediate effects. <P> Adderall is a mixture of four different amphetamine salts-Dextroamphetamine Saccharate, Amphetamine Aspartate, Dextroamphetamine Sulfate, and Amphetamine Sulfate-that is used to treat Attention Deficit Hyperactivity Disorder (ADHD). Treating ADHD with Adderall was approved by the FDA in 1996. Adderall has been approved for use in patients age 3 years and older. People with even mild cases of hypertension should avoid Adderall use. Amphetamines can cause mania in people with bipolar disorder. People with a history of drug abuse need to use extreme caution when taking this medication. <P> […] you are interested in learning more about the common ADHD drug Adderall, such as the recommended dosage, follow the […]. says: November 16, 2014 at 6:45 am. […] Adderall – Medication for Adults with ADHD – How It … – Adderall can be a life saver for adults with ADHD. I as just diagnosed with ADD at the age of 44. Its being 4 days taking Adderall 10mg in the morning and 10mg in the afternoon, I have all the side effects but I don’t feel any difference than before. Low dosage or should I give it more days to work. <P> A: Unfortunately, many long-term effects of medications are not known since many medications are not studied for over 6 to 12 months. Adderall (amphetamine/dextroamphetamine) is a medication that has been used for many years in the treatment of ADHD and narcolepsy. Adderall (amphetamine and dextroamphetamine) is a stimulant that affects chemicals in the brain that are associated with hyperactivity and impulse control. Adderall is used in attention deficit hyperactivity disorder (ADHD). Adderall is available as a short-acting and long-acting formulation.
1-2 hours.
phlebotomy hourly pay in texas
<P> Conclusion about phlebotomy technician salary. According to payscale, an average hourly wage for a phlebotomy technician in the United States ranges from $9.75 – $16.80 per hour which increases by up to $8.32 – $24.75 overtime. A yearly bonus of about $1,003 is included as part of the annual salary package. <P> The lowest-paid phlebotomists were in Ohio, at an average of $12.10 per hour. Wisconsin at $12.52, North Carolina at $12.78, Texas at $13.80 and New York at $13.82 round out the lowest-paying states. Related Reading: The Hourly Salary of a Business Manager. Numerically the highest-volume employers are hospitals, where pay averages $18.43 per hour. Medical laboratories are second in volume among employers, paying $16.62 per hour, while physicians's offices are third and pay $17.31 per hour. <P> Average phlebotomy technician salary. According to PayScale, the average salary for a phlebotomy technician in the United States ranges from $22,970 to $31,842 per year and an average hourly wage ranges from $9.45 – $17.22 per hour. According to payscale, an average hourly wage for a phlebotomy technician in the United States ranges from $9.75 – $16.80 per hour which increases by up to $8.32 – $24.75 overtime. A yearly bonus of about $1,003 is included as part of the annual salary package. <P> (United States). Phlebotomists in Houston pull down an average of $15.06 per hour. Earnings sit near $11.12 per hour on the lower side but can approach $18.17 on the higher side. The specific employer is the biggest factor affecting pay for this group, followed by career duration. Most Phlebotomists in Houston, Texas report high levels of job satisfaction. After working for 10 to 20 years, Phlebotomists in Houston make a median salary of $33K. Folks who have racked up more than 20 years in the field report incomes that aren't that much higher than less experienced individuals' earnings; the veterans make just $34K on average. ADVERTISEMENT. <P> Phlebotomy technician’s salary (shortly known as a phlebotomy tech salary) according to the US PayScale is around $26,790 per year and an average hourly wage is about $8 per hour. Overtime, the total salary including an annual bonus ranges between $22,414 and $33,727 per year. According to payscale, an average hourly wage for a phlebotomy technician in the United States ranges from $9.75 – $16.80 per hour which increases by up to $8.32 – $24.75 overtime. A yearly bonus of about $1,003 is included as part of the annual salary package. <P> Average Phlebotomist Salaries. The average salary for phlebotomist jobs in San Antonio, TX is $23,000. Average phlebotomist salaries can vary greatly due to company, location, industry, experience and benefits. This salary was calculated using the average salary for all jobs with the term phlebotomist anywhere in the job listing. <P> $27,000. Average Phlebotomist salaries for job postings in Houston, TX are 13% higher than average Phlebotomist salaries for job postings nationwide. <P> Salary. Phlebotomist salaries vary according to company, location, industry, experience, benefits and shift differentials. In 2010, according to the American Society for Clinical Pathology, the average salary for phlebotomists was $28,080 annually and $13.50 hourly. Those at the supervisory level earned average salaries of $41,766 annually and $20.08 hourly. Related Reading: Phlebotomist Lab Worker Duties. In 2010, according to the U.S. Bureau of Labor Statistics, the average hourly wage of phlebotomists working in hospitals was $13.50, in private clinics $15.90 and in doctor's offices $13. <P> A Phlebotomist in San Antonio, Texas earns an average wage of $13.66 per hour. Most people with this job move on to other positions after 20 years in this career. Pay for this job does not change much by experience, with the most experienced earning only a bit more than the least. $10.11 - $16.10. <P> Average Salaries. The U.S. Bureau of Labor Statistics groups phlebotomists with other medical laboratory technicians, and in its May 2011 figures provides a median income of $17.01 per hour. The lowest 25 percent in the category earned $13.66 per hour or less, and the lowest 10 percent earned $11.29 or less. Numerically the highest-volume employers are hospitals, where pay averages $18.43 per hour. Medical laboratories are second in volume among employers, paying $16.62 per hour, while physicians's offices are third and pay $17.3
$26,790 per year.
should you tithe before or after taxes
<P> I just received a question in an email, “Should i tithe before or after taxes”. It’s a good question. Even though there are many other difficult questions in regards to tithing, many people have been confused for some time about whether they should tithe on the gross or net. Tithing is a complicated matter. Tithing before or after taxes is just the beginning of the complications. Through all of this i am reminded of the verse In Romans 2:29 – “ and circumcision is that of the heart, in the Spirit, not in the letter ”. Those who have a heart towards God will seek obedience <P> We should not think that tithing upon our after-tax income might be robbing God (since a tenth of the pre-tax income would be a larger offering). Scripture teaches us that the money which we pay in taxes is money paid to civil officials who are nothing less than ministers of God (Rom. 13:1-7). <P> As a Christian, I should follow the instructions of my creator. He says it is good for me to give a tithe so I take his word for it. For the past year or two we have been giving based on gross income (before tax), and I know we have been blessed by it. Arguing with myself. The side of me that argues to continue tithing on the gross (Before-tax me) is arguing with the After-tax me. Before-tax me: I wouldn’t mind giving a smaller tithe if it were the right thing to do. <P> God gave you the source of your increase. 10% of the proceeds of the increase is your tithe and should be paid to God. Yes, your tax is paid with your consent. You agreed that a percentage of your money is taxed. It cant be paid as yours if you did not earn it. Your increase or income is what you earn. Arguing with myself. The side of me that argues to continue tithing on the gross (Before-tax me) is arguing with the After-tax me. Before-tax me: I wouldn’t mind giving a smaller tithe if it were the right thing to do. <P> We are to give alms of such things as we have, I usually go with 10% Tithe, 10% Offering, & 10% Alms of whatever amount I believe I have, before, or after taxes. I encourage prayer,and openess towards God on the subject, he will direct you in the right way. We were set free from the Law, so we could establish the Law. Tithing is a complicated matter. Tithing before or after taxes is just the beginning of the complications. Through all of this i am reminded of the verse In Romans 2:29 – “ and circumcision is that of the heart, in the Spirit, not in the letter ”. Those who have a heart towards God will seek obedience <P> You negotiated for your gross or you earned your gross and so your tithe should be based on your earning which is your gross because your gross is your increase;your income. The difference is that you gave the govt consent to take the tax which is a portion of your earning. Arguing with myself. The side of me that argues to continue tithing on the gross (Before-tax me) is arguing with the After-tax me. Before-tax me: I wouldn’t mind giving a smaller tithe if it were the right thing to do. <P> Question: The simple answer is no. Taxes rebates do not effect your tithe. Tithes are given on your net income before tax-since tax should be regarded as a living expense not a business expense-so if later a tax rebate comes in you do not need to give a tithe on it. Give your tithe on your written, stated pay calculation before any deductions are made from it for taxes and other living liabilities. This is so simple and once it's done you're completely finished with the whole matter and have only to wait expectantly for the blessings to arrive and the protection of God to manifest. <P> Share to: Your tithe should be 10% of your pre-tax income, NOT 10% of your take-home income. That way, when you file your taxes, you don't have to worry about what needs to be tithed.
After taxes
what is required to become an optometrist
<P> Complete a Doctor of Optometry Program. These programs take four years to complete, and must be completed at an accredited optometry school. 1 The cost of the program will vary depending on what school you choose, but annual tuition ranges from roughly $9,000 to $22,000 for state residents. They differ from ophthalmologists, who can also perform eye surgeries, and from opticians, who design, fit, and dispense lenses. If improving peoples' vision and overall quality of life is something that you are passionate about, then read this article to learn how to become an optometrist. Ad. <P> Although not medical doctors, optometrists follow a similar educational course. A bachelor’s degree is not necessarily required, but you will need at least three years of post-secondary education in order to apply for the mandatory four-year doctor of optometry (OD) program. <P> Skills Required. Because many optometrists own and operate their own practices, it's important for them to have good business, accounting and managerial skills. Being able to multitask, delegate and communicate effectively is critical for having a successful career as an optometrist. <P> Optometrists must complete a Doctor of Optometry (O.D.) degree program and obtain a license to practice in a particular state. Doctor of Optometry programs take 4 years to complete, and most students have a bachelor’s degree before entering an O.D. program. What Optometrists Do About this section. Optometrists check patients for common vision problems, like near or farsightedness. Optometrists examine, diagnose, treat, and manage disorders of the visual system, eye diseases, and injuries. They prescribe eyeglasses or contact lenses as needed <P> Optometrists examine the eyes and other parts of the visual system. They also diagnose, and treat visual problems, and manage diseases, injuries, and other disorders of the eyes. They prescribe eyeglasses or contact lenses as needed. What Optometrists Do About this section. Optometrists check patients for common vision problems, like near or farsightedness. Optometrists examine, diagnose, treat, and manage disorders of the visual system, eye diseases, and injuries. <P> You'll need a bachelor's degree to apply for optometry programs, which are rather competitive. Optometry programs typically take an additional four years to complete; upon completion you must meet national and your state's licensing requirements in order to become a practicing optometrist. Because many optometrists own and operate their own practices, it's important for them to have good business, accounting and managerial skills. Being able to multitask, delegate and communicate effectively is critical for having a successful career as an <P> If you're interested in becoming an optometrist, you'll first need to complete a 4-year bachelor's program, preferably in a relevant or related field like biology, chemistry, or physiology. Because many optometrists own and operate their own practices, it's important for them to have good business, accounting and managerial skills. Being able to multitask, delegate and communicate effectively is critical for having a successful career as an optometrist. <P> If the idea of becoming an eye doctor interests you, then you may be wondering about the kind of degree needed to become an optometrist. With an aging population more prone to vision issues, the United States is seeing a surge in the need for healthcare professionals who specialize in eye health. Earning a Doctor of Optometry degree, the degree needed to become an optometrist, allows talented people to join the ranks of this lucrative profession and provide much needed care to their communities. <P> How to Become an Optometrist. Optometrists diagnose vision problems and prescribe corrective lenses and medications to treat them. They differ from ophthalmologists, who can also perform eye surgeries, and from opticians, who design, fit, and dispense lenses. If improving peoples' vision and overall quality of life is something that you are passionate about, then read this article to learn how to become an optometrist. Ad.
4-year bachelor's program, preferably in a related field like biology, chemistry, or physiology.
why did the us take over hawaii
<P> Report Abuse. During the presidency of Benjamin Harrison, the U.S. military wanted a fortress in the Pacific so that America could expand into the ocean and Asia. The United States military conspired with a group of businessmen known as the Missionary Party to take over Hawaii. In 1893, the U.S. marines landed in Honolulu and established a provisional government until Hawaii would be annexed to the United States. Sanford Dole was made the president of the provisional government and the international community was in an uproar over U.S. aggression towards the historically peaceful Hawaii. In fact, King Kalakaua was the first head of state in history to circle the world in a voyage of friendship, commerce and peace. <P> The United States had previously recognized the Kingdom of Hawaii’s independence. But on January 17, 1893, U.S. troops took part in a conspiracy led by a small group of wealthy businessmen and sugar plantation owners to overthrow the monarchy of Queen Liliuokalani. <P> The overthrow of the Kingdom of Hawaii began with the coup d'etat état Of january, 17 1893 on the island Of, oahu leading to the end of the, indigenous hereditary. monarchs ... the military demonstration upon the soil of Honolulu was of itself an act of war; unless made either with the consent of the government of Hawaii or for the bona fide purpose of protecting the imperiled lives and property of citizens of the United States. <P> On January 16, 1893, United States Marines from the U.S.S Boston surrounded the palace of Queen Liliuokalani of Hawaii. The Queen was informed that a “provisional government” composed of American citizens had been established until such time as the island nation could be annexed by the United States. Congress intervened and on July 4, 1894, the Republic of Hawaii with Sanford B. Dole as president was declared and recognized by the United States government. Official U.S. policy was to let Hawaii determine its own <P> In January 1893, a revolutionary “Committee of Safety,” organized by Sanford B. Dole, staged a coup against Queen Liliuokalani with the tacit support of the United States. On February 1, Minister John Stevens recognized Dole’s new government on his own authority and proclaimed Hawaii a U.S. protectorate. In 1898, the Spanish-American War broke out, and the strategic use of the naval base at Pearl Harbor during the war convinced Congress to approve formal annexation. Two years later, Hawaii was organized into a formal U.S. territory and in 1959 entered the United States as the 50th state. <P> Sugar had been a major export from Hawaii since Captain James Cook's arrival in 1778. The first permanent plantation in the islands was on Kauai in 1835. William Hooper leased 980 acres of land from Kamehameha III and began growing sugar cane. Within thirty years there would be plantations on four of the main islands. ... the military demonstration upon the soil of Honolulu was of itself an act of war; unless made either with the consent of the government of Hawaii or for the bona fide purpose of protecting the imperiled lives and property of citizens of the United States. <P> I think that it was wrong for the U.S. to take Hawaii because Hawaii was already a literate country with a developed government that was functioning well. The Hawaiian people did not need the United States to come into their nation and educate them or help them in any way. It was wrong for the U.S. to take over Hawaii. It was wrong for the U.S. to take over Hawaii. This is a something that happens over and over in U.S. history, there is something we want be it land, natural resources, oil, or whatever and then we take it. <P> Later, U.S. sugar interests encouraged that the King be overthrown, and Hawaii was established as a republic in 1893. U.S. domination of the islands came five years later, when the United States annexed Hawaii and it became a U.S. territory in 1900. Sanford Dole was made the president of the provisional government and the international community was in an uproar over U.S. aggression towards the historically peaceful Hawaii. In fact, King Kalakaua was the first head of state in history to circle the world in a voyage of friendship, commerce and peace. <P> The overthrow of the Kingdom of Hawaii began with the coup d'etat état Of january, 17 1893 on the island Of, oahu leading to the end of the, indigenous hereditary. Monarchs it was largely at the hands Of United states, citizens who were backed by an invasion Of.U. S marines Under John. L. stevens ... the military demonstration upon the soil of Honolulu was of itself an act of war; unless made either with the consent of the government of Hawaii or for the bona fide purpose of protecting the imperiled lives and property of citizens of the United States. <P> A+E Networks. On the Hawaiian Islands, a group of American sugar planters under Sanford Ballard Dole overthrow Queen Liliuokalani, the Hawaiian monarch, and establish a new provincial government with Dole as president. In 1898, the Spanish-American War broke out, and the strategic use of the naval base at Pearl Harbor during the war convinced Congress to approve formal annexation. Two years later, Hawaii was organized into a formal U.S. territory and in 1959 entered the United States as the 50th state.
During the presidency of Benjamin Harrison, the U.S. military wanted a fortress in the Pacific so that America could expand into the ocean and Asia. The United States military conspired with a group of businessmen known as the Missionary Party to take over Hawaii.In 1893, the U.S. marines landed in Honolulu and established a provisional government until Hawaii would be annexed to the United States.
what is a seeder
<P> Rating Newest Oldest. Best Answer: Seeding is the process of connecting to a torrent when you have a complete file. Yes it is important to seed 1 to 1. The more seeders there are on a torrent the faster the torrent is. You are not downloading the torrent from the actual site you get it from. You are downloading it off another user that has it on their computer. seeding is uploading a complete file. yes, it is useful... yes you should maintain the share ratio above 1.0. It is more healthy for the torrent. Some torrent trackers have rules that you have to seed/upload over a certain amount or else they do unspeakable things to you. <P> If everyone just downloaded the file from the uploader and stopped seeding without seeding the torrent 1:1 then the uploader will always be stuck seeding. Which the speed of the torrent will hardly go up because the leechers will always outnumber the seeder. So it is important to seed back at least what you take. seeding is uploading a complete file. yes, it is useful... yes you should maintain the share ratio above 1.0. It is more healthy for the torrent. Some torrent trackers have rules that you have to seed/upload over a certain amount or else they do unspeakable things to you. <P> If everyone just downloaded the file from the uploader and stopped seeding without seeding the torrent 1:1 then the uploader will always be stuck seeding. Which the speed of the torrent will hardly go up because the leechers will always outnumber the seeder. So it is important to seed back at least what you take. SEEDS(uppers) & LEECHERS(downloaders) In the begining while downloading a torrent for the first time you are a leecher because the download hasn't completed. When it completes you switch to a seeder and dedicate that stream to simply uploading. The more seeds available the faster the download. Seeding is the process of connecting to a torrent when you have a complete file. Yes it is important to seed 1 to 1. The more seeders there are on a torrent the faster the torrent is. You are not downloading the torrent from the actual site you get it from. You are downloading it off another user that has it on their computer <P> An air seeder is an agricultural implement also called a planter or seeder and it is used to plant usually a seed crop in a large field. It was first patented in Australia in … the 1950's. The more seeders the faster the download will go. Leechers are people who has a negative effect on the swarm of the torrent. Leechers are commonly the users who download much than they upload. They are the users who doesn't leave their bit torrent clients seeding after downloading the file <P> All users who have the torrent open make up what is called a swarm. Technically, a seeder is someone who has 100-percent of the pieces that make up the torrent. Initially, the first few leachers within a swarm feed off the seeder. The more seeders the faster the download will go. Leechers are people who has a negative effect on the swarm of the torrent. Leechers are commonly the users who download much than they upload. They are the users who doesn't leave their bit torrent clients seeding after downloading the file <P> A seeder is someone who contributes to a torrent(shares the files) Vs. a Leecher(someone who doesn't share after downloading) many torrent sites include a Seeder and Leecher List for each individual torrent you download. the more seeders the faster the download. The more seeders the faster the download will go. Leechers are people who has a negative effect on the swarm of the torrent. Leechers are commonly the users who download much than they upload. They are the users who doesn't leave their bit torrent clients seeding after downloading the file <P> Often, leecher is synonymous with downloader (see above): simply describing a peer or any client that does not have 100% of the data. The term leech also refers to a peer (or peers) that has a negative effect on the swarm by having a very poor share ratio, downloading much more than they upload. Report Abuse. Seeders are users who have the complete file and are sharing it, leechers are users who are actively downloading the file but also share what they have downloaded with other users. David D · 8 years ago. Thumbs up. <P> A slit seeder is a garden machine used to seed new or existing lawns. Slit seeders have vertical blades that cut parallel slits in the ground or turf and deposit seeds within the slits. Many slit seeders also have a roller, that will compress the slit and promote seed contact with the soil. Types of Slit Seeders. There are two different types of slit seeders. For homes and small areas, there is a walk-behind model. This utilizes powered blades to create the slits in the turf. Larger, tractor-mounted models do not use powered blades but instead utilize round blades to cut into the earth like a pizza cutter.
A seeder is someone who has 100-percent of the pieces that make up the torrent.
how does orbit around the earth look
<P> Earth's orbit is the path in which the Earth travels around the Sun. The Hill sphere (gravitational sphere of influence) of the Earth is about 1.5 Gm (or 1,500,000 kilometers) in radius. This is the maximum distance at which the Earth's gravitational influence is stronger than the more distant Sun, Moon and planets. <P> The Earth's Orbit. It takes roughly 365 days for the Earth to go around the Sun once. This means that the Earth is rushing through space around the Sun at a rate of about 67,000 miles per hour! The time it takes for the Earth to go around the Sun one full time is what we call a year. The Earth's orbit is in the shape of an ellipse, so that sometimes the Earth is a little bit closer to the Sun than at other times. <P> How does Earth keep its orbit around the Sun and not come closer to the Sun. Answer 1: The Earth is always being pulled towards the Sun by gravity. If the Earth were stationary compared to the Sun, it would fall into the sun under the force of gravity. <P> When it is at its farthest distance from the Sun, Earth is said to be at aphelion – which happens around July 4th where the Earth reaches a distance of about 152,097,701 km. And those of you in the northern hemisphere will notice that “warm” or “cold” weather does not coincide with how close the Earth is to the Sun. Next, there is the nature of the Earth’s orbit. Rather than being a perfect circle, the Earth moves around the Sun in an extended circular or oval pattern. This is what is known as an “elliptical” orbit. <P> Like all planets in our solar system, the Earth is in an elliptical orbit around our Sun. In Earth's case, its orbit is nearly circular, so that the difference between Earth's farthest point from the Sun and its closest point is very small. Earth's orbit defines a two-dimensional plane which we call the ecliptic. The Earth with its Sun. The Earth's orbit is in the shape of an ellipse, so that sometimes the Earth is a little bit closer to the Sun than at other times. <P> Earth’s orbit has an eccentricity of less than 0.02, which means that it is very close to being circular. That is why the difference between the Earth’s distance from the Sun at perihelion and aphelion is very little – less than 5 million km. Next, there is the nature of the Earth’s orbit. Rather than being a perfect circle, the Earth moves around the Sun in an extended circular or oval pattern. This is what is known as an “elliptical” orbit. <P> The planet’s distance from the Sun also varies as it orbits. In fact, the Earth is never the same distance from the Sun from day to day. When the Earth is closest to the Sun, it is said to be at perihelion. This occurs around January 3rd each year, when the Earth is at a distance of about 147,098,074 km. Next, there is the nature of the Earth’s orbit. Rather than being a perfect circle, the Earth moves around the Sun in an extended circular or oval pattern. This is what is known as an “elliptical” orbit. <P> Earth lies at an average distance of 149.60 million kilometers (92.957 million miles) from the Sun and a complete orbit occurs every 365.256 days (1 sidereal year), during which time Earth travels 940 million kilometers (584 million miles). Earth's orbit has an eccentricity of 0.0167. The Hill sphere (gravitational sphere of influence) of the Earth is about 1.5 Gm (or 1,500,000 kilometers) in radius. This is the maximum distance at which the Earth's gravitational influence is stronger than the more distant Sun, Moon and planets. <P> Not to be confused with Lunar orbit (the orbit of an object around the Moon). The Moon orbits Earth in the prograde direction and completes one revolution in approximately 27.322 days (a sidereal month). Earth and the Moon orbit about their barycentre (common center of mass), which lies about 4600 km from Earth's center (about three quarters of the radius of Earth). On average, the Moon is at a distance of about 385000 km from Earth's center, which corresponds to about 60 Earth radii. With a mean orbital velocity of 1.023 km/s, the Moon moves relative to the stars each hour by an amount roughly equal to its angular diameter, or by about 0.5°. The Moon differs from most satellites of other planets in that its orbit is close to the plane of the ecliptic, and not to Earth's equatorial plane <P> 4.1 Introduction. The Moon revolves around Earth in an elliptical orbit with a mean eccentricity of 0.0549. Thus, the Moon's center-to-center distance from Earth varies with mean values of 363,396 km at perigee to 405,504 km at apogee. Earth's elliptical orbit around the Sun also factors into the length of the lunation. With an eccentricity of 0.0167, Earth's orbit is about one third as elliptical as the Moon's orbit. Nevertheless, it affects the length of the lunation by producing shorter lunations near aphelion and longer lunations near perihelion.
Earth is in an elliptical orbit around our Sun.
what is myelodysplasia prognosis
<P> Introduction. Myelodysplastic syndrome (MDS) is a blood disorder that causes a drop in your number of healthy blood cells. Another name for this condition is myelodysplasia. Treatment will depend on your type of MDS, your risk group, and whether you have any other health conditions. The aim is to get the number and type of blood cells in your bloodstream back to normal, and manage symptoms with supportive treatment (see below). <P> The myelodysplastic syndromes (MDS, myelodysplasia) are a group of blood disorders associated with low blood counts. Normally, blood cells are produced by the bone marrow (the spongy area in the middle of bones) in a controlled fashion. <P> Stem cells (immature blood cells) are removed from the blood or bone marrow of a donor and are frozen for storage. After the chemotherapy is completed, the stored stem cells are thawed and given back to the patient through an infusion. A blood stem cell may become a lymphoid stem cell or a myeloid stem cell. A lymphoid stem cell becomes a white blood cell. A myeloid stem cell becomes one of three types of mature blood cells: 1 Red blood cells that carry oxygen and other substances to all tissues of the body. <P> Myelodysplastic syndromes are a group of cancers in which immature blood cells in the bone marrow do not mature or become healthy blood cells. In a healthy person, the bone marrow makes blood stem cells (immature cells) that become mature blood cells over time. Anatomy of the bone. A blood stem cell may become a lymphoid stem cell or a myeloid stem cell. A lymphoid stem cell becomes a white blood cell. A myeloid stem cell becomes one of three types of mature blood cells: 1 Red blood cells that carry oxygen and other substances to all tissues of the body. <P> Myelodysplastic Syndromes (MDS) are a group of diverse bone marrow disorders in which the bone marrow does not produce enough healthy blood cells. MDS is often referred to as a “bone marrow failure disorder”. You may have heard the news that Robin Roberts has been diagnosed with MDS (Myelodysplastic Syndromes). You are probably wondering what MDS is, including the symptoms, prognosis, treatment, etc…. You have come to the right place <P> In a patient with a myelodysplastic syndrome, the blood stem cells (immature cells) do not become mature red blood cells, white blood cells, or platelets in the bone marrow. These immature blood cells, called blasts, do not work the way they should and either die in the bone marrow or soon after they go into the blood. A blood stem cell may become a lymphoid stem cell or a myeloid stem cell. A lymphoid stem cell becomes a white blood cell. A myeloid stem cell becomes one of three types of mature blood cells: 1 Red blood cells that carry oxygen and other substances to all tissues of the body. <P> The myelodysplastic syndromes (also known as MDS or myelodysplasia) are hematological (i.e., blood-related) medical conditions with ineffective production (or dysplasia ) of all blood cells. Patients with MDS can develop severe anemia and require blood transfusions. In some cases, the disease worsens and the patient develops cytopenias (low blood counts) caused by progressive bone marrow failure. The outlook in MDS depends on the type and severity. Many people live normal lifespans with MDS. The myelodysplastic syndromes are all disorders of the hematopoietic stem cells in the bone marrow (only related to myeloid lineage). In MDS, hematopoiesis (i.e., blood production) is disorderly and ineffective <P> Myelodysplastic syndrome is a group of hematological conditions resulting from the ineffective function or production of the myeloid blood cells. Formerly known as pre-leukemia, the bone marrow develops progressive failure and results in cytopenias (low blood count). The life expectancy of patients with MDS also depends on the type of MDS. The mean life-expectancy is 18 to 24 months in mild cases of MDS or longer when stem cell transplantation is done. <P> Myelodysplastic syndrome (MDS) is a group of diseases that affects normal blood cell production in the bone marrow. In MDS, the bone marrow produces abnormal, immature blood cells called blast cells. These cells fail to mature properly are unable to work properly.
Myelodysplastic Syndromes (also known as MDS or myelodysplasia) are a group of diverse bone marrow disorders in which the bone marrow does not produce enough healthy blood cells. MDS is often referred to as a “bone marrow failure disorder”.
how fast does a pin oak tree grow
<P> If you are seeking an easy-to-grow oak for backyard shade, the pin oak might be the tree for you if your soil is moist and at least slightly acidic. These trees grow in clay, loam or sand as long as the pH is below 6.8, so you do not need to amend the soil. <P> Fast-Growing Shade Tree. The Pin Oak, Quercus palustris, is a fast-growing shade tree. It would look great as a central focal point in your yard or near your home to provide relief from the summer sun. The Pin Oak tree is prized for the beauty of its symmetrical pyramid shape. <P> RE: How fast does a Pin Oak tree grow? Has anyone planted a Pin Oak tree before and can describe how fast it grew over a period of 5, 10, and 15 years? I have heard that they are a faster growing oak tree, but I wanted to know how fast. <P> It is among the faster-growing oaks, averaging 12 to 15 feet over a 5- to 7-year period. Pin oak can grow to be one of the largest oak trees. It makes an impressive street tree. However, bacterial leaf scorch can be a devastating disease for monocultures of pin oaks as street trees. <P> Description. The pin oak grows fast -- up to 3 feet a year -- and it can reach a height of 100 feet, although usually it stays under 70 feet in the wild and somewhat shorter when cultivated. Its canopy is conical or rounded and can extend as wide as the tree is tall. <P> Pin oak (Quercus palustris) , also called swamp oak, water oak, and swamp Spanish oak, is a fast-growing, moderately large tree found on bottom lands or moist uplands, often on poorly drained clay soils. Best development is in the Ohio Valley.
Up to 3 feet a year
what does the income statement say about a company
<P> Within the income statement there is a wealth of information. A person knowledgeable about reading financial statements can find, in a company's income statement, information about its return on investment, risk, financial flexibility, and operating capabilities. The income statement presents a summary of the revenues, gains, expenses, losses, and net income or net loss of an entity for the period. This statement is similar to a moving picture of the entity's operations during the time period specified. <P> The income statement is the one of the three major financial statements. The other two are the balance sheet and the statement of cash flows. The income statement is divided into two parts: the operating and non-operating sections. The portion of the income statement that deals with operating items is interesting to investors and analysts alike because this section discloses information about revenues and expenses that are a direct result of the regular business operations. <P> Net income or loss is the amount left over after subtracting a company's operating expenses from its gross revenue. A business that generates a net income has figured out a way to earn more for its products and services than it spends to create them. 1 Key Indicators on a Financial Statement That a Company is Profitable. 2 The Financial Position of a Company & Financial Statement Elements. 3 The Three Main Business Activities Measured by Financial Statements. 4 How to Estimate Revenue & Net Income of a Company Based on Previous Financials. <P> An income statement presents the results of a company's operations for a given period—a quarter, a year, etc. The income statement presents a summary of the revenues, gains, expenses, losses, and net income or net loss of an entity for the period. This statement is similar to a moving picture of the entity's operations during the time period specified. <P> Other Statements. Dividends don't affect the income statement, but they do appear on other financial statements. The cash flow statement tracks cash coming into the company and going out of the company. It's typically divided into three sections: operational cash flow, investing cash flow and financing cash flow. Income Statement. You could think of a company's income statement as a record of its financial transactions with the outside world.. When the company earns money from customers, it goes down as revenue on the income statement. When it incurs an expense, that expense goes on the income statement <P> DEFINITION of 'Income Statement'. A financial statement that measures a company's financial performance over a specific accounting period. Financial performance is assessed by giving a summary of how the business incurs its revenues and expenses through both operating and non-operating activities. The portion of the income statement that deals with operating items is interesting to investors and analysts alike because this section discloses information about revenues and expenses that are a direct result of the regular business operations. <P> Net income or loss on a company's financial statement provides vital information about the company's viability. 1 Key Indicators on a Financial Statement That a Company is Profitable. 2 The Financial Position of a Company & Financial Statement Elements. 3 The Three Main Business Activities Measured by Financial Statements. 4 How to Estimate Revenue & Net Income of a Company Based on Previous Financials. <P> Income Statements. An income statement is a report that shows how much revenue a company earned over a specific time period (usually for a year or some portion of a year). An income statement also shows the costs and expenses associated with earning that revenue. The literal “bottom line” of the statement usually shows the company’s net earnings or losses. This tells you how much the company earned or lost over the period. Income statements also report earnings per share (or “EPS”). <P> 2.1 The Income Statement. The income statement, also called an earnings statement or a profit and loss statement, is. an accounting statement that matches a company’s revenues with its expenses over a period of. time, usuall y a quarter or a year.
An income statement is a report that shows how much revenue a company earned over a specific time period.
where is your thyroid located at
<P> Goiter (GOI-tur) is an abnormal enlargement of your thyroid gland. Your thyroid is a butterfly-shaped gland located at the base of your neck just below your Adam's apple. Although goiters are usually painless, a large goiter can cause a cough and make it difficult for you to swallow or breathe. The most common cause of goiter worldwide is a lack of iodine in the diet. <P> The thyroid gland is a small, butterfly-shaped gland located in the lower front of the neck, above the collarbones, and below the voice box (larynx). Your thyroid gland makes hormones that help control the function of many of your body’s organs, including your heart, brain, liver, kidneys, and skin. <P> © 2014 WebMD, LLC. All rights reserved. The thyroid is a butterfly-shaped gland that sits low on the front of the neck. Your thyroid lies below your Adam’s apple, along the front of the windpipe. The thyroid has two side lobes, connected by a bridge (isthmus) in the middle. <P> The thyroid is a butterfly-shaped gland located in the front of the neck just below the Adams apple. The gland wraps around the windpipe (trachea) and has a shape that is similar to a butterfly formed by two wings (lobes) and attached by a middle part (isthmus). <P> The thyroid gland is located at the front of the neck just below the Adam's apple (larynx). It is butterfly-shaped and consists of two lobes located either side of the windpipe (trachea). A normal thyroid gland is not usually outwardly visible or able to be felt if finger pressure is applied to the neck. <P> The thyroid gland is one of the body's most important endocrine organs. It is located in the neck just below the thyroid cartilage (Adam's apple) and cricoid cartilage. Although its size can vary, based on each individual's size and iodine intake, the thyroid generally weighs approximately 15-20 grams (1/2 - 3/4 oz).
Sits low on the front of the neck. Lies below your Adam’s apple, along the front of the windpipe.
what are the three minerals in granite
<P> First, granite is made of large mineral grains (which is where its name came from) that fit tightly together. Second, granite always consists of the minerals quartz and feldspar, with or without a wide variety of other minerals (accessory minerals). The quartz and feldspar generally give granite a light color, ranging from pinkish to white. That light background color is punctuated by the darker accessory minerals. <P> Granite is a plutonic rock in which quartz makes up between 10 and 50 percent of the felsic components and alkali feldspar accounts for 65 to 90 percent of the total feldspar content. Applying this definition requires the mineral identification and quantification abilities of a competent geologist. Granite is a coarse-grained, light-colored igneous rock composed mainly of feldspars and quartz with minor amounts of mica and amphibole minerals. This simple definition enables students to easily identify the rock based upon a visual inspection. <P> Granite Composition: Granite is an igneous rock that is composed primarily of four minerals. Magma cooling very slowly far under the earth's surface, allows crystals of the four minerals to grow large enough to be easily seen by the naked eye. These minerals are quartz, feldspar, mica, and usually hornblende. The geological definition of granite is any plutonic rock in which the mineral quartz makes up 10 to 50 per cent of the felsic components, and the ratio of alkali to total feldspar is between 65 and 95 per cent.. However you may find that commercial suppliers may not be so specific. <P> These rocks mainly consist of feldspar, quartz, mica, and amphibole minerals, which form interlocking, somewhat equigranular matrix of feldspar and quartz with scattered darker biotite mica and amphibole (often hornblende) peppering the lighter color minerals. Granites can be predominantly white, pink, or gray in color, depending on their mineralogy. The word granite comes from the Latin granum, a grain, in reference to the coarse-grained structure of such a holocrystalline rock. <P> Granite's mineral composition is mainly quartz and feldspar. Approximately 80 percent of this igneous rock is made up of these two minerals, The other minerals found in gr … anite are mica and amphibole. Yes, Granite minerals vary from a wide array of mineral types. Though the primary minerals found in granite are Quartz, potassium, Horn blende, Micas and K-Feldspars. <P> Granite /ˈɡraenɨt/ ˈɡrænɨt is a common type of felsic intrusive igneous rock that is granular and phaneritic in. Texture granites can be predominantly, white, pink or gray in, color depending on their. mineralogy Granites can be predominantly white, pink, or gray in color, depending on their mineralogy. The word granite comes from the Latin granum, a grain, in reference to the coarse-grained structure of such a holocrystalline rock. <P> Granite is an igneous rock composed of mostly two minerals: quartz and feldspar. It is an intrusive rock, meaning that it crystallized from magma that cooled far below the earth's surface. Its name is derived from the Latin word 'granum', which means 'grain', a reference to the easily-seen minerals in the rock. <P> Orthoclase and plagioclase feldspars, quartz, hornblende, muscovite micas, biotite micas, minor accessory minerals such as magnetite, garnet, zircon and apatite go on to make … up the mineral composition of granite. Sometimes, though rarely, pyroxene is also present. + 9 others found this useful. <P> Granite is a light-colored igneous rock with grains large enough to be visible with the unaided eye. It forms from the slow crystallization of magma below Earth’s surface. Granite is composed mainly of quartz and feldspar with minor amounts of mica, amphiboles and other minerals. This mineral composition usually gives granite a red, pink, gray or white color with dark mineral grains visible throughout the rock. Granite is the best-known igneous rock. Granite is a coarse-grained, light-colored igneous rock composed mainly of feldspars and quartz with minor amounts of mica and amphibole minerals. This simple definition enables students to easily identify the rock based upon a visual inspection.
Feldspar, quartz, mica
what is barrage
<P> Barrage may refer to: In music. 1 Barrage (group) , a Canadian violin ensemble, or. 2 Barrage (album) , their self-titled debut album, or. 3 Barrage (Paul Bley album) , 1965. <P> /ˈbɑrɪʤ/. noun. plural barrages. Learner's definition of BARRAGE. [count]. : a barrier (such as a cement wall) that is built across a river or stream especially to increase the depth of water or change its direction. — compare 1barrage. Comments & Question <P> LINK / CITE ADD TO WORD LIST. noun. A man faces a barrage of reporters. A man faces a barrage of reporters. The definition of barrage is a large volume of something, or a huge amount of things happening all at once. 1 An example of a barrage is when 100 reporters all shoot questions at the president at the same time. barrage. noun. An artificial obstruction, such as a dam or irrigation channel, built in a watercourse to increase its depth or to divert its flow. French, from barrer, to bar, from barre, bar, from Old French; see bar 1. <P> 29,170 pages onthis wiki. Ice Barrage requires a Magic level of 94 to cast and can freeze your targets, immobilising them for 10 seconds, or 9.6 seconds for players. It requires five water runes and two blood runes to cast. It also requires you to have a magic weapon in your main hand. <P> Artillery Barrage. A barrage is a term used to describe extensive artillery fire against enemy positions. Barrages were classified as light, moderate or heavy. A light barrage amounted to six or seven shells every ten minutes. A moderate barrage was thirty shells a minute and a heavy one, fifty to sixty shells a minute. <P> barrage /bəˈrɑːʒ/ Brit /ˈbaeˌrɑːʒ/ ˈbæˌrɑːʒ. noun plural. barrages. /barrage/ Bəˈrɑːʒ /brit/. ˈbaeˌrɑːʒ. ˈbæˌrɑːʒ noun. Plural'barrages learner s DEFINITION. of. [barrage] : 1 count a heavy and continuous firing of weapons during. A battle the enemy laid down a barrage-of machine gun fire as our platoon approached. the bridge Learner's definition of BARRAGE. [count]. : a barrier (such as a cement wall) that is built across a river or stream especially to increase the depth of water or change its direction. — compare 1barrage. Comments & Questions. <P> Posted on. by olivia. Dam vs Barrage. Dams and barrages are barriers constructed across a river or a natural water course for diverting water into a canal for the purpose of irrigation or water supply, or into a channel or tunnel for generation of electricity. <P> barrage. n. 1. (Firearms, Gunnery, Ordnance & Artillery) military the firing of artillery to saturate an area, either to protect against an attack or to support an advance. 2. an overwhelming and continuous delivery of something, as words, questions, or punches.
A barrage is a term used to describe extensive artillery fire against enemy positions.
average cost to replace central air conditioning capacitor
<P> That is a very good question. The cost to replace a capacitor is a component price based on an overall inspection and service of the heating and air conditioning system. Only replacing a capacitor is a foolish and ignorant repair of a home air conditioning system. We do not ever just replace a capacitor. <P> Customer. I paid dollars with labor and a cleaning to have a capacitor replaced and a hard start kit put on. Supplier: That would be the average charge for someone to come out and do the job. I think that is a fair price today with the cost of tools and a truck to come to your house. <P> The price to install central air conditioner units with heating unit is between $6,500 and $15,000. The HVAC installation costs are for complete heating and cooling system and labor cost. To get little more accurate price in your area, check out the links below. <P> This way, you can save some money on your energy bills and, at the same time, prolong the life of your air conditioning unit. The cost of replacing an air conditioner capacitor may vary depending on the brand and the features of the capacity. On average, the cost of replacement ranges from $120 to $150. <P> Although a regular air conditioning capacitor may cost your less than a turbo capacitor, using the latter is better. A turbo capacitor fits in almost all types of air conditioning system, and since it is designed to run on higher voltages, your unit is protected from voltage fluctuations. <P> The cost in replacing a run capacitor can range from $40 to $80 and to add a hard start it can be from $125 to $300. If the compressor has complete failed and there is no way of savaging it, the cost to install a new compressor into your air conditioning unit can range from $1500 to $2200. <P> The average price to install a central air conditioner will range from $2650 to upwards of $15K. This installation cannot be considered a DIY project, and it is traditional for a homeowner to hire a contractor for the job. <P> A weak air conditioner capacitor can cause your air conditioning system to consume a lot of electricity so you end up with bigger energy bills every month. Moreover, a bad capacitor can affect the overall performance of your system and shorten its life.
$120 to $150.
how far is redmond from eagle crest resort
<P> Just before Redmond, exit at Cline Falls Road to EAgle Crest Resort-your family vacation destination. Towns along the way include Lyons and Marion Forks. From Eugene Oregon, scenic byway McKenzie Pass-Santiam Pass: Average drive time 2.3 hours (113 miles/180km). Take Oregon 126 east. <P> Located near the slopes, this Redmond resort is in the mountains, 0 mi (0 km) from Eagle Crest Golf Courses and close to winter activities such as cross-country skiing and snowshoeing. Juniper Golf Course and Cline Falls State Park are also within 9 mi (15 km). <P> Eagle Crest is a full-service destination resort located just outside the city of Redmond on 1700 acres in the high desert of Central Oregon. Nestled against the majestic Cascade Mountains near Bend, Oregon, Eagle Crest boasts over 300 days of sunshine each year with an annual rainfall of less than nine inches. <P> Travel Directions to Eagle Crest Resort Redmond Oregon. By air you can fly in to Redmond Airport Roberts Field located about 12 minutes from the guest house. Daily flights are available from Seattle, San Francisco, Portland and Salt Lake City. <P> EAGLE CREST RESORT, CENTRAL OREGON. Located just outside the city of Redmond in the high desert of Central Oregon, Eagle Crest Resort is easily accessable by Redmond Municipal Airport and the city of Bend. Address: 1522 Cline Falls Road. <P> Eagle Crest is a full-service destination resort located just outside the city of Redmond on 1700 acres in the high desert of Central Oregon. Nestled against the majestic Cascade Mountains near Bend, Oregon, Eagle Crest ® boasts over 300 days of sunshine each year with an annual rainfall of less than nine inches.
113 miles/180km
what is kopi roti
<P> Roti canai (pronunciation tʃanai) or roti cane (pronunciation tʃane) is a type of Indian-influenced flatbread found in Malaysia, Indonesia and Singapore. It is often sold in Mamak stalls in Malaysia; also in Malay, Minangkabau and Aceh restaurants in Indonesia. 1 Channa, a dish made with boiled chickpeas in a spicy gravy from Northern India with which this type of bread was traditionally served. 2 However, the roti in Northern India is different from that served in Malaysia, and roti canai is often served with dhal or lentil curry rather than chickepea curry. <P> Kopi Roti Click here for a list of branches. (SPOT.ph) The Singaporean franchise has always been there. The Kopi Roti along Tomas Morato; the Kopi Roti on Katipunan Avenue; the Kopi Roti in Newport. You know where they are, you know what they sell, and they could always be counted on to sate a random coffee bun craving. Kopi Roti has also remixed the kaya toast. This Singaporean tradition of small coco-jam sandwiches becomes something much more relatable to the Filipino palate. A slice of local cheese in one and a rich fried egg (also with cheese) in the other. <P> Kopi Roti-Philippines began its operation middle of August 2005. From then on, Kopi Roti never fail to offer its value proposition to their client-fantastic taste, shared memories, and a unique dining experience-all at a reasonable cost. Our History. Kopi Roti concept originated from Singapore when kopi tiams (a Malay word which means coffee shop) started catering to a very demanding clientele, locals who knew how coffee should be blended. <P> Kopi Roti will provide guidance and assistance at various steps along the way, including but not limited to making sure that the store layout and other brand related items are executed as required, training of staffs, signage materials, site plan approvals and construction related services. 4. Check if Kopi Roti franchise will be compatible with the rules and regulation, as well as existing laws on chosen location. 5. Best location is one key aspect to have a successful Kopi Roti franchise. Study the environment and see if your business suits the surroundings. <P> Kopi Roti is an exciting new concept in the art of enjoying coffee blended to perfection. 4. Check if Kopi Roti franchise will be compatible with the rules and regulation, as well as existing laws on chosen location. 5. Best location is one key aspect to have a successful Kopi Roti franchise. Study the environment and see if your business suits the surroundings. <P> [photopress:kopi_roti_b2.jpg,full,pp_image]. A unique coffee experience, that’s what I get everytime I go to Kopi Roti. Kopi Roti, established in 1955 in Singapore, is now here in Davao City. Kopi Roti serves no frills coffee, iced coffee, and coffee with coffee jelly. The taste of these will make you come back for more. I have tried their Kopi Bun and their French Toast and they are really something worth trying. Kopi Roti also serves Tea, Tea with Milk, Home Made Barley (hot or iced), and Iced Tea. What makes this unique coffee experience extra special is that their coffee and everything on the menu are reasonably priced. <P> 1 Roti kopi, served with shredded coffee beans. 2 Roti Cobra, This variant is only found in Mamak restaurants in the city of Tawau, in eastern Sabah. 3 It is simply a roti telur served with a piece of fried chicken on top. 1 Channa, a dish made with boiled chickpeas in a spicy gravy from Northern India with which this type of bread was traditionally served. 2 However, the roti in Northern India is different from that served in Malaysia, and roti canai is often served with dhal or lentil curry rather than chickepea curry. <P> Kopi Roti as the name suggests, is an exciting new concept in the art of enjoying coffee blended to perfection. The Kopi Roti concept began in Singapore many years ago when Kopi Tiams-the Malay word for coffee shop-started catering to a very demanding clientele, locals who knew how coffee should be blended the Asian way and who demanded nothing but the best at a reasonable cost.
Kopi Roti as the name suggests, is an exciting new concept in the art of enjoying coffee blended to perfection.
what are characteristics controlled by
<P> In humans, eye color is an example of an inherited characteristic: an individual might inherit the brown-eye trait from one of the parents. Inherited traits are controlled by genes and the complete set of genes within an organism's genome is called its genotype. The complete set of observable traits of the structure and behavior of an organism is called its phenotype. These traits arise from the interaction of its genotype with the environment. As a result, many aspects of an organism's phenotype are not inherited. <P> exists and is an alternate of. Merge this question into. Split and merge into it. Answer by Redbloodd. Confidence votes 25. Characteristics (traits) such as height, foot size, and hand span are controlled by the genes you have. Genes control our characteristics we develop because each gene is a code for making a certain protein, having different versions means we end up with different characteristics … . <P> Heredity is the passing of phenotypic traits from parents to their offspring, either through asexual reproduction or sexual reproduction. This is the process by which an offspring cell or organism acquires or becomes predisposed to the characteristics of its parent cell or organism. The complete set of observable traits of the structure and behavior of an organism is called its phenotype. These traits arise from the interaction of its genotype with the environment. As a result, many aspects of an organism's phenotype are not inherited. <P> How genes control variation within species using a simple coded message. Genes control variation by coding for certain traits; Adenine (… a purine) Cytosine (a pyrimidine) Guanine (a purine) Thymine (a pyrimidine) These are all acids, which are located on the first page of my work. Different types of these acids depend on the variation within the species. Genes control our characteristics we develop because each gene is a code for making a certain protein, having different versions means we end up with different characteristics … . <P> Some traits are controlled by far more alleles. For instance, the human HLA system, which is responsible for identifying and rejecting foreign tissue in our bodies, can have at least 30,000,000 different genotypes. It is the HLA system which causes the rejection of organ transplants. It would not be surprising if other exceptions were discovered in the future. However, it is important to keep in mind that there are at least 18,000 human traits controlled by genes that follow the basic Mendelian rules of inheritance. <P> Thyristor or silicon controlled rectifier is a multilayer semiconductor device and is similar to the transistor. Silicon controlled rectifier consists of three terminals (anode, cathode, and gate) unlike the two terminal diode (anode and cathode) rectifier. The silicon controlled rectifier or thyristor is represented by the symbol as shown in the figure. Silicon Controlled Rectifier. Silicon controlled rectifier is also a unidirectional device as it conducts only in one direction. By triggering appropriately, the thyristor can be used as an open circuit switch and also as a rectifying diode <P> Thyristors are solid-state semiconductor devices with four layers of alternating P and N-type material. In this article we cover the terminology used when dealing with Thyristors, their characteristics, and the basic controlled rectification application of SCRs. <P> Characteristics of Control. What I week I've had! I have once again seen the ugly affects that control and manipulation can have over a person. There are controlling leaders out there who will go to any length to protect their own image, while hurting innocent people in the process. I have been reading from a book titled Confronting Jezebel: Discerning and Defeating the Spirit of Control, by Steve Sampson. This is a list of characteristics from the book that controlling people display. You can apply this list to any area of your life, not just the church.
Characteristics of Control. What I week I've had! I have once again seen the ugly affects that control and manipulation can have over a person. There are controlling leaders out there who will go to any length to protect their own image, while hurting innocent people in the process. have been reading from a book titled Confronting Jezebel: Discerning and Defeating the Spirit of Control, by Steve Sampson. This is a list of characteristics from the book that controlling people display.