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how much is light therapy for acne
<P> High intensity blue light (425nm) used for the treatment of acne. Evidence for light therapy and lasers in acne vulgaris as of 2012 is not sufficient to recommend them. There is moderate evidence for the efficacy of blue and blue-red light therapies in treating mild acne, but most studies are low quality. The treatments involve exposing the skin to ultraviolet light. The exposures can be to small area of the skin or over the whole body surface like in a tanning bed. The most common treatment is with narrowband UVB (NB-UVB) of 311-313 nanometer. It was found that this is the safest treatment wavelength. <P> Several types of office-based medical procedures – such as light therapy and chemical peels – may be helpful. Regardless of which acne treatments you use, try to keep your expectations realistic. Acne can't be cured, only controlled. You won't start seeing improvements from most treatments for four to eight weeks. Acne treatments: Medical procedures may help clear skin. Medical procedures, such as light therapy or chemical peels, may help clear stubborn acne. Learn more about these acne treatments. Acne treatments aren't one-size-fits-all. <P> 1 When it comes to acne light therapy, more is not necessarily better. 2 Drying or burning the skin by holding the face too close to the lamp does not help. 3 The best way to use blue and red light therapy at home is for helping keep the skin clear between acne treatments. They are safe, but they are slow. And they don’t do all the work of acne skin care treatment. To make any acne light treatment system work, you also need a complete system of skin care, a collection of products such as you can find at Exposed Skin Care. <P> Light therapy does not zap zits like a laser, but it kills acne bacteria and shrinks oil-producing glands. Acne light therapy is the pain-free, low-cost way to get rid of blemishes on acne-prone skin. They are safe, but they are slow. And they don’t do all the work of acne skin care treatment. To make any acne light treatment system work, you also need a complete system of skin care, a collection of products such as you can find at Exposed Skin Care. <P> The redness and swelling that can occur with acne is caused by a type of bacteria that can be killed by exposing your skin to different types of light. Before the procedure, your doctor might apply a medication to your skin to make it more sensitive to light (photosensitizers). You'll probably need to visit your doctor for multiple treatments. Your treatments may use blue light, red light or a combination. Acne treatments: Medical procedures may help clear skin. Medical procedures, such as light therapy or chemical peels, may help clear stubborn acne. Learn more about these acne treatments. Acne treatments aren't one-size-fits-all. <P> The research was reported in the British Journal of Dermatology. Light therapy 'best for acne'. A blue and red light mixture seems to be most effective treatment for acne-reducing the number of spots by three-quarters, says research. Tuesday, 18 July, 2000, 02:51 GMT 03:51 UK. Acne can cause great distress to sufferers A blue and red light mixture seems to be most effective treatment for acne-reducing the number of spots by three-quarters, says research. <P> Cost of Blue Light Acne Treatment. The cost of blue light acne therapy ranges from $40 for a single treatment to about $1,000 to $1,500 for a full treatment package, including several weekly sessions. The number of treatments needed to reach optimal results may vary depending on the severity of your acne. Patients who receive blue light photodynamic therapy will also have the topical solution Levulan® applied to their skin for 15 to 60 minutes before light exposure. When Levulan® is used prior to blue light acne treatment, patients spend only eight to ten minutes under the light, and the results are often enhanced. Blue light photodynamic therapy sessions are typically spaced two weeks apart to allow the full effects of the treatment session to appear
$40 for a single treatment and $1,000 to $1,500 for a full treatment package.
how long do you cook a pork roast
<P> 1 Cooking time will be 35 minutes per lb. (0.45kg) of meat. 2 A pork roast with the bone in will cook faster than a boneless roast. 3 It will result in a crispier surface texture with less moisture. 4 This is an ideal method if you want to make gravy. 1 This is an ideal method if you want to make gravy. 2 Cook the pork roast in a slow cooker, for the most tender roast. 3 Place the brown roast in the slow cooker for approximately 6 hours on low. <P> Roast. Roasting, very similar to baking, is a method of cooking pork in the oven in a shallow, uncovered pan, and without adding liquid to the pan. Any cut of pork can be roasted, and should be roasted at 350° F unless otherwise noted. This chart will help you decide how long you need to roast the cut of pork you have <P> Preheat the oven to 350 degrees Fahrenheit. Put the marinade and pork roast in the roasting pan, and discard the plastic bag. Roast until the temperature in the center of the roast is 155 degrees, testing with an instant-read thermometer. Start checking the temperature half an hour after you put the roast in the oven. Place the roast on a cutting board and cover with foil. Carryover cooking will raise the internal temperature to about 160 degrees Fahrenheit. Let the roast rest for 10 minutes while you strain the pan juices and bring them to a boil. Serve the pan juices on the side. <P> 1 Cook the pork roast in the oven on 325 degrees Fahrenheit (163 degrees Celsius). 2 Cooking time will be 35 minutes per lb. (0.45kg) of meat. 3 A pork roast with the bone in will cook faster than a boneless roast. 4 It will result in a crispier surface texture with less moisture. 1 This is an ideal method if you want to make gravy. 2 Cook the pork roast in a slow cooker, for the most tender roast. 3 Place the brown roast in the slow cooker for approximately 6 hours on low. <P> Remove the roast from the oven and set on a cutting board. Cover the meat with tin foil and let it rest for about 15 minutes before slicing it. The temperature of the roast will continue to rise about another 5 degrees. Cooking to this temp, then allowing the roast to rest for 15 minutes after removing from the oven, will take the roast to approximately 150 degrees, at which point you can serve it and it will be the juiciest, most tender pork you can get. Don’t mind it if it’s a bit pink in the middle – it’s ok. <P> 4. Place the roasting pan in the oven; cook for 10 minutes, then lower the heat to 300 degrees. 5. Cook for about 45 minutes, then start checking the roast's temperature with an instant-read thermometer. Remove the roast when the internal temperature, measured as deep into the roast as you can get, reads 165 degrees. 6. Should take 30-45 minutes per pound, but, it all depends on the internal temperature of the pork roast, more than the amount of time. It used to be 165F but some people say that is too long or past rare; and 185F is dry and stringy. How to Make Traditional Pork Roast. <P> Continue cooking about 50-80 minutes or until the meat registers 145 degrees on a meat thermometer. Some roasts are long and thin and others are short and fat, consequently the cooking times will vary depending on the shape of your roast. The meat thermometer is the best way to judge the right amount of cooking time. Cooking to this temp, then allowing the roast to rest for 15 minutes after removing from the oven, will take the roast to approximately 150 degrees, at which point you can serve it and it will be the juiciest, most tender pork you can get. Don’t mind it if it’s a bit pink in the middle – it’s ok. <P> WIth a roast, you generally want to cook to an internal temperature, not a time. But, when you lay it out butterflied, it’s thinner and more of the meat is exposed to heat, so if you were to cook it at 350 degrees at a 1/2 hour/lb. a 6 lb roast would end up ruinously overdone. Cooking to this temp, then allowing the roast to rest for 15 minutes after removing from the oven, will take the roast to approximately 150 degrees, at which point you can serve it and it will be the juiciest, most tender pork you can get. Don’t mind it if it’s a bit pink in the middle – it’s ok. <P> Always position the pork roast in the pan so that fat side is on the top. Measure one tablespoon of olive oil in a small dish. Add 1 Tablespoon of dried spices to the oil. You can use rosemary, sage, thyme, or oregano; or a combination of these that equal 1 tablespoon. Cooking to this temp, then allowing the roast to rest for 15 minutes after removing from the oven, will take the roast to approximately 150 degrees, at which point you can serve it and it will be the juiciest, most tender pork you can get. Don’t mind it if it’s a bit pink in the middle – it’s ok.
6 hours
what is the meaning of hindi word phir
<P> (June 2013). This is a list of English language words of Hindi language origin. Many of the Hindi and Urdu equivalents have originated from Sanskrit; see List of English words of Sanskrit origin. Many others are of Persian origin; see List of English words of Persian origin. Some of the latter are in turn of Arabic or Turkish origin. In some cases words have entered the English language by multiple routes-occasionally ending up with different meanings, spellings, or pronunciations, just as with words with European etymologies. Many entered English during the British Raj when many treated Hindi and Urdu as varieties of Hindustani. <P> Namaskār has the same meaning, but is used less often in Hindi, though it is common in other Indian languages such as Gujarati and Bengali. Namaskār is thought of as more formal, and as such is used more often when addressing a group or a person of importance. Hindi is descended from Sanskrit, sometimes called the mother of all languages, or Latin of the East.. Hindi developed from the proto-Hindi खड़ी बोली Khaṛī Bolī (lit. Pure language). <P> In the Hindi language, some words are commonly used in a number of different ways, or used in ways that don’t reflect their literal meaning. This often makes word for word translation from English to Hindi, or Hindi to English, difficult. Here are five popular Hindi words that you’ll often hear, but may be confused as to what they actually mean or the context they’re used in. Dallas Stribley/Getty Images. This multi-purpose word literally means good. <P> Jianfeng, there are many Arabic-Persian loan words that we used in everyday Hindi. A l-widaa3 الوداع / अलविदा is not one of them but you know what a kursii كرسی / कुरसी / कुर्सी is? Used often. The word is, as explained by BP, indeed of Arabic origin but is used in Persian, Urdu and Colloquial Hindi. A Hindi speaker will not use this word in a conversation with another Hindi speaker. The usage in Indian Cinema is because of a large number of Script writers/Screen play writers/Dialouge writers are/were Urdu speakers. So the language used in Indian Cinema (Bollywood) is, for most parts, Hindustani, and not Hindi. <P> Hindi phrasebook. Hindi हिन्दी is an Indo-European language spoken in India, Pakistan, Nepal, and throughout the Indian diaspora in Fiji, Singapore, Uganda, United Arab Emirates, Trinidad, Suriname, Guyana, South Africa, UK, USA, Canada, Australia, New Zealand, Mauritius, Germany, etc.. Hindi is descended from Sanskrit, sometimes called the mother of all languages, or Latin of the East.. Hindi developed from the proto-Hindi खड़ी बोली Khaṛī Bolī (lit. Pure language). <P> Rita:--Dannyawad.magar aaj nahi.phir kabhi aaungi Sita:--Come to my house,I stay close by. Rita:--Thanks.But not today,I will come some other time. Sita:-Shamko mere ghar aana Rita:- Aaj nahi. Sita:-Phir kabhi? Sita:-Come to my house in the evening. <P> Find answer of what is meaning of LEKIN PHIR BHI() in English dictionary? Search for translation and definition of LEKIN PHIR BHI in English language along with synonyms and antonyms.LEKIN PHIR BHI() ka matalab Angrezi me janiye. LEKIN PHIR BHI का अंग्रेजी में मतलब.Know the meaning of any word using myhindienglish.com find the meaning of Hindi word LEKIN PHIR BHI in english as well as in hindi.Know the other meaning of LEKIN PHIR BHI and how to use that word in your life. <P> Full Definition of HINDI. 1. : a literary and official language of northern India. 2. : a complex of Indo-Aryan languages and dialects of northern India for which Hindi is the usual literary language. — Hindi adjective.
Some other time
how long can you keep a frozen chicken
<P> A whole chicken can keep up to a year in the freezer. Frozen chicken parts can last up to 9 months. But that will depend on how good the freezer is at maintaining temperature and how well the chicken is packaged for freezing. Make sure the chicken is packed securely and air-tight. Use packaging designed for freezing. Meats are kept better in the freezer. Meats can be kept in the refrigerator for 3 to 4 days if raw and 1 to 2 days longer if cooked. Always place cooked meats in an airt … ight container. <P> And with the use of a zip-seal bag and a permanent marker, you can avoid wasting your good food. Before you put meat in the freezer, you should always write the date on it -- that way you don't have to question how long it's been frozen. And, believe it or not, some meats can last in the freezer for up to one year. 1 Cooked poultry -- 4 months. 2 Uncooked poultry parts -- 9 months. 3 Uncooked whole poultry -- 12 months. <P> You can keep chicken for 12 months but that is if freezer is at -18c If your is not that cold then not that long but there will be no problem if only a month or so Enjoy. Bunny · 8 years ago. Report Abuse. <P> It really depends on the freezer and if it's can chicken broth or home made broth. If it's can chicken broth and it's in the can you can keep it for at least 1 year at the most. And if it's homemade then you can keep it up to 5 month's at the most. But it really depends if it's homemade then certain ingredient's may get that old taste. You can keep canned chicken broth in the refrigerator for several days. Do not store it inside the can, pour it into a bowl and cover it. You can also keep chicken broth i … n the freezer. Pour it into ice cube trays and once it is frozen put it into freezer bags, it will for many months this way <P> During this time, if chicken defrosted in the refrigerator is not used, it can safely be refrozen without cooking first. Chicken may be defrosted in cold water in its airtight packaging or in a leak proof bag. Submerge the bird or cut-up parts in cold water, changing the water every 30 minutes to be sure it stays cold. A whole (3 to 4-pound) broiler fryer or package of parts should defrost in 2 to 3 hours. <P> Be Wary of Freezer Burn. Chicken, if kept in the freezer too long, may lose flavor and texture due to freezer burn. When food is frozen, it can lose water molecules, causing it to become dehydrated. When water is lost, the food can change in flavor and its texture. This is freezer burn. Bottom Line. Though a frozen whole chicken may be safe to eat, it may not taste or look too fresh if stored in the freezer for too long. The U.S. Food and Drug Amdministration suggests using a frozen whole chicken within one year. <P> According to Martha Stewart's Homekeeping Handbook, chicken parts (such as the breasts) can be stored for only 1-2 days in the refrigerator (at a temperature of 40°F/5°C) while they can be stored for 9 months when frozen (0°F/-18°C). Categories 1 : Answered questions. 2 Food Storage. <P> Answer: If you thawed the chicken in the refrigerator, you don't have to cook it right away. Poultry that’s been defrosted in the fridge can be safely kept for an additional one to two days in the refrigerator before cooking, says the U.S. Department of Agriculture. You also can safely refreeze it within that same timeframe.
Up to 9 months.
isometrics definition
<P> Full Definition of ISOMETRICS. : exercise or a system of exercises in which opposing muscles are so contracted that there is little shortening but a great increase in tone of muscle fibers involved. ADVERTISEMENT. <P> Noun. 1. isometrics-muscle-building exercises (or a system of musclebuilding exercises) involving muscular contractions against resistance without movement (the muscles contracts but the length of the muscle does not change). isometric exercise. i·so·met·rics. n. (used with a sing. or pl. verb). Exercise or a system of exercises in which isometric muscular contraction is used to strengthen and tone muscles, performed by the exertion of effort against resistance, usually of a stationary object. <P> Isometric exercise: Exercise involving muscular contractions without movement of the involved parts of the body. Isometric exercise is one method of muscular exercise. <P> isometric. adj. 1. having equal dimensions or measurements. 2. (Physiology) physiol of or relating to muscular contraction that does not produce shortening of the muscle. 3. (General Physics) (of a crystal or system of crystallization) having three mutually perpendicular equal axes. isometric-of a crystal system characterized by three equal axes at right angles. crystallography-the branch of science that studies the formation and structure of crystals. <P> : of, relating to, involving, or being muscular contraction (as in isometrics) against resistance, without significant shortening of muscle fibers, and with marked increase in muscle tone — compare isotonic. Medical Definition of ISOMETRIC. 1. : of, relating to, or characterized by equality of measure; especially: relating to or being a crystallographic system characterized by three equal axes at right angles. 2 <P> (March 2015). Isometric exercise or isometrics are a type of strength training in which the joint angle and muscle length do not change during contraction (compared to concentric or eccentric contractions, called dynamic/isotonic movements). Isometrics are done in static positions, rather than being dynamic through a range of motion. In an overcoming isometric, the joint and muscle work against an immovable object. In contrast, in a yielding isometric, the joint and muscle are held in a static position while opposed by resistance. <P> 3. Physiology Of or involving muscular contraction against resistance in which the length of the muscle remains the same. n. A line connecting isometric points. [From Greek. , of equal measure : , iso- +. , measure; see mē- in Indo-European roots .]. i′so·met′ri·cal·ly adv. isometric-of a crystal system characterized by three equal axes at right angles. crystallography-the branch of science that studies the formation and structure of crystals. <P> An isometric exercise is a form of exercise involving the static contraction of a muscle without any visible movement in the angle of the joint. In an overcoming isometric, the joint and muscle work against an immovable object. In contrast, in a yielding isometric, the joint and muscle are held in a static position while opposed by resistance.
Relating to, or characterized by equality of measure; especially: relating to or being a crystallographic system characterized by three equal axes at right angles.
how long does it take a hen to lay an egg
<P> Most hens will start laying between 5-7 months of age. They will lay best at 1 to 2 years of age. All pullets (female chicken under 1 year of age) lay small eggs at first and after a while will lay larger eggs. Younger hens will lay 1 egg every 3-4 days. A hen 30 weeks old can lay 2 eggs every 3 days. Some have been known to lay an egg a day. <P> If this is the first time she is laying an egg, it can take a while. i've noticed mine tend to fuss, get in then out of the box, act distressed. It's all new to them so can be a bit traumatic. Even seasoned hens will tend to sit in the nest box for hours sometimes before laying. <P> The actual formation of the egg inside the chicken takes about 24 hours, but when they sit down to lay the egg it can take anywhere from 15 minutes to a couple of hours. In each of these parts 3 chickens will lay a third of the number of eggs (so 1 egg). Thus: 3 chickens will lay 1 egg in 1/2 of a day. Then it follows that 3 chickens will lay 2 eggs in 1 day. Now, if we allow those 3 chickens three times as long (3 days), they will produce 6 eggs. 3 chickens will lay 6 eggs in 3 days. <P> A chicken may take from about 5 minutes to an hour to lay her egg. She will lay an egg a day at approximately the same time. It takes about 20 hours for an egg to be made inside her body. That's why she is limited to one egg per day. It takes 20 hours to make an egg. It takes 20 hours to make an egg and between 5 minutes and an hour to lay it, depending on the hen. A rooster is necessary to have fertilized eggs, but a hen will lay eggs even if no rooster is present. Incubation time for fertilized eggs is 21 days. Days 1-18 require an internal temperature of 99.5 F and a humidity of 50-60%. Days 18-21 require an internal temp of 99.5 and a humidity of 70-80%. <P> Chickens usually don't simply stop laying eggs when they get to a certain age, but they will lay fewer as they get older. That said, most laying breeds will lay more or less productively in backyard terms for five or seven years. <P> Best Answer: How long does it take for a hen to lay an egg? The average laying hen lays 257 eggs a year. The actual time it takes for a hen to make an egg and lay it is 24 to 26 hours. http://www.aeb.org/kidsandfamily/time_to... How Many Eggs Can a Chicken Lay in One Day? When a hen reaches eighteen to twenty weeks of age, she begins to lay eggs. Roosters are only needed in order for the egg to be FERTILIZED (to have a baby). Hens lay eggs with or without a rooster around. How long does it take a mother hen to hatch her eggs? It takes 20 day for a mother hen to hatch her eggs, and 21 days if your using an incubator. Do hens take care of their eggs? yes all mothers take care of their eggs and youngones...All the hens lays eggs in a safe and same place regularly <P> Best Answer: If your hen is over 18 weeks old or has already started laying then it varies from a few to several minutes. Sometimes if they know you are watching they will figit and it can take a lot longer. Hens like to be in dark corners and secluded. Once she lays the egg she may not come off the nest... <P> Chickens never lay more than one egg per day. As a rule, chickens lay in the morning, but each day a little later. Sometimes the last egg of a series is produced in the early afternoon. When it gets too late, they take the next day off. My five commercial hybrids will sometimes lay for a series of 30 days or more. All chickens lay eggs in a series-never more than one per day. If the eggs are not collected, and a sufficient number of eggs are allowed to remain in the nest, the hen may stop laying eggs and start brooding. When the hen leaves the nest after laying an egg, it cools which suspends the development of the embryo inside.
Most hens will start laying between 5-7 months of age. Younger hens will lay 1 egg every 3-4 days.
who was gunnar myrdal
<P> Gunnar Myrdal in 1937 or earlier. Gunnar Myrdal (December 6, 1898 – May 17, 1987) was a Swedish economist, sociologist, and politician. His work contributed to the establishment of a welfare state in Sweden following the Second World War. <P> Gunnar Myrdal, c. 1937. Karl Gunnar Myrdal (6 December 1898 – 17 May 1987) was a Swedish economist, sociologist, and politician, best known in the United States for his study of race relations, which culminated in his book An American Dilemma: The Negro Problem and Modern Democracy. <P> Gunnar Myrdal, a Swedish economist, made an international reputation with his 1944 book, An American Dilemma, today considered a classic in sociology. <P> Gunnar Myrdal is married to the former Alva Reimer who held high posts in the United Nations and UNESCO, was the Swedish Ambassador to India and became Sweden's Minister of Disarmament and of Church. <P> Gunnar Myrdal, the Swedish economist and sociologist whose 1944 book, ''An American Dilemma,'' helped to destroy the ''separate but equal'' racial policy in the United States, died yesterday in a hospital in Sweden. <P> Biography. Gunnar Myrdal was born in Gustaf's parish, Sweden, on December 6, 1898. He graduated from the Law School of Stockholm University in 1923, and received his degree in economics in 1927, after which he was appointed docent in political economy. <P> Gunnar Myrdal was married to the former Alva Reimer, a Nobel Peace Prize laureate, who held high posts in the United Nations and UNESCO. She was also the Swedish Ambassador to India, and became Sweden's Minister of Disarmament and of Church. <P> Gunnar Myrdal was born in Gustaf's parish, Sweden, on December 6, 1898. He graduated from the Law School of Stockholm University in 1923 and began practicing law while continuing his studies at the university. He received his juris doctor degree in economics in 1927 and was appointed docent in political economy.
A Swedish economist, sociologist, and politician.
how long will cooked bacon be good
<P> 1 Cooked bacon in strips lasts for around a week post-cooking, in the fridge. 2 If you freeze it, it will last up to 6 months. 3 Just cook it a bit less than you like it, so when you go to warm it up, it doesn't overcook. 4 Bacon bits will last for about 6 weeks in the fridge, and 6 months in the freezer. Check the expiry date on the bacon packet. If the use by date has expired, then that bacon is unsafe to use. Always use bacon within seven days of purchase (sell by) or by the use by date listed by the manufacturer. You can also safely thaw and cook the bacon within four months of freezing bacon. <P> 1 How long does cooked bacon last at room temperature? 2 Bacteria grow rapidly at temperatures between 40 °F and 140 °F; cooked bacon should be discarded if left for more than 2 hours at room temperature. 1 To further extend the shelf life of cooked bacon, freeze it; freeze bacon in covered airtight containers or heavy-duty freezer bags, or wrap tightly with heavy-duty aluminum foil or freezer wrap. <P> Cooked bacon can last 3-4 days in the fridge as long as its wrapped tight to prevent to much air and its put in the fridge within 2 hours of when it was cooked. 3 people found this useful. Edit. Meats can be kept in the refrigerator for 3 to 4 days if raw and 1 to 2 days longer if cooked. Always place cooked meats in an airtight c … ontainer. Bacon however is pre-cooked in a smoker, so technically it should keep much longer. It is also vacuum-packed, so it won't oxygenate and lose flavor either. <P> 1 Bacteria grow rapidly at temperatures between 40 °F and 140 °F; cooked bacon should be discarded if left for more than 2 hours at room temperature. 2 How to tell if cooked bacon is bad? 3 The best way is to smell and look at the bacon: discard any bacon with an off smell or appearance, do not taste the bacon first. 1 To further extend the shelf life of cooked bacon, freeze it; freeze bacon in covered airtight containers or heavy-duty freezer bags, or wrap tightly with heavy-duty aluminum foil or freezer wrap. <P> Meats are kept better in the freezer. Meats can be kept in the refrigerator for 3 to 4 days if raw and 1 to 2 days longer if cooked. Always place cooked meats in an airtight c … ontainer. Bacon however is pre-cooked in a smoker, so technically it should keep much longer. It is also vacuum-packed, so it won't oxygenate and lose flavor either. <P> Different types of bacon keep for different lengths of time. 1 Cooked bacon in strips lasts for around a week post-cooking, in the fridge. 2 Bacon bits will last for about 6 weeks in the fridge, and 6 months in the freezer. Check the expiry date on the bacon packet. If the use by date has expired, then that bacon is unsafe to use. Always use bacon within seven days of purchase (sell by) or by the use by date listed by the manufacturer. You can also safely thaw and cook the bacon within four months of freezing bacon. <P> Bacon Cindy 2015-04-21T07:10:21+00:00. How long does bacon last? The shelf life of bacon depends on a variety of factors, such as the sell by date, the preparation method and how the meat was stored. Bacon is tasty for breakfast, lunch, dinner or as a condiment. Just like ham, it is a cured meat prepared from a pig. For a long-term option, you can freeze your bacon while preserving its taste if you use a freezer safe container. Some benefits of proper food storage include eating healthier, cutting food costs and helping the environment by avoiding waste. <P> You can help bacon keep fresh longer by storing it in your refrigerator immediately after use. Once prepared, it should be stored in a tightly closed container to keep out moisture and other contaminants. For a long-term option, you can freeze your bacon while preserving its taste if you use a freezer safe container. Some benefits of proper food storage include eating healthier, cutting food costs and helping the environment by avoiding waste. <P> 1 If you freeze it, it will last up to 6 months. 2 Just cook it a bit less than you like it, so when you go to warm it up, it doesn't overcook. 3 Bacon bits will last for about 6 weeks in the fridge, and 6 months in the freezer. Check the expiry date on the bacon packet. If the use by date has expired, then that bacon is unsafe to use. Always use bacon within seven days of purchase (sell by) or by the use by date listed by the manufacturer. You can also safely thaw and cook the bacon within four months of freezing bacon. <P> 1 The exact answer to the question “How long does cooked bacon last?” depends to a large extent on storage conditions — refrigerate bacon within two hours of cooking. 1 To further extend the shelf life of cooked bacon, freeze it; freeze bacon in covered airtight containers or heavy-duty freezer bags, or wrap tightly with heavy-duty aluminum foil or freezer wrap.
Will last up to 6 months.
how long to pre soak okra seeds to grow in garden
<P> 1 You can also start okra directly in your garden 3 to 4 weeks before the last spring frost date as long as you cover the plants with a cold frame or grow tunnel until the weather warms up. Make sure that the covering is 2 to 3 feet tall so that the plants have room to grow. 1 If you do not start your okra plants early, wait until there is stable warm weather. 2 You can plant okra in the garden when the soil has warmed to 65° to 70°F. 3 Plant okra in fertile, well-drained soil in full light about ½ to 1 inch deep and 12 to 18 inches apart. <P> 1 You can soak the seeds overnight in tepid water to help speed up germination. 2 If you are planting okra transplants, be sure to space them 1 to 2 feet apart to give them ample room to grow. 3 Okra plants are tall, so be sure to space out the rows 3 to 4 feet apart. 1 If you do not start your okra plants early, wait until there is stable warm weather. 2 You can plant okra in the garden when the soil has warmed to 65° to 70°F. 3 Plant okra in fertile, well-drained soil in full light about ½ to 1 inch deep and 12 to 18 inches apart. <P> Common questions at this point include “How long should seeds be soaked?” and “Can you over soak seeds?” Yes, you can over soak seeds. Too much soaking in water and a seed will drown. It is recommended that you only soak most seeds for 12 to 24 hours and no more than 48 hours. The seeds of some species of plants can survive longer soakings, but you should only do this if the specific instructions for this species recommend so. Soaking seeds before planting is an old-time gardener’s trick that many new gardeners are not aware of. When you soak seeds before planting, you can significantly decrease the amount of time it takes for a seed to germinate. <P> Sow the seeds or plant the seedlings. When the weather is warm, it's time to plant the okra in your garden. Sow your seeds 4 inches (10.2 cm) apart at a depth of 1⁄2 inch (1.3 cm). If you started your seeds indoors, handle the seedlings very carefully and plant them 1 foot (0.3 m) apart in rows 3 feet (0.9 m) apart. <P> 1 Plant okra in fertile, well-drained soil in full light about ½ to 1 inch deep and 12 to 18 inches apart. 2 You can soak the seeds overnight in tepid water to help speed up germination. 3 If you are planting okra transplants, be sure to space them 1 to 2 feet apart to give them ample room to grow. 1 If you do not start your okra plants early, wait until there is stable warm weather. 2 You can plant okra in the garden when the soil has warmed to 65° to 70°F. 3 Plant okra in fertile, well-drained soil in full light about ½ to 1 inch deep and 12 to 18 inches apart. <P> 1 You can plant okra in the garden when the soil has warmed to 65° to 70°F. 2 Plant okra in fertile, well-drained soil in full light about ½ to 1 inch deep and 12 to 18 inches apart. 3 You can soak the seeds overnight in tepid water to help speed up germination. 1 If you do not start your okra plants early, wait until there is stable warm weather. 2 You can plant okra in the garden when the soil has warmed to 65° to 70°F. 3 Plant okra in fertile, well-drained soil in full light about ½ to 1 inch deep and 12 to 18 inches apart. <P> Prior to planting, soak the okra seeds in water for 12 to 18 hours to soften its hard seed coat. Soaking aids moisture absorption and germination. Plant okra in the spring or early summer once the threat of frost has passed. Choose a garden spot where its shade will not harm other sun loving plants. Sow the seeds one inch deep in rows that are three feet apart. The seeds generally germinate in two to 12 days. Okra will grow in many soil types, so mulch and fertilize as needed. <P> Plant okra in late spring or early summer, two weeks or more after your last frost has passed. Soak hard okra seeds in plain water overnight before planting, and discard any seeds that float to the top. Plant okra seeds 1 inch deep and 4 inches apart, spacing rows at least 30 inches apart. When okra seedlings are 4 inches tall, thin them to at least 18 inches apart. <P> Okra can be established by sowing seeds directly into the garden or by setting out transplants. To enhance germination, soak okra seeds in water for several hours or overnight before sowing. Sow okra seeds outdoors about 2 weeks after the danger of frost is past. In central Iowa, mid to late May would be an appropriate planting date. Sow seeds 1 inch deep. Space seeds 4 to 6 inches apart within the row. Harvest pods when 2 to 4 inches long. (This is usually 5 to 6 days after flowering.) Use a sharp knife or hand shears. Handle the pods carefully as they bruise easily. Since the pods develop rapidly, it's often necessary to harvest pods every other day in July and August.
12 to 18 hours
typical compounds containing carbon
<P> Compounds. There are more carbon compounds than there are compounds of all other elements combined. The study of carbon compounds, both natural and synthetic, is called organic chemistry. Plastics, foods, textiles, and many other common substances contain carbon. <P> About 94% of the six million known compounds contain carbon, far more than any other element. Carbon, in the form of diamond, is the hardest natural material on Earth. Carbon is found in a wide variety of rocks, such as chalk and limestone. <P> All living things are made of compounds containing mostly carbon, so lots of things that are “organic” to a gardener are also “organic” to a chemist. Of course, there are many carbon compounds that are human-made, or synthetic. To chemists, these are organic compounds too. <P> This section lists some binary compounds with halogens (known as halides), oxygen (known as oxides), hydrogen (known as hydrides), and some other compounds of carbon. For each compound, a formal oxidation number for carbon is given, but the usefulness of this number is limited for p-block elements in particular. <P> The simplest organic compounds contain molecules composed of carbon and hydrogen. The compound methane contains one carbon bonded to four hydrogens. Ethane is another example of a simple hydrocarbon. Ethane contains two carbon atoms and four hydrogen atoms. <P> Organic compounds are mainly composed of carbon atom. There are several common examples of organic compounds which we can observe in our surroundings. Crude oil is a mixture of many compounds. These compounds are known as hydrocarbons, because their molecules contain carbon and hydrogen elements bonded together. <P> Compounds of carbon are defined as chemical substances containing carbon. More compounds of carbon exist than any other chemical element except for hydrogen. Organic carbon compounds are far more numerous than inorganic carbon compounds. In general bonds of carbon with other elements are covalent bonds.
Plastics, foods, textiles, and many other common substances contain carbon.
what are outriggers used for
<P> When being used, outriggers are lowered to an angle nearly the same level as the water’s surface. At the edge of each outrigger is a pulley with a cord, attached to which is a quick release clip that holds the fishing line. Generally, outriggers improve the chances of a fish striking because not only does it allow the angler to cover more ocean space, it also permits the use of multiple lines. <P> Related: used fishing outriggers fishing outriggers rupp outriggers penn reel rod taco outriggers bug reel outrigger poles outrigger bases. used outriggers. Follow used outriggers to get e-mail alerts and updates on your eBay Feed. Unfollow used outriggers to stop getting updates on your eBay Feed. Yay! <P> Outriggers telescope out away from a fishing boat to be able to drop fishing bait lines up to several feet away from the boat into the water. When a fish bites on the bait, the line rigged into the outrigger automatically transfers to a fishing pole that is properly secured into a gunnel on the boat. Wooden outriggers appear on the new Trireme around the 7th or 6th centuries BC and later on Italian galleys around AD 1300 while Harry Clasper (1812–1870), a British professional rower, popularised the use of the modern metal version. <P> Outriggers also hold the fishing lines at a distance from both sides of the boat, spreading the lines far enough to prevent the risk of tangling. With more lines in the water, the angler can set them at different distances and depths that can create a variety of natural patterns to increase the chances of a strike. Generally, outriggers improve the chances of a fish striking because not only does it allow the angler to cover more ocean space, it also permits the use of multiple lines. <P> The outrigger float is called the ama in many Polynesian and Micronesian languages. The spars connecting the ama to the main hull (or the two hulls in a double-hull canoe) are called ʻiako in Hawaiian and kiato in Māori (with similar words in other Polynesian languages); in Micronesian languages, the term aka is used. In an outrigger canoe the paddlers sit in line, facing toward the bow of the canoe (i.e. forward, in the direction of travel, unlike rowing). The seats are numbered from 1 (closest to the bow) to the number of seats in the canoe, usually 6. <P> Fishing Outriggers. Maximize your trolling with outriggers and outrigger accessories from Overton's. Check out our top of the line selection of telescoping outrigger poles, pulley shock cords, outrigger mounts, and all-inclusive outrigging kits from brands like Taco and Lee's Tackle. <P> What are Outriggers Used For? Mainly used in deep sea trolling, outriggers are a pair of long poles fitted on both sides of a boat that holds fishing lines away from the boat. It is usually made of fiberglass and aluminum, and is tilted at an angle between 70 to 80 degrees. Generally, outriggers improve the chances of a fish striking because not only does it allow the angler to cover more ocean space, it also permits the use of multiple lines. <P> In an outrigger canoe and in sailboats such as the proa, an outrigger is a thin, long, solid, hull used to stabilise an inherently unstable main hull. The outrigger is positioned rigidly and parallel to the main hull so that the main hull is less likely to capsize. If only one outrigger is used on a vessel, its weight reduces the tendency to capsize in one direction and its buoyancy reduces the tendency in the other direction. Wooden outriggers appear on the new Trireme around the 7th or 6th centuries BC and later on Italian galleys around AD 1300 while Harry Clasper (1812–1870), a British professional rower, popularised the use of the modern metal version.
It is used in deep sea trolling, outriggers are a pair of long poles fitted on both sides of a boat that holds fishing lines away from the boat.
what is bitters used for
<P> Made from the same secret recipe Antoine Peychaud used in the 1830s, this concoction is a key ingredient in one of the first cocktails ever to to be mixed up in New Orleans, the Sazerac. A drink made any other way is simply not a Sazerac. Orange Bitters. Not a brand in itself, but a style of bitters. <P> You can use it in so many drinks.. Peychaud's Bitters. These bitters are named after Mr. Antoine Amedie Peychaud, a pharmacist and Creole immigrant from what is now known as Haiti. Peychaud began dispensing curative bitters with anise notes out of his pharmacy in the French Quarter of New Orleans in 1838. <P> Today bitters come in little bottles with eyedroppers, and a drop or two can drastically change the flavor profile of a drink. When applied judiciously, they expose the diversity of aromas and flavors in a cocktail, Koplowitz said. Each brand of bitters has its own qualities that bring unique flavors to cocktails. <P> Bitters are, as their name suggest, a bitter or bittersweet type of spirit made from different herbs, roots and plants. Bitters are used to flavor and add a dry zest to cocktails and cooking. <P> Pin it From the medicine cabinet to the bar, bitters have a long history of curing ailments and flavoring drinks. Though they may seem mysterious, at heart, bitters are simply bitter and aromatic herbs and spices infused or tinctured in spirits. Combining the various flavors is where the fun part comes in. Here's a primer to making your own bitters at home, which you can use in cocktails, sodas, cooking, and even as digestive aids. <P> Bitters are a common bar ingredient that were considered a necessity in the early definition of a cocktail, but were left out of many drinks until their recent comeback thanks, in part, to an interest in classic cocktails. <P> More literally speaking, bitters are a liquid extraction of seeds, herbs, bark, roots, flowers, leaves and fruit of various plants. They are highly concentrated and are used by the dash to flavor cocktails. <P> Definition. Bitters is a liquid that is made of any number of herbs and citrus extracts. This liquid was very popular before Prohibition in the U.S. and was used in the very first cocktails to provide a complex flavor. <P> Bitters have a long and interesting history. The use of bitters began as early as the 19th century, then progressed to being used in drinks in the early 20th century.
Flavor and add a dry zest to cocktails and cooking.
what is forskolin used for
<P> coleus Overview Information. Forskolin is a chemical found in the roots of the plant Plectranthus barbatus (Coleus forskohlii). This plant has been used since ancient times to treat heart disorders such as high blood pressure and chest pain (angina), as well as respiratory disorders such as asthma. Forskolin drops are used in the eyes to treat glaucoma. Herbal product manufacturers are now producing Coleus forskohlii extracts that contain high levels of forskolin. These preparations are being promoted for the same conditions for which forskolin has been traditionally used. <P> Many people turn to natural supplements when attempting to lose weight. Forskolin is found in the roots of an herbal plant from the mint family. Web MD cites that this plant has been used since ancient times to treat health problems such as high blood pressure and chest pains as well as asthma. Forskolin Can Break Down Excess Fat. Weight gain results in excess fat in unwanted places. <P> Loading ... Forskolin extract is a supplement also known as a labdane diterpene. It is a type of compound which is similar to retinol, retinal, phytol, and is known to be both anti-microbial and anti-inflammatory. In other words, Forskolin works by essentially bypassing the steps associated with unwanted side effects like nervousness and restlessness. As this enzyme is activated, it converts into something known as cAMP. This, in turn, increases levels of a protein called kinase and also hormone-sensitive lipase (HSL). <P> Forskolin appears to work in a way similar to certain types of conventional asthma drugs, by boosting the levels of a compound called cyclic AMP. This helps relax the muscles around the bronchial tubes to make breathing easier. Forskolin has also been used to try to treat glaucoma. But there is no proof that it works. A small study indicates that forskolin may help relieve pressure in the eyes, which is often seen in glaucoma. But the study was done on healthy people. <P> 1 \r\n\t\tBlood Pressure: Forskolin is also used as a maintenance supplement for those with the potential of developing high blood pressure. 2 Although, it cannot actually lower the blood pressure so it won’t be of any use to those who are seeking a way to bring their numbers down. For those who seek to control their glaucoma symptoms Forskolin is taken as an eye drop. This treatment is still very new so there is not very much information about it. However, the drops themselves will include a 1% dose of the supplement. <P> While there are many weight loss supplements that do help with people’s weight loss efforts, only a select few have really stood out. One of these is Forskolin. Now, you might be scratching your head as to what this supplement is. This is because Forskolin is not primarily used for weight loss. In fact, Forskolin is a popular ingredient in many medications for asthma, high blood pressure, heart disease, arthritis, and as well as skin disorders. <P> Forskolin (also called Coleonol) is a labdane diterpene that is produced by the Indian Coleus plant (Coleus forskohlii). Forskolin is commonly used to raise levels of cyclic AMP (cAMP) in the study and research of cell physiology. There is limited information on forskolin’s use in pregnant women. The safety has not yet been determined. Historically, Forskolin has been used to stimulate or promote menses in women as well as a form of oral birth control. Forskolin should be used with caution or avoided altogether in women who are pregnant. <P> “Forskolin” is one of the diterpene core ingredients that’s extracted from a small plant belonging to the mint and lavender family, known as Coleus Forskohlii. The Coleus Forskohlii plant has several other benefits aside from weight loss. It relaxes blood vessels walls, fighting against high blood pressure. <P> In the supplement realm, forskolin is predominantly used within formulations to support fat burning and energy levels, but is also applicable for use in products targeting blood pressure, digestion, and testosterone levels. What makes forskolin so unique, though, is that its actions on cAMP levels are reversible, and it accomplishes this action without the use of other cellular receptors such as beta adrenoreceptors, contrary to other well-known fat burners such as ephedrine.
Used since ancient times to treat heart disorders such as high blood pressure and chest pain (angina), as well as respiratory disorders such as asthma.Forskolin drops are used in the eyes to treat glaucoma.
what is a continuity tester
<P> A voltage continuity tester is another way to determine if a circuit breaker needs to be replaced. Also called a multimeter, this tool works by using the AC mode and connecting a hot prong with the screw on the circuit breaker. People can use continuity testers to check the wires and cords of circuit breakers to be sure that electricity can get through. An internal battery located inside the tool sends electricity through a prong and down the wires. <P> A continuity tester is an item of electrical test equipment used to determine if an electrical path can be established between two points; that is if an electrical circuit can be made. The circuit under test is completely de-energized prior to connecting the apparatus. The tester consists of an indicator in series with a source of electrical power-normally a battery, terminating in two test leads. If a complete circuit is established between the test-leads, the indicator is activated. The indicator may be an electric light or a buzzer. This led to the term buzzing out a circuit (which means to test for continuity) . Audible continuity buzzers or beepers are built into some models of multimeter <P> It is used with the current turned off to determine whether a particular electrical component is carrying electricity and to pinpoint the cause of a problem. To use a continuity tester, unplug the appliance and disassemble it to get at the component you want to test. Fasten the clip of the tester to one wire or connection of the component, and touch the probe to the other wire or connection. If the tester doesn't light or buzz or it reacts only slightly, the component is faulty. Caution: Do not use a continuity tester unless the appliance is unplugged or the power to the circuit is turned off. <P> From Wikipedia, the free encyclopedia. In electronics, a continuity test is the checking of an electric circuit to see if current flows (that it is in fact a complete circuit). A continuity test is performed by placing a small voltage (wired in series with an LED or noise-producing component such as a piezoelectric speaker) across the chosen path. If electron flow is inhibited by broken conductors, damaged components, or excessive resistance, the circuit is open. <P> A continuity tester is a tool used to determine if a circuit breaker is working properly. Electricity requires a continuous path to be able to function, so if there is an obstacle along this path, the electricity will not work. This tool can help determine whether electricity will be able to flow. People can use continuity testers to check the wires and cords of circuit breakers to be sure that electricity can get through. An internal battery located inside the tool sends electricity through a prong and down the wires. <P> Continuity. Continuity testing is the act of testing the resistance between two points. If there is very low resistance (less than a few &ohm;s), the two points are connected electrically, and a tone is emitted. If there is more than a few &ohm;s of resistance, than the circuit is open, and no tone is emitted. <P> Continuity testing overview. 1 Continuity is the presence of a complete path for current flow. 2 A circuit is complete when its switch is closed. 3 A digital multimeter’s Continuity Test mode can be used to test switches, fuses, electrical connections, conductors and other components. <P> Internet # 203578373. The Klein Tools Continuity Tester quickly reveals shorts or broken circuits in all types of electrical devices and controls. Tests for circuit continuity with power off. The pointed probes gets right to the problem. The handle lights up if the circuit is complete. Bulb for handle is included. <P> A continuity tester consists of a battery in a housing, with a test probe connected to one end of the battery housing and a test wire with an alligator clip connected to the other end. If the tester doesn't light or buzz or it reacts only slightly, the component is faulty. Caution: Do not use a continuity tester unless the appliance is unplugged or the power to the circuit is turned off. <P> Continuity testers are relatively inexpensive and can be purchased in hardware stores. They come with a battery, a test probe, a test wire, and an alligator clip. The test probe is typically connected to the end of the battery case, while the test wire and alligator clip connect at the other end. People can use continuity testers to check the wires and cords of circuit breakers to be sure that electricity can get through. An internal battery located inside the tool sends electricity through a prong and down the wires.
It is an item of electrical test equipment used to determine if an electrical path can be established between two points; that is if an electrical circuit can be made.
how do you know if you have wrinkles
<P> Let’s face it, under eye wrinkles are probably the first thing that we see when we start to worry about our age. They appear out of nowhere like little ninjas and steal your youth and smooth skin. In reality, they are a result of our thin skin more so than they are a result of our age. When you look for an anti-wrinkle eye cream, you are actually looking for a formulated cream that you would use to treat wrinkles all around the eye. The chosen products will reduce your fine lines and wrinkles, but may also help with hyperpigmentation and bags. It can be a bit overwhelming to look for the best cream. <P> Another Top Cause of Wrinkles: Smoking. Beyond question, smoking is bad for your skin. Smoking accelerates the aging process, wrinkling skin and making you look old beyond your years. Early wrinkling is visible under a microscope in smokers as young as 20. The more years and packs smoked, the more likely wrinkles will occur. Wrinkles are also more likely to be deeper in smokers. Tobacco smoke gives skin an unhealthy color and coarse texture, as well. 1 What you can do: Stop smoking 2 ! Effective tools are available at WebMD and throughout the Internet. <P> Rona Berg, in her book, Beauty the New Basics, suggests you take the skin test to tell what skin type you have. To do this, wash your face, pat it dry, then take a few pieces of rice paper or lens-cleaning tissue paper and press on different spots on your face. If your skin is oily, the paper will stick, pick up oily spots and become translucent. If the paper doesn't stick or pick up any oily spots, your skin is likely dry. If it sticks in your t-zone (forehead, nose and chin) then you have combination (or normal) skin. Most women actually have combination skin. Here are the 5 different skin types and their tell-tale characteristics <P> Tanning is a sign of skin damage, evidence that the sun's ultraviolet rays have penetrated and damaged the skin's support structure. Most wrinkles are caused by sun exposure throughout life -- and it's never too late to halt the process. 1 What you can do: Wear sunscreen with sun protection factor (SPF) of at least 15. 2 The hands and face are particularly vulnerable to sun damage, due to their frequent exposure. The more years and packs smoked, the more likely wrinkles will occur. Wrinkles are also more likely to be deeper in smokers. Tobacco smoke gives skin an unhealthy color and coarse texture, as well. 1 What you can do: Stop smoking 2 ! Effective tools are available at WebMD and throughout the Internet. <P> Wrinkles. Wrinkles mainly happen on the parts of the body that get the most sun exposure, including the face, neck, the backs of the hands, and the tops of the forearms. Wrinkles fall into two categories: fine, surface lines and deeper furrows. <P> The way you sleep may actually cause wrinkles. No matter how soft your pillow, it puts pressure on your face each night. Over years, this can etch lines into your chin, cheeks, or forehead. Your personal pattern of sleep lines depends on how you tend to rest your face on the pillow. 1 What you can do: Sleep on your back. The more years and packs smoked, the more likely wrinkles will occur. Wrinkles are also more likely to be deeper in smokers. Tobacco smoke gives skin an unhealthy color and coarse texture, as well. 1 What you can do: Stop smoking 2 ! Effective tools are available at WebMD and throughout the Internet. <P> When your skin is dry, wrinkles become accentuated, he says, since parched skin tends to look flat and dull, which brings out fine lines and creases. Water also flushes out any toxins the body collects, which can have a negative impact on your skin. Photo: Jupiterimages/Thinkstock. 7. 8. Encouraging collagen to form can help reduce the appearance of wrinkles. Share. Tweet. Pin. E-mail. Collagen is a main building block of the skin that keeps it firm and elastic. <P> Skin ages all over the body but much more so where there has been sun exposure. Changes brought on by sun damage (photoaging) include dryness (really roughness), sagginess, skin growths like keratoses, lentigos ( liver spots), and wrinkles. Most wrinkles associated with aging appear on the parts of the body where sun exposure is greatest. These especially include the hairless scalp, face, neck, the backs of the hands, and the tops of the forearms. Wrinkles come in two categories: fine surface lines and deep furrows. Many products and procedures promise to reduce wrinkles. Some do little or nothing (like the products that claim they reduce the appearance of fine lines, which means that they don't reduce the lines themselves). Others can achieve a fair amount of success. <P> 1 of. next. We all know the 4-1-1 on what causes wrinkles: aging, sun damage, and a life full of laughter. (Wear those crow’s feet as a badge of honor!) But if your wrinkles could talk, they could reveal a lot more than whether or not you go in the sun. They can tell you about your overall health and wellbeing, and give you clues to future concerns
Most wrinkles associated with aging appear on the parts of the body where sun exposure is greatest.These especially include the hairless scalp, face, neck, the backs of the hands, and the tops of the forearms.
cost of hospital birth without insurance
<P> 1 The typical cost for a C-section without complications or a vaginal delivery with complications ranges from about $14,000 to $25,000 or more. 2 For patients with insurance, out-of-pocket costs usually range from under $500 to $3,000 or more, depending on the plan. <P> The total cost for a birth depends on any complications you or the baby may have. A regular birth, called a vaginal birth, can cost between $9,000 to $17,000, depending on the particular hospital. A Cesarean birth (C-section) without any other complications ranges from $14,000 to $25,000. <P> In addition to these childbirth hospital charges, we also incurred three days of home health care biliblanket therapy hospital charges of $1,069.20, with the allowable charges insurance discount reducing this cost to $555. This was due to treatment for jaundice of the newborn. <P> The average cost of an uncomplicated natural childbirth without insurance will cost from $9,000 to $15,000 or more. The fees depend on the geographic location, type of facility and if the state offers discounts for uninsured individuals. <P> Women with insurance pay out of pocket an average of $3,400, according to a survey by Childbirth Connection, one of the groups behind the maternity costs report. Two decades ago, women typically paid nothing other than a small fee if they opted for a private hospital room or television. <P> 1 In most plans, that ranges from about $1,500 to $3,000. 2 According to a study by the March of Dimes Foundation, the average out-of-pocket cost for a vaginal delivery for privately insured patients was $463 and for a C-section, $523. <P> 1 According to a study by the March of Dimes Foundation, the average out-of-pocket cost for a vaginal delivery for privately insured patients was $463 and for a C-section, $523. 2 Usually, the baby receives a separate bill, which typically ranges from $1,500 to $4,000 for a healthy baby delivered at term. <P> 1 For patients not covered by health insurance, the typical cost of a vaginal delivery without complications ranges from about $9,000 to $17,000 or more, depending on geographic location and whether there is a discount for uninsured patients. <P> According to the American Pregnancy Association the estimated cost of giving birth is $6,000 – $8,000 for a normal pregnancy. Costs can increase with high risks or complications. If you have limited health insurance, don't have health insurance, or can’t afford hospital costs, there are some options available. <P> If you don't have health insurance, the average cost of prenatal care is about $2,000. One of the most important parts of prenatal care is a prenatal vitamin. You need one that contains at least 400 micrograms (mcg) of folic acid to help prevent neural tube birth defects.
$9,000 to $15,000 or more
natural kind terms definition
<P> In analytic philosophy, the term natural kind is used to refer to a natural grouping, not an artificial one. Hence raven and black refer to concepts that match natural kinds, because any black raven constitutes at least some evidence that all ravens are black. But nonblack and nonraven are not, because a nonblack nonraven (an extremely wide category) is not evidence that all nonblack things are nonravens. <P> Quine's conception of natural kinds is liberal. Not all sets are natural kinds, but any set whose members share a natural property are a natural kind. So the set of white objects is at least a candidate natural kind and Quine asserts that positively charged objects form a natural kind. The best known of the semantic arguments as applied to natural kind terms is Putnam's Twin Earth thought experiment (see Section 1.3.1). Putnam asks us to imagine that elsewhere in the universe there is a planet exactly like Earth in virtually all respects, which we may call ‘Twin Earth’. <P> The term was brought into contemporary analytic philosophy by W.V.O. Quine in his essay Natural Kinds, where any set of objects forms a kind only if (and perhaps if) it is projectible, meaning judgments made about some members of that set can plausibly be extended by scientific induction to other members. Hence raven and black refer to concepts that match natural kinds, because any black raven constitutes at least some evidence that all ravens are black. But nonblack and nonraven are not, because a nonblack nonraven (an extremely wide category) is not evidence that all nonblack things are nonravens. <P> DEFINITION of 'Fracking'. A slang term for hydraulic fracturing. Fracking refers to the procedure of creating fractures in rocks and rock formations by injecting fluid into cracks to force them further open. The larger fissures allow more oil and gas to flow out of the formation and into the wellbore, from where it can be extracted. <P> That is, they would still be groups of things, distinct from other things as a group, even if there were no people around to say that they were members of the same group. The set of objects that weigh more than 50 pounds, on the other hand, almost certainly does not constitute a natural kind. Hence raven and black refer to concepts that match natural kinds, because any black raven constitutes at least some evidence that all ravens are black. But nonblack and nonraven are not, because a nonblack nonraven (an extremely wide category) is not evidence that all nonblack things are nonravens. <P> Natural Law. The term natural law is ambiguous. It refers to a type of moral theory, as well as to a type of legal theory, but the core claims of the two kinds of theory are logically independent. It does not refer to the laws of nature, the laws that science aims to describe. According to natural law moral theory, the moral standards that govern human behavior are, in some sense, objectively derived from the nature of human beings and the nature of the world. While being logically independent of natural law legal theory, the two theories intersect. <P> And if species are natural kinds, this is an example of particulars changing their kinds. But this account of species is consistent with the view that species have essences (LaPorte 1997, 2004, 11–12). (As a matter of fact, most essentialists accept that an object's kind is essential to it. The best known of the semantic arguments as applied to natural kind terms is Putnam's Twin Earth thought experiment (see Section 1.3.1). Putnam asks us to imagine that elsewhere in the universe there is a planet exactly like Earth in virtually all respects, which we may call ‘Twin Earth’. <P> Mill's descriptivism implies that for each natural kind term there is an associated set of properties such that for some item to be a member of that natural kind, it should possess those properties—these are properties that describe objects belonging to the kind in question. The best known of the semantic arguments as applied to natural kind terms is Putnam's Twin Earth thought experiment (see Section 1.3.1). Putnam asks us to imagine that elsewhere in the universe there is a planet exactly like Earth in virtually all respects, which we may call ‘Twin Earth’. <P> Compare organic food. The term “natural” is applied to many foods, but does not have a consistent meaning. “ Natural foods ” and “ all natural foods ” are widely used terms in food labeling and marketing with a variety of definitions, most of which are vague. The term is often assumed to imply foods that are minimally processed and all of whose ingredients are natural products (in the chemist's sense of that term), but the lack of standards in most jurisdictions means that the term assures nothing. In some countries, the term “natural” is defined and enforced.
The term natural kind is used to refer to a natural grouping, not an artificial one.
what are glue sticks made out of
<P> Glue sticks are designed to glue paper and card together, and are not as strong as some liquid based variants. They can be used for craft and design, office use and at school. There are now permanent, washable, acid-free, non-toxic, solvent free, and dyed (e.g. to see where the glue is being applied easier) varieties. The first solvent free multipurpose glue stick that could be used for other materials (e.g. wood, glass and some plastics) was the PowerPritt, which was put on the market in 2003. There is also a Pritt X, launched in 2010. <P> They are slow to dry and will not stick non-porous materials like plastic. Water based adhesives are typically made of Water, Polymer, Thickener, Additives to improve strength Solvent based glue are a synthetic adhesive polymer mixed in solvent. They are used to stick non-porous surfaces and are fast drying. <P> Benefits. Glue sticks are often manufactured with safety in mind. Made of materials that are non-toxic and free of solvents and other dangerous chemicals, glue sticks are an ideal medium for use pre-schools and grade schools. Although the common school glue glue sticks are non-toxic, those that are manufactured for use on clothing and other heavy duty projects may not be. It is important to check the product packaging before assuming that a particular brand of glue stick is safe for children. <P> Here are several different ways to make homemade glue. The simplest glue is made from a paste of flour and water. You can also make cornstarch paste or milk glue. All are easy, non-toxic and great for making paper crafts including paper-mache mâché. projects <P> Glue sticks are solid adhesives in twist or push-up tubes. The user can apply glue by holding the open tube, thus keeping their fingers clean. Because of their ease of use, and their economic value, glue sticks are a popular school and office supply. The first solvent free multipurpose glue stick that could be used for other materials (e.g. wood, glass and some plastics) was the PowerPritt, which was put on the market in 2003. There is also a Pritt X, launched in 2010. <P> There are three main types of Glue; Water based, Solvent Based, Chemical curing. Water based glues are made of natural or synthetic polymers, mixed in water, and are used when one of more surface is porous (e.g. wallpaper paste). Water based adhesives are typically made of Water, Polymer, Thickener, Additives to improve strength Solvent based glue are a synthetic adhesive polymer mixed in solvent. They are used to stick non-porous surfaces and are fast drying. <P> For the band, see Glue Gun (band) . A hot glue gun loaded with a glue stick. Hot melt adhesive (HMA), also known as hot glue, is a form of thermoplastic adhesive that is commonly supplied in solid cylindrical sticks of various diameters, designed to be melted in an electric hot glue gun. <P> Best Answer: There are three main types of Glue; Water based, Solvent Based, Chemical curing. Water based glues are made of natural or synthetic polymers, mixed in water, and are used when one of more surface is porous (e.g. wallpaper paste). They are slow to dry and will not stick non-porous materials like plastic. Water based adhesives are typically made of Water, Polymer, Thickener, Additives to improve strength Solvent based glue are a synthetic adhesive polymer mixed in solvent. They are used to stick non-porous surfaces and are fast drying. Water based glues are made of natural or synthetic polymers, mixed in water, and are used when one of more surface is porous (e.g. wallpaper paste) <P> Glues are basically organic adhesives. There are three main types of simple organic glue derived from animal bones, hides, and fish; the collagen protein contained in bones, skin, sinews and connective tissues of animals provides the properties of these adhesives.
Natural or synthetic polymers, mixed in water.
average rate for house sitting
<P> Shopping for pet sitting: 1 Some sitters offer rates on a sliding scale: the more visits per day, the smaller the daily fee. 2 For example, Boise Pet Care in Idaho offers a minimum of two visits per day for dogs at $30, while four visits per day cost $40. 1 Sitters often charge the same rate for two cats, and charge extra for a third or more. 2 For example, Prairieville, Louisiana's Geaux Sit Stay charges $5 more per visit for three or more cats. 3 Some sitters charge extra for administering medicine. 4 The fee is about $5 to $10 per pill, ointment application or injection. <P> $75 per overnight at your home. The overnight pet and house sitting service includes a pet sitter staying in your home from at least 7:00 p.m. through 7:00 a.m. as well as a midday break. If you were to schedule 3 pet sitting visits per day at $19 per visit, you would pay $57 per day. For an additional $31 ($57 + $18 = $75), your critters spend at least 12½ hours with the pet sitter. 1 Availability is limited. 2 There is a $10.00 per visit fee during holiday periods. 3 See below for additional holiday fee details. <P> 1 The going rate for house sitters can vary, depending on what geographical area the home is located in. 2 Consider the duties, responsibilities and tasks required of the house sitter. 3 A house sitter who is required to perform lawn maintenance or provide pet care is going to earn more than one that simply takes in the mail. For house sitters who simply stop by to take in the mail and water the plants, the going rate is $5 to $10 per day or more, depending on how long it takes to complete the house sitting tasks. <P> Your chosen sitter may include a number of house-sitting tasks as well. After all, it makes more sense to have one person take care of everything than to hire both a pet sitter and a house sitter while you're away. Average pet-sitting rates vary between $10 and $20 per visit. That said, it's hard to come up with an across-the-board average when so many different factors determine the actual price <P> Jobs that require the pet sitter to stay at your residence overnight, for example, can cost anywhere from $40 to $80, but prices generally fall right in the middle of that range [source: Sitters City ]. Unfortunately, the biggest factor in determining your pet sitter's rates is out of your control: It's where you live. After all, it makes more sense to have one person take care of everything than to hire both a pet sitter and a house sitter while you're away. Average pet-sitting rates vary between $10 and $20 per visit. <P> To determine how much to pay a house sitter: 1 Consider the going rate for house sitters in the area where the home is located. 2 The going rate for house sitters can vary, depending on what geographical area the home is located in. 3 Consider the duties, responsibilities and tasks required of the house sitter. For house sitters who simply stop by to take in the mail and water the plants, the going rate is $5 to $10 per day or more, depending on how long it takes to complete the house sitting tasks. <P> Average House Sitting Salaries. The average salary for house sitting jobs is $58,000. Average house sitting 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 house sitting anywhere in the job listing. <P> 1 Pet sitting costs $10-$65 per day, depending on the location, length of the visit and number of sitter's duties. 2 A 15-minute visit, during which the sitter would refill food bowls and tend to the pets' bathroom needs, costs $10-$18. 1 Sitters often charge the same rate for two cats, and charge extra for a third or more. 2 For example, Prairieville, Louisiana's Geaux Sit Stay charges $5 more per visit for three or more cats. 3 Some sitters charge extra for administering medicine. 4 The fee is about $5 to $10 per pill, ointment application or injection. <P> 1 Some sitters offer rates on a sliding scale: the more visits per day, the smaller the daily fee. 2 For example, Boise Pet Care in Idaho offers a minimum of two visits per day for dogs at $30, while four visits per day cost $40. 1 Sitters often charge the same rate for two cats, and charge extra for a third or more. 2 For example, Prairieville, Louisiana's Geaux Sit Stay charges $5 more per visit for three or more cats. 3 Some sitters charge extra for administering medicine. 4 The fee is about $5 to $10 per pill, ointment application or injection.
Average $58,000
diy means
<P> Boy building a model airplane. DIY ethic refers to the ethic of self-sufficiency through completing tasks without the aid of a paid expert. Literally meaning do it yourself , the DIY ethic promotes the idea that anyone is capable of performing a variety of tasks rather than relying on paid specialists. <P> Rating Newest Oldest. Best Answer: Do it yourself, often referred to by the acronym DIY, is a term used by various communities that focus on people (called do-it-yourselfers or DIYers) creating or repairing things for themselves without the aid of on-duty, work-stationed paid professionals. <P> In other words, home improvement done by the householder without the aid of paid professionals. In recent years, the term DIY has taken on a broader meaning that covers a wide range of skill sets. Today, for example, DIY is associated with the international alternative and hardcore music scenes. <P> http://en.wikipedia.org/wiki/DIY Do it yourself, often referred to by the acronym DIY, is a term used by various communities that focus on people creating or repairing things for themselves without the aid of paid professionals. <P> Report Abuse. do it yourself Do it yourself, often referred to by the acronym DIY, is a term used by various communities that focus on people creating or repairing things for themselves without the aid of paid professionals. <P> 1 acronym for Do It Yourself.. 2 The term was originally used to refer to repair and remodeling tasks around the home that one could do one's self, rather than hiring a professional. <P> Do it yourself, also known as DIY, is the method of building, modifying, or repairing something without the aid of experts or professionals. <P> Subsequently, the term DIY has taken on a broader meaning that covers a wide range of skill sets. DIY is associated with the international alternative rock, punk rock, and indie rock music scenes; indymedia networks, pirate radio stations, and the zine community.
Do it yourself
best approach for knee arthrocentesis
<P> The knee joint is the most common and the easiest joint for the physician to aspirate. One approach involves insertion of a needle 1 cm above and 1 cm lateral to the superior lateral aspect of the patella at a 45-degree angle. <P> Background. Arthrocentesis (synovial fluid aspiration) of the knee can be performed either diagnostically (for identification of the etiology of acute arthritis) or therapeutically (for pain relief, drainage of effusion, or injection of medications). <P> Knee arthrocentesis may be done via a parapatellar approach (which is generally preferred), , a suprapatellar approach, or an infrapatellar approach. Once the insertion site is chosen, prepare the skin with sterile solution, allow drying, and then drape. <P> Knee joint aspiration and injection are performed to establish a diagnosis, relieve discomfort, drain off infected fluid, or instill medication. Because prompt treatment of a joint infection can preserve the joint integrity, any unexplained monarthritis should be considered for arthrocentesis (Table 1) . <P> Left knee aspiration using the medial parapatellar approach. For the suprapatellar approach, identify the midpoint of either the superomedial or the superolateral border of the patella. Insert an 18-gauge needle through the midpoint of either set of superior borders. <P> Therapeutic arthrocentesis can be used to relieve pain by evacuating a joint effusion or hemarthrosis; by draining a septic effusion; or for injection of corticosteroids, antibiotics, or anesthetic medications. The knee is the most common joint requiring arthrocentesis. <P> Arthrocentesis, the aspiration of synovial fluid (SF) from the joint space, is one of the most commonly performed procedures in the evaluation and treatment of joint diseases. Diagnostic arthrocentesis is often used to identify the etiology of acute monoarthritis. <P> The knee is the most common and the easiest joint for the physician to aspirate. It was chosen for discussion here because of the frequent clinical problems associated with this joint. The indications, complications, and pitfalls for knee arthrocentesis generally can be applied to other joints (Tables 2 and 3) . Many of the principles of needle aspiration and injection also can be used for soft tissue disorders, such as bursitis or tendinitis.
Parapatellar approach
how long does it take for chicken eggs to hatch under a hen
<P> 6. Record the day and how many eggs you've incubated on a calendar. You should be able to estimate your hatch date based on average incubation times for the bird species you want to hatch. For example, chicken eggs typically take 21 days to hatch, whereas many duck varieties and peafowl may take 28 days. <P> First things first-eggs should hatch in 21 days, though some may hatch a day or 2 early and some a day or 2 late, after the incubation period began. <P> So, how long does it take for fertilized chicken eggs to hatch? The answer to that is 21 days exactly, although you need to bear in mind that this can vary, depending on a number of circumstances. Generally speaking however, fertile chicken eggs which are hatched out by a hen will take 21 days before you see little faces staring at you from underneath their mamma's wings. <P> For the small poultry keeper there is the choice of two methods of hatching chicks-natural or artificial. The best idea is to gain experience and confidence in both. Hen eggs take 21 days to hatch, duck and turkey eggs 28 days, most goose eggs 28 - 30 days and Muscovy eggs 35 days. Some very small bantam eggs may be a day early and really large poultry such as Cochins may be a day extra. <P> If for some reason the temperature has dropped below the correct temperature on a few occasions, you could find some of your eggs only hatching on day 22, 23, or even on day 24 or 25. Whereas fertilized chicken eggs usually take exactly 21 days to hatch, most duck eggs take 28 days, apart from Muscovy ducks. As a general rule of thumb, the eggs of Muscovy ducks take 35 days, but once again, it can vary slightly depending on conditions.
21 days.
what is a protected cell company
<P> From Wikipedia, the free encyclopedia. A segregated portfolio company (or SPC), sometimes referred to as a protected cell company, is a company which segregates the assets and liabilities of different classes (or sometimes series) of shares from each other and from the general assets of the SPC. <P> A protected cell company is a single legal entity, but the company is made up of individual “protected cells”. It has a “core” capital (the ordinary share capital provided by the owners). Each cell has its own additional capital (usually redeemable preference shares) provided by the client using that cell. Dixcart is able to introduce suitable clients to a protected cell company specializing in captive insurance-Managed Risk Insurance PCC Limited (MRI). <P> A cell company is a company that has within it one or more cells for the purpose of segregating and protecting the cellular assets and liabilities of the company. The purpose of such an arrangement is to effectively 'ringfence' the assets (and thus liabilities) of each cell, and the core of the company. <P> Incorporated Cell Company and Protected Cell Company. A company or individual can incorporate its own cell company by following a process similar to that for standard captive insurance companies. A cell company has in place core capital, board of directors, management, accounting systems and procedures and auditing. It's purpose therefore is to facilitate easy access to their own self-insurance captive through one or more cells that it may create. This enables multiple cell users to operate different businesses through their own incorporated cell with its own legal entity, isolating the assets and risks attached to each business from other cell user(s). Therefore should anything adverse happen to one cell, the other cells' assets are protected. <P> DEFINITION of 'Protected Cell Company (PCC)'. A corporate structure in which a single legal entity is comprised of a core and several cells that have separate assets and liabilities. The protected cell company, or PCC, has a similar design to a hub and spoke, with the central core organization linked to individual cells. Each cell is independent of each other and of the company’s core, but the entire unit is still a single legal entity. Next Up <P> Definition. A company which separates it business into protected cells through a segregated portfolio in which the assets and liabilities of different classes are separated from the main assets of the company. This limits damage from litigation and financial impacts to a single cell and protects the core business. <P> 8 I. Introduction II. The Protected Cell Company in a Nutshell 2.1 The Captive Insurance Companies and the Rent-a-Captive Schemes: a background 2.2 The Protected Cell Company Explained 8 III. The Protected Cell Company: a new form of investment fund IV. <P> A protected cell company operates with two distinct groups: a single core company and an unlimited number of cells. It is governed by a single board of directors, which is responsible for the management of the PCC as a whole. The protected cell company, or PCC, has a similar design to a hub and spoke, with the central core organization linked to individual cells. <P> An ICC is a legal entity whose core assets are segregated and protected from each of the incorporated cells of the company. An ICC is a corporate vehicle, enabling its users to ring-fence their individual assets and liabilities in their own Incorporated Cell (IC) that is created by incorporation by the core company. This enables multiple cell users to operate different businesses through their own incorporated cell with its own legal entity, isolating the assets and risks attached to each business from other cell user(s). Therefore should anything adverse happen to one cell, the other cells' assets are protected. <P> A Protected Cell Company (PCC) is one legal entity divided into the Core and multiple Cells. Separately identifiable Cells are created and owned by the same or separate cell users under. which the assets and liabilities of each cell are legally segregated from each other under statute.
A protected cell company is a company which segregates the assets and liabilities of different classes of shares from each other and from the general assets of the SPC.
where is information contained in the dna
<P> ­DNA carr­ies all of the information for your physical characteristics, which are essentially determined by proteins. So, DNA contains the instructions for making a protein. In DNA, each protein is encoded by a gene (a specific sequence of DNA nucleotides that specify how a single protein is to be made). The particular sequence of amino acids in the chain is what makes one protein different from another. This sequence is encoded in the DNA where one gene encodes for one protein. The genetic code consists of 3-base words or codons that specify particular amino acids. <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 A gene is a sequence of DNA that contains genetic information and can influence the phenotype of an organism. Within a gene, the sequence of bases along a DNA strand defines a messenger RNA sequence, which then defines one or more protein sequences. <P> In other cases, the RNA molecule carries messages from the DNA to other parts of the cell for processing. Most often, this information is used to manufacture proteins. The specific type of RNA that carries the information stored in DNA to other areas of the cell is called messenger RNA, or mRNA. Transcription begins when an enzyme called RNA polymerase attaches to the DNA template strand and begins assembling a new chain of nucleotides to produce a complementary RNA strand. During translation, the information that is contained within the mRNA is used to direct the creation of a protein molecule. In order for this to occur, however, the mRNA itself must be read by a special, protein-synthesizing structure within the cell known as a ribosome. <P> 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. <P> A) the variation in the structure of nucleotides that make up the DNA molecule B) the type of sugars used in making the DNA molecule C) the sequence of amino acids that make up the DNA molecule D) the sequence of nucleotides along the length of one strand of the DNA molecule E) all of these. Follow. 5 answers 5. C. Its not A because nucleotides are proteins, and with proteins form equals function. If the structure varies (variation of structure), the function will too, and so will the name of the nucleotide. Its not B because the DNA molecule is not made from sugars, it is made from amino acids, which are proteins. <P> In order to preserve biological information, it is essential that the sequence of bases in each copy are precisely complementary to the sequence of bases in the template strand. Many DNA polymerases have a proofreading activity. A gene is a sequence of DNA that contains genetic information and can influence the phenotype of an organism. Within a gene, the sequence of bases along a DNA strand defines a messenger RNA sequence, which then defines one or more protein sequences. <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. The order, or sequence, of these bases determines the information available for building and maintaining an organism, similar to the way in which letters of the alphabet appear in a certain order to form words and sentences. DNA bases pair up with each other, A with T and C with G, to form units called base pairs. <P> Most DNA is located in the cell nucleus (where it is called nuclear DNA), but a small amount of DNA can also be found in the mitochondria (where it is called mitochondrial DNA or mtDNA). The information in DNA is stored as a code made up of four chemical bases: adenine (A), guanine (G), cytosine (C), and thymine (T). The order, or sequence, of these bases determines the information available for building and maintaining an organism, similar to the way in which letters of the alphabet appear in a certain order to form words and sentences. DNA bases pair up with each other, A with T and C with G, to form units called base pairs.
DNA carr­ies all of the information for your physical characteristics, which are essentially determined by proteins. So, DNA contains the instructions for making a protein.
what human food do mallard ducks eat
<P> Now let’s talk about mallards menu. Mallard ducks are the omnivorous birds. The mallard diet is flexible in that it depends on various factors such as the breeding cycle or the seasonal deviation in the food availability. Most people aren’t actually aware of what do mallards eat. These kinds of ducks primarily feed on gastropods as well as invertebrates. A roughly estimate is that males eat 37% of animals, whereas the plants comprise 63% of the whole mallards diet. Females usually eat 72% of animals and 28% of plants. <P> All ducks are omnivores, so they eat a combination of plants and animals. Some of the plants that ducks eat are grass, weeds, algae, seeds, grain, berries, fruit and aquatic plants. Some of the animals that ducks eat are snails, mollusks, worms, frogs, salamanders, small fish and fish eggs. Ducks also eat insects. One species of duck called the Merganser, eats mostly fish. <P> -Feeding color rich foods, (like beets, carrots, cherries, tomatoes, greens etc) will temporarily change the color of your duck's poop. -Feeding veggies or fruits with a high water levels, (like lettuce) will make your duck's poop waterier than normal. <P> While all ducks are regularly omnivorous and will try many different foods that may be available, the exact diet any duck follows depends on several factors, including: 1 Species: Some ducks are specialized for particular types of food, such as mergansers with narrow, toothed bills that eat primarily fish. Foods Ducks Eat. Wild ducks eat a wide range of different foods and they are constantly foraging for meals and snacks. Foods ducks regularly eat include: 1 Small fish and fish eggs. 2 Snails, worms and mollusks. 3 Small crustaceans. 4 Grass and weeds. 5 Algae and aquatic plants and roots. 6 Frogs, salamanders and other amphibians <P> Many of these foods are similar to the natural seeds, grains and plants the birds will forage on their own. As omnivorous birds, ducks will eat a great deal of different foods, and the best foods to offer ducks include: 1 Cracked corn. 2 Wheat, barley or similar grains. 3 Oats (uncooked; rolled or quick). 4 Rice (cooked or uncooked). 5 Milo. 6 Birdseed (any type or mix). 7 Grapes (cut in half). 8 Frozen peas or corn (defrosted, no need to cook). If you do choose to feed ducks and waterfowl at local ponds occasionally, the best tactic is to visit rarely so the birds are not getting excess food that would be unhealthy for them or their environment. <P> Mallard ducks are omnivores, so they have a lot of plants and animals to choose from when it is time to eat. Some of the vegetarian entrees for Mallards are water elm seeds, oak seeds and hackberry seeds. Mallard ducks also eat wild rice, corn, wheat and barley. Other plants in a Mallard's diet include bulrushes, primrose and willow. Insects such as beetles, flies and dragonflies are tasty treats for Mallard ducks. Mallards also eat mollusks, small fish and fish eggs. On the water's surface, Mallard ducks also feast on frogs, tadpoles, worms and snails. These types of foods provide the protein and fat nutrients a Mallard duck needs in its diet <P> Mallard eggs are also eaten by crows, snakes, and other predators. Young Mallards will eat small crustaceans (such as shrimp), insects, and plants (such as duckweed). As they get older, Mallards will eat grains and seeds from corn, wheat, barley, bulrushes, willow, water elm, oak, and hackberry. <P> Many ducks also eat gravel, small stones or sand. While these items do not provide any nutritional value for ducks, gravel, stones, and sand actually help ducks digest their food better. The rough texture helps break down the duck's food. Some of the plants that ducks eat are grass, weeds, algae, seeds, grain, berries, fruit and aquatic plants. Some of the animals that ducks eat are snails, mollusks, worms, frogs, salamanders, small fish and fish eggs. Ducks also eat insects. One species of duck called the Merganser, eats mostly fish. <P> Mallards consume a wide variety of foods, including aquatic vegetation, insects, and worms, although they are not restricted to these. They also take advantage of human food sources, such as collecting grain from crops. 1 Primary Diet. 2 carnivore. 3 eats non-insect arthropods.
Rice, Corn, Wheat and Barley.
how to record pc audio with elgato
<P> Windows PC HDMI audio and Elgato Game Capture HD. Elgato Game Capture HD can be used to capture the output of many Windows PCs, via HDMI. The following instructions will help you make sure that the audio from your PC can be picked up both by Elgato Game Capture HD, and your PC's speakers. Windows 7 or Windows 8 Setup. Jack can connect a number of different applications to an audio device, as well as allowing them to share audio between themselves. http://jackaudio.org/. Virtual Audio Cable software allows you to transfer audio (wave) streams between applications and/or devices. http://software.muzychenko.net/eng/vac.htm <P> Elgato Game Capture HD uses advanced hardware H.264 encoding to capture your gameplay in stunning 1080p Full HD, while keeping the file size low. At the same time, your console's picture is passed through to your TV via HDMI, so you can keep on enjoying your game on the big screen-in pristine quality, without delay. Be efficient. Elgato Game Capture HD doesn't need a lot of cables or even a power supply to record your game: With direct Xbox 360 and PlayStation 3 input, you can use a single cable to connect it to your console. <P> Please try again later. Quick tutorial on how to record audio through your pc if you do not have the ability to stream audio through your hdmi due to graphics card limitations or due to pc problems. <P> (By the way the video is not affected, just the audio). Now here's another interesting thing, whenever I change the option from All audio to Chat audio it seems to record the audio just fine, but not the chat. Can the PS4 not focus on 2 different audio outputs (the headphones and the elgato). Please reply as soon as possible I really want this fixed. Mod Edit: Updated label & added break to body of text. Please click here to learn more about labels and here to review the Rules of Conduct. <P> Elgato Game Capture HD enables you to record PlayStation or Xbox gameplay to a Mac or PC and share it with your friends and fans. With advanced hardware H.264 encoding, you can capture in stunning HD quality, while keeping the file size low. Be efficient. Elgato Game Capture HD doesn't need a lot of cables or even a power supply to record your game: With direct Xbox 360 and PlayStation 3 input, you can use a single cable to connect it to your console. <P> Connect Audio Next, connect your video source’s audio outputs to Elgato Video Capture. Click “Continue” once you hear sound through your computer’s speakers. If the volume is too loud, the meter will turn red, which is a sign of distortion. It is recommended to adjust the volume so that the meter does not turn red. 3. Connect Video Next, start playing back your video source and connect its output to the Elgato Video Capture. Choose the appropriate input (either the S-Video or Composite “RCA”) using the radio buttons until you see your video playing. <P> Thank you for contacting Elgato Systems. We are sorry to hear that you are having audio issues with your Elgato Game Capture HD. Instead of exporting the raw .ts file, convert and export the video file via the Game Capture HD software to. Sony Vegas in the Sharing section of the Game Capture HD software. I've had the same problem when I record gameplay with my elgato I get video but no sound on my computer. I know the sound works on my computer cause audacity works. <P> Elgato Game Capture HD: http://www.elgato.com/elgato/na/mainm... I hope this tutorial helped you guys out! If you have any other questions or concerns please let me know in the comment section down below and I will get back to you as soon as possible. <P> PC: Insert the software CD-ROM that came with Elgato Video Capture. When the Elgato Video Capture window appears, choose “Install Driver”. Next, choose “Elgato Video Capture”. Usage Connect the Elgato Video Capture hardware to your computer and launch the Elgato Video Capture application. A video capture assistant will walk you through the entire process of capturing video and transferring it to your selected destination. 3. Connect Video Next, start playing back your video source and connect its output to the Elgato Video Capture. Choose the appropriate input (either the S-Video or Composite “RCA”) using the radio buttons until you see your video playing.
Connect Audio Next, connect your video source’s audio outputs to Elgato Video Capture. Click “Continue” once you hear sound through your computer’s speakers.
what is a passive orthodontic appliance
<P> Patents. Disclosed is a dental appliance system having use as an orthodontic retainer, bridge, space maintainer, splint and the like, the improvement wherein a structural component thereof is formed from an effective fiber-reinforced composite material comprising a polymeric matrix and a reinforcing fiber component... <P> 4. The passive dental appliance system of claim 1 wherein the reinforcing fiber component is a fiber selected from the group consisting of glass, carbon, graphite, polyaramide, polyester, and polyamide fibers. <P> A. Passive smoking is the involuntary exposure of nonsmokers to tobacco smoke from the smoking of others. It is considered dangerous, and cause increased risk of cancer, although to a lesser degree than active smoking. <P> The MAPA® is one of the most significant advancements in TMD therapy in over 35 years. Dr. Danny K. Crout, DMD, MS has partnered with Pittman Dental Laboratory exclusively to produce the MAPA®, or Maxiallary Anterior Passive Appliance. More information about the MAPA® can be found here. Impression Instructions. <P> Fixed Orthodontics. Fixed Orthodontic technology is a specialty of dental technology that is concerned with the design and fabrication of dental appliances for the treatment of malocclusions, which may be a result of tooth irregularity, disproportionate jaw relationships, or both. <P> The most common removable appliances used for active orthodontic tooth movement are the acrylic and wire appliances. Active treatment is differentiated from passive treatment, the former being defined as the actual treatment of a particular case, and the latter meaning the retentive part of the therapy. <P> A. Passive smoking is the exposure to cigarettes smoke emitted from cigarettes smoke by other person. It's dangerous and may increase the risk to several diseases similar to active smoking (one's exposure to smoke emitted from the cigarettes he or she is smoking) although the risk is of lower magnitude.
A specialty of dental technology that is concerned with the design and fabrication of dental appliances for the treatment of malocclusions, which may be a result of tooth irregularity, disproportionate jaw relationships, or both.
what does ptz camera mean
<P> A PTZ camera provides pan, tilt and zoom functions (using manual or automatic control), enabling wide area coverage and great details when zooming in. An Axis PTZ camera usually has the ability to pan 360°, tilt 180° or 220°, and is often equipped with a zoom lens. Some of the features that can be incorporated in a PTZ camera include: 1 3D privacy masking. 2 E-flip. 3 Preset positions/guard tour. 4 Tour recording. 5 Autotracking. 6 Advanced/Active Gatekeeper. 7 Electronic image stabilization (EIS). <P> A pan–tilt–zoom camera (PTZ camera) is a camera that is capable of remote directional and zoom control. In television production, PTZ controls are used with professional video cameras in television studios and referred to as camera robotics. These systems can be remotely controlled by automation systems. The PTZ controls are generally sold separately without the cameras. <P> On a conventional PTZ camera, when you pan and tilt you physically rotate the camera using electrical motors. The zoom is controlled by mechanically moving two lenses closer together or further apart dependent on whether you are zooming in or out with the effect that objects in view appear larger or smaller. Digital PTZ cameras don’t work in this manner. The camera will first capture a full image, usually in megapixel resolution. When a user decides to zoom in they are provided with a section of the overall picture. The pixels in this are then enlarged so that the cropped image is the same size as the original. <P> PTZ is an abbreviation for pan, tilt and zoom and reflects the movement options of the camera. Other types of cameras are ePTZ or virtual pan-tilt-zoom (VPTZ) where a high-resolution camera digitally zooms and pans into portions of the image, with no physical camera movement. In television production, PTZ controls are used with professional video cameras in television studios and referred to as camera robotics. These systems can be remotely controlled by automation systems. The PTZ controls are generally sold separately without the cameras. <P> July 8th, 2008 by Greg Innes. Pan-tilt-zoom (PTZ) is a name given to a type of IP camera where the user can control the movement and position of the lens from a remote location using controls on an Internet browser or software application. The benefits of having a pan-tilt-zoom camera in a security application are obvious. Having a camera which can be controlled from a remote location enables a user to cover a much larger area with a single camera. <P> Pan tilt zoom camera (PTZ Camera) is a closed-circuit television camera with remote directional and zoom control. PTZ cameras can pan (move left and right), tilt (move up and down), and zoom in or out. Additionally, PTZ domes can rotate 360 degrees and view an object directly below them. SHARE. <P> 1 E-flip. 2 When a PTZ camera is mounted on a ceiling and is used to follow a person in, for example, a retail store, there will be situations when a person will pass just under the camera. 3 When following through on the person, images would be seen upside down without the E-flip functionality. Some of the features that can be incorporated in a PTZ camera include: 1 3D privacy masking. 2 E-flip. 3 Preset positions/guard tour. 4 Tour recording. 5 Autotracking. 6 Advanced/Active Gatekeeper. 7 Electronic image stabilization (EIS). <P> Definition. PTZ stands for Pan, Zoom and Tilt. This refers to the capabilities of automated cameras and video recorders. Essentially, a PTZ camera is set in a particular place, but has the ability to turn, usually in a complete circle, tilt at different angles both up and down, and zoom in on particular objects. PTZ, or pan, tilt and zoom cameras can make a 360-degree sweep of the environment, change angles to look at objects both above and below the camera, and zoom in to give objects greater detail. These cameras are used most often in surveillance situations where remote viewers can track subjects. <P> PTZ cameras are controlled via remote computer systems. Users generally program the camera to move it in a set pattern, or control it manually with an interface that usually is manipulated with a keyboard. A user inputs commands, degrees of angle and rotation and the camera moves accordingly. PTZ, or pan, tilt and zoom cameras can make a 360-degree sweep of the environment, change angles to look at objects both above and below the camera, and zoom in to give objects greater detail. These cameras are used most often in surveillance situations where remote viewers can track subjects.
A camera that is capable of remote directional and zoom control.
what is fluxus group
<P> Fluxus emerged in New York led by artist George Maciunas, and there were also Fluxus groups in Europe and Japan. The Happenings artists were not part of an organized group with a leader like the Fluxus group and the term Happenings is not the name of a movement but the name of certain performance pieces. <P> There is no single process that can really express the feelings and emotions of an artist. Fluxus, a global network of artists, fused together different elements to produce unique and distinguished art pieces. The group, which originated back in the 1960s, consisted of composers, designers and artists. <P> Maciunas is credited with naming the group Fluxus, which means to flow.. The first Fluxus event was organized by Maciunas at the AG Gallery in New York in 1961, where he was co-owner. The event was called Bread & AG, and consisted of readings by poet Frank Kuenstler. <P> Fluxus was a loosely organized group of artists that spanned the globe, but had an especially strong presence in New York City. George Maciunas is historically considered the primary founder and organizer of the movement, who described Fluxus as, a fusion of Spike Jones, gags, games, Vaudeville, Cage and Duchamp.. <P> Fluxus is an international avant-garde group or collective that was founded and flourished in the1960s but still continues today. <P> Fluxus Manifesto, 1963, by George Maciunas. Fluxus is an international network of artists, composers and designers noted for blending different artistic media and disciplines in the 1960s. They varied in performance, Neo-Dada noise music and visual art, urban planning, architecture, design, as well as literature. <P> • Fun-Humor is an integral part of what Fluxus represents. Fluxus artists are a rather small group of creative people but their members are very high esteemed in the industry and with big followers. These include the names Eric Andersen, Ay-O, Giuseppe Chari, Terry Riley, John Armleder and Al Hansen, among many others.
Is an international avant-garde group or collective that was founded and flourished in the1960s but still continues today.
how long does it take for a prior authorization to be approved
<P> Prior authorization request for PDP drugs can also be faxed to the call center at 1-800-268-2990. Faxed request may take up to 24 hours to process. http://newyork.fhsc.com/downloads/providers/NYRx_PDP_PA_Fax_Standardized.pdf. Listed below are some of the most common questions that medical residents have about the Medicaid pharmacy prior authorization programs. If you do not find the information you need, please submit your question using the Contact Us form. <P> Your health insurance plan may require “prior authorization” before the insurance company agrees to cover (or pay for) certain medical services or equipment. Call the Member Services Department phone number on your insurance card and ask. If you talk with a customer service representative who seems unsure, ask to speak to a supervisor or to be connected with the “Pre-certification Department.”. <P> prior authorization means that the insurance company doesn't want to cover the cost of the medication unless the doctor says that it is absolutely medically necessary and there are no other options available, usually generic. Prior Auth can be quick or last days. Anywho, this prior authorization is most likely because many people die every year because of Fentanyl and other pain patches. A lot of people abuse them and doctors may over perscribe powerful pain meds. <P> 0. If you are trying to get a PA for a prescription it generally takes 24-48 hours, excluding weekends for a decision.If you are trying to get a PA for a medical service it could take up to 60 days. Generally, if your provider provides all information to Iowa Medicaid the timeframe is generally 10-15 business days. If you are trying to get a PA for a prescription it generally takes 24-48 hours, excluding weekends for a decision.If you are trying to get a PA for a medical service it could take up to 60 days <P> Prior authorization and suboxone. So my insurance makes me go through a prior authorization process the first time I get suboxone. Which means the doctor has to verify that I truly need the medication and I have to have a clean drug test, and then they give it to me for free. Doctor prescribed me 16 for a week though and I need my other 6 soon. I've never done this prior auth crap before though so I don't really know what I'm supposed to do. The last time I talked to my doctor (2 days ago) he said that everything should be good in 24 hours. <P> This means we need to review a medication before your plan will cover it. We want to know if it’s the right medication for the right situation. If you don’t get prior authorization, a medication may cost you more, or we may not cover it. This information explains what it means if your doctor has prescribed a medication that needs prior authorization. There are hundreds of different medications with more becoming available every day. <P> Or, they can contact our Pharmacy Help Desk to start the approval process and tell us the information we need. If the drug is on the medical part of your benefit, talk to your doctor about getting preapproval for it. If you have an HMO plan with Blue Care Network, you can fill out our callback form. Once you submit the form, someone will contact you to help you request prior authorization for a medication. This information explains what it means if your doctor has prescribed a medication that needs prior authorization. There are hundreds of different medications with more becoming available every day. <P> Prior authorization requests can be directed to the prior authorization clinical call center at 1-877-309-9493. Prescribers should have their identifying information ready, as well as the patient s Medicaid ID number available. Listed below are some of the most common questions that medical residents have about the Medicaid pharmacy prior authorization programs. If you do not find the information you need, please submit your question using the Contact Us form. <P> It is about 100 times stronger than morphine. Prior authorization means your doctor has to call the insurance company and explain why this medication is being prescribed to you because it is very expensive. Anywho, this prior authorization is most likely because many people die every year because of Fentanyl and other pain patches. A lot of people abuse them and doctors may over perscribe powerful pain meds.
Approximately 24-48 hours.
what is a roti
<P> Sada (sah-dah) roti-is a rustic type of roti made with flour, baking powder and salt. Sometimes instant yeast is added to dough that results in a more crusty exterior. Of all the roti(s), sada roti is the simplest to make. Once the dough is kneaded, it is rested for 30 minutes before the dough is cut into large pieces and rolled into 1/4 to 1/2-inch thickness and cooked on a tawah. No oil is used to cook this roti. It is almost like toasting the dough <P> Sada Roti: is similar to naan and cooked on a tava. This type is very popular in Trinidad as a breakfast option. Paratha Roti: Roti made with butter, usually ghee, also cooked on a tava. Oil is rubbed on both sides, then it is fried, giving a crisp outside. When it almost finished cooking, the chef will to mash the roti while it is on the tava, causing it to crumble <P> Also roti is eaten different in from place to place. Roti in the Caribbean is most often eaten with curries or stews. The curry or stew can either be stuffed inside the roti bread and be eaten sort of like a pita. Or the roti can be broken into pieces and dipped into the curry sauce or stew. <P> West Indian Bread for Roti: To make the breads, combine the flour, baking powder and salt in a mixing bowl and make a well in the center. Combine the oil and water and add this mixture to the well. Using your hands, mix to form a dough. Knead for about 5 minutes, or until the dough is smooth. <P> Wrap roti, often referred to as a roti, is popular in the Caribbean consisting of a curry stew folded tightly within a Dhalpuri roti. The stew within a wrap roti generally contains potatoes and a meat such as chicken, duck, goat, beef, conch or shrimp. Roti is eaten widely across in the West Indies, especially in countries with large Indo-Caribbean populations such as Trinidad and Tobago. <P> The roti wrap is the commercialization of roti and curry together as a fast-food or street-food item in the Caribbean. This wrap form of roti originated in Southern Trinidad. The stew within a wrap roti generally contains potatoes and a meat such as chicken, duck, goat, beef, conch or shrimp. Roti is eaten widely across in the West Indies, especially in countries with large Indo-Caribbean populations such as Trinidad and Tobago. <P> Roti is a type of Indian-styled flat bread. The cuisine of the Caribbean is influenced by India, Africa, China, Portugal, Spain, the United Kingdom, Syria, Lebanon and the Indigenous Peoples who are native to this part of the world. As such, the foods cooked and eaten every day, reflect the various influences. Of all the roti(s), sada roti is the simplest to make. Once the dough is kneaded, it is rested for 30 minutes before the dough is cut into large pieces and rolled into 1/4 to 1/2-inch thickness and cooked on a tawah. No oil is used to cook this roti. <P> Most families have their own, slightly unique recipe for roti, and make it on a regular, if not daily basis. The only three ingredients needed to make roti are flour, water, and oil, though roti is often finished with a smear of clarified butter or ghee before serving. The flour, good quality atta flour ground from semi-hard durum wheat, is combined with water and kneaded until soft. <P> (January 2015). Wrap roti, often referred to as a roti, is popular in the Caribbean consisting of a curry stew folded tightly within a Dhalpuri roti. The stew within a wrap roti generally contains potatoes and a meat such as chicken, duck, goat, beef, conch or shrimp. Roti is eaten widely across in the West Indies, especially in countries with large Indo-Caribbean populations such as Trinidad and Tobago. <P> A layered roti made with butter, usually ghee (clarified butter) but any butter can be used. Ghee is rubbed on both sides, then it is cooked on a tawa (a round, flat metal griddle used in Indian cooking). This gives the roti a crisp outside and small patches of light browning. It is made most often from wheat flour, cooked on a flat or slightly concave iron griddle called a tawa. Like breads around the world, roti is a staple accompaniment to other foods. In Iran, the two variants of this bread are called khaboos and lavash.
It is a type of Indian-styled flat bread.
how long does it take internal stitches to dissolve
<P> Most dissolvable stitches start to break down within one to two weeks. However, it could take several months before your stitches disappear completely. After the wound has healed, it may be possible for a nurse to remove the loose ends of the dissolvable stitches, to speed up the process. Ask your surgeon or the health professional treating you if they can tell you: 1 what kind of stitches you’ve been given. 2 how long they will take to dissolve. There are several other different types of stitches. In general, if your stitches are dissolvable, they should start to break down within four weeks. Some may take six months to <P> Not the same situation but I've had stitches for oral dentistry and it took less then two weeks for external stitches to go away....and my pet went thru surgery and it took just a couple of weeks for her outward stitches to go away. So I'd think yours would go away in a week or two. sophieb · 9 years ago. Thumbs up. 0. Report Abuse. Probably around a week, maybe two. My mom just had some minor surgery and they said her stitches would take about 5 days to dissolve. I don't know if they all work the same way. But basically, they need to be there long enough for your body to hold the incision together without the help of stitches, and that's gonna take a few days <P> Internal stitches usually take between 6 and 8 weeks to dissolve. It is normal to be able to feel them and is important not to rub or poke at the surgical site. <P> In the UK, most dissolvable stitches are made of:: 1 polyglactin: this should lose 25% of its strength after two weeks, 50% of its strength after three weeks, and fully dissolve after three months. There are several other different types of stitches. In general, if your stitches are dissolvable, they should start to break down within four weeks. Some may take six months to disappear completely. <P> Okay so I had my gallbladder removed through keyhole surgery about 3 and a half weeks ago. 5 days after the surgery I went to my practice nurse and she said I had 4 kinds of stitches (internal, external, paper and dissolvable) she said this was very unusual but it does depend on the surgeon. I asked about the.. <P> Answered by The Community. Making the world better, one answer at a time. Internal stitches usually take between 6 and 8 weeks to dissolve. It is normal to be able to feel them and is important not to rub or poke at the surgical site. <P> I had my 6 week check up on Monday and a lot of my stitches have not dissolved either. My doctor said no sex yet. I asked how I would know if they had dissolved and she said that I would need to come back to be checked. Stitches still hanging in there just fine. I asked my doc if they were dissolving yet and he said no that the way he ties them he doesnt expect them to dissolve until 6 to 8 weeks. Since I do not have another visit with him until 6 months from now, I asked him when it would be safe to resume intercourse. <P> Best Answer: It depends on what kind of suture material used. Dissolvable suture is absorbed into the body by enzymatic degradation. If plain catgut (which is made from collagen and cow intestine) is used, absorption is complete in 90 days. If Chromic catgut is used, then absorption is complete in 70 days. Report Abuse. Probably around a week, maybe two. My mom just had some minor surgery and they said her stitches would take about 5 days to dissolve. I don't know if they all work the same way. But basically, they need to be there long enough for your body to hold the incision together without the help of stitches, and that's gonna take a few <P> Dissolvable Stitches. Instead of focusing on traditional stitches, many doctors are using dissolvable stitches. These stitches can be used on internal or external wounds and do not need to be removed like normal stitches, cutting down on the trauma of helping to manage your wound. It often takes 1-2 weeks for such stitches to dissolve, during which you should also take care for them. The length of time needed for your stitches to dissolve will depend on what they are made of. Most of these stitches will disappear in as little as 1-2 weeks. After your injury has healed, a nurse will go over the area and remove any ends of the stitches that may be remaining.
1-2 weeks
vangelis name meaning
<P> Click on a circle in the chart to view Vangelis immigration records. You can find out when most of the Vangelis families immigrated to the United States. You can focus your search to immigration records dating from that era. Immigration records can tell you an ancestor's name, ship name, port of departure, port of arrival and destination. Click on a circle in the chart to view Vangelis birth and death records. An unusually short lifespan might indicate that your ancestors lived in harsh conditions. A short lifespan might also indicate health problems that were once prevalent in your family. <P> In 1983 Vangelis wrote the music for Michael Cacoyannis ' staging of the Greek tragedy Elektra which was performed with Irene Papas at the open-air amphitheater at Epidavros in Greece. The same year Vangelis composed his first score for a ballet by Wayne Eagling. During 1980, six years after Vangelis decided against joining Yes, he and Jon Anderson, the lead singer of Yes, released their first album together, Short Stories, under the band name of Jon & Vangelis. <P> Vangelis /van-ge-lis/ [3 sylls.] as a boys' name. Vangelis' root is Greek, and the name Vangelis means good news. Vangelis is an alternate spelling of Evangel (Greek): masculine variation of Evangeline. Vangel is a familiar last name. Vangelis is an unusual given name for males. Vangelis is an equally uncommon last name for both adults and children. (2000 U.S. Census). Shown below is the birth name popularity of Vangelis for boys. Vangelis has not made it into the list so far. <P> Then just follow the diagram below. Just for fun, see the name Vangelis in Hieroglyphics, learn about ancient Egyptian Hieroglyphics and write a Hieroglyphic message. Learn about nautical flags and see your name or message written in nautical flags, on the Vangelis in Nautical Flags page. Less than 5 girls were given the name. View the Vangelis Name Popularity Page to see how the popularity trend for Vangelis has changed since 1880, or to compare the popularity of Vangelis to other names. Vangelis is a variant spelling of Evangelos <P> You can find out where the majority of the Vangelis families were living before they immigrated to the U.S and learn where to focus your search for foreign records. Immigration records can tell you an ancestor's name, ship name, port of departure, port of arrival, and destination. from the New York Passenger Lists. Click on a circle in the chart to view Vangelis birth and death records. An unusually short lifespan might indicate that your ancestors lived in harsh conditions. A short lifespan might also indicate health problems that were once prevalent in your family. <P> Origin of the name Jon: Derived from the Middle Latin Johannes, which is from the Ecclesiastic Late Latin Joannes, which is from the Greek Iōannes. Iōannes is Derived from the Hebrew Yonatan, a short form of Yehonatan which is derived from yehōnātān (Yahweh has given). The name is borne in the Bible by the eldest son of King Saul. Var: Jonothan, Jonothon. Short: Jon. Pet: Jonnie, Jonny.
Good news
what is cyclone
<P> Cyclones are subdivided into two main types: tropical and extratropical. A tropical cyclone is a tropical storm system with a cyclonic circulation about a low pressure center powered by organized convection. In a tropical cyclone, rapid inward circulation of air masses about a low pressure centre. Thus, a cyclone rotate … s clockwise in the Southern Hemisphere and counterclockwise in the Northern Hemisphere. In meteorology the term cyclone is reserved for circulation systems with horizontal dimensions of hundreds (tropical cyclones) or thousands (extratropical cyclones) of kilometers. <P> A tropical cyclone is a storm system characterized by a low-pressure center and numerous thunderstorms that produce strong winds and flooding rain. A tropical cyclone feeds on heat released when moist air rises, resulting in condensation of water vapour contained in the moist air. In the Atlantic and the northeastern Pacific oceans, a tropical cyclone is generally referred to as a hurricane (from the name of the ancient Central American deity of wind, Huracan), in the Indian and south Pacific oceans it is called a cyclone, and in the northwestern Pacific it is called a typhoon. <P> A tropical cyclone is a low-pressure system which develops in the tropics and is sufficiently intense to produce sustained gale force winds of at least 63km/h. In other parts of the world they are called hurricanes or typhoons. Tropical cyclones can cause significant phenomena which can adversely, and sometimes favourably impact on communities and the environment. The most common features are destructive winds and heavy rainfall that can lead to flooding. <P> A cyclone is a large-scale low pressure system characterized by a cyclonic circulation (counterclockwise in the northern hemisphere and clockwise in the southern) about a definite center where pressure is lowest. Air spirals toward the center of a cyclone, rises, and then diverges at upper levels. Thus, a cyclone rotate … s clockwise in the Southern Hemisphere and counterclockwise in the Northern Hemisphere. In meteorology the term cyclone is reserved for circulation systems with horizontal dimensions of hundreds (tropical cyclones) or thousands (extratropical cyclones) of kilometers. <P> A tropical cyclone is a rapidly rotating storm system characterized by a low-pressure center, strong winds, and a spiral arrangement of thunderstorms that produce heavy rain. For this reason, coastal regions are particularly vulnerable to damage from a tropical cyclone as compared to inland regions. Heavy rains, however, can cause significant flooding inland, and storm surges can produce extensive coastal flooding up to 40 kilometres (25 mi) from the coastline. <P> Depending on its location and strength, a tropical cyclone is referred to by names such as hurricane (/ˈhʌrɨkən/ or /ˈhʌrɨkeɪn/), typhoon /taɪˈfuːn/ , tropical storm, cyclonic storm, tropical depression, and simply cyclone. Tropical cyclones typically form over large bodies of relatively warm water. For this reason, coastal regions are particularly vulnerable to damage from a tropical cyclone as compared to inland regions. Heavy rains, however, can cause significant flooding inland, and storm surges can produce extensive coastal flooding up to 40 kilometres (25 mi) from the coastline. <P> Cyclone seen from Space. A tropical cyclone is a low-pressure system which develops in the tropics and is sufficiently intense to produce sustained gale force winds of at least 63km/h. If the sustained wind reaches hurricane force of at least 118km/h the system is defined as a severe tropical cyclone. In other parts of the world they are called hurricanes or typhoons. Tropical cyclones can cause significant phenomena which can adversely, and sometimes favourably impact on communities and the environment. The most common features are destructive winds and heavy rainfall that can lead to flooding. <P> Cyclone usually refers to an extra-tropical (non-tropical) cyclone, which is a low pressure area that forms near the boundary between warm and cool air masses. (It alternatively refers to a hurricane that forms in the Indian Ocean). <P> Tropical Cyclones are low pressure systems that form over warm tropical waters and have gale force winds (sustained winds of 63 km/h or greater and gusts in excess of 90 km/h) near the centre. then the system is called a severe tropical cyclone. These are referred to as hurricanes or typhoons in other countries. The circular eye or centre of a tropical cyclone is an area characterised by light winds and often by clear skies. Eye diameters are typically 40 km but can range from under 10 km to over 100 km.
A cyclone is a large-scale low pressure system characterized by a cyclonic circulation (counterclockwise in the northern hemisphere and clockwise in the southern) about a definite center where pressure is lowest.
what causes powdery mildew
<P> Introduction. Powdery mildew is the name given to a group of diseases caused by several closely related fungi. Their common symptom is a grayish-white, powdery mat visible on the surface of leaves, stems, and flower petals. <P> Uncinula necator (syn. Erysiphe necator) is a fungus that causes powdery mildew of grape. It is a common pathogen of Vitis species, including the wine grape, Vitis vinifera. The fungus is believed to have originated in North America. Powdery mildews are generally host-specific. Uncinula necator is the pathogen that causes powdery mildew on grape and linden. The most susceptible hosts of this pathogen are members of the species Vitis. The signs of powdery mildews are widely recognizable and easily identifiable. <P> Home Plant Diseases. Plant Diseases: Powdery Mildew. Powdery mildew is one of the most easily recognized and identifiable of all plant diseases. Powdery mildews are also recognized to attack a wider variety of plants than any other plant disease. Cut flowers or indoor potted plants can be affected with powdery mildew. Powdery mildew will continue to thrive and spread on cut flowers, thus a small infection will continue to expand. Powdery mildew can be very severe on roses, phlox, lilac and bee-balm in particular, but can infect nearly any plant. <P> Powdery mildew, also known as white powdery mildew, comes from lots of different fungi. Powdery mildew looks like white or gray powdery growths on your marijuana plants’ leaves. It appears on grow areas indoors and outdoors and is foreshadowed by small bumps on the topsides of leaves. Powdery mildew spores can be transported to your plants on the wind, through air ventilation systems, from pets, and any other living thing that moves (including yourself). Until the surrounding environment is ideal, the spores from mildew will stay dormant, biding their time. <P> Powdery Mildew. Powdery mildew is a common disease on many types of plants. In fact, it is one of the oldest plant diseases on record – Theophrastis wrote of powdery mildew on roses in 300 B.C. <P> Pathogen and susceptible plants. There are many species of powdery mildew fungi and they affect thousands of plant species. The fungi that cause powdery mildew are generally host-specific and only infect plants from the same genus or family. Therefore the fungus on your ash tree will not infect your viburnum bush. 1 Powdery mildew appears as superficial growth on plant surfaces and is seen as white to gray powdery spots, blotches or felt-like mats on leaves, stems and buds. 2 Infected plants may appear to be sprinkled with baby powder or covered in cobwebs. 3 Disease is often most severe on young leaves, water sprouts and green shoots. <P> Importance. Powdery mildew is a very recognizable and common fungal disease found on several plants in Minnesota. On trees and shrubs, powdery mildew rarely causes serious damage to its host. 1 Powdery mildew appears as superficial growth on plant surfaces and is seen as white to gray powdery spots, blotches or felt-like mats on leaves, stems and buds. 2 Infected plants may appear to be sprinkled with baby powder or covered in cobwebs. 3 Disease is often most severe on young leaves, water sprouts and green shoots. <P> Powdery mildew is one of the most common and easily recognized plant diseases. Almost no type of plant is immune, however some are more susceptible than others. Lilacs, crab apples, phlox, monarda, roses, grapes, squash and cucumbers are all likely targets for powdery mildew. Powdery mildew fungi are host specific, meaning the different powdery mildew fungi infect different plants. The powdery mildew on your lilacs will not spread to your grapes or your roses. However all powdery mildews favor the same conditions. <P> Powdery mildew is one of the easier plant diseases to identify, as its symptoms are quite distinctive. Infected plants display white powdery spots on the leaves and stems. From Wikipedia, the free encyclopedia. Powdery mildew is a fungal disease that affects a wide range of plants. Powdery mildew diseases are caused by many different species of fungi in the order Erysiphales, with Podosphaera xanthii (a.k.a. Sphaerotheca fuliginea) being the most commonly reported cause. Erysiphe cichoracearum was formerly reported to be the primary causal organism throughout most of the world
Caused by many different species of fungi in the order Erysiphales, with Podosphaera xanthii.
what helps circulate the lymph
<P> The lymphatic system is a system of lymph nodes and lymph vessels involved in the body’s immune defense system and performing an exchange function (lymph transportation). The most important parts of the lymphatic system are the bone marrow, spleen, lymph nodes and tonsils. <P> Circulation and the Body. Circulation is very closely related to health. Circulation also means the circulation of lymph in the body. If you suspect blood circulation problems it is essential that you learn how to improve your circulation. <P> View full size image. The lymphatic system is a network of tissues and organs that help rid the body of toxins, waste and other unwanted materials. The primary function of the lymphatic system is to transport lymph, a fluid containing infection-fighting white blood cells, throughout the body. The lymphatic system primarily consists of lymphatic vessels, which are similar to the circulatory system's veins and capillaries. <P> 2. Lymphatic flow. Your lymphatic circulatory system works directly with your cardiovascular circulatory system to keep blood and lymphatic fluid levels in balance and flush toxins out of the body. It also carries immune cells throughout the body to help defend against infections. <P> 1. Cardiovascular circulation. Your heart is the power behind your cardiovascular circulatory system, pumping blood through your blood vessels, supplying every part of your body with the oxygen and nutrients it needs for proper functioning. <P> The lymphatic system. The diagram shows the lymph vessels, lymph nodes and the other organs that make up the lymphatic system. The lymphatic system is similar to the blood circulation. The lymph vessels branch through all parts of the body like the arteries and veins that carry blood.
It helps rid the body of toxins, waste and other unwanted materials.
what is the properties of carbon monoxide
<P> 1 is a neutral oxide which burns in air to give carbon dioxide, 2 is a good reducing agent, and is used for that purpose in industry, 3 and, is an important industrial gas, which is widely used as a fuel. 4 It is also an important reducing agent in the chemical industry. 1 Relative density: 1.25. 2 is a flammable and highly toxic gas, 3 is a neutral oxide which burns in air to give carbon dioxide, 4 is a good reducing agent, and is used for that purpose in industry, 5 <P> Learn more about carbon uses, the carbon atom, carbon properties, hydrocarbons, carbon structure, carbon fiber, carbon monoxide, your carbon footprint and other amazing carbon facts. Carbon is a chemical element with the symbol C and atomic number 6. The word carbon comes from the Latin word carbo, meaning coal. Carbon monoxide (CO) is very toxic to both humans and animals. It forms in conditions when there is not enough oxygen to form carbon dioxide (CO 2). In many countries around the world, carbon monoxide poisoning is the most common kind of fatal poisoning. <P> Carbon monoxide is colorless, odorless, and tasteless, but highly toxic. It combines with hemoglobin to produce carboxyhemoglobin, which usurps the space in hemoglobin that normally carries oxygen, but is ineffective for delivering oxygen to bodily tissues. Worldwide, the largest source of carbon monoxide is natural in origin, due to photochemical reactions in the troposphere that generate about 5 × 10 kilograms per year. Other natural sources of CO include volcanoes, forest fires, and other forms of combustion. <P> Carbon dioxide (chemical formula CO2) is a colorless, odorless gas vital to life on Earth. This naturally occurring chemical compound is composed of a carbon atom covalently double bonded to two oxygen atoms. <P> The chemical formula is CO. When we breathe carbon monoxide the oxygen combines with hemoglobin and creates carboxyhemoglobin. When the red blood cells containing this carboxyhemoglobin reach the lungs, they cannot release the carbon (which should be carbon dioxide) and collect fresh oxygen. Carbon dioxide is made up of 1 carbon atom and 2 oxygen atoms. Carbon monoxide is made up of 1 carbon atom and 1 oxygen atom. Carbon monoxide is flammable whereas carbon dio … xide is used to extinguish fires. <P> 1 The chemical properties of carbon monoxide are that it. 2 Melting Point : -199 degC. 3 Boiling Point : -91.5 degC. 4 Relative density: 1.25. 5 is a flammable and highly toxic gas, 6 is a neutral oxide which burns in air to give carbon dioxide, 7 is a good reducing agent, and is used for that purpose in industry, 1 Relative density: 1.25. 2 is a flammable and highly toxic gas, 3 is a neutral oxide which burns in air to give carbon dioxide, 4 is a good reducing agent, and is used for that purpose in industry, 5 and, is an important industrial gas, which is widely used as a fuel. <P> Carbon Monoxide is a gas formed from carbon and oxygen. It has the formula CO. Carbon dioxide another gas formed from carbon and oxygen, has the formula CO 2. A gas, … the molecules of which are made up of one carbon atom bonded with one oxygen atom. Carbon monoxide gas is clear, odorless and lethal when inhaled in LOW concentration. Carbon dioxide is made up of 1 carbon atom and 2 oxygen atoms. Carbon monoxide is made up of 1 carbon atom and 1 oxygen atom. Carbon monoxide is flammable whereas carbon dio … xide is used to extinguish fires. <P> Carbon monoxide consists of one carbon atom and one oxygen atom, connected by a triple bond that consists of two covalent bonds as well as one dative covalent bond. It is the simplest oxocarbon and is isoelectronic with the cyanide anion, the nitrosonium cation and molecular nitrogen. Worldwide, the largest source of carbon monoxide is natural in origin, due to photochemical reactions in the troposphere that generate about 5 × 10 kilograms per year. Other natural sources of CO include volcanoes, forest fires, and other forms of combustion. <P> Summary: Carbon monoxide and carbon dioxide are both colorless and odorless gases. Carbon monoxide has a molecular formula of CO while carbon dioxide is CO2. Carbon monoxide is composed of one carbon atom and one oxygen atom while carbon dioxide is composed of one carbon atom and two oxygen atoms. If carbon dioxide is produced by plants and the combustion of organic materials, carbon monoxide is formed by the incomplete combustion of fossil fuels such as gas, coal, oil, and wood used in engines, gas fires, open fires, water heaters, and solid fuel appliances such as wood stoves. <P> Carbon monoxide has CO as its chemical formula, and it has a single carbon atom triple bonded to a single oxygen atom. The carbon symbol is C and the oxygen symbol is O. The m … ono-prefix indicates one or single. Carbon dioxide is made up of 1 carbon atom and 2 oxygen atoms. Carbon monoxide is made up of 1 carbon atom and 1 oxygen atom. Carbon monoxide is flammable whereas carbon dio … xide is used to extinguish fires.
Melting Point, Boiling Point, Relative densitya, good reducing agenta, flammable and highly toxic gas.
what is a body cell for kids
<P> Cells, for kids who are curious about how our bodies do what they do, spells out these important tasks in fun and fascinating detail; they’ll learn about the major differences between plant and animal cells, as well as get a close-up look at the “organs” that power each one. <P> There are lots of different types of cells. Each type of cell is different and performs a different function. In the human body, we have nerve cells which can be as long as from our feet to our spinal cord. Nerve cells help to transport messages around the body. <P> Red blood cells at work. Hemoglobin is the protein inside red blood cells that carries oxygen. Red blood cells also remove carbon dioxide from your body, transporting it to the lungs for you to exhale. Red blood cells are made inside your bones, in the bone marrow. <P> Medical Definition of CELL BODY. : the nucleus-containing central part of a neuron exclusive of its axons and dendrites that is the major structural element of the gray matter of the brain and spinal cord, the ganglia, and the retina—called also perikaryon, soma. <P> They quickly found that they could ... 560L-740L 750L-890L 900L-1040L What Cells Do The trillions of cells in a body combine to create one living being. In all animals, simil ... 560L-740L 750L-890L 900L-1040L Cells as Building Blocks All living things have one thing in common—they’re composed of cells. <P> View full description. Cells, for kids, lays out all the basic facts about these microscopic structures out of which our bodies are made, covering everything from their internal “organs” to the way they determine every single human characteristic. <P> Inside a cell are tiny organs called organelles. The word organelle is a big word that means small organ. These organelles function to provide for the needs of the cell. They work to bring in food supplies, get rid of waste, protect the cell, repair the cell, and help it grow and reproduce.
Microscopic structures out of which our bodies are made, covering everything from their internal “organs” to the way they determine every single human characteristic.
what germ layers become the skin
<P> ectoderm. the outermost of the three primitive germ layers of the embryo; from it are derived the epidermis and epidermal derivatives, such as the claws, hair and glands of the skin, the nervous system, external sense organs (eye, ear, etc.) and mucous membrane of the mouth and anus. 1 Facebook. /ec·to·derm/ (ek´to-derm) the outermost of the three primitive germ layers of the embryo; from it are derived the epidermis and epidermic tissues, such as the nails, hair, and glands of the skin, the nervous system, external sense organs and mucous membrane of the mouth and anus.ectoder´malectoder´mic. <P> Each layer, called a germ layer, will eventually become certain types of tissues in the adult. These layers are the endoderm and ectoderm, and in between them the mesoderm. The ectoderm, the outermost of the three germ cell layers, eventually develops into the epidermis and hair. The endoderm is so called because it is in the innermost layer of the three germ layers. <P> The three germ consiting of Ectoderm, mesoderm and endoderm give rise to all the organs and structures in the body. The list of structures developed from 3 primitive germ layers in given below. Developing embryo. <P> Ectoderm is one of the three primary germ layers in the very early embryo. The other two layers are the mesoderm (middle layer) and endoderm (most proximal layer), with the ectoderm as the most exterior (or distal) layer. It emerges and originates from the outer layer of germ cells. The position of the ectoderm relative to the other germ layers of the embryo is governed by selective affinity, meaning that the inner surface of the ectoderm has a strong (positive) affinity for the mesoderm, and a weak (negative) affinity for the endoderm layer. <P> the outermost of the three primary cell layers of an embryo. The ectoderm gives rise to the nervous system; the organs of special sense, such as the eyes and ears; the epidermis and epidermal tissue, such as fingernails, hair, and skin glands; and the mucous membranes of the mouth and anus. n the outermost of the three primary cell layers of an embryo. The ectoderm gives rise to the nervous system, the organs of special sense, the epidermis, and epidermal tissues such as fingernails, hair, and skin glands. <P> ectoderm. the outermost of the three primitive germ layers of the embryo; from it are derived the epidermis and epidermal derivatives, such as the claws, hair and glands of the skin, the nervous system, external sense organs (eye, ear, etc.) and mucous membrane of the mouth and anus. 1 Facebook. 2 Twitter. n the outermost of the three primary cell layers of an embryo. The ectoderm gives rise to the nervous system, the organs of special sense, the epidermis, and epidermal tissues such as fingernails, hair, and skin glands. <P> Each of the three primary germ layers will form a different set of specific organs and tissue types in the animal. The ectoderm will form the nervous system, the epithelial cells of the mammary glands, the lens of the eyes, hair, pigment cells and the epidermis of the skin. These three layers, the endoderm, the ectoderm and the mesoderm, are called the primary germ layers. After gastrulation, the cup-like embryonic stage that contains at least two distinct germ layers is called the gastrula. <P> A germ layer is a primary layer of cells that form during embryogenesis. The three germ layers in vertebrates are particularly pronounced; however, all eumetazoans, (animals more complex than the sponge) produce two or three primary germ layers. Germ layers [edit]. Gastrulation of a diploblast: The formation of germ layers from a (1) blastula to a (2) gastrula. Some of the ectoderm cells (orange) move inward forming the endoderm (red). Micrograph of a teratoma, a tumour that characteristically has tissue from all three germ layers. The image shows tissue derived from the mesoderm (immature cartilage-left-upper corner of image), endoderm (gastrointestinal glands-center-bottom of image) and ectoderm (epidermis-right of image). H&E stain
The ectoderm will form the nervous system, the epithelial cells of the mammary glands, the lens of the eyes, hair, pigment cells and the epidermis of the skin.
what are zonal geraniums
<P> Zonal geraniums are also grown as standards-a single stem is trained to the desired height with a bushy globe of flowers and leaves above it. Related species: Pelargonium x peltatum, the ivy-leaved geranium, has pendulous branches loaded with flowers and excels in window boxes and hanging baskets. How to grow: Zonal geraniums benefit from full sun and moderate to rich, well-drained, moist soil. Incorporate a slow-release fertilizer into the soil at planting time. Plant after all danger of frost has passed and the soil is warm. Space them 12 inches apart. <P> Uses: Zonal geraniums provide pockets of color in any sunny spot. Group three or more together for color impact in flower borders or along walks and pathways. They're classics in containers, by themselves or mixed with other plants. How to grow: Zonal geraniums benefit from full sun and moderate to rich, well-drained, moist soil. Incorporate a slow-release fertilizer into the soil at planting time. Plant after all danger of frost has passed and the soil is warm. Space them 12 inches apart. <P> Along with zonal geraniums, there are 3 more types of Pelargonium: 1 Ivy-Leaf Geranium (Pelargonium peltatum) – As their name implies, these geraniums have a trailing habit and ivy-shaped leaves. 2 The flowers are smaller and less showy than zonal geraniums and the plants are often used as spillers in containers. Design Suggestions: Zonal geraniums have gotten a bad reputation by plant snobs. They've been considered garish and common. Too many of the brightly colored plants can start to look over the top, but these plants are excellent in all kinds of <P> Zonal geranium is a member of the Pelargonium family. Its botanical name is Pelargonium zonale. This erect or scrambling softly woody shrub, usually grows up to 1 m but it can reach heights of 3 m. The branches are almost succulent and are usually covered with hairs, while the older stems harden with age. <P> Growth and Size. Seed geraniums are a compact version of the zonal geranium, but with smaller bloom heads, which typically measure 3 to 4 inches. Seed geraniums form a low, compact mound that is less than 1 foot tall and wide. Zonal geraniums tend to grow more upright, growing to about 18 inches in one season with large, 4- to 6-inch flower heads. Seed geraniums tend to have more numerous flowers and a more self-branching growth habit. Whichever type you choose, geraniums add color to your garden. What's commonly called a geranium comes from the Pelargonium genus, which includes several species of plants, which are categorized into different types based on growth habits and propagation. <P> The traditional zonal geranium product has red flowers, green foliage, and is grown in a 4 pot. This product remains the bulk of the market. Customers are now seeking different container sizes, different flower and foliage colors, and cultivars that perform in sun or part shade. <P> Overview. Glowing, green foliage and bright flower clusters over a long season make zonal geraniums (Pelargonium x hortorum) some of the most popular home garden annuals. Equally comfortable in garden beds, window boxes or porch and patio containers, these are easy-care, sun-loving plants. Seed Geranium Propagation. Small, hard zonal geranium seeds germinate in 7 to 14 days if scratched before planting so water can enter them. Commercial growers plant them in flats or pots of sandy growing medium three months before the final spring frost date. They need consistently moist--not wet--soil. <P> Description: Zonal geraniums are bushy plants, mainly used for containers and bedding. There has been considerable breeding done, particularly for size and abundance and colors of flowers, so there is a good deal of variety. 1 Leaves: Oval leaves grow on succulent stems. 2 The leaves often have zones of maroon or bronzy-green. Design Suggestions: Zonal geraniums have gotten a bad reputation by plant snobs. They've been considered garish and common. Too many of the brightly colored plants can start to look over the top, but these plants are excellent in all kinds of containers. <P> The geranium, zonal, is an annual flower named for the horseshoe-shaped band of dark color in the leaves of most varieties. Pelargonium species come from South Africa, but through hundreds of years of breeding, the parentage of today's varieties has been obscured. Annuals Image Gallery. How to grow: Zonal geraniums benefit from full sun and moderate to rich, well-drained, moist soil. Incorporate a slow-release fertilizer into the soil at planting time. Plant after all danger of frost has passed and the soil is warm. Space them 12 inches apart. <P> Seed geranium clusters have large numbers of single flowers. Zonal geraniums' clusters have fewer, semi-double or double flowers. Flower colors for both varieties range from white to shades of pink, red, orange and purple. Seed Geranium Propagation. Small, hard zonal geranium seeds germinate in 7 to 14 days if scratched before planting so water can enter them. Commercial growers plant them in flats or pots of sandy growing medium three months before the final spring frost date. They need consistently moist--not wet--soil.
Zonal geraniums are bushy plants, mainly used for containers and bedding. There has been considerable breeding done, particularly for size and abundance and colors of flowers, so there is a good deal of variety.
annual average temperatures harbin
<P> The warmest time of year in Harbin is in July when it is 29°C / 84.2°F on average, but could get up to 33.1°C / 91.6°F maximum. On the other hand, the coldest time of year in Harbin is in January when it is 4.5°C / 40.1°F on average, but could get down to 1°C / 40.1°F minimum. 1 Freezing months: 0 (0°C / 32.0°F and below). 2 Cold months: 4 (0°C / 32.0°F to 10°C / 50.0°F). <P> The table below displays average monthly climate indicators in HARBIN based on 8 years of historical weather readings. Temperature by: Fahrenheit / Centigrade. HARBIN 45 75 N, 126 76 E, 469 feet (143 meters) above sea level. <P> Summer (June-August). It is hot and humid, but not as hot as other cities in China, so Harbin is also a good summer resort. 60% of the annual rainfall happens in July and August. July is the hottest month of the year, with an average high temperature at 28 °C (83 °F) and an average low at 18 °C (65 °F). Spring (March-May). The weather is dry and windy, with changeable temperatures that may rise or fall by 10 degrees Celsius just overnight. Average high and low temperatures are 2 to -11 °C (34 - 12 °F) in March, 12 to -6 °C (55 - 31 °F) in April, 21 to 7 °C (70-45 °F) in May. <P> Harbin is located in Northeast China and receives cold winter wind from Siberia. The average temperature in summer is 21.2 °C (70.2 °F), and –16.8 °C (1.8 °F) in winter. Annual lows of -35 °C (–31 °F) are not uncommon. The annual Harbin International Ice and Snow Sculpture Festival (Chinese: 哈尔滨国际冰雪节; pinyin: Hā'ěrbīn Guoji Guójì Bīngxuě) jie jié is an annual winter festival that takes place with a Theme, In, Harbin, heilongjiang china and now is the largest ice and snow festival in. the world <P> The summer period in Harbin is very short, guests can enjoy the cool summer from July to September every year there. The temperature in summer is around 25 degrees celsius. Whereas, The rainy season in Harbin is July and August, which accounts for 60 to 70% of the annual rainfalls in the city. The spring in Harbin is from March to May, which will has the strong wind and a sudden temperature change. The high season in Harbin is winter from December to January and Febuary next year, it is the best time to visit Harbin. During this period, the average temperature can drop to -25 degrees celsius or even lower and guests can enjoy the winter activities. <P> The yearly average maximum temperature in Harbin is 5.9℃, while the average minimum temperature is 0.7℃. The daily extreme high temperature is 37.8℃ in summer, while the daily extreme low temperature is -42.6℃ in winter. The coldest month of Harbin is January, its mean temperature ranges from – 13.2℃ to -24.8℃. The annual extreme high rainfall is 1081.3mm, while the annual extreme low rainfall is 247 mm. Under the influence of geography, marine and continental air mass and monsoon, the climate differences of Harbin in different seasons are conspicuous, with significant changes. In winter, under the control of continental polar air, it is cold and bitterly dry, with a 24-hour average in January of only −18.4 °C. <P> Best time to visit Harbin. The best time to visit Harbin will be when the average temperatures are at a comfortable level (between 20°C / 68.0°F and 30°C / 86.0°F on average) which is during months May, June, July, August and September. On the other hand, the coldest time of year in Harbin is in January when it is 4.5°C / 40.1°F on average, but could get down to 1°C / 40.1°F minimum. 1 Freezing months: 0 (0°C / 32.0°F and below). 2 Cold months: 4 (0°C / 32.0°F to 10°C / 50.0°F). <P> This report describes the typical weather at the Harbin Taiping International Airport (Harbin, China) weather station over the course of an average year. It is based on the historical records from 2004 to 2012. Earlier records are either unavailable or unreliable. The cold season lasts from November 30 to February 22 with an average daily high temperature below 23A°23â. F the coldest day of the year Is january, 18 with an average low -OF°14a 14â f and HIGH°Of. 9a 9â f <P> It is the popular tourist season in Harbin, with ice and snow concentrated from December to January. It is very cold in Harbin, which is at the same latitude as Montreal, Canada. January is the coldest month of the year, with an average high temperature at -13 °C (8 °F) and an average low at -25 °C (-13 °F). Spring (March-May). The weather is dry and windy, with changeable temperatures that may rise or fall by 10 degrees Celsius just overnight. Average high and low temperatures are 2 to -11 °C (34 - 12 °F) in March, 12 to -6 °C (55 - 31 °F) in April, 21 to 7 °C (70-45 °F) in May.
– 13.2℃ to -24.8℃.
what does domain eukaryote mean
<P> eukaryote. n. 1. (Biology) any member of the Eukarya, a domain of organisms having cells each with a distinct nucleus within which the genetic material is contained. Eukaryotes include protoctists, fungi, plants, and animals. Compare prokaryote. [from eu- + karyo- + -ote as in zygote ]. (yuˈkaer yuˈkær, -iˌoʊt i). ət. N compare. prokaryote <P> Eukarya. Definition. noun. The domain comprised of eukaryotes or organisms whose cells contain a true nucleus. Supplement. Eukarya (or Eukaryota) is one in the three-domain system of biological classification introduced by Carl Woese in 1990. The other two are Archaea and Bacteria. Related terms: eukaryote (noun). <P> Eukaryotic cells are typically much larger than those of prokaryotes. They have a variety of internal membrane-bound structures, called organelles, and a cytoskeleton composed of microtubules, microfilaments, and intermediate filaments, which play an important role in defining the cell's organization and shape. The defining feature that sets eukaryotic cells apart from prokaryotic cells (Bacteria and Archaea) is that they have membrane-bound organelles, especially the nucleus, which contains the genetic material, and is enclosed by the nuclear envelope. <P> 1 any member of the Eukarya, a domain of organisms having cells each with a distinct nucleus within which the genetic material is contained. 2 Eukaryotes include protoctists, fungi, plants, and animals Compare prokaryote. <P> Any of various single-celled or multicellular organisms of the domain Eukaryota, characterized by cells that contain a distinct membrane-bound nucleus and by the occurrence of DNA transcription inside the nucleus and protein synthesis in the cytoplasm, in contrast to prokaryotes. n. 1. (Biology) any member of the Eukarya, a domain of organisms having cells each with a distinct nucleus within which the genetic material is contained. Eukaryotes include protoctists, fungi, plants, and animals. <P> The defining membrane-bound structure that differentiates eukaryotic cells from prokaryotic cells is the cell nucleus, within which the genetic material and many other cell bodies are contained. The presence of a nucleus gives eukaryotes their name that derives from the Greek (eu, good) and (karyon, kernel). Most eukaryotic cells also contain other membrane-bound organelles such as mitochondria, chloroplasts and the Golgi apparatus. Eukaryota is one of the three domains of life contianing organisms whose cells contain complex structures enclosed within complex membranes call endomembranes. These organisms are called Eukaryotes and are either singular-or multiple-celled. <P> eukaryote. n. 1. (Biology) any member of the Eukarya, a domain of organisms having cells each with a distinct nucleus within which the genetic material is contained. Eukaryotes include protoctists, fungi, plants, and animals. Compare prokaryote. [from eu- + karyo- + -ote as in zygote ]. (yuˈkaer yuˈkær, -iˌoʊt i). ət. N compare. prokaryote <P> eukaryote. an organism of the Eucaryotae, whose cells (eukaryotic cells) have a true nucleus that is bounded by a nuclear membrane, contains the chromosomes, and divides by mitosis. Eukaryotic cells also contain membrane-bound organelles, such as mitochondria, chloroplasts, lysosomes, and the Golgi apparatus. <P> It is this nucleus that gives the eukaryote its name. Eukaryote means true nucleus. Eukaryotic organisms also have other specialized structures, called organelles, which are small structures within cells that perform dedicated functions. As the name implies, you can think of organelles as small organs. Eukaryote: An organism that consists of one or more cells each of which has a nucleus and other well-developed intracellular compartments. Eukaryotes include all organisms except bacteria, viruses, and certain (blue-green) algae which, by contrast, are prokaryotes. See: Prokaryote. <P> The presence of a nucleus gives eukaryotes their name, which comes from the Greek ευ (eu, well) and κάρυον (karyon, nut or kernel). Eukaryotic cells also contain other membrane-bound organelles such as mitochondria and the Golgi apparatus. In addition, plants and algae contain chloroplasts. Eukaryotic organisms may be unicellular, or multicellular. Only eukaryotes have many kinds of tissue made up of different cell types. The defining feature that sets eukaryotic cells apart from prokaryotic cells (Bacteria and Archaea) is that they have membrane-bound organelles, especially the nucleus, which contains the genetic material, and is enclosed by the nuclear envelope.
Any of various single-celled or multicellular organisms of the domain Eukaryota, characterized by cells that contain a distinct membrane-bound nucleus and by the occurrence of DNA transcription inside the nucleus and protein synthesis in the cytoplasm, in contrast to prokaryotes.
hooligan definition
<P> A violent young troublemaker, typically one of a gang: a drunken hooligan [as modifier]: hooligan behaviour. More example sentences. Synonyms. 1 Residents are being driven out of their homes by young yobs and hooligans who are making their lives a misery. <P> Full Definition of HOOLIGAN. : ruffian, hoodlum. See hooligan defined for English-language learners. See hooligan defined for kids. ADVERTISEMENT. <P> LINK / CITE ADD TO WORD LIST. noun. A hooligan weilding a bat. A hooligan weilding a bat. The definition of hooligan is slang for a young person who breaks the law. An example of a hooligan is a teenager who steals car stereos. 1 a hoodlum, esp. a young one. 2 any rowdy or violent person. <P> [count]. : a usually young man who does noisy and violent things as part of a group or gang. The windows were broken by a gang of teenage hooligans. soccer hooligans [=violent soccer fans who fight against other soccer fans]. [+] more examples [-] hide examples [+] Example sentences [-] Hide examples. /ˈhuːlɪgəˌnɪzəm/ noun [noncount].
Slang for a young person who breaks the law.
how to overcome loneliness and depression
<P> Start a journal to track your thoughts and feelings. Journaling can help you to understand your feelings of loneliness better and it is also a great way to relieve stress. To get started with journaling, choose a comfortable place and plan to devote about 20 minutes per day to writing. 1 To get started with meditation, find a quiet spot and get comfortable. 2 You can either sit in a chair or on a cushion on the floor with your legs crossed. 3 Close your eyes and concentrate on your breathing. 4 As you focus on your breathing, try not to get distracted by your thoughts. <P> This can happen among a crowd of friends or even after making love. It can be pretty confusing and can put you off your game if you don’t know what’s going on. Here are some tips for recognizing loneliness for what it is and dealing with it in the healthiest ways. 1. Realize that loneliness is a feeling, not a fact. When you are feeling lonely, it is because something has triggered a memory of that feeling, not because you are in fact, isolated and alone. The latter is more fun, even though I sometimes have to remind myself to do it on purpose. 6. Find others like you. Now days there are more tools than ever before to find out where the knitters, hikers or kiteboarders are congregating so that you can get together with those who share your interests. <P> 1 Try to find good people in good groups. 2 If you have a persistent feeling of loneliness, seek medical help. 3 It might be a sign of depression. 4 If you're feeling lonely, consider taking a break from social media websites like Facebook and Twitter—they do not help your social relationships. 1 To get started with meditation, find a quiet spot and get comfortable. 2 You can either sit in a chair or on a cushion on the floor with your legs crossed. 3 Close your eyes and concentrate on your breathing. 4 As you focus on your breathing, try not to get distracted by your thoughts. <P> A licensed mental health professional can help you to understand and work through your loneliness. Feeling lonely may indicate that you are depressed or that you have another underlying mental health condition. Talking to a therapist can help you understand what is going on and decide on the best course of action. 1 To get started with meditation, find a quiet spot and get comfortable. 2 You can either sit in a chair or on a cushion on the floor with your legs crossed. 3 Close your eyes and concentrate on your breathing. 4 As you focus on your breathing, try not to get distracted by your thoughts. <P> Most lonely people really would love to know some of the secrets of how to get friends, the secrets to overcoming loneliness. If you dream that all you need is to find someone who will care about you and make you happy, then think again! 4. Think of Others. Take the focus off yourself and take an interest in the other person. The Queen Mother once said that there was no such thing as a boring person. A person is only boring if you haven’t taken the effort to get to know them. <P> Depression and loneliness are common feelings, but sometimes those feelings can become overwhelming. There are steps you can take on your own to control those feelings. 1 Many who suffer from depression feel powerless to change how they feel and the course of their lives. 2 Our thoughts greatly influences our feelings and behaviors, which is the basis for Cognitive Behavioral Therapy (CBT). 3 CBT has been shown to be successful for treating depression. <P> Find a journal to write in. Journaling can be a useful tool in order to analyze your own thoughts without outside help. Journaling can help you identify and change the way you think and behave. This practice has also been shown to help decrease stress, which can be a byproduct of depression and loneliness. 1 Many who suffer from depression feel powerless to change how they feel and the course of their lives. 2 Our thoughts greatly influences our feelings and behaviors, which is the basis for Cognitive Behavioral Therapy (CBT). 3 CBT has been shown to be successful for treating depression. <P> 5. Focus on the needs and feelings of others, the less attention on your lonely thoughts and feelings. I can walk down the street thinking about myself, my loneliness and the hopelessness of it all, staring at the sidewalk and sighing to myself. The latter is more fun, even though I sometimes have to remind myself to do it on purpose. 6. Find others like you. Now days there are more tools than ever before to find out where the knitters, hikers or kiteboarders are congregating so that you can get together with those who share your interests. <P> Feeling lonely can plague many people — including the elderly, people who are isolated, and those with depression — with symptoms such as sadness, isolation, and withdrawal. Loneliness can strike a person who lives alone or someone who lives in a house filled with people. Feelings of loneliness don’t have to be constant to call for action, but you will need to give yourself a push to get back into the thick of life and re-engage with others to start feeling better. These strategies for fighting depression and loneliness can help: 1 Make a plan. 2 Do something — anything. 3 Explore your faith. 4 Bond with a dog. 5 Have realistic standards. 6 Think beyond yourself. 7 Reach out to a lonely person. 8 Call, don’t post. 9 Make time for relationships. 10 Talk to a trusted friend or relative. 11 Meditate. 12 Explore therapy
Make a plan. There are two basic types of loneliness. Acute loneliness results from losing a loved one or moving to a new place.
what does it mean when a trait is dominant
<P> Inheriting a disease, condition, or trait depends on the type of chromosome affected (autosomal or sex chromosome). It also depends on whether the trait is dominant or recessive. A single abnormal gene on one of the first 22 nonsex (autosomal) chromosomes from either parent can cause an autosomal disorder. <P> Dominant trait is a genetics term. A dominant trait is one which will be expressed if one of the parents has the gene for that trait. A recessive trait is one that will … be expressed only if both parents carry the trait. <P> Inheriting a specific disease, condition, or trait depends on the type of chromosome that is affected (autosomal or sex chromosome). It also depends on whether the trait is dominant or recessive. A mutation in a gene on one of the first 22 nonsex chromosomes can lead to an autosomal disorder. <P> A dominant allele produces a dominant phenotype in individuals who have one copy of the allele, which can come from just one parent. For a recessive allele to produce a recessive phenotype, the individual must have two copies, one from each parent. <P> Dominant: A genetic trait is considered dominant if it is expressed in a person who has only one copy of that gene. (In genetic terms, a dominant trait is one that is phenotypically expressed in heterozygotes). A dominant trait is opposed to a recessive trait which is expressed only when two copies of the gene are present. (In genetic terms, a recessive trait is one that is phenotypically expressed only in homozygotes). Examples of dominant disorders include: 1 Achondroplasia (a common form of dwarfism with short arms and legs), <P> The terms dominant and recessive describe the inheritance patterns of certain traits. That is, they describe how likely it is for a certain phenotype to pass from parent offspring. <P> A recessive trait is a trait that most people don't have. If a parent of a child has red hair, it is recessive but there is a greater chance because of the gene in the redheaded parent's genetic-system, may be biologically transferred to the offspring.
A dominant trait is opposed to a recessive trait which is expressed only when two copies of the gene are present.
what is erythrocyte sedimentation rate
<P> A sedimentation rate is common blood test that is used to detect and monitor inflammation in the body. The sedimentation rate is also called the erythrocyte sedimentation rate because it is a measure of the speed that the red blood cells (erythrocytes) in a tube of blood fall to the bottom of the tube, or sediment. Sedimentation rate is often abbreviated as sed rate or ESR. <P> A sedimentation rate is common blood test that is used to detect and monitor inflammation in the body. The sedimentation rate is also called the erythrocyte sedimentation rate because it is a measure of the red blood cells (erythrocytes) sedimenting in a tube over a given period of time. Sedimentation rate is often abbreviated as sed rate or ESR. A sedimentation rate is performed by measuring the rate at which red blood cells (RBCs) settle in a test tube. The RBCs become sediment in the bottom of the test tube over time, leaving the blood serum visible above. <P> An erythrocyte sedimentation rate (ESR) test is sometimes called a sedimentation rate test or sed rate test. This test doesn’t diagnose one specific condition. Instead, it helps your doctor determine whether you’re experiencing inflammation. <P> From Wikipedia, the free encyclopedia. The erythrocyte sedimentation rate (ESR), also called a sedimentation rate or Westergren ESR, is the rate at which red blood cells sediment in a period of one hour. It is a common hematology test, and is a non-specific measure of inflammation. To perform the test, anticoagulated blood was traditionally placed in an upright tube, known as a Westergren tube, and the rate at which the red blood cells fall was measured and reported in mm/h. <P> Definition. The erythrocyte sedimentation rate (ESR), or sedimentation rate (sed rate), is a measure of the settling of red blood cells in a tube of blood during one hour. The rate is an indication of inflammation and increases in many diseases. Erythrocyte sedimentation rate (ESR) — The distance that red blood cells settle in a tube of blood in one hour. It is an indication of inflammation. Rouleaux — The stacking up of red blood cells, caused by extra or abnormal proteins in the blood that decrease the normal distance red cells maintain between each other. <P> The erythrocyte sedimentation rate (ESR or sed rate) is a relatively simple, inexpensive, non-specific test that has been used for many years to help detect inflammation associated with conditions such as infections, cancers, and autoimmune diseases. ESR is used to help diagnose certain specific inflammatory diseases, temporal arteritis, systemic vasculitis and polymyalgia rheumatica. A significantly elevated ESR is one of the main test results used to support the diagnosis.
The erythrocyte sedimentation rate (ESR), also called a sedimentation rate or Westergren ESR, is the rate at which red blood cells sediment in a period of one hour.It is a common hematology test.
what is linalool
<P> (S)-(+)-linalool, from coriander oil and sweet orange (Citrus sinensis) has a smell described as sweet lavender with a touch of citrus; it is also found in tomato. (R)-(-)-linalool, found in the oils of rose, neroli and lavender, laurel and sweet basil (Ocimum basilicum) has a more woody lavender smell. Mediterranean basil is used to make Pesto sauce alla Genovese with added ingredients like cheese, olive oil and walnuts. Lavender has a pleasing smell, thanks to the molecules it contains, like linalool. It is relatively easy to grow (think of the lavender fields of Provence, and also of Heacham in Norfolk, England) so lavender oil is much cheaper than rose oil or jasmine. <P> Linalool of this type is generally very useful as a scent agent in different products. Coriandrol – This form of Linalool is commonly found in plants. It is commonly found in Coriander seeds, which are used to produce essential oils. Palmarosa and sweet orange flowers are also common sources. Humans respond to both enantiomers’ different scents. <P> Vitamin E is a common byproduct of Linalool production. Vitamin E is a fat soluble vitamin that the body uses in different ways. It can be used to reduce the visual effects of aging by moisturizing the cells and reducing the effect of free radicals. It can also help scars and other forms of dermal layer damage heal. Coriandrol – This form of Linalool is commonly found in plants. It is commonly found in Coriander seeds, which are used to produce essential oils. Palmarosa and sweet orange flowers are also common sources. Humans respond to both enantiomers’ different scents. <P> Recently I’ve come across something which sounds innocent enough; Linalool. Linalool is a very fragrant component of various herbs such as lavender, mint and coriander that can be a potent skin irritant, causing contact dermatitits in some sensitive individuals. It also appears to become an allergen or sensitiser once it becomes exposed to oxygen in the air. <P> Linalool functions as a fragrance ingredient. Scientific Facts: Linalool is a naturally occurring fragrance substance produced by a wide variety of plants such as mint, cinnamon, citrus fruits, and birch trees. Linalool can also be produced synthetically. In cosmetics and personal care products, Linalool is used in the formulation of aftershave lotions, bath products, bubble baths, cleansing products, hair care products, lipsticks, moisturizers, perfumes and colognes, shampoos, skin care products and suntan products. <P> Linalool Uses. Linalool is used in various ways. Hygienic products often have Linalool in them as a scent agent. Linalool is commonly used as a perfume in a variety of soaps, detergents, shampoos, lotions, sanitary pads, etc. that have a minty or sweet floral scent in them. Coriandrol – This form of Linalool is commonly found in plants. It is commonly found in Coriander seeds, which are used to produce essential oils. Palmarosa and sweet orange flowers are also common sources. Humans respond to both enantiomers’ different scents. <P> Linalool /lɪˈnaelɵ.lɪˈnælɵ/ ɒl is a naturally occurring terpene alcohol chemical found in many flowers and spice plants with many commercial, applications the majority of which are based on its pleasant (scent, floral with a touch of). spiciness Linalool is used as a scent in 60–80% of perfumed hygiene products and cleaning agents including soaps, detergents, shampoos, and lotions. It is also used as a chemical intermediate. <P> Definition of LINALOOL. : a fragrant liquid alcohol C10H18O that occurs both free and in the form of esters in many essential oils and is used in perfumes, soaps, and flavoring materials. ADVERTISEMENT. <P> Clarkia breweri. Linalool is produced by many plants, for example (S)-linalool is an important ingredient of the sweet scent emitted by flowers of Clarkia breweri (found only in California) to attract the moths that pollinate it. Lavender has a pleasing smell, thanks to the molecules it contains, like linalool. It is relatively easy to grow (think of the lavender fields of Provence, and also of Heacham in Norfolk, England) so lavender oil is much cheaper than rose oil or jasmine. <P> Linalool is a component of many essential oils, including orange, lavender, rose, rosewood, and coriander. The main problem the Cosmetics Database has with linalool is the risk of skin irritation and allergic reactions. Just like limonene, linalool is not a skin allergen in its pure form. However, when it's oxidized, it can cause allergic reactions/sensitivity at high concentrations. (Source). Also, like limonene, pure linalool has anti-cancer effects.
Is a naturally occurring terpene alcohol chemical found in many flowers and spice plants with many commercial, applications the majority of which are based on its pleasant (scent, floral with a touch of).
what health problems are caused by xanthan gum
<P> Last time, I discussed the health effects of carrageenan, a food additive that is commonly used as a stabilizer, thickener, or emulsifier. Another additive that shares many of these functions in commercial foods is xanthan gum, which is also popular in gluten-free baked goods for the elasticity it lends to dough. I am highly allergic to xanthan gum. Within seconds of consuming anything containing it, the glands where my jaw meet my neck instantly swell to the size of golf balls (pain, breathing/swallowing problems, potential anaphylaxis, oh and the digestive problems too). <P> When baking, some people who avoid gluten mix xanthan gum with gluten-free flour to achieve the same effects. Swallowing problems. Some people who have trouble swallowing add a product called SimplyThick -- which contains xanthan gum -- to foods and drinks to make them easier to swallow. The results showed that xanthan gum was a highly efficient laxative .. Diabetes. In a 1985 study, nine people with diabetes and four people without diabetes ate muffins containing 12 grams of xanthan gum every day for six weeks. <P> Xanthan gum is used for lowering blood sugar and total cholesterol in people with diabetes. It is also used as a laxative. Xanthan gum is sometimes used as a saliva substitute in people with dry mouth (Sjogren's syndrome). In manufacturing, xanthan gum is used as a thickening and stabilizing agent in foods, toothpastes, and medicines. Xanthan gum is also an ingredient in some sustained-release pills. <P> Side effects. Xanthan gum seems to cause few side effects. A 1987 study, in which five healthy men ate roughly 10 to 13 grams daily, found no adverse effects. It may cause gas. Risks. The FDA has warned against giving SimplyThick to premature infants. The results showed that xanthan gum was a highly efficient laxative .. Diabetes. In a 1985 study, nine people with diabetes and four people without diabetes ate muffins containing 12 grams of xanthan gum every day for six weeks. <P> Xanthan gum might decrease blood sugar by decreasing the absorption of sugars from food. Diabetes medications are also used to lower blood sugar. Taking xanthan gum with diabetes medications might cause your blood sugar to be too low. Monitor your blood sugar closely. The dose of your diabetes medication might need to be change <P> The xanthan gum was linked to lower blood sugar and lower total cholesterol in people with diabetes. Celiac disease. People with this problem must avoid a protein called gluten. This protein is found in many grains, including wheat, barley, and rye, making it a common ingredient in baked goods and pasta. The results showed that xanthan gum was a highly efficient laxative .. Diabetes. In a 1985 study, nine people with diabetes and four people without diabetes ate muffins containing 12 grams of xanthan gum every day for six weeks. <P> Xanthan gum might decrease blood sugar by decreasing the absorption of sugars from food. Diabetes medications are also used to lower blood sugar. Taking xanthan gum with diabetes medications might cause your blood sugar to be too low. Monitor your blood sugar closely. The dose of your diabetes medication might need to be changed. <P> Side Effects. Xanthan gum can cause migraines or skin irritation. Its side effects also include intestinal gas, flatulence, diarrhea and bloating. Increased exposure can make the symptoms worse. <P> XANTHAN GUM Side Effects & Safety. Xanthan gum is safe when up to 15 grams per day are taken. It can cause some side effects such as intestinal gas (flatulence) and bloating. People who are exposed to xanthan gum powder might experience flu-like symptoms, nose and throat irritation, and lung problems. It is also used as a laxative. Xanthan gum is sometimes used as a saliva substitute in people with dry mouth (Sjogren's syndrome). In manufacturing, xanthan gum is used as a thickening and stabilizing agent in foods, toothpastes, and medicines. Xanthan gum is also an ingredient in some sustained-release pills. <P> Xanthan gum is a largely indigestible polysaccharide that is produced by bacteria called Xanthomonas Camestris. (1) Manufacturers place the bacteria in a growth medium that contains sugars and other nutrients, and the resulting product of bacterial fermentation is purified, dried, powdered, and sold as xanthan gum. I am highly allergic to xanthan gum. Within seconds of consuming anything containing it, the glands where my jaw meet my neck instantly swell to the size of golf balls (pain, breathing/swallowing problems, potential anaphylaxis, oh and the digestive problems too).
Intestinal gas (flatulence) ,bloating ,nose and throat irritation, and lung problems.
which cranial nerve leaves the cranial cavity through the jugular foramen
<P> Within or immediately outside the jugular foramen are two ganglia (the superior and inferior ganglia), which contain the cell bodies of the sensory neurons in the glossopharyngeal nerve [IX]. The glossopharyngeal nerve [IX] leaves the cranial cavity through the jugular foramen. The maxillary nerve [V2] passes forward in the dura mater of the lateral wall of the cavernous sinus just inferior to the ophthalmic nerve [V1], leaves the cranial cavity through the foramen rotundum, and enters the pterygopalatine fossa. <P> Gross Anatomy. The vagus nerve is the longest cranial nerve. It contains motor and sensory fibers and, because it passes through the neck and thorax to the abdomen, has the widest distribution in the body. It contains somatic and visceral afferent fibers, as well as general and special visceral efferent fibers. (See Table 1, below.). Exit from the brain. The vagus nerve exits from the medulla oblongata in the groove between the olive and the inferior cerebellar peduncle. It leaves the skull through the middle compartment of the jugular foramen, where it has upper and lower ganglionic swellings, which are the sensory ganglia of the nerve. <P> It is a unique cranial nerve because its roots arise from motor neurons in the upper five segments of the cervical spinal cord. These fibers leave the lateral surface of the spinal cord and, joining together as they ascend, enter the cranial cavity through the foramen magnum. The accessory nerve [XI] continues through the posterior cranial fossa and exits through the jugular foramen. The maxillary nerve [V2] passes forward in the dura mater of the lateral wall of the cavernous sinus just inferior to the ophthalmic nerve [V1], leaves the cranial cavity through the foramen rotundum, and enters the pterygopalatine fossa. <P> 1 Any additional openings in bone that the nerve or its branches pass through. 2 Whether it is somatic or visceral, motor or sensory, general or special, and if it carries pre-or postganglionic parasympathetic fibers. 3 Several of the cranial nerves are quite simple in this regard. 4 Several are very complex (i.e., V, VII, IX). 1 Whether it is somatic or visceral, motor or sensory, general or special, and if it carries pre-or postganglionic parasympathetic fibers. 2 Several of the cranial nerves are quite simple in this regard. 3 <P> Cranial nerves are the nerves that emerge directly from the brain (including the brainstem), in contrast to spinal nerves (which emerge from segments of the spinal cord). Cranial nerves exchange information between the brain and parts of the body, primarily to and from regions of the head and neck. Spinal nerves emerge sequentially from the spinal cord with the spinal nerve closest to the head (C1) emerging in the space above the first cervical vertebra. The cranial nerves emerge from the central nervous system above this level. <P> The vagus nerve is part of the group of cranial nerves responsible for innervation of structures derived from the branchial arches. It is also part of a group together with the glossopharyngeal and accessory nerves that passes through the jugular foramen which is termed the vagus group. The accessory nerve is part of the group of cranial nerves responsible for innervation of structures derived from the branchial arches. It is also part of a group together with the glossopharyngeal and vagus <P> XI Cranial Nerve (Accessory) enters the skull through the foramen magnum and leaves through the jugular foramen. Making the world better, one answer at a time. The nerves which passes through the jugular foramen are: glossopharyngeal nerve(IX), vagus nerve(X) and accessory nerve(XI). <P> Review of Cranial Nerves. 1 The bony opening in the cranial cavity through which it exits. 2 Its general course and the branches that have been discussed in lecture. 3 Any additional openings in bone that the nerve or its branches pass through. 1 Whether it is somatic or visceral, motor or sensory, general or special, and if it carries pre-or postganglionic parasympathetic fibers. 2 Several of the cranial nerves are quite simple in this regard. 3 Several are very complex (i.e., V, VII, IX) <P> Accessory nerve (XI). The accessory nerve is part of the group of cranial nerves responsible for innervation of structures derived from the branchial arches. It is also part of a group together with the glossopharyngeal and vagus nerves that passes through the jugular foramen which is termed the vagus group.
The vagus nerve.
how long should i let my new fridge settle
<P> I live in Spain. I own a refrigerator. I just moved. The moving guy and my wife (both Spanish) insisted that after the refrigerator had been moved it had to settle for 24 hours before being plugged in. The guys who brought the fridge to my old house four years ago when I bought it told me the same thing. You don't have to let it settle if you kept it upright, but if you tipped it back, or had to lay it down for any reason, you have to let it stand for a while. If you don't, the compressor will be damaged. <P> I'm moving house next weekend, and was wondering how long my fridge freezer should be left before I can turn it on again, I've had conflicting information from various websites saying anything from 1 hour to 24 hours. If transported totally upright, then you only need to leave it for a couple of hours-if at an angle or laid down then at least 24 hours-well this is what I have been told by several removers when I moved house 7 months ago. Kirk P(2) likes this. 02-12-12, 19:49 #7. Hi, I'm New. <P> Resolved Question: I had a new fridge freezer delivered yesterday and the delivery man said something about standing it for 6 hours before using it. I think I misinterpreted what he said as I switched it on to let it stand for 6 hours before putting food in it but now I am thinking he meant to leave it unplugged. <P> •Position it into its new space. Before you plug it in, let the refrigerator sit for at least 2-3 hours. This allows the fluids to flow back into the compressor. This is critical to its cooling mechanism. •Leave it plugged in. It'll take a while before the fridge is ready to use. Some require 3 days before they'll reach an optimum temperatur <P> Report Abuse. When installing your new fridge freezer, keep it upright and allow at least six hours before switching on for the coolant to settle inside. Let new freezers stand overnight before loading with food to let them reach the correct temperature. Rating Newest Oldest. Best Answer: Yes...well they say 24 hours but if it was only on its side for 30 mins then I'd say you would be ok after about 4 hours It would obviously be better if you could leaver it overnight. You are probably aware that the reason is that the oil runs out of the compressor. <P> Today I received my new refrigerator, and I've been told not to plug it in until a couple of hours have gone by. Some people told me a couple of hours was enough, but others have told me up to 12 hours. If you start the compressor with insufficient oil, it can be damaged. So, the manufacturers recommend 2 hours JUST IN CASE. If you KNOW that the refrigerator has been transported horizontally, I'd leave it upright for 24 hours just to be 100% sure. <P> Advice from different manufacturers varies considerably. In my Neff fridge’s instruction book it advises only, “at least half an hour”, which is surprisingly low. A Smeg fridge freezer instruction book says, “let it settle for 6 hours”. This 6 hour recommendation is increased to 24 hours if it is known that the appliance has been laid down. At the end of the day, the last thing you want is a system blockage. If you had to temporarily tip the appliance over to get it through a door or off a vehicle then you need to let it stand for longer than if it was kept upright constantly. If you know it’s been laid down leave it for 24 hours. <P> The Knowhow. When your fridge freezer first arrives, you'll need to let it stand upright for around four hours before turning it on if it's been transported horizontally. If your fridge freezer has been transported upright you'll only need to wait for 30 minutes to an hour. <P> Best Answer: I'm pretty sure you shouldn't lay a refrigerator down to move. Every box they come in makes a big deal about this. The compressor and other components aren't designed or installed to take the shocks of moving in a horizontal position. As for the question you asked, you don't have to let it rest. You will have to wait about 12 hours for it to reach the temp setting once you plug it in. Source(s):
6 hours
dpt vaccine side effects
<P> The CDC says the dangers of developing pertussis, tetanus, or diphtheria far outweigh the risks of vaccination. Mild side effects of Tdap may include 1 : Pain, redness, or swelling in the arm where the shot was given. 2 Mild fever. 3 Headache. 4 Tiredness. 5 Stomach upset, including nausea, vomiting, or diarrhea. 6 Muscle aches and pains. <P> Less serious side effects of diphtheria toxoid / haemophilus b conjugate (prp-t) vaccine / pertussis, acellular / tetanus toxoid may include: redness, pain, tenderness, or swelling where the shot was given; low fever; mild fussiness or crying; headache or tiredness; joint pain, body aches; loss of appetite; or. <P> SIDE EFFECTS. Adverse reactions associated with the use of DTP (diphtheria and tetanus toxoids and pertussis vaccine adsorbed usp) include local redness, warmth, edema, induration with or without tenderness, as well as urticaria and rash. <P> ActHIB with DPT Side Effects. Generic Name: diphtheria toxoid / haemophilus b conjugate (prp-t) vaccine / pertussis, acellular / tetanus toxoid. Note: This page contains information about the side effects of diphtheria toxoid / haemophilus b conjugate (prp-t) vaccine / pertussis, acellular / tetanus toxoid. Some of the dosage forms included on this document may not apply to the brand name ActHIB with DPT. <P> Vaccine side effects have been noted in the combined Diphtheria, Tetanus and Pertussis vaccination since it was licenses in the 1940’s. <P> Not all side effects for ActHIB with DPT may be reported. You should always consult a doctor or healthcare professional for medical advice. Side effects can be reported to the FDA here. Applies to diphtheria toxoid / haemophilus b conjugate (prp-t) vaccine / pertussis, acellular / tetanus toxoid: intramuscular suspension.
Redness, warmth, edema, induration with or without tenderness, as well as urticaria and rash, low fever; mild fussiness or crying; headache or tiredness joint pain, body aches; loss of appetite
what neurotransmitter is overabundant during mania
<P> For example, bipolar depression has been linked to low levels of serotonin in the synaptic gap. Serotonin is a neurotransmitter that helps regulate moods. Manic episodes have been associated with high levels of norepinephrine; the neurotransmitter that contributes to our fight or flight response. Norepinephrine, the Brain and Bipolar Disorder. Norepinephrine is a catecholamine with dual roles as a hormone and a neurotransmitter. As a stress hormone, norepinephrine affects parts of the brain where attention and responding actions are controlled. <P> Bipolar disorder is a physiological disease, the levels of certain chemicals in the brain, and the actual brain waves of bipolar patients are different Bipolar disorder and Manic Depression Disorder are two terms that describe the same condition. The term manic depression … is much misunderstood. Some people think manic means really depressed.. Mania is the 'opposite' of depression. A manic depressive is someone who cycles between being manic and <P> The mental illness called Bipolar disorder is caused by faulty transmission in the limbic system of brain of neurotransmitters serotonin, dopamine and norepinephrine. Bipolar disorder is corrected by Mood stabilizers and antidepressants by Psychiatrists. The term manic depression … is much misunderstood. Some people think manic means really depressed.. Mania is the 'opposite' of depression. A manic depressive is someone who cycles between being manic and <P> Norepinephrine is a neurotransmitter that is synthesized from dopamine and is released by neurons in the brain in response to stress. Patients with bipolar disorder commonly have decreased levels of norepinephrine in the brain. Bipolar disorder, also known as manic-depressive disorder, refers to a group of mood disorders that varies in the severity of episodes of mania and depression and the predominant type of episode. Certain chemicals, also called neurotransmitters, act as messengers between neurons <P> Bipolar Disorder with Rapid Cycling. Bipolar disorder with rapid cycling involves four or more manic, hypomanic, or depressive episodes within a 12-month period. Mood swings can shift rapidly from mania to depression over the course of several days or hours. Rapid cycling can occur with any type of bipolar disorder. Bipolar Disorder I. Bipolar disorder I is characterized by at least one manic episode or mixed episode (symptoms of both mania and depression occurring simultaneously), and one or more depressive episodes, that lasts for at least 7 days. <P> Serotonin is a neurotransmitter that is synthesized from the amino acid tryptophan. Decreased levels of serotonin are commonly found in patients with bipolar disorder and depression. Bipolar disorder, also known as manic-depressive disorder, refers to a group of mood disorders that varies in the severity of episodes of mania and depression and the predominant type of episode. Certain chemicals, also called neurotransmitters, act as messengers between neurons in the brai <P> It can cause extreme mood changes from manic episodes of very high energy to the extreme lows of depression. It is also called manic-depressive disorder. This illness can cause behavior so extreme that you cannot function at work, in family or social situations, or in relationships with others. The term manic depression … is much misunderstood. Some people think manic means really depressed.. Mania is the 'opposite' of depression. A manic depressive is someone who cycles between being manic and <P> Lithium has been found to be effective in manic-depressive disorder. Manic-depressive Disorder (also called bipolar disorder) is a mood disorder in which a person alternates between depression and mania. Mania (or a manic episode) is a mood disorder in which a person tends to be hyperactive and wildly optimistic. This affects calcium-dependent release of neurotransmitters (such as norepinephrine). If norepinephrine is dependent on calcium in order to be released and lithium takes the place of some of the calcium at the calcium-binding sites, then the norepinephrine will be released less. <P> Overview. Bipolar disorder, also known as manic-depressive disorder, refers to a group of mood disorders that varies in the severity of episodes of mania and depression and the predominant type of episode. Certain chemicals, also called neurotransmitters, act as messengers between neurons in the brain
Serotonin, dopamine and norepinephrine are overabundant during mania.
what is ito
<P> 4,233 pages on this wiki. The Ito Ito no Mi is a Paramecia-type Devil Fruit which allows its user to create and manipulate strings, making the user a String Human (糸人間, Ito Ningen) . Ito (糸) means string. In the FUNimation subs, it is called the String-String Fruit. It was last eaten by Donquixote Doflamingo. <P> Indium tin oxide is one of the most widely used transparent conducting oxides because of its two chief properties, its electrical conductivity and optical transparency, as well as the ease with which it can be deposited as a thin film. <P> Hypomelanosis of Ito is present at birth, and patients usually undergo examination in their first or second years of life. Approximately 75% of patients with hypomelanosis of Ito seek care by the time they are aged 2 years. One fourth of patients seek care after they are aged 2 years, before they are aged 5 years. <P> DMRC to throw open ITO Metro line by January by Mail Today (New Delhi, India). html. is widely used as the material for transparent electrodes in a diverse range of electronic devices including LCD panels, plasma display panels (PDP), touch panels, e-paper, solar cells and organic electroluminescent (EL) panels. <P> Indium tin oxide (ITO) is a ternary composition of indium, tin and oxygen in varying proportions. Depending on the oxygen content, it can either be described as a ceramic or alloy. Indium tin oxide is typically encountered as an oxygen saturated composition with a formulation of 74% In, 18% O 2, and 8% Sn by weight. <P> ITO is not affected by moisture and it can survive in a CIGS cell for 25–30 years on a rooftop. While the sputtering target or evaporative material that is used to deposit the ITO is significantly more costly than AZO, consider that the amount of material placed on each cell is quite small. <P> Hypomelanosis of Ito (HI) is a syndrome with hypopigmented whorls of skin along the Blaschko lines. The old name, incontinentia pigmenti achromians, implies an association with incontinentia pigmenti (IP) and was probably used because hypomelanosis of Ito appears to be the negative image of incontinentia pigmenti.
Indium tin oxide (ITO) is a ternary composition of indium, tin and oxygen in varying proportions
what waste do humans excrete
<P> Please try again later. Excretion is a process of removing waste materials such as nitrogenous waste through excretory system is known as Excretion. Excretory system includes a pair of Kidneys; a pair of ureters, Urinary bladder and urethra to complete excretion process successfully. <P> The kidneys, considered the main excretory organs in humans, eliminate water, urea, and other waste products from the body in the form of urine. Other systems and organs in the body also play a part in excretion. The excretory system is a system of organs that removes waste products from the body. When cells in the body break down proteins (large molecules that are essential to the structure and functioning of all living cells), they produce wastes such as urea (a chemical compound of carbon, hydrogen, nitrogen, and oxygen). <P> The removal of metabolic waste products from the body of an organism is known as excretion. The major excretory products are carbon dioxide, excess water, and nitrogenous compounds like ammonia, urea, uric acid, etc. Carbon dioxide and water are produced in the process of tissue respiration. The kidneys produce urine to filter out the waste products, like urea and uric acid, from the blood. Urine leaves each kidney through a tube called ureters. The ureters from both the kidneys are corrected to the urinary bladder that collects and stores urine. <P> the process by which the organisms remove the waste from our body is excretion.it consists a) kidneys b) ureters c) urinary bladder d) urethra the kidneys plays an important … role in this mechanism. Excretion is a biological process by which metabolic waste products and toxic materials are removed from the body of an organism. It's an essential part in life, because it ge … ts rid of all the poisons and etc. <P> Human waste is any substance your body does not need to maintain homeostasis. Excretion is the process of removing these unwanted products through either the skin, urinary system, respiratory system or gastrointestinal system. The primary organs involved in waste removal are liver, kidneys, lungs, intestines and skin. <P> Excretion is the removal of toxic materials, the waste products of metabolism and substance in excess of requirements from organisms. Metabolism is chemical reactions taking place inside cells, including respiration. The body excretes three main waste materials. <P> Excretion in plants and animals. Excretion is the removal of substances from plants, animals and other living organisms. In humans, the skin, lungs and kidneys are excretory organs. 1 1. 2 2. 3 3. 4 4. 5 5. 6 6. <P> Excretion is the process by which waste products of metabolism and other non-useful materials are eliminated from an organism. In vertebrates this is primarily carried out by the lungs, kidneys and skin. This is in contrast with secretion, where the substance may have specific tasks after leaving the cell. Excretion is an essential process in all forms of life. In mammals urine is carried out through the urethra and that is part of the excretory system. In single-celled organisms, waste products are discharged directly through the surface of the cell. Chemical structure of uric acid.
Toxic materials, the waste products of metabolism and substance in excess of requirements from organisms.
what is taxonomic system
<P> A hierarchical system is used for classifying organisms to the species level. This system is called taxonomic classification. The broadest classifications are by domain and kingdom; the most specific classification is by genus and species. The hierarchical groupings in between include phylum, class, family, and order. <P> Linnaeus's taxonomy system has two main features that contribute to its ease of use in naming and grouping organisms. The first is the use of binomial nomenclature. This means that an organism's scientific name is comprised of a combination of two terms. These terms are the genus name and the species or epithet. <P> The classification and naming of organisms in an ordered system that is intended to indicate natural relationships, especially evolutionary relationships. 2. The science, laws, or principles of classification. 3. An ordered arrangement of groups or categories: a taxonomy of literary genres. <P> The second feature of Linnaeus's taxonomy system that simplifies organism classification is the ordering of species into broad categories. The major categories include: Kingdom, Phylum, Class, Order, Family, Genus, and Species. These categories have been updated to include Domain in the taxonomic hierarchy. <P> 1. The classification and naming of organisms in an ordered system that is intended to indicate natural relationships, especially evolutionary relationships. 2. The science, laws, or principles of classification. 3. An ordered arrangement of groups or categories: a taxonomy of literary genres. <P> The classification system in biology is a system which helps scientists organize or name different things and types of objects and organisms. Taxonomy is the classification system for grouping and naming living things under their main domain category (see related questions about the Domain category of classification). <P> Best Answer: Taxonomy is the science of classifying organisms. The system currently used by taxonomists is called the Linnaean taxonomic system, in honor of Swedish biologist Carolus Linnaeus (1707 — 1778). The Linnaean system breaks down organisms into seven major divisions, called taxa (singular: taxon).
The science of classifying organisms.
higher education subsidies increase cost
<P> The federal government is currently spending approximately $80 billion per year on subsidies for higher education—a figure that almost exactly matches the combined higher-ed spending of the 50 legislatures. These subsidies can be broken up into three basic categories: direct subsidies, tax credits, and tax breaks. <P> Overview. The Department of Education spends about $30 billion a year on subsidies for higher education. The bulk of that funding goes toward student aid programs, with the balance going toward grants to educational institutions. Note that the figures for loans are the net amount of federal support, based on assumptions about loan repayments. The gross amount of loans is much larger—in fiscal 2008, the gross amount of loans was $110 billion. In recent years, Congress has expanded subsidies for higher education. The College Cost Reduction and Access Act of 2007 cut interest rates on federally subsidized loans in half, thus encouraging more student borrowing <P> Schools eligible for federal aid charged 75 percent higher tuition than schools that were not. He also cited a study by his own center that found a direct relationship between student loans and the cost of college. “In my judgment there is no doubt that the big run-up in student loans helped increase tuition,” he said. (CNSNews.com) – Education Secretary Arne Duncan told CNSNews.com Friday that when the federal government subsidizes the cost of tuition by loaning tax dollars to college students at low interest rates it does not cause an increase in the cost of college. <P> Since 1965, the federal government has provided increasing amounts of funding for higher education as grant and loan programs have been expanded, and new programs added. Federal aid for higher education soared from $10 billion in fiscal 2000 to $30 billion in fiscal 2008. Of the total $30 billion in 2008, $2.3 billion went toward higher educational institutions, including large shares to Gallaudet College and Howard University. Note that the figures for loans are the net amount of federal support, based on assumptions about loan repayments. The gross amount of loans is much larger—in fiscal 2008, the gross amount of loans was $110 billion. In recent years, Congress has expanded subsidies for higher education. The College Cost Reduction and Access Act of 2007 cut interest rates on federally subsidized loans in half, thus encouraging more student borrowing <P> The basic problem is simple: Give everyone $100 to pay for higher education and colleges will raise their prices by $100, negating the value of the aid. And inflation-adjusted aid--most of it federal--has certainly gone up, ballooning from $4,602 per undergraduate in 1990-91 to $12,455 in 2010-11.. Data from the Federal Reserve Bank of New York shows that over the past decade, student loan debt has increased by 281 percent, from about $260 billion in the first quarter of 2004 to $990 billion in the first quarter of 2013 and is now higher than the country's collective credit card debt. <P> Most would shift to private four-year schools.. In 2002, states spent about $66 billion on higher education subsidies, a substantial fraction of the $289 billion spent on U.S. post-secondary education. According to the National Center for Education Statistics, U.S. post-secondary expenditures were $19,220 per student, the highest in the world. <P> There are two rather different points of view used to account for rising tuition in public higher education. One is the market power model, presumably accepted by the president. It asserts that subsidies and grants to students increase demand, which gives colleges more ability to raise tuition. A working rule of thumb for this case is that listed tuition will rise by 50 cents and net tuition will drop by 50 cents for every dollar increase in the subsidy. Public universities, while possessing some pricing discretion, are not monopolies. <P> By Gary Fethke April 01, 2012. In a speech at the University of Michigan at Ann Arbor in January, President Obama called on public colleges that benefit from subsidies, grants, and government loans to rein in the tuition increases that have characterized higher education for well over a decade. A working rule of thumb for this case is that listed tuition will rise by 50 cents and net tuition will drop by 50 cents for every dollar increase in the subsidy. Public universities, while possessing some pricing discretion, are not monopolies.
50 cents every year.
how do i change facebook email address
<P> You can log into Facebook using any of the email addresses listed on your account. To add or remove an email address from your account: 1 Click at the top right of Facebook and select Settings. 2 Click Email. 3 Click Add another email to add a new email to your account or click Remove to delete an email from your account. 4 Enter your password. <P> You can change the email address we use to send you notifications from your General Account Settings: 1 Click at the top right of any Facebook page and select Settings. 2 Click Email, then click Add another email. 3 Enter the new email address. 4 Enter your password. 5 Click Save Changes. <P> You can change the email address we use to send you notifications from your General Account Settings: 1 Click at the top right of any Facebook page and select Settings. 2 Click Email, then click Add another email. 3 Enter the new email address. 4 Enter your password. 5 Click Save Changes.
1 Click at the top right of any Facebook page and select Settings. 2 Click Email, then click Add another email. 3 Enter the new email address. 4 Enter your password. 5 Click Save Changes.
what does the name skylar mean in scottish
<P> English Meaning: The name Skye is an English baby name. In English the meaning of the name Skye is: Refers to the Scottish Isle of Skye; a nature name referring to the sky. SoulUrge Number: 5. Expression Number: 6. People with this name have a deep inner desire for travel and adventure, and want to set their own pace in life without being governed by tradition. <P> It ranked 637 in popular baby names for boys with 409 occurrences. View the Skylar Name Popularity Page to see how the popularity trend for Skylar has changed since 1880, or to compare the popularity of Skylar to other names. Skylar is a variant spelling of Schuyler. Variants of the name Skylar include Skyler. Skylar is used as both a boys and girls name. It consists of 6 letters and 2 syllables and is pronounced Sky-lar. In the U.S. in 2014, it ranked 48 in baby name popularity for girls with 4732 occurrences. <P> The name Skyler or Skylar is an anglicized spelling of the surname and given name Schuyler. Schuyler was originally introduced as to America by 17th century as a Dutch surname by settlers arriving in New York. The spellings Skyler and Skylar came into fashion as either a masculine or feminine given name in the United States during the 1980s. <P> What does Skylar mean, popularity, numerology and more. The name Skylar is of Dutch origin. The meaning of Skylar is sheltering, scholar. It is also of English origin, where its meaning is protection, shelter. Skylar is used as both a boys and girls name. It consists of 6 letters and 2 syllables and is pronounced Sky-lar. In the U.S. in 2014, it ranked 48 in baby name popularity for girls with 4732 occurrences. <P> English names generally consist of a given name, middle name and family name. Many English speaking countries have fairly flexible naming laws. This allows the multicultural families that live in these countries to merge the naming conventions of their faiths or previous nationalities with their current homeland. Skylar is used as both a boys and girls name. It consists of 6 letters and 2 syllables and is pronounced Sky-lar. In the U.S. in 2014, it ranked 48 in baby name popularity for girls with 4732 occurrences. <P> Skylar /sky-lar/ [2 sylls.] as a name for boys (also used more generally as girls' name Skylar) is of Danish origin, and the name Skylar means scholar, protection; fugitive; giving shelter. Skylar is a version of Schuyler (Danish). Skylar is also a form of Skyler (Danish). Kreatif forms: Shalar, Skylarro, Skylom. Skylar has 1 feminine form: Skye. Skylar is a rare first name for males but a somewhat popular last name for both adults and children (#138741 out of 150436, Top 92%). (2000 U.S. Census). Shown below is the birth name popularity of Skylar for boys <P> Skye /skye/ [2 sylls.] as a girls' name (also used less regularly as boys' name Skye) is pronounced sky. It is of English origin. Sky and Skye are used as nicknames for Skyler and Skylar, as nature names, and possibly in reference to the Isle of Skye in Scotland. Kreatif forms: Saskye, Skyesa, Skyeta. Skye is a somewhat popular first name for females (#2353 out of 4276, Top 55%) and an even more popular last name for both adults and children (#59147 out of 150436, Top 39%). (2000 U.S. Census).
Isle of Skye.
what is a Core urine lab
<P> It is a high-volume lab that provides STAT and routine testing for Mayo Clinic Hospital, Saint Marys Campus and Mayo Clinic Hospital, Methodist Campus, Mayo Clinic outpatients, Mayo Medical Laboratories, and Clinical Trial clients. They provide services to the inpatients of Mayo Clinic Hospital, Saint Marys Campus and Mayo Clinic Hospital, Methodist Campus, outpatients from Mayo's primary and specialty care practices, pediatrics patients, nursing home patients, and Mayo employees. <P> The urinalysis is used as a screening and/or diagnostic tool because it can help detect substances or cellular material in the urine associated with different metabolic and kidney disorders. It is ordered widely and routinely to detect any abnormalities that require follow up. Often, substances such as protein or glucose will begin to appear in the urine before people are aware that they may have a problem. It is used to detect urinary tract infections (UTIs) and other disorders of the urinary tract. In those with acute or chronic conditions, such as kidney disease, the urinalysis may be ordered at intervals as a rapid method to help monitor organ function, status, and response to treatment. ^ Back to top <P> A: LabCorp performs initial drug screening using immunoassay. An immunoassay is a test that uses antibodies to detect the presence of drugs and other substances in urine. The initial screening process does not measure the specific amount of drug present in urine samples. It provides either a positive or negative result, indicating the presence or absence of detectable drug <P> The Division of Clinical Core Laboratory Services is a diverse group of 10 laboratories dedicated primarily to the support of the Mayo Clinic practice in Minnesota. Its activities include specimen collection, processing, analysis and reporting for approximately 8.9 million procedures annually. They provide services to the inpatients of Mayo Clinic Hospital, Saint Marys Campus and Mayo Clinic Hospital, Methodist Campus, outpatients from Mayo's primary and specialty care practices, pediatrics patients, nursing home patients, and Mayo employees. <P> Overview. Today, laboratory testing is performed in many different settings – from the large reference lab that performs complex kinds of tests to your own home, where you might do a pregnancy test or monitor your blood glucose levels. Many of us, however, may wonder where our tests actually are performed. <P> DESCRIPTION: This Urine Drug Test (10‐Panel) will determine the presence or absence of 10 types of drugs or their metabolites in your urine. This test is a laboratory-based test, and includes a screen and a confirmation if necessary. The levels listed below indicate the cut off level for a negative or positive result. Test results are reported as negative or positive. If your drug metabolite level is higher than the cutoff level, your test will indicate a positive result. Below are the test cutoff levels for the 10 drug metabolites and the approximate time they can be detected in your urine. <P> Central Clinical Laboratory. The Central Clinical Laboratory (CCL) is a highly automated, high-volume core laboratory which provides testing for Mayo Clinic Hospital, Methodist Campus and Mayo Clinic Hospital, Saint Marys Campus, Mayo Clinic outpatients, Mayo Medical Laboratories, and Clinical Trials clients. They provide services to the inpatients of Mayo Clinic Hospital, Saint Marys Campus and Mayo Clinic Hospital, Methodist Campus, outpatients from Mayo's primary and specialty care practices, pediatrics patients, nursing home patients, and Mayo employees. <P> Urinalysis. Core Laboratory Supplies offers a full line of urinalysis testing products including urine reagent strips, urinalysis analyzers and products for microscopic urine examination. Our urinalysis reagent products are CLIA waived and can be used in any size lab.
It Supplies offers a full line of urinalysis testing products including urine reagent strips, urinalysis analyzers and products for microscopic urine examination.
what is access mode in cobol
<P> Syntax. Following is the syntax to read the records when the file access mode is sequential: Following are the parameters used: NEXT RECORD is optional and is specified when an indexed sequential file is being read sequentially. Write statement can be used with FROM option to directly write records from the working storage variables. From is an optional clause. If the access mode is sequential, then to write a record,s the file must open in Output mode or Extend mode. <P> Explore COBOL calls Assembler for VSAM, KSDS Access for an example of a COBOL program calling an Assembler I/O routine. The COBOL program is written using the COBOL/2 dialect but also work with COBOL for MVS and COBOL/370. The Assembler program was written using Assembler/H on the mainframe. Explore COBOL calls COBOL for VSAM, KSDS Access for an example of a COBOL program calling a COBOL I/O routine. The COBOL program is written using COBOL/2 dialect but also works with COBOL for MVS, COBOL/370 and COBOL for 390. A JCL member is provided to run the job as an MVS or ZOS batch job on an IBM mainframe or as a project with Micro Focus Mainframe Express (MFE) running on a Windows System. <P> The result is a single Assembler routine which is called from COBOL to access any VSAM dataset in any valid combination of dataset organization, access, and mode. Anyone who really wants to do anything worthwhile with COBOL, even if it is just a beginner learning to write some COBOL, cannot be pleased that the COBOL compiler we have available to us (the one bundled in with MVT), cannot handle VSAM files directly. <P> The DATA DIVISION of a COBOL (sub)program contains two sections, the FILE SECTION and the WORKING-STORGAGE SECTION. The latter is used to describe, via data description entries (level numbers, PICTURE clauses, etc.), the hierarchical structure of data items that exist during execution of the program. Random Access form of READ, WRITE, and REWRITE for INDEXED files. 1 Place desired value into the key field (in the file's data record). 2 Place desired contents into file's data record (or the data item specified in the FROM clause). <P> So I sat down with a matrix of organization, access type, and mode that is available with a modern COBOL compiler and did some research to see how I could provide most of this functionality to the ancient compiler we had available. Anyone who really wants to do anything worthwhile with COBOL, even if it is just a beginner learning to write some COBOL, cannot be pleased that the COBOL compiler we have available to us (the one bundled in with MVT), cannot handle VSAM files directly. <P> Sequential Access Mode. For an indexed or relative file in sequential access mode, 1 When the DELETE statement is processed, the system logically removes the record retrieved and locked by the READ statement. 2 for information about file and record locking. If the last input/output statement was a successfully processed READ statement with the NO LOCK phrase: 1 The file status key, if defined, is set to 9S. 2 The EXCEPTION/ERROR procedure, if any, is run. 3 The DELETE statement is not processed.
Reading a file by using the NEXT phrase on the READ statement.
where was tom thumb born
<P> USA. The celebrated little person was married on February 10th, 1863. The wedding photo of Charles Sherwood Stratton (Tom Thumb) and Lavinia Warren. Charles Sherwood Stratton seemed a perfectly normal baby when he was born in Bridgeport, Connecticut in 1838, but from the age of six or seven months he stopped growing. <P> Meet the world's most premature baby boy: The incredible 'Tom Thumb', who at 25 weeks weighed less than a can of Coke. <P> 'Tom Thumb' 9.7oz (275g) - Germany-June 2009. This baby boy born after a mere 25 weeks he is so small that the tape measure laid next to him is bigger than his limbs, as a result of his size, the team treating him in G ttingen, Germany nicknamed him 'Tom Thumb'. 9.7 ounces (275 grammes). 'Tom Thumb' 9.7oz (275g) - Germany-June 2009 This baby boy born after a mere 25 weeks he is so small that the tape measure laid next to him is bigger than his limbs, as a result of his size, the team treating him in G ttingen, Germany nicknamed him 'Tom Thumb'. <P> Meet 'Tom Thumb,' the 25-week-old baby boy who weighed a mere 9.7 ounces at birth-less than a can of soda. Doctors believe the baby is likely to be the smallest premature boy to have survived in the world. He was born 15 weeks early at the University of Gottingen, in western Germany, in June. <P> German doctors have revealed photographs of the smallest premature baby boy to have survived against incredible odds after being born at 25 weeks weighing just over half a pound. A boy weighing only 275 grams after being born at University Hospital Goettingen in Germany is the world's lightest ever to have survived a premature birth Photo: EPA. By Allan Hall in Berlin. <P> Barnum’s dream was for Queen Victoria to see General Tom Thumb. A command performance was arranged, and General Tom Thumb and Barnum were invited to visit Buckingham Palace and perform for the Queen and her family. Continued Success and a Celebrity Wedding. General Tom Thumb continued performing, and in 1856 embarked on a cross-country tour of America. A year later, along with Barnum, he again toured Europe. He began to grow again during his teens, but very slowly, and he eventually reached a height of three feet. <P> A fairy tale of the Brothers Grimm Grimm. 8.2 / 10 - 211 votes. Tom Thumb. There was once a poor countryman who used to sit in the chimney-corner all evening and poke the fire, while his wife sat at her spinning-wheel. <P> Mini Bio (1). Tom Thumb was born on January 4, 1838 in Bridgeport, Connecticut, USA as Charles Sherwood Stratton. He was married to Lavinia Warren. He died on July 15, 1883 in Middleboro, Massachusetts, USA.
Bridgeport, Connecticut, USA.
what is seed germination
<P> For non-dormant seeds, germination starts when a seed is provided with water as long as the temperature is appropriate. The uptake of water by dry seed is called imbibition (imbibition means to drink: seeds imbibe water, you do not imbibe seeds). <P> SEED GERMINATION. A seed contains an embryonic plant in a resting condition, and germination is its resumption of growth. Seeds will begin to germinate when the soil temperature is in the appropriate range and when water and oxygen are available. <P> Seed Germination. After the seed has made it to a new location and is covered with dirt, it can begin germination. Germination is the process of seeds developing into new plants. First, environmental conditions must trigger the seed to grow. Usually, this is determined by how deep the seed is planted, water availability, and temperature. When water is plentiful, the seed fills with water in a process called imbibition. The water activates special proteins, called enzymes, that begin the process of seed growth. First the seed grows a root to access water underground <P> Germination is the process by which a seed grows into plant. In botany and gardening, it is used to reproduce certain genre of plants. <P> Germination is the process by which a plant grows from a seed. The most common example of germination is the sprouting of a seedling from a seed of an angiosperm or gymnosperm. In addition, the growth of a sporeling from a spore, such as the growth of hyphae from fungal spores, is also germination. Germination is the growth of a plant contained within a seed; it results in the formation of the seedling. The seed of a vascular plant is a small package produced in a fruit or cone after the union of male and female reproductive cells. <P> Germination is the process whereby growth emerges from a period of dormancy. The most common example of germination is the sprouting of a seedling from a seed of an angiosperm … or gymnosperm. However, the growth of a sporeling from a spore, for example the growth of hyphae from fungal spores, is also germination. Germination starts when the seed absorbs water from the environment. The embryo then uses … its stored food to grow, first the embryo's roots start to grow downward. After that, the stem starts to grow upward and leaves begin to form. Once you can see the plant's leaves, it is a seedling. <P> Germination is when a seed of some sort starts to sprout. It can be done in the soil or in a wet paper towel. It is the development of a seedling from a seed. For germination, seeds require water, warmth, air, and of course soil. During germination, the following steps are noted: 1. The seed absorbs water until it swells and smoothens its exterior wrinkles. Germination starts when the seed absorbs water from the environment. The embryo then uses … its stored food to grow, first the embryo's roots start to grow downward. After that, the stem starts to grow upward and leaves begin to form. Once you can see the plant's leaves, it is a seedling. <P> 1 Germination is a process when the seed develops into a seedling. 2 The seeds that germinate have an embryo inside it that grows into a new plant. 3 The process of germination starts with the seed absorbing water. 4 The absorption of water activates an enzyme that increases respiration. More About Seed Germination. 1 <P> Supplement. Germination in plants is the process by which a dormant seed begins to sprout and grow into a seedling under the right growing conditions. In bacteria or fungi, germination is the process in which a spore begins to grow vegetative cells, and sporeling hyphae. Related forms: germinate (verb).
Germination is a process when the seed develops into a seedling.
what is an officer billet
<P> The Candidate Company Commander is the senior-ranking candidate billet in the company. He/she will wear the insignia of a captain. The candidate Company Commander is responsible for the internal functioning of the company. (2) Be familiar with the duties of ALL subordinate billet holders and, while utilizing the candidate chain of command, properly supervise them in the execution of their duties. (3) Comply with, and carry out, the training schedule. (4) Maintain a company log book with a chronological record of events and action taken. <P> Several terms should be defined before I go further. A billet is a position like Platoon Commander, Company Commander, Executive Officer, Squad Leader and so on. An Occupation is a field of specialty, like Infantry, Supply, Finance and so on. Although a Captain staffs the billet of Company Commander, this is not always a rule. A Platoon grade officer usually has a Staff level non-commissioned officer to help him with the platoon (Staff Sergeant); a company level officer has a Staff NCO to help him (First Sergeant). In between these two Sergeant levels is the Gunnery Sergeant. <P> Several terms should be defined before I go further. A billet is a position like Platoon Commander, Company Commander, Executive Officer, Squad Leader and so on. An Occupation is a field of specialty, like Infantry, Supply, Finance and so on. Although a Captain staffs the billet of Company Commander, this is not always a rule. If there are not enough of a certain rank then a senior member of a lower rank is assigned to that billet. Billets. The military, like any organization, has different positions within its organizational structure. NCO’s or Non Commissioned Officers are not brutes who bully the lower rankers into obeying orders. Officers are not the only ones who make tactical decisions. <P> **EFM Status MUST be updated before order negotiations can begin**. Billets. Each designator is listed by Homeport and encompasses all valid billets. Job Openings. Only jobs that are available, with no one ordered or penciled in over the next 15 months are displayed. This will be updated monthly, so call your detailer to confirm availability and negotiate orders when in your detailing window. <P> A billet is a term for living quarters to which a soldier is assigned to sleep. Historically, it referred to a private dwelling that was required to accept the soldier. Billet can also refer to the position and weapons of the members of a unit. For example, the billets of a fireteam include a fireteam leader (M16), a rifleman (M16), an automatic rifleman (M249), and a grenadier (M16 with M203 grenade launcher). <P> Split and merge into it. Answered by The Community. Making the world better, one answer at a time. A billet is where a soldier is assigned to sleep, such as in barracks or garrisons. During World War 2, it originally meant a note issued by a billeting officer to a soldier, directing him to his living quarters. … Billet is formed by taking an ingot and applying uniform pressure on the surface to compact and redirect the microscopic crystalline structure of the metal. This process provides a much denser alloy as it can remove tiny imperfections due to the nature of casting. <P> (NAVPERS 16,486). Descriptions of the duties, responsibilities, and performance requirements of enlisted billets for use as a guide in selection, training, classification, and shipboard assignment of destroyer personnel. The basic information for these billet descriptions was gathered by Billet Analysts who, under operating conditions, observed men at work and interviewed them and their officers aboard four 1630 ton, twelve 2100 ton, and ten 2200 ton destroyers. <P> Originally, a billet (from the French) was a note, commonly used in the 18th and early 19th centuries as a billet of invitation.. A particular use of the word in this sense is to denote an order issued to a soldier entitling him to quarters with a certain person. Billet can also refer to the position and weapons of the members of a unit. For example, the billets of a fireteam include a fireteam leader (M16), a rifleman (M16), an automatic rifleman (M249), and a grenadier (M16 with M203 grenade launcher). <P> In Marine infantry companies and larger units, the command structure consists of the commander, the senior NCO, and the executive officer. The senior NCO – the first sergeant in a company, or a sergeant major in larger units – is the commander’s chief advisor on all matters related to the enlisted personnel.
A billet is a position like Platoon Commander, Company Commander, Executive Officer, Squad Leader and so on. An Occupation is a field of specialty, like Infantry, Supply, Finance and so on.Although a Captain staffs the billet of Company Commander, this is not always a rule. If there are not enough of a certain rank then a senior member of a lower rank is assigned to that billet.illets. The military, like any organization, has different positions within its organizational structure. NCO’s or Non Commissioned Officers are not brutes who bully the lower rankers into obeying orders. Officers are not the only ones who make tactical decisions.
GCSE what is the anaerobic respiration system
<P> 1 Respiration-The process by which complex organic molecules are broken down to release energy. 2 Aerobic respiration-Requires oxygen to fully oxidise the organic molecule. 3 This releases lots of energy. 4 Anaerobic respiration-The breakdown of the molecule without oxygen. <P> There are two systems within Anaerobic metabolism, which are the ATP-PC system and the lactic acid system. ATP-PC System. ATP as already discussed is a high energy molecule which is broken down to form ADP and release energy. PC or Phosphocreatine is another high energy molecule, found in the Sarcoplasm of muscle fibres. Due to lactic acid production, this energy system can only be predominant for up to 2 minutes. Following anaerobic exercise, despite the metabolic process used not requiring oxygen, your body will be in Oxygen Debt and so your respiration rate will be very high. <P> This process is called fermentation and is showed by the following equation: Enzymes C6H12O6 2C2H5OH + 2CO2 + 118 kJ glucose alcohol + Carbon + energy Dioxide The waste products of anaerobic respiration by yeast have been put to use for many hundreds, if not thousands, of years. Energy In Food Introduction: Anaerobic Respiration The word anaerobic means 'in the absence of oxygen'. What is anaerobic Respiration? Anaerobic Respiration is the ability to obtain energy from food without the use of oxygen. Some organisms can survive for a long time without the supply of energy, i.e. Bacteria <P> Submitted by Anonymous on. Sometimes animal and plant cells cannot get enough oxygen to carry out aerobic respiration. But they still need to obtain energy to stay alive. So they use an emergency system of reactions, that is anaerobic respiration. When you sprint for a bus, your muscles use so much oxygen that you cannot supply it in time. This way of getting energy is not as efficient as aerobic respiration and it also leaves a poisonous chemical, lactic acid. This stops your muscles working and they get sore. When you stop the lactic acid is slowly destroyed but that needs oxygen.The amount of oxygen you need for this is called the ' oxygen debt '. <P> Unit 2 - Aerobic Respiration. Aerobic respiration occurs in the presence of oxygen and gives a greater yield of energy than anaerobic respiration. Glucose reacts with oxygen to release energy and give carbon dioxide and water <P> Respiration is the release of energy from glucose in the muscles. When the body is at rest this is aerobic aerobic: With oxygen. respiration. As you exercise you breathe harder and deeper and the heart beats faster to get oxygen to the muscles. Glucose + oxygen → energy + water + carbon dioxide. When exercising very hard, the heart cannot get enough oxygen to the muscles. Respiration then becomes anaerobic anaerobic: Without oxygen. . Glucose → energy + lactic acid. See the 'Exercise and Training' revision bite for information about aerobic and anaerobic fitness and training. Page: 1 1. <P> Respiration is a series of reactions in which energy is released from glucose glucose: A simple sugar made by the body from food, which is used by cells to make energy in respiration. Aerobic respiration is the form of respiration which uses oxygen. It can be summarised by this equation: glucose + oxygen → carbon dioxide + water (+ energy). Energy is shown in brackets because it is not a substance. Notice that: 1 Glucose and oxygen are used up. 2 Carbon dioxide and water are produced as waste products. Aerobic respiration happens all the time in the cells of animals and plants. Most of the reactions involved happen inside mitochondria, tiny objects inside the cytoplasm of the cell. The reactions are controlled by enzymes [enzyme: A protein which speeds up chemical reactions. ] . Page: 1 1. 2 2. 3 3. 4 4. 5 Next. <P> The anaerobic energy system provides energy in the absense of Oxygen. This is used in the first few minutes of all exercise, before there is suffiecient oxygen available at the muscles for aerobic metabolism. Due to lactic acid production, this energy system can only be predominant for up to 2 minutes. Following anaerobic exercise, despite the metabolic process used not requiring oxygen, your body will be in Oxygen Debt and so your respiration rate will be very high.
Aerobic respiration occurs in the presence of oxygen and gives a greater yield of energy than anaerobic respiration.
what does gape mean
<P> The noun GAPE has 2 senses: 1. an expression of openmouthed astonishment. 2. a stare of amazement (usually with the mouth open). Familiarity information: GAPE used as a noun is rare. • GAPE (verb). The verb GAPE has 2 senses: 1. look with amazement; look stupidly. 2. be wide open. Familiarity information: GAPE used as a verb is rare. <P> A large opening. gape (Noun). A disease in poultry caused by gapeworm in the windpipe, a symptom of which is frequent gaping. gape (Noun). The width of the mouth (of a bird, fish, etc.) when it is open. gape (Verb). To open the mouth wide, especially involuntarily, as in a yawn, hunger, or surprise. Princeton's WordNet (0.00 / 0 votes) Rate this definition: gape (noun). an expression of openmouthed astonishment. gape (verb). a stare of amazement (usually with the mouth open). goggle, gape, gawp, gawk (verb). look with amazement; look stupidly. gape, yawn, yaw (verb). be wide open. the deep gaping canyon <P> gape. 1. to stare with open mouth, as in wonder. 2. to open the mouth wide involuntarily as the result of hunger, sleepiness, or absorbed attention. 3. to split or become open wide. gape. intr.v. gaped, gap·ing, gapes. 1. To open the mouth wide. 2. To stare wonderingly or stupidly, often with the mouth open. See Synonyms at gaze. 3. To be or become open or wide: Holes gaped in the ceiling. n. <P> Full Definition of GAPE. intransitive verb. 1. a: to open the mouth wide. 2. : to gaze stupidly or in openmouthed surprise or wonder. 3. : yawn. — gap·ing·ly \ˈgā-piŋ-lē, ˈga-piŋ-\ adverb. <P> You hear many pastors, teachers, intercessors, etc. using the phrase standing in the gap when referring to praying for others; but my experience is that many praying people don't really understand the meaning of that phrase or what it has to do with intercession. The word intercede comes from the Latin inter meaning between and ced meaning go. So it literally means go between. Think of a brick wall, in particular, the mortar in the joints between the bricks. That mortar goes between, or intercedes, between the bricks to bind them together and strengthen them. <P> Other ancient authors have used forms of the word to denote love of a spouse or family, or affection for a particular activity, in contrast to philia (an affection that could denote friendship, brotherhood or generally non-sexual affection) and eros, an affection of a sexual nature. In the New Testament the word agape is often used to describe God's love. However, other forms of the word agape (such as the various forms of the verb agapaō) are at times used in a negative context. <P> Howdy, everyone. I know a gaping hole literally means a deep and wide open hole, but I don't know what a gaping hole metaphorically refers to in the sentence Somewhere in your childhood is a gaping hole. Fill the hole..
Look with amazement.
branding meaning
<P> A brand is a product, service, or concept that is publicly distinguished from other products, services, or concepts so that it can be easily communicated and usually marketed. A brand name is the name of the distinctive product, service, or concept. Branding is the process of creating and disseminating the brand name. Branding can be applied to the entire corporate identity as well as to individual product and service names. <P> Definition of BRANDING. : the promoting of a product or service by identifying it with a particular brand. ADVERTISEMENT. <P> The company counted the branding campaign a success when their product became a household name and surveys indicated they had a loyal base of customers. 4 people found this helpful. If your are starting a new company one of the most important things you can do is make sure to get the correct branding.
The promoting of a product or service by identifying it with a particular brand.
what is predislocation syndrome
<P> Similarly, you can have very specific pain at the second toe joint. If you have a sharp pain on the bottom of the second toe joint, you may be suffering from a common condition called “predislocation syndrome.” As the name suggests, the condition is a syndrome that occurs before the toe joint begins to dislocate. The treatments for predislocation syndrome typically target the inflammation and reduce the stress on the plantar plate. Taping and splinting the toe to reduce the stress on the joint is critical. Your foot doctor will do this for you <P> Treatment of Predislocation Syndrome. The good news about predislocation syndrome is that it can often be treated quickly and without surgery. Although crutches, fracture walking boot s and below-the-knee casts can help speed healing, these are not always needed. The treatments for predislocation syndrome typically target the inflammation and reduce the stress on the plantar plate. Taping and splinting the toe to reduce the stress on the joint is critical. Your foot doctor will do this for you <P> Predislocation Syndrome. Predislocation syndrome is a slowly progressing condition where the structures that hold the joint of your second toe stable begin to degenerate. As a result, you will experience frequent pain, burning in nature, in the ball of your foot that results from inflammation of the joint structures. Predislocation syndrome occurs prior to the toe joint actually dislocating. Walking barefoot typically becomes uncomfortable, particularly on hard surfaces, like wood or tile floors. Sometimes you will notice your second toe has “migrated,” or moved a bit to the left or right. <P> You may have Predislocation Syndrome if: 1 Your foot pain is in the ball of the foot. 2 Pain is worse when you stand on your toes. 3 Pain is worse barefoot, and walking on hard surfaces. 4 No history of trauma or injury. The treatments for predislocation syndrome typically target the inflammation and reduce the stress on the plantar plate. Taping and splinting the toe to reduce the stress on the joint is critical. Your foot doctor will do this for you <P> This inflammation causes considerable discomfort and, if left untreated, can eventually lead to a weakening of surrounding ligaments that can cause dislocation of the toe. Capsulitis—also referred to as predislocation syndrome—is a common condition that can occur at any age. Causes It is generally believed that capsulitis of the second toe is a result of abnormal foot mechanics, where the ball of the foot beneath the toe joint takes an excessive amount of weight-bearing pressure. <P> Predislocation syndrome in the foot describes a painful condition involving the 2nd metatarsal phalangeal joint. This joint, found at the base of the 2nd toe, can develop a painful inflammatory condition that leads to joint dislocation and damage. The symptoms of predislocation syndrome often include swelling and warmth under the base of the 2nd toe, with pain to pressure under the ball of the foot at this site. A hammertoe deformity of the 2nd toe is usually present with this condition, and it actually worsens as the condition progresses <P> Generally speaking, predislocation syndrome causes ongoing pain and discomfort in the ball of the foot that is severe enough to disrupt your everyday life. Exercising becomes more difficult and painful; sometimes just walking across the floor can become a real challenge. Predislocation syndrome occurs prior to the toe joint actually dislocating. Walking barefoot typically becomes uncomfortable, particularly on hard surfaces, like wood or tile floors. Sometimes you will notice your second toe has “migrated,” or moved a bit to the left or right. <P> Predislocation syndrome is a common foot ailment and although just about anyone can develop the condition, it is more common in people with a shortened first toe (big toe), and an elongated second toe that extends beyond the big toe. Predislocation syndrome occurs prior to the toe joint actually dislocating. Walking barefoot typically becomes uncomfortable, particularly on hard surfaces, like wood or tile floors. Sometimes you will notice your second toe has “migrated,” or moved a bit to the left or right.
Predislocation syndrome is a slowly progressing condition where the structures that hold the joint of your second toe stable begin to degenerate.
cost to build wall
<P> 1 Costs will vary widely. 2 The Wall-for a cast in place (concrete) retaining wall with a vertical face, installed on no more than a 33 degree slope with a level embankment, at 6' high (including excavation and backfill) the cost will be $12,800. 1 <P> If Donald Trump were to build a wall along the United States' southern border, it would cost billions. The U.S. border with Mexico is roughly 2,000 miles long and underlines four states from California to Texas. The actual cost for the rest of the border wall (roughly 1,300 miles) could be as high as $16 million per mile, with a total price tag of $15 billion to $25 billion. <P> 1 Hiring someone to build an L-shaped partition wall 8 feet high and 18-20 feet long could run $400-$1,500 or more for labor and materials depending on the complexity of the project, local labor rates and the quality of materials used. What should be included: Shopping for a partition wall: 1 Building a partition wall is a basic home carpentry project that requires a moderate level of skills. 2 Interior partition walls are usually built with 2x4s, but in some situations may be constructed with 2x6 lumber. <P> 1 When the wall is increased to 8' in height the cost will average at $13,700, and when the height is bumped up to 10' the cost increases to $19,900. 2 Estimates and quotes-like many other major construction projects it is advisable to seek out estimates from a range of providers. 1 The Wall-for a cast in place (concrete) retaining wall with a vertical face, installed on no more than a 33 degree slope with a level embankment, at 6' high (including excavation and backfill) the cost will be $12,800. <P> A 100 foot stucco wall will cost about $3.61 per square foot to build. This means the entire price of the wall is about $361. Well, the average cost of building a home is about $80.00 per sq ft, but really there is no easy way to determine this until quite a few variables are known. For example, the … location that you are in, design of the home, and the size of the home. <P> Get an INSTANT estimate of the cost to Frame an Interior Wall! Our free calculator uses recent, trusted data to estimate costs for your Interior Wall Framing project. For a basic 125 square feet project in zip code 47474, the benchmark cost to Frame an Interior Wall ranges between $3.03 - $3.74 per square foot* . 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. 2. <P> The U.S. government would have to pay to maintain the wall, which could cost as much as $750 million a year, according to an analysis conducted by Politico. And then if it wanted to man it with personnel, that would be an additional cost — border patrol has an operating budget of $1.4 billion for 21,000 agents. The actual cost for the rest of the border wall (roughly 1,300 miles) could be as high as $16 million per mile, with a total price tag of $15 billion to $25 billion. <P> 1 Do-it-yourself materials cost about $10-$15 a square face foot. 2 ThisOldHouse.com provides a video showing how to build a block wall, calling the project challenging and estimating it will take two people 8-10 hours for a low wall 10-16 feet long. 1 Hiring an engineer to help design a retaining wall can run about $200-$500 or more, depending on the complexity and extent of the project. 2 Hiring an engineer is strongly recommended for walls over 3 feet high. <P> According to a Government Accountability Office 2009 report, the cost to build 1 mile of fencing at the border averaged between $2.8 million and $3.9 million. But that figure may be low relative to costs for future sections of the wall. The actual cost for the rest of the border wall (roughly 1,300 miles) could be as high as $16 million per mile, with a total price tag of $15 billion to $25 billion. <P> 1 Do-it-yourself supplies for building a partition wall can run $150-$500 or more for an 8-foot high L-shaped wall about 18-20 feet long, depending on local lumber prices and the materials used, such as drywall or beadboard. 2 The higher cost range may include a simple prehung door. What should be included: Shopping for a partition wall: 1 Building a partition wall is a basic home carpentry project that requires a moderate level of skills. 2 Interior partition walls are usually built with 2x4s, but in some situations may be constructed with 2x6 lumber.
$15 billion to $25 billion.
what is bean straw
<P> The bean straw bales come in what is considered 'standard small bales' out of the paddock. Each bale is approximately 1 metre in length x 35 cm height x 50 cm width. <P> 1 Response. I don't think any research has been done on bean straw specifically. However, like most other straw, it is a good bedding source and as long as horses have plenty of good quality hay to eat they should not be consuming the straw. If they do consume the straw in small quantities it should not be a problem. <P> The Straw, the Coal, and the Bean The tale of The Straw, The Coal, and The Bean is a truly interesting and thought-provoking tale from the Brothers Grimm. <P> Although the end result of The Straw, The Coal, and The Bean can contain a sense of bewilderment for those that read it, this is a testament to how the initial friendship of the Straw, Coal, and Bean ends in a failed comedic journey and an unignorable sense of irony. <P> Bean straw is a commonly used garden mulch with numerous benefits. These include: Water Saving: Generous use of bean straw mulch can reduce watering by 60%. Bean straw mulch prevents loss of soil moisture by evaporation, but still allows rain to penetrate to the soil. <P> Pea straw is the most common type of pea forage. Its protein content is variable: values in the 5-10% DM range (Leclerc, 2003) and in the 10-15% DM range have been reported. The NDF content is about 53-63% DM (Borreani et al., 2007). It is also rich in minerals (7-12% DM), notably calcium (1.5-2%) (Leclerc, 2003). <P> Can bean straw be put out for horses? They have regular hay, to eat, but thought maybe they could use the bean straw to lay on. Also wanted to put it in the building they go into to give the floor some cushion. Will it hurt them if they eat it? <P> Bean straw is the stem of the Faba bean plant which provided beans for stock feed. Once the beans have been harvested, the remaining plant matter is packaged into small manageable square bales. <P> It is important to create a continuous covering with bean straw mulch so that the soil is not visible. Ideally a minimum ground covering of approximately 50 mm - 80 mm is desirable. However, we recommend that you don't hold back, as creating a thick layer is an excellent method to retain soil moisture. <P> I don't think any research has been done on bean straw specifically. However, like most other straw, it is a good bedding source and as long as horses have plenty of good quality hay to eat they should not be consuming the straw.
Bean straw is a commonly used garden mulch with numerous benefits.
how much do commissioning engineers make
<P> According to the website iSeek.com, a partner of the Minnesota State Colleges and Universities System, building commissioning engineers earn a median hourly wage of $35.19. The average annual salary for this position is $73,195. Nearly 250 of these participants indicated that they earned between $90,000 and $100,000 per year. Slightly fewer respondents gave their salary range between $80,000 and $90,000 per year, while roughly 200 of the 2,000 surveyed indicated their annual earnings were between $70,000 and $80,000. <P> Salaries. Although their salaries could exceed $125,810 per year or fall to less than $52,990 annually, electrical engineers earned an average yearly $85,350 as of May 2011, according to the Bureau of Labor Statistics. Locations. Electrical engineers looking for the highest pay in 2011 worked in Massachusetts to earn a mean annual $102,160. Other states with the highest mean annual wages were Alaska at $96,240, California at $95,370 and the District of Columbia at $92,840. The BLS classified this district with states. <P> How much does a mechanical engineer make? The U.S. Bureau of Labor Statistics (BLS) reports that in 2012, the median mechanical engineer salary was $38.74 an hour, or about $80,500 a year. According to the BLS, most mechanical engineers work full time, though some work in excess of 60 hours a week. <P> As of May 2012, the average annual mechanical engineer salary is $84,770, which translates to a mean hourly wage of $40.75. Percentile wage estimates suggest that the lowest ten percent earns $52,030, while the top ten percent receives an average salary of $121,530. In other words, the 80,420 engineers employed in this field earned an average hourly wage of $50.39. The bottom ten percent earns $65,450, while the top ten percent of aerospace engineers earns an outstanding average annual salary of $149,120. <P> Commissioning engineers ensure that all aspects of a building or construction project are properly designed, installed, tested and maintained. They perform troubleshooting tasks, monitor progress, perform tests, conduct audits, assist in financial improvements, write reports and assist clients. Step 1: Earn a Bachelor's Degree. Prospective commissioning engineers should consider enrolling in a bachelor's degree program in electrical, mechanical or civil engineering. <P> Average For AEE Members. In a 2011 survey by the Association of Energy Engineers, of AEE, members reported an average salary of $96,683 per year. In 2009, respondents to this same survey indicated an average annual salary of $95,865. These figures reflect base salary only, and do not include bonuses or overtime. Nearly 250 of these participants indicated that they earned between $90,000 and $100,000 per year. Slightly fewer respondents gave their salary range between $80,000 and $90,000 per year, while roughly 200 of the 2,000 surveyed indicated their annual earnings were between $70,000 and $80,000.
$40,800 to $194,000.
what is goldenhar syndrome
<P> Cause of Goldenhar Syndrome. Goldenhar Syndrome is a congenital disease, meaning that it is present in infants when they are born. The cause is an abnormality in a chromosome, and because the disease tends to occur in just one person in a family, it is usually not inherited. <P> Goldenhar Syndrome is a rare birth defect characterized by. abnormal prenatal development of the head and face. Common features include missing ears and malformations of. the jaw, eye, vertebrae, mouth and palate. <P> Goldenhar syndrome is a craniofacial syndrome, which means that it causes certain abnormalities in the formation of the face and head. It is considered a rare disease and a congenital one, meaning it is present at birth. Goldenhar is present in just one out of every 3500 to 25,000 babies at birth (Medscape, 2011). Goldenhar Syndrome is a congenital disease, meaning that it is present in infants when they are born. The cause is an abnormality in a chromosome, and because the disease tends to occur in just one person in a family, it is usually not inherited. <P> Goldenhar syndrome (also known as Oculo-Auriculo-Vertebral (OAV) syndrome) is a rare congenital defect characterized by incomplete development of the ear, nose, soft palate, lip, and mandible. <P> Among the syndromes that we treat, Goldenhar syndrome, otherwise known as Oculo-Auriculo-Vertebral (OAV) syndrome, is a condition present from birth that mostly affects the development of the ears, nose, soft palate, lip, and mandible. Goldenhar Syndrome Treatment in Dallas, TX. Goldenhar syndrome is a rare condition that can affect multiple areas of the face and mouth. <P> 0. Synonyms: hemifacial microsomia, oculo-auriculo-vertebral dysplasia, oculo-auriculo-vertebral spectrum. Goldenhar's syndrome is a birth defect resulting from the maldevelopment of the first two branchial arches, with incomplete development of the ear, nose, soft palate, lip and mandible. The phenotype is highly variable. <P> Goldenhar Syndrome. Goldenhar syndrome is a rare congenital condition characterized by abnormal development of the eye, ear and spine. Children with Goldenhar syndrome are born with partially formed or totally absent ears, benign growths of the eye, and spinal deformities such as scoliosis. Goldenhar is also known as oculo-auriculo-vertebral spectrum or OAV, and affects one in every 3,000-5,000 births. <P> Goldenhar syndrome is a congenital (present at birth) disorder that causes problems with eye and ear structure and spinal development. In babies with Goldenhar syndrome, bones in the face don’t grow normally during fetal development.
A rare congenital defect characterized by incomplete development of the ear, nose, soft palate, lip, and mandible.oldenhar syndrome.
what is bv in company
<P> A BV' is a private company with limited liability; in Dutch: Besloten Vennootschap met beperkte aansprakelijkheid. In comparison to other jurisdictions, the BV has similar features as the German GmbH, the American LLC, or the English Ltd. The BV has legal personality and it has an equity divided into shares. Minimum capital requirement for a Dutch BV. The minimum capital requirement for a Dutch BV has been abolished per 1 October 2012. As soon as the incorporation procedure is started up, it is already possible to do business in the name of the BV. <P> Bacterial vaginosis is a mild infection of the vagina caused by bacteria. Normally, there are a lot of good bacteria and some bad bacteria in the vagina. The good types help control the growth of the bad types. In women with bacterial vaginosis, the balance is upset. There are not enough good bacteria and too many bad bacteria. <P> based on 11 reviews. The Dutch BV (Besloten Vennootschap) or the limited liability company (Besloten Vennootschap met beperkte aansprakelijkheid) is the most employed type of company in the Netherlands. The Dutch BV is the equivalent of the German GmbH and the American limited liability company. Considering the new amendments brought to the Company Law, the incorporation procedure for a Dutch BV has been simplified and the costs related to company formation in Holland have been reduced. The BV is also the most employed type of structure when setting up a holding <P> The Dutch BV may have one or more founders who can be individuals or companies. The new Company Law in the Netherland allows the limited liability company to have one shareholder who can also act as manager. One of the advantages of the Dutch limited liability company is that it requires no minimum share capital. Considering the new amendments brought to the Company Law, the incorporation procedure for a Dutch BV has been simplified and the costs related to company formation in Holland have been reduced. The BV is also the most employed type of structure when setting up a holding company in the Netherlands. <P> Expatax can assist you with establishing a limited company in the Netherlands. In Dutch this is called a 'besloten vennootschap'. DefinitionA besloten vennootschap (BV) is a company limited by shares (private limited company), whose shares are privately registered and not freely transferable. What does BV at the end of a company name mean? already exists. already exists as an alternate of this question. exists and is an alternate of. Sirens is known for it's raunchy and crude jokes. What has been your favorite line or scene from the series so far (keep it PG-13, c'mon now)? What does-kun at the end of a name mean in Japanese? What ... <P> Science and medicine. 1 Bacterial vaginosis, the most common cause of vaginal infection. 2 Bed volume, the volume of material in a vessel (e.g. of a catalyst in a vessel, or stationary phase in column chromatography). 3 Belch Vocalizations, the most common form of intra-group communication among the Mountain Gorilla. 1 Bed volume, the volume of material in a vessel (e.g. of a catalyst in a vessel, or stationary phase in column chromatography). 2 <P> Formation of a limited company (besloten vennootschap or BV) in the Netherlands. Expatax can assist you with establishing and maintaining a limited company in the Netherlands. In Dutch this is called a 'besloten vennootschap'. On this page you will find: 1. General information about a limited company. 2. <P> Besloten vennootschap met beperkte aansprakelijkheid (. [bəˈsloːtə(n) ˈvɛnoːtsxɑp mɛd bəˈpɛrktə ʔaːnˈspraːkələkɦɛit] ; usually abbreviated bv in the Netherlands, bvba in Belgium) or Societe Société privee Privée A (à) responsabilite responsabilité Limitee limitée Sprl is the dutch and belgian version of. a private limited liability company <P> Expatax can assist you with establishing a limited company in the Netherlands. In Dutch this is called a 'besloten vennootschap'. DefinitionA besloten vennootschap (BV …) is a company limited by shares (private limited company), whose shares are privately registered and not freely transferable. 18 people found this useful. The company is owned by shareholders, and the company's shares are privately registered and not freely transferable. The phrase means secluded partnership or private partnership and it is the most common form of enterprise
It is a private company with limited liability; in Dutch: Besloten Vennootschap met beperkte aansprakelijkheid. In comparison to other jurisdictions, the BV has similar features as the German GmbH, the American LLC, or the English Ltd.The BV has legal personality and it has an equity divided into shares.
what fiber is in spinach
<P> Although raw spinach doesn’t qualify as a high-fiber food, cooked spinach can be an excellent source of fiber, depending on the amount you consume. A standard 2-cup serving of raw spinach has 14 calories, 1.7 grams of protein, very little fat and 2.2 grams of carbohydrates, of which 1.4 grams are dietary fiber. Relative to its caloric content, spinach contains a significant amount of fiber. Kale and Swiss chard are lower in fiber than spinach, providing 2.6 grams and 3.7 grams of fiber per cup of boiled greens, respectively. Turnip greens and collards, on the other hand, are slightly better sources of fiber. <P> Raw Vegetables. Raw spinach is about one-fourth soluble fiber. Each 3.5-ounce portion of raw spinach has 3.2 grams of total fiber; nearly 0.8 gram of that amount is soluble. The soft inner part of cucumbers has a somewhat high soluble fiber content, but you should leave the peel on to boost insoluble fiber intake. Fruits often have a higher amount of soluble fiber than vegetables. A small 3.5-ounce apple has approximately 2.2 grams of total fiber and nearly 0.7 gram, or 30 percent, comes from soluble fiber. Haas avocados are loaded wi <P> As with spinach, all types of raw leafy greens are lower in fiber than their cooked counterparts. Kale and Swiss chard are lower in fiber than spinach, providing 2.6 grams and 3.7 grams of fiber per cup of boiled greens, respectively. Turnip greens and collards, on the other hand, are slightly better sources of fiber. <P> One medium artichoke contains approximately 10.3 grams of fiber. 4. Spinach. Spinach is a good source of iron and has a good amount of fiber as well. There are approximately 8 grams of fiber in 10 ounces of frozen spinach. Indulging in raw spinach salads or steamed fresh spinach is also advantageous. 5 <P> Spinach. Spinach has many nutritional advantages and high fiber is just one. You can find approximately 8 grams of fiber in ten ounces of frozen spinach. Even if you eat raw spinach salads or steamed fresh spinach, the fiber value is great and either option is tasty. Whether you choose fresh, frozen or canned peas, they are a great vegetable option to increase your fiber intake. Just one cup of peas offers 8.8 grams of fiber <P> Spinach offers twice as much fiber as other greens. So when you want a salad that's going to fill you up, go for the spinach variety. Spinach is a nutrition superstar, even a fairly good source of iron. It's loaded with vitamins and minerals, some of which are hard to find in other foods. When you cook spinach, it cooks down tremendously. Because cooking concentrates nutrients and fiber, a serving of cooked spinach gives you even more bang for your buck than a serving of raw.Nutritional Values of Raw Spinach Serving Size: 1 cup. <P> Fiber in Spinach. The amount of dietary fiber in baby spinach doesn’t seem to differ from that of more mature leaves. The more tender texture of baby spinach suggests that the fiber may be a little more soluble, but no research has confirmed or denied this postulate. <P> One cup of cooked spinach contains 4 grams of fiber. While that may not sound like much, the nutritional density of spinach is displayed when you consider that 1 cup of spinach contains only 41 calories. In comparison, a 1 cup serving of corn also contains 4 grams of fiber, but also packs a hefty 177 calories. When thinking of ways to incorporate spinach in your diet and increase fiber intake, don't always think of the mushy stuff Popeye was so fond of. Spinach makes a surprisingly nice addition to a smoothie. It can also be used in an omelet or in a salad with cranberries and walnuts. <P> Fiber in Spinach. A standard 2-cup serving of raw spinach has 14 calories, 1.7 grams of protein, very little fat and 2.2 grams of carbohydrates, of which 1.4 grams are dietary fiber. Relative to its caloric content, spinach contains a significant amount of fiber. Kale and Swiss chard are lower in fiber than spinach, providing 2.6 grams and 3.7 grams of fiber per cup of boiled greens, respectively. Turnip greens and collards, on the other hand, are slightly better sources of fiber. <P> The list below gives the total Fiber content in the 10 items from the general description 'spinach'.These 10 types of spinach range from Spinach, frozen, chopped or leaf, cooked, boiled, drained, without salt through to Spinach souffle and are ranked by the content or amount per 100g. Using the list below for the 10 different spinach nutrition entries in our database, the highest amount of Fiber is found in Spinach, frozen, chopped or leaf, cooked, boiled, drained, without salt which contains 3.7 g of Fiber per 100g.
Dietary fiber
what are capers food
<P> What do they look and taste like? Answer: Capers are the unripened flower buds of Capparis spinosa, a prickly, perennial plant which is native to the Mediterranean and some parts of Asia. After the buds are harvested, they are dried in the sun, then pickled in vinegar, brine, wine or salt. The curing brings out their tangy lemony flavor, much the same as green olives. The size of the buds range from tiny (about the size of a baby petite green pea) up to the size of a small olive. <P> Daniel Loiselle / Getty Images. In the culinary arts, capers are a condiment, usually pickled, that are made from the immature flower buds of the caper bush (Capparis spinosa), which grows in Mediterranean regions. Capers are used in a number of Italian recipes such as chicken piccata, veal piccata and pasta puttanesca. Sometimes capers are cured by salting rather than pickling. Cooking with capers is a matter of balancing their tangy, briny, pickly flavor against some sort of smooth, buttery or velvety flavors and textures. Another use for capers is as a pizza topping. I'd personally make a pizza topped with mozzarella cheese, sliced red onions and capers. Capers are also the traditional garnish for beef carpaccio. They can also go in chicken salad, pasta salad or potato salad, on top of deviled eggs, or in the classic Nicoise salad. <P> There are a handful of ingredients that can really add life to a dish: lemon, vinegar, anchovies, olives -- and capers. David Rosengarten visited Pantelleria, Italy, or what he calls caper heaven.. He explains the difference between caper buds and berries and debunks a caper food myth that just won't go away. There are several ways you can do it. You can mix the caper buds with good, coarse salt; you can mix them with salt and water, making a brine; or you can mix them with salt and vinegar or salt, water and vinegar. But basically there are two ways to go: the liquid way or the dry way with the salt. <P> Dark green buds which are sun-dried and then packed in a vinegar brine. Capers range in size from tiny nonpareils from France, favored for their delicate texture and more pronounced taste to larger sizes, which are stronger in flavor and less aromatic. You can purchase stemmed caper berries, the size of a cocktail olive, from Spain. <P> The plant is best known for the edible flower buds (capers), often used as a seasoning, and the fruit (caper berries), both of which are usually consumed pickled. Other species of Capparis are also picked along with C. spinosa for their buds or fruits. <P> Capers. Pronounce it: kay-per. Capers are the small flower buds of the Capparis shrub, which grows in the Mediterranean. As they're picked by hand they're fairly pricey but they're a versatile store cupboard ingredient, and are good for adding a distinctive sour/salty flavour to many savoury dishes. Really small, peppercorn-sized capers, called 'nonpareille' are available, but the slightly larger ones are more common. Capers are preserved a number of ways-either in salt, wine vinegar, brine or olive oil. <P> Capers -- those salty, pea-sized dark green things -- are one of those ingredients you see a lot but may not fully understand. They're commonplace across many cuisines: You'll find them in Mediterranean dishes like chicken piccata or spaghetti puttanesca, and in French dishes like salade Nicoise. Capers are pickled flower buds. Tiny capers are picked from a shrub-like bush (Capparis spinosa), long before the buds ever flower. The capers are then dried in the sun and later brined or packed in salt. (To use capers in recipes it's a good idea to rinse them first, to remove all the excess salt or brine.). <P> Torrie Huddleston, Glen, MS A: Capers are the pickled flower buds of a thorny, trailing shrub that grows like a weed all over the Mediterranean. It's a stubborn, ornery plant, difficult to cultivate, with a preference for dry, stony places.
capers are a condiment, usually pickled, that are made from the immature flower buds of the caper bush
average salary newspaper delivery
<P> East Coast States Pay More. In 2013, newspaper delivery drivers earned the highest salaries of $35,130 in Alaska, the BLS reported, and the lowest salaries of $24,930 in Ohio, among the states listed. Salary of a Newspaper Delivery Man; Paper Delivery Jobs; Salary of a Paper Carrier; Salary of a Paperboy; How to Make Newspaper... <P> A Delivery Driver earns an average wage of $12.69 per hour. People in this job generally don't have more than 20 years' experience. The highest paying skills associated with this job are CDL, delivery driver, and hazmat. Experience has a moderate effect on salary for this job. <P> Average annual salary for a Newspaper Delivery Driver is $16714 based on statistics in the U.S. as of 2015. The highest salary recorded was $40395. The lowest salary was $9845. These figures will vary on a state to state basis as these are averages across all 50 states. The average bonus recorded was $550 from people with under 1 year of experience. These are the highest paying states for a Newspaper Delivery Driver. These numbers are based of the median annual salary <P> Salary of Approximately $28,000. Newspaper deliverers are classified as driver/sales workers by the U.S. Bureau of Labor Statistics. They earned an average of $27,900 as of May 2013, according to the BLS. Salaries for newspaper deliverers ranged from $16,830 to more than $46,800. Salary of a Newspaper Delivery Man; Paper Delivery Jobs; Salary of a Paper Carrier; Salary of a Paperboy; How to Make Newspaper... <P> Average Delivery Driver Salaries. The average salary for delivery driver jobs is $34,000. Average delivery driver 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 delivery driver anywhere in the job listing. <P> This chart outlines the average annual salary of a Newspaper Delivery Driver from the past 5 years. In 2015 the average annual salary was $16714 while in 2007 it was just $15500.27. The average bonus recorded was $550 from people with under 1 year of experience. These are the highest paying states for a Newspaper Delivery Driver. These numbers are based of the median annual salary as of 2015. <P> Bonuses for a Newspaper Delivery Driver are based on the years of experience using statistics from the U.S. as of 2015. The average bonus recorded was $0 from people with 15+ years of experience. The average bonus recorded was $550 from people with under 1 year of experience. These are the highest paying states for a Newspaper Delivery Driver. These numbers are based of the median annual salary as of 2015. <P> Salary. In 2012, half of all couriers earned less than $12.23 an hour, according to the Bureau of Labor Statistics. But those specifically delivering newspapers made less than this, earning a median wage of $11.48 an hour. But newspaper delivery isn’t necessarily a 40-hour-per-week job. When most people think of newspaper delivery, a picture of a kid on a bike balancing a large canvas bag atop his shoulder often comes to mind. But those days are pretty much gone. Newspaper couriers often start their days at one in the morning -- it’s when the papers are delivered to their doors.
Average salary is $22,100.
what is dbz
<P> Dragon Ball Z (Japanese: ドラゴンボールZ(ゼット), Hepburn: Doragon Bōru Zetto, commonly abbreviated as DBZ) is a Japanese anime television series produced by Toei Animation. Dragon Ball Z remains a cultural icon through numerous adaptations, including a more-recent remastered broadcast titled Dragon Ball Kai (ドラゴンボール改(カイ), Doragon Bōru Kai, lit. Dragon Ball Revised) . <P> dBZ. Nondimensional unit of radar reflectivity which represents a logarithmic power ratio (in decibels, or dB) with respect to radar reflectivity factor, Z. You can either type in the word you are looking for in the box below or browse by letter. Search: <P> Dragon Ball Z follows the adventures of the protagonist Goku who, along with his companions, defends the Earth against an assortment of villains ranging from intergalactic space fighters and conquerors, unnaturally powerful androids and near indestructible magical creatures. Dragon Ball Z remains a cultural icon through numerous adaptations, including a more-recent remastered broadcast titled Dragon Ball Kai (ドラゴンボール改(カイ), Doragon Bōru Kai, lit. Dragon Ball Revised) . <P> Answer by R51386. Confidence votes 2. Dbz is the second season of dragon ball. it's an anime show about martial arts but these martial artist have extrodaniary powers. the main character is goku and it follows his life as he grows up and finds out what he really is. it's action and there is perverted moments in it. <P> Dragon Ball Z follows the adventures of the adult Goku who, along with his companions, defends the earth against an assortment of villains ranging from intergalactic space fighters and conquerors, unnaturally powerful androids and near indestructible magical creatures. 1 During Gohan and Cell 's Beam Struggle in the anime, Piccolo, Krillin, Tien, and Yamcha unsuccessfully try to distract Cell before Vegeta succeeds in doing so, whereas in the manga, they all simply observe the struggle and Vegeta is the only one to attack Cell from behind. <P> 1 Though the flashback of Future Trunks and Future Gohan fighting Androids 17 and 18 is present in both the anime and the manga, there are notable discrepancies between the flashback and the scene depicted in the TV special Dragon Ball Z: The History of Trunks. 1 During Gohan and Cell 's Beam Struggle in the anime, Piccolo, Krillin, Tien, and Yamcha unsuccessfully try to distract Cell before Vegeta succeeds in doing so, whereas in the manga, they all simply observe the struggle and Vegeta is the only one to attack Cell from behind. <P> It is a logarithmic dimensionless technical unit used in radar, mostly in weather radar, to compare the equivalent reflectivity (Z) of a radar signal reflected off a remote object (in mm 6 per m 3) to the return of a droplet of rain with a diameter of 1 mm (1 mm 6 per m 3). The radar reflectivity (Z) of a cloud is dependent on the number (N) and size (D) of reflectors (hydrometeors), which includes rain, snow, graupel, and hail. It is expressed by: As rain droplets have a diameter of the order of 1 millimetre, Z is in mm 6 m −3 (μm 3), a quite unusual unit. <P> While the original Dragon Ball anime followed Goku from his childhood into adulthood, Dragon Ball Z is a continuation of his adult life, but at the same time parallels the maturation of his son, Gohan, as well as the evolution of his rivals Piccolo and Vegeta from enemies into allies. Dragon Ball Z remains a cultural icon through numerous adaptations, including a more-recent remastered broadcast titled Dragon Ball Kai (ドラゴンボール改(カイ), Doragon Bōru Kai, lit. Dragon Ball Revised) . <P> Dragon Ball Z (ドラゴンボールZ, Doragon Bōru Zetto; commonly abbreviated as DBZ) is the long-running sequel to the anime Dragon Ball. The series is a close adaptation of the second (and far longer) portion of the Dragon Ball manga written and drawn by Akira Toriyam 1 During Gohan and Cell 's Beam Struggle in the anime, Piccolo, Krillin, Tien, and Yamcha unsuccessfully try to distract Cell before Vegeta succeeds in doing so, whereas in the manga, they all simply observe the struggle and Vegeta is the only one to attack Cell from behind. <P> Dragon Ball Z is the sequel to the Dragon Ball anime and adapts the last 325 chapters of the original 519-chapter Dragon Ball manga series created by Akira Toriyama, that were published from 1988 to 1995 in Weekly Shōnen Jump. Dragon Ball Z remains a cultural icon through numerous adaptations, including a more-recent remastered broadcast titled Dragon Ball Kai (ドラゴンボール改(カイ), Doragon Bōru Kai, lit. Dragon Ball Revised) .
A logarithmic power ratio (in decibels, or dB) with respect to radar reflectivity factor, Z.
what is unit cost in accounting
<P> (Total fixed costs + Total variable costs) / Total units produced. The cost per unit should decline as the number of units produced increases, primarily because the total fixed costs will be spread over a larger number of units (subject to the step costing issue noted above). Thus, the cost per unit is not constant. For example, ABC Company has total variable costs of $50,000 and total fixed costs of $30,000 in May, which it incurred while producing 10,000 widgets. The cost per unit is: ($30,000 Fixed costs + $50,000 variable costs) / 10,000 units = $8 cost per unit. <P> Cost unit is a unit of production, service or time or combination of these, in relation to which costs may be ascertained or expressed. <P> Unit Contribution Margin. A unit contribution margin is the dollar amount that a product's selling price exceeds its total variable cost. In other words, the unit contribution margin is the selling price of a product minus the variable costs incurred to produce that product. Unit contribution margin measures the amount of the selling price of a unit that is used to cover fixed costs for that unit. Since companies' cost structures are important for production and planning purposes, managers want to know how much fixed costs are distributed to each unit produced <P> The cost per unit is commonly derived when a company produces a large number of identical products. The cost is derived from the variable costs and fixed costs incurred by a production process, divided by the number of units produced. For example, ABC Company has total variable costs of $50,000 and total fixed costs of $30,000 in May, which it incurred while producing 10,000 widgets. The cost per unit is: ($30,000 Fixed costs + $50,000 variable costs) / 10,000 units = $8 cost per unit. <P> The cost incurred by a company to produce, store and sell one unit of a particular product. Unit costs include all fixed costs (i.e. plant and equipment) and all variable costs (labor, materials, etc.) involved in production. Next Up. Unit cost is an important metric to look at when evaluating a unit grower stock, or a stock that chiefly produces items that have a low fixed cost. Generally, the larger a company grows, the lower the unit cost it can achieve through economies of scale. RELATED TERMS. <P> Breakeven Analysis. When you calculate the unit costs of production, you are calculating the breakeven point, or minimum price, you must sell each unit at to make a profit. For example, say you produce 2,000 units costing $3 per unit that you resell at $5 per unit. Your profit is $5 minus $3, or $2 a unit. Calculate Unit Costs. You can calculate the unit costs of production by dividing the total amount of your fixed and variable costs by the total number of units you produced. For example, say your total fixed costs are $30,000, your variable costs are $50,000 and you produced 40,000 units. The total production costs are the $30,000 fixed costs added to the $50,000 variable costs for a total of $80,000. Divide 40,000 units by $80,000 to get your $2 per unit production costs <P> Definition. In cost accounting, unit of product or service for which cost is computed. Cost units are selected to allow for comparison between actual cost and standard cost, or between different actual costs. <P> A unit of account in financial accounting refers to the words that are used to describe the specific assets and liabilities that are reported in financial statements rather than the units used to measure them. Unit of account and unit of measure are sometimes treated as synonyms in financial accounting and economics. The unit of account in economics (unit of measure in accounting) suffers from the pitfall of not being stable in real value over time because money is generally not perfectly stable in real value during inflation and deflation.
Unit costs include all fixed costs (i.e. plant and equipment) and all variable costs (labor, materials, etc.) involved in production.
what plate boundary is kilauea on
<P> Mount Kilauea (in Hawaii) does not lie on a plate boundary. The Hawaiian volcanoes occur in the middle of an oceanic plate. This lead people to theorize that Hawaii must lie over a hot spot on the earth caused by some underlying mechanism. <P> Answer by SBDW1 _. Confidence votes 23.8K. Kilauea is located in the centre of a crustal plate (the pacific plate) away from any plate boundaries. The Hawaiian island chain exists due to the presence of a hotspot (potentially caused by a mantle plume) under the centre of this plate causing volcanism. <P> Only two of Hawaii's volcanoes are active today-Mauna Loa and Kiluaea. Mauna Loa erupted in 1984 and Kilauea is considered to be one of the most active volcanoes on Earth today. It has erupted 30 times in the last 40 years. <P> Kilauea is in the middle of the Pacific Plate and is the result of a hot spot rather than plates interacting. <P> Hawaii is geologically a unique place on Earth because it is caused by a 'hot spot.' Most islands are found at tectonic plate boundaries either from spreading centers (like Iceland) or from subduction zones (like the Aleutian Islands). <P> Kilauea is located in the centre of a crustal plate (the pacific plate) away from any plate boundaries. The Hawaiian island chain exists due to the presence of a hotspot (pote … ntially caused by a mantle plume) under the centre of this plate causing volcanism. 14 people found this useful. <P> Kilauea is a shield volcano that lies over a hotspot. It is one of the most continuously active volcanoes in the world, tending to erupt every two to three years. Kilauea's eruptions are not explosive.
The pacific plate.
what characteristics does a ultrasound technician
<P> Qualities of Diagnostic Medical Sonographer In the field of healthcare, an ultrasound technician (also known as a diagnostic medical sonographer) is an expert in using sonographic equipment designed to capture images of a patient’s internal anatomy. <P> Specializing in Ultrasound. As a Diagnostic Medical Sonographer, you may learn how to perform a variety of medical imaging tasks using sonography technology. Some specialize in one particular area such as obstetrics and work in the pregnancy division of the hospital, for example. Ultrasound Technician Job Description (sample): Ultrasound technicians use high frequency sound waves to produce real-time visual images of organs, soft tissues, and blood flow within the body. Job duties include: 1 Use of highly technical sonography equipment to produce images of structures inside the body. <P> While the tradional idea of an ultrasound technician job description is to be working in a pregnancy unit or a medial imaging lab, Ultrasound Tech's are also needed in emergency rooms to be available for imaging procedures of trauma patients who need immediate diagnoses and medical treatment. Ultrasound Technician Job Description (sample): Ultrasound technicians use high frequency sound waves to produce real-time visual images of organs, soft tissues, and blood flow within the body. Job duties include: 1 Use of highly technical sonography equipment to produce images of structures inside the body. <P> Ultrasound Technician Job Description. Ultrasound technicians, also known as ultrasound technologists or diagnostic medical sonographers, are vital members of the healthcare industry who help visualize and record the inner workings of the human body. In the broadest of terms, an ultrasound technician job description involves using a wand-like device called a transducer (or probe) to create a digital image of a patient’s internal organs or blood vessels. This in turn allows a physician to properly diagnose or monitor any irregularities. <P> An Ultrasound tech does more than just operating imaging equipment. A diagnostic medical sonographer job description often balances patient interaction and technological performance with a firm knowledge in anatomy and pathology and working cohesively with a healthcare team. An ultrasound technician job description entails using this specialized technology but can also include interpreting these images and assisting the rest of the <P> With this in mind, changing your career trajectory or leading your career path to become an ultrasound technician is inarguably a profitable decision that you can make. The job that an ultrasound tech executes is composed of imaging, instrumentation, and diagnosis. Ultrasound tech salary varies from one state to another. Variations in the supply and demand of ultrasound technicians within cities of states also determine the basic or average rate that an ultrasound technologist may obtain from his or her job. <P> Continuous education makes you a better sonographer period, whether you want to advance your career or be effective throughout the span of your profession. From the time you begin your ultrasound degree until the end of your career, learning is an essential part of your role as an ultrasound technician. Rob is a registered cardiac diagnostic sonographer. During the course of his echocardiography profession, he employs various ultrasound modes including 2-D, M-mode, and pulsed wave, color, tissue and continuous wave Doppler. He also has to properly maintain the ultrasound equipment, and ensure it is operating correctly. <P> Ultrasound technicians, also known as diagnostic medical sonographers, operate machines called sonographic scanners that create images of patients' internal organs. Sonographers can work in physicians' offices, clinics or hospitals, and night and weekend shifts may be required. Although the obstetric and gynecologic ultrasound associated with developing fetuses is the most commonly known procedure in the field, the ultrasound technician may also work as a specialist in neurological (brain), breast, heart or abdominal sonography. <P> Your job as an ultrasound technician, also known as radiology technologist or sonographer, entails a lot of direct contact with patients. Because of this, you have to be personable enough so that patients will feel at ease with you and the procedure that they are supposed to undergo. <P> Ultrasound techs should be medically proficient, but also communicative and discrete. Ultrasound, also called sonography, is a technology that creates detailed images of the human body using high frequency sound waves. Ultrasound technicians, also called diagnostic medical sonographers, are medical professionals who administer ultrasounds to patients. Discretion. An ultrasound technician is often the first to identify a medical problem. However, an ultrasound tech is not trained to make a diagnosis and should not inform a patient of a medical condition.
Sonographic,imaging, instrumentation, and diagnosis.
what is a normal heart rate per minute
<P> Consult your doctor if your resting heart rate is consistently above 100 beats a minute (tachycardia) or if you're not a trained athlete and your resting heart rate is below 60 beats a minute (bradycardia) — especially if you have other signs or symptoms, such as fainting, dizziness or shortness of breath. <P> The normal pulse for healthy adults ranges from 60 to 100 beats per minute. The pulse rate may fluctuate and increase with exercise, illness, injury, and emotions. Females ages 12 and older, in general, tend to have faster heart rates than do males. <P> 1 Your heart rate is the number of times per minute that the heart beats. 2 Heart rate rises significantly in response to adrenaline if a person is frightened or surprised. 3 Taking a person's pulse is a direct measure of heart rate. <P> For adults, a normal resting rate is 60 to 100 beats per minute. Athletes may have a rate as low as 40 bpm because their hearts are trained to efficiently pump blood. If your heart rate is consistently below 60 or above 100, you may have a heart condition, such as arrhythmia. <P> Most adults have a resting heart rate of 60-100 beats per minute (bpm). The fitter you are, the lower your resting heart rate is likely to be. For example, athletes may have a resting heart rate of 40-60 bpm or lower. <P> A normal resting heart rate -- your heart rate when you're completely at rest -- for the average adult is 60 to 80 beats per minute. People who are very physically fit often have slightly lower resting heart rates. Also, heart rate, much like weight, tends to increase with age. <P> Heart rate, also known as pulse, is the number of times a person's heart beats per minute. A normal heart rate depends on the individual, age, body size, heart conditions, whether the person is sitting or moving, medication use and even air temperature. Even emotions can have an impact on heart rate. <P> A normal resting heart rate for adults ranges from 60 to 100 beats a minute. Generally, a lower heart rate at rest implies more efficient heart function and better cardiovascular fitness. For example, a well-trained athlete might have a normal resting heart rate closer to 4
60 to 100
what was the goal of the surrealist movement
<P> Surrealism. Key Dates: 1920-1930. A literary and art movement, dedicated to expressing the imagination as revealed in dreams, free of the conscious control of reason and convention. Surrealism inherited its anti-rationalist sensibility from Dada, but was lighter in spirit than that movement. Founded in Paris in 1924 by Andre André breton with His manifesto Of, surrealism the’movement s principal aim ‘was to resolve the previously contradictory conditions of dream and reality into an absolute, reality a-super’. reality <P> DADAIST ROOTS. The roots of surrealism begin with the dada movement. Dada was founded in 1915 in Zurich, Switzerland, by an international group of pacifist intellectuals and artists who fled to the neutral country in protest of World War I. <P> The major artists of the movement were Salvador Dali, Max Ernst, Rene René magritte And Joan. Miro’miró surrealism s impact on popular culture can still be, felt today most visibly. in advertising Founded in Paris in 1924 by Andre André breton with His manifesto Of, surrealism the’movement s principal aim ‘was to resolve the previously contradictory conditions of dream and reality into an absolute, reality a-super’. reality <P> Surrealism was a movement which began in the 1920s of writers and artists (including Salvador Dali dalí And Rene), rené magritte who experimented with ways of unleashing the. 1 Subconscious imagination introduction to the. surrealist movement Surrealism was launched in Paris in 1924 by French poet Andre André breton with the publication of His manifesto Of. Surrealism breton was strongly influenced by the theories Of Sigmund, freud the founder of. psychoanalysis <P> Surrealism was a movement which began in the 1920s of writers and artists (including Salvador Dali dalí And Rene), rené magritte who experimented with ways of unleashing the. 1 Subconscious imagination introduction to the. 2 Surrealist movement surrealist artists. in focus Surrealism was launched in Paris in 1924 by French poet Andre André breton with the publication of His manifesto Of. Surrealism breton was strongly influenced by the theories Of Sigmund, freud the founder of. psychoanalysis <P> Putting psychic life in the service of revolutionary politics, Surrealism publicly challenged vanguard modernism's insistence on 'art for art's sake.' But Surrealism also battled the social institutions-church, state, and family-that regulate the place of women within patriarchy. Breton became increasingly interested in revolutionary political activism as the movement's primary goal. The result was the dispersal of the original movement into smaller factions of artists. The Bretonians, such as Roberto Matta, believed that art was inherently political. <P> View Slideshow View Thumbnails. Surrealism originated in the late 1910s and early '20s as a literary movement that experimented with a new mode of expression called automatic writing, or automatism, which sought to release the unbridled imagination of the subconscious. Officially consecrated in Paris in 1924 with the publication of the Manifesto of Surrealism by the poet and critic Andre André (breton1896), 1966 surrealism became an international intellectual and political. movement <P> The Surrealist movement began as a literary group strongly allied to Dada, emerging in the wake of the collapse of Dada in Paris, when Andre André'breton s eagerness to bring purpose To dada clashed With Tristan'tzara s-anti. authoritarianism Breton became increasingly interested in revolutionary political activism as the movement's primary goal. The result was the dispersal of the original movement into smaller factions of artists. The Bretonians, such as Roberto Matta, believed that art was inherently political. <P> Surrealism is a cultural movement that began in the early 1920s, and is best known for its visual artworks and writings. The aim was to resolve the previously contradictory conditions of dream and reality.. Surrealist works feature the element of surprise, unexpected juxtapositions and non sequitur; however, many Surrealist artists and writers regard their work as an expression of the philosophical movement first and foremost, with the works being an artifact.
To resolve the previously contradictory conditions of dream and reality.
what is phenylbutazone
<P> DRUG CLASS AND MECHANISM: Phenylbutazone has been removed from the United States market due to the availability of newer drugs with less adverse effects. Phenylbutazone is a nonsteroidal anti-inflammatory drug (NSAID) effective in treating fever, pain, and inflammation in the body. As a group, NSAIDs are non-narcotic relievers of mild to moderate pain of many causes, including injury, menstrual cramps, arthritis and other musculoskeletal conditions. <P> Phenylbutazone (Bute) Use in Horses. Phenylbutazone (Bute) is an analgesic (relieves pain) and anti-inflammatory medication, commonly used for the treatment of lameness in horses. It belongs to a group of medications known as non-steroidal anti-inflammatory drugs (NSAIDS). <P> Definition of PHENYLBUTAZONE. : a drug C19H20N2O2 that is used for its analgesic and anti-inflammatory properties especially in the treatment of arthritis, gout, and bursitis. ADVERTISEMENT. <P> Phenylbutazone is a nonsteroidal anti-inflammatory drug (NSAID) and cylooxygenase inhibitor. It is a potent pain reliever, antipyretic and anti-inflammatory. In the horse, it is used commonly for lameness, resulting from soft-tissue injury, muscle soreness, bone and joint problems, and laminitis. <P> “Bute” (phenylbutazone) and Banamine® (flunixin meglumine) are the most commonly used non-steroidal anti-inflammatory drugs (NSAIDS) in the horse. They are very useful drugs used for a variety of conditions and signs. <P> Phenylbutazone tablets for horses are a prescription medication available as 1 gram (1000mg) tablets. •. Phenylbutazone is a non-steroidal anti-inflammatory drug (NSAID) used to treat pain and inflammation associated with fractures, arthritis, and painful injuries to the limbs and joints. <P> Phenylbutazone for Horses is a non-steroidal anti-inflammatory drug (NSAID) used to treat pain and inflammation associated with fractures, arthritis, and painful injuries to the limbs and joints. Phenylbutazone requires a prescription from your veterinarian, and is sold by the tablet. <P> How it works: Phenylbutazone is a non-steroidal anti-inflammatory drug (NSAID) which through its anti-inflammatory action can relieve pain, reduce inflammation and reduce fever. Cautions: Do not give Phenylbutazone to pregnant or lactating mares.
Phenylbutazone is an analgesic and anti-inflammatory medication, commonly used for the treatment of lameness in horses.
which river crosses the equator twice
<P> The Congo River (also known as the Zaire River; French : (le) fleuve Congo / Zaire; Zaïre: portuguese Rio / Congo) zaire is a river In. Africa it is the second largest river in the world by (discharge after The), amazon and the'world s deepest river with measured depths in excess of 220 (m 720). ft The river also has the second-largest flow in the world, behind the Amazon; the third-largest drainage basin of any river, behind the Amazon and Plate rivers; and is one of the deepest rivers in the world, at depths greater than 220 m (720 ft). <P> gmackematix. There are several rivers that cross the Equator so correctly answer the question as asked. If you mean which river flows both northwards and southwards over the Equator, then that narrows it down. As far as I know, the Congo is the only river that crosses the Equator twice in this fashion. <P> Report Abuse. It is not the Nile that crosses the equator only once or the Yellow, Mississippi, Red, Ohio or Wabash that do not cross the equator. I would take a stab and say the Amazon and that is probably the wrong answer but it is situated right. That is my answer and I am sticking to it! +1 to Warren S. I learned something new today, man I love yahoo answers. Here is the wiki article and an excerpt about the Congo River....Because large sections of the river basin lie above and below the Equator..... http://en.wikipedia.org/wiki/Congo_river. <P> Congo River flows through these countries-Central African Republic, Democratic Republic of the Congo, Angola, Burundi, Tanzania, Cameroon, Republic of the Congo, Zambia, Gabon, and Rwanda. The river ranks as the … ninth longest river in the world with its overall length of 4,700 km. The famous Boyoma Falls or Stanley Falls is in Congo River. The Chambeshi River in Zambia is regarded as the source of the <P> Congo River, also known as Zaire River, crosses the equator twice. Congo River is the deepest river in the world and the second longest river in Africa. The river ranks as the … ninth longest river in the world with its overall length of 4,700 km. The famous Boyoma Falls or Stanley Falls is in Congo River. The Chambeshi River in Zambia is regarded as the source of the Congo River. Congo River flows through these countries-Central African Republic, Democratic Republic of the Congo, Angola, Burundi, Tanzania, Cameroon, Republic of the Congo, Zambia, Gabon, and Rwanda. <P> Congo River Crosses Equator Twice. Congo River, also known as Zaire River, crosses the equator twice. Congo River is the deepest river in the world and the second longest river in Africa. The river ranks as the ninth longest river in the world with its overall length of 4,700 km. The famous Boyoma Falls or Stanley Falls is in Congo River. The Chambeshi River in Zambia is regarded as the source of the Congo River. <P> Congo River, also known as Zaire River, crosses the equator twice. Congo River is the deepest river in the world and the second longest river in Africa. The river ranks as the … ninth longest river in the world with its overall length of 4,700 km. The famous Boyoma Falls or Stanley Falls is in Congo River. The Chambeshi River in Zambia is regarded as the source of the Congo River. <P> It is the second largest river in the world by discharge (after the Amazon), and the world's deepest river with measured depths in excess of 220 m (720 ft). The river also has the second-largest flow in the world, behind the Amazon; the third-largest drainage basin of any river, behind the Amazon and Plate rivers; and is one of the deepest rivers in the world, at depths greater than
Congo River
recommended water temperature for home
<P> At 120 degrees Fahrenheit / 48 degrees Celsius, the recommended temperature setting for home water heaters, skin requires five minutes of exposure for a full thickness burn to occur. When the temperature of a hot liquid is increased to 140 F / 60 C. it takes only five seconds or less for a serious burn to occur 1. <P> So keep your hot water temperature lower and you’ll save more energy. The default setting on most water heaters is 60C or 140F, but the best hot water temperature is 49C or 120F – this will save you about 25% of your hot water heating costs. <P> Most water heaters don't have a thermostat control that is calibrated in such a way that you can just dial in 125 degrees. So to check your hot water temperature, you'll probably need to use a reliable thermometer to check at a faucet. Test the water temperature when the water heater is fully heated (e.g., not while it's reheating after you've taken a 20-minute shower). Thousands of people were being severely burned every year by exposure to water so hot that it could scald in seconds. For that reason, since the 1980s new water heaters installed in houses have had the hot water temperature set at 125 degrees or less. <P> It’s true that you’ll use less water from your hot water tank if the hot water temperature in the tank is hotter. For a given temperature coming out the tap, the higher the hot water temperature, the less hot water and the more cold water you’ll use. The default setting on most water heaters is 60C or 140F, but the best hot water temperature is 49C or 120F – this will save you about 25% of your hot water heating costs. <P> Very hot water temperature can cause burns with great rapidity, and as such, care in setting your hot water heater is required. Setting the hot water temperature lower also means a savings in energy bills for heating the home's water in many cases. However, a lower temperature does mean you will run out of hot water more quickly. Most experts recommend that hot water temperature should not exceed 125° F (51.66° C). Some pediatricians instead suggest setting the hot water temperature at 120° F (48.88° C). With this water temperature, a child would have to run water over the same place for ten minutes prior to receiving a severe burn. <P> 1 Reduce hot water temperature. 2 Set your water heater to the normal setting or 120-degrees Fahrenheit, unless the owner's manual for your dishwasher requires a higher setting. 3 Savings are 7-11 percent of water heating costs. 4 Seal up the leaks. 1 Keeping your furnace clean, lubricated and properly adjusted will reduce energy use, saving up to 5 percent of heating costs. 2 Reduce hot water temperature. 3 <P> Save. Although manufacturer’s usually set water heaters at 140 degrees F, you can reduce your carbon footprint and save money by adjusting your water heater thermostat. According to the U.S. Department of Energy, for each 10 degree reduction in water temperature, you can save between 3 and 5 percent in energy costs. They also recommend setting water heater temperature to 120 degrees F at the faucet to reduce the danger of scalding. (Jupiterimages/liquidlibrary/Getty Images). <P> What is the best hot water temperature – hotter or colder? If I turn the heater temperature up high, will I use less energy to heat my water? After all, less hot water will be coming out of the hot water tank since I’ll be blending in a higher proportion of cold water. The default setting on most water heaters is 60C or 140F, but the best hot water temperature is 49C or 120F – this will save you about 25% of your hot water heating costs. <P> Every water heater is preset in America to 120F by the manufactures, but some states like Wisconsin require the water heater temp to be at least 125F. I set mine at 125F, which is the recommended setting for my REEM water heater. Some pediatricians instead suggest setting the hot water temperature at 120° F (48.88° C). With this water temperature, a child would have to run water over the same place for ten minutes prior to receiving a severe burn.
120 degrees Fahrenheit / 48 degrees Celsius.
A neonate born at​ ________ weeks would be considered a term newborn.
<P> What is considered the normal weight for a newborn? The normal weight of a baby who reaches full term between 37 and 40 weeks is 2.7–4.1kg (6 – 9 lbs), with an average weight of 3.5kg (7.7 lbs). A baby who weighs less than 2.5kg (5.5 lbs) is considered to have a low birth weight. <P> Those born before 37 completed weeks of pregnancy are considered premature or late preterm. A late preterm infant is a premature baby born between 34 and 36 weeks gestational age. This is relatively close to full term, which is 37 weeks or greater (Engle, 2007). <P> Reviewed by Laura J. Martin, MD. May 23, 2011 -- Babies born between 39 and 41 weeks of pregnancy fare better than infants born during weeks 37 or 38, a study shows. A term birth is considered 37 to 41 weeks, but the new study suggests it is more of a continuum. The findings appear in Obstetrics & Gynecology. <P> small-for-gestational-age infant a preterm, term, or postterm infant who is below the 10th percentile for gestational age in head circumference, body weight, or length. term infant one born at a gestational age of 37 to 42 completed weeks (259 to 293 completed days). <P> Called also neonate and newborn. premature infant (preterm infant) one born before a gestational age of 37 completed weeks (259 days). The duration of gestation is measured from the first day of the last menstrual period and is expressed in completed days or weeks. <P> The term newborn for a baby is considered the first few hours, days or very few weeks. Generally upto a month. A baby over a month is considered by monthly age, then by years and etc. <P> The normal length for a pregnancy is between 37 and 42 weeks. If a baby is born before the 37th week, or 259 days of gestation, the baby will be considered a premature baby.
before a gestational age of 37 completed weeks (259 days)
how much do makeup account executives make
<P> Although individuals who have less than five years' experience earn $46K on average, people with five to 10 years benefit from a notably larger average of $61K. Account Executives with one to two decades of relevant experience report an average salary of approximately $70K. Total incomes of Account Executives incorporate potential for, in a few cases, more than $25K from bonuses and close to $15K from profit sharing; these performance components cause packages to range between $34K and $97K. <P> Estee Lauder Companies Inc is a cosmetics firm headquartered in New York City, N.Y. that hires for Account Executive positions, Retail Store Manager roles, and more. The median salary at Estee Lauder Companies Inc is $64K annually. Years of Experience. Between the one and five year mark, median pay is $55K annually. Average pay is $78K per year for those with five to nine years of experience. When we consider tenure, a substantial portion of employees (32 percent) have been working for 10-19 years and make about $93K annually on average. <P> For example the median expected annual pay for a typical Account Executive-Advertising in the United States is $69,930 so 50% of the people who perform the job of Account Executive-Advertising in the United States are expected to make less than $69,930. Source: HR Reported data as of October 2015. Our team of Certified Compensation Professionals has analyzed survey data collected from thousands of HR departments at companies of all sizes and industries to present this range of annual salaries for people with the job title Account Executive-Advertising in the United States. <P> Although the salaries for account executives vary widely depending upon which field they are working in and which level of management they have attained. In 2006, the median annual salary for account executives was $97,540. Salaries for this position cover a wider range than in many other positions, as account executives can work in may different fields and industries. In comparison, the average starting salary for a marketing major in the same year was only $40,161. <P> Buyers in the fashion and electronics industries earn an average mean salary of $62,000 compared to buyers for grocery stores, who earn $45,000. Wholesale account executive salaries range from $40,000 to more than $100,000. Account executives salaries often fluctuate and depend upon meeting sales goals. However, meeting sales goals frequently comes with incentives and bonuses. Wholesale account executives for companies in which technical or scientific knowledge is required, can earn more than $100 <P> Account executives work in many different fields. Another common name for them is “salesperson.” The median salary for an account executive in advertising is about $65,000 per year. More experienced (senior) account executives can make $80,000 annually or more. Though these jobs depend highly on performance and base pay is $18,000 to $24,000 per year, the average salary for an account executive in the IT field can go as high as the low six-figure level with some earnest time investment. <P> Pharmaceutical account executives sell pharmaceuticals (medicines) and also medical supplies. An account executive can make a base sales salary of $40,000-$55,000, depending on factors such as experience. A recent college grad will start off with far less, in the low to mid-$30,000 range. Though these jobs depend highly on performance and base pay is $18,000 to $24,000 per year, the average salary for an account executive in the IT field can go as high as the low six-figure level with some earnest time investment.
About $65,000 per year
recommended practices for shielding gases
<P> In some instances, consider adding helium to the shielding gas mixture for its ability to provide a hotter, more penetrating arc on thicker sections. For the GMAW process, a mixture of 75 percent helium balanced with 25 percent argon is a good option. Finally, consider purchasing low-dew-point shielding gases as protection against porosity. Follow all recommended welding procedures for shielding gas flow rates and purge cycles. As with any welding process on any material, following some basic guidelines is critical to obtaining the best results. <P> Argon is a major component of shielding gas when spraylike, high-productivity welding is desired in GMAW or FCAW for joining steel and stainless steel. Helium. Helium is considerably lighter than air, which means higher flow rates are required than for argon or carbon dioxide. You can choose from a variety of gas blends for gas metal arc welding (GMAW), gas tungsten arc welding (GTAW), or flux cored arc welding (FCAW). For each of these processes, the shielding gas performs multiple tasks. <P> Shielding Gas and Cost-effective Joining. Shielding gas selection is critical to achieving cost-effective joining of carbon steel, stainless steel, and aluminum. You can select one gas, such as argon for aluminum welding, to provide suitable arc stability, minimum spatter, and good bead shape. You can choose from a variety of gas blends for gas metal arc welding (GMAW), gas tungsten arc welding (GTAW), or flux cored arc welding (FCAW). For each of these processes, the shielding gas performs multiple tasks. <P> The basic gas for MIG/MAG welding is argon (Ar). Helium (He) can be added to increase penetration and fluidity of the weld pool. Argon or argon/helium mixtures can be used for welding all grades. For stainless steels there are also gases available containing small amounts of hydrogen (H 2). The table indicates the appropriate choice of shielding gas for MIG/MAG welding, taking account of different types of stainless steel and arc types. <P> Inductance, in particular, plays an important part in obtaining proper puddle fluidity. The shielding gas recommended for short-circuiting welding of stainless-steel contains 90% helium, 7.5% argon, and 2.5% carbon dioxide. The gas gives the most desirable bead contour while keeping the CO2 level low enough so that it does not influence the corrosion resistance of the metal. A current of approximately 300-350 amperes is required for a 1/16-in. electrode, depending on the shielding gas and type of stainless wire being used. The degree of spatter is dependent upon the composition and flow rate of the shielding gas, wire-feed speed, and the characteristics of the welding power supply. <P> While Ar, He and CO2 may be used by themselves (i.e. 100%) for certain applications, in other cases the four gases are mixed together in different combinations to form shielding gas blends. These blends are expressed as a percentage (e.g. 75% Ar / 25% CO2 or 75Ar/25CO2). Other gases (e.g. hydrogen) and many other gas mixes of different percentages and combination of gases are also used in the welding industry. Table 1 is simply meant to be a quick summary of the most common gases used for common types of base materials in the U.S, welding market. <P> The normal gas for TIG welding is argon (Ar). Helium (He) can be added to increase penetration and fluidity of the weld pool. Argon or argon/helium mixtures can be used for welding all grades. In some cases nitrogen (N 2) and/or hydrogen (H 2) can be added in order to achieve special properties. For stainless steels there are also gases available containing small amounts of hydrogen (H 2). The table indicates the appropriate choice of shielding gas for MIG/MAG welding, taking account of different types of stainless steel and arc types. <P> Choosing The Right Gas. Many MIG welding applications lend themselves to a variety of shielding gas choices, and you need to evaluate your welding goals in order to choose the correct one for your specific application. MIG Welding Shielding Gas Basics. MIG (GMAW) welding with shielding gas and a solid wire electrode produces a clean, slag-free weld without the need to continually stop welding to replace the electrode, as in Stick welding.
Consider adding helium to the shielding gas mixture for its ability to provide a hotter, more penetrating arc on thicker sections.
how to help ease my child with a dental procedure
<P> 1 Stress to your child how important it is to maintain healthy teeth and gums and that the dentist is a friendly doctor whose job it is to help do this. 2 Don't promise a reward for going to the dentist. Any anxiety displayed by parents will be picked up by the child. To help the dental visit go more smoothly: 1 Tell your child about the visits but limit the amount of details given. 2 Answer any questions with simple, to-the-point answers. <P> 1 Don't tell your child about an unpleasant dental experience that you've had. 2 Stress to your child how important it is to maintain healthy teeth and gums and that the dentist is a friendly doctor whose job it is to help do this. 3 Don't promise a reward for going to the dentist. Any anxiety displayed by parents will be picked up by the child. To help the dental visit go more smoothly: 1 Tell your child about the visits but limit the amount of details given. 2 Answer any questions with simple, to-the-point answers. <P> A Intermountain Healthcare answered. To help relieve your child's pain after a dental procedure, it is important to offer comfort and listen to your child's concerns. <P> 1 Don't tell your child about an unpleasant dental experience that you've had. 2 Stress to your child how important it is to maintain healthy teeth and gums and that the dentist is a friendly doctor whose job it is to help do this. 3 Don't promise a reward for going to the dentist. Parents' Role in the Dental Visit. To help the dental visit go more smoothly: 1 Tell your child about the visits but limit the amount of details given. 2 Answer any questions with simple, to-the-point answers. 3 Let the dentist answer more complex or detailed questions. <P> 1 Avoid the use of words like “hurt” or “shot” or “painful.”. 2 Don't tell your child about an unpleasant dental experience that you've had. 3 Stress to your child how important it is to maintain healthy teeth and gums and that the dentist is a friendly doctor whose job it is to help do this. Parents' Role in the Dental Visit. To help the dental visit go more smoothly: 1 Tell your child about the visits but limit the amount of details given. 2 Answer any questions with simple, to-the-point answers. 3 Let the dentist answer more complex or detailed questions. <P> As a part of your child’s cancer treatment, your child may have to undergo medical procedures that are painful. Children respond to painful procedures in many different ways. As a parent, it can be very difficult to watch your child when they are scared and/or in pain. Here, we talk about how to share information with your child to prepare for upcoming medical procedures, about pain, and providing some tips for helping your child cope. While we cannot expect to completely eliminate pain in most situations, there are some basic steps you and your child can take to ease pain. <P> In this article. Fear of pain is the main reason people avoid seeing the dentist. The good news is that there is a wide array of medications and techniques -- used alone or in combination -- that can reduce or eliminate pain and control anxiety during most procedures. Medications at the Dentist's Office. 1 General anesthesia. 2 With this technique, the patient is put to sleep for the duration of the procedure. 3 Patients requiring general anesthesia can be treated in the dentist's office, but more likely are treated in a hospital setting. <P> Children respond to pain in different ways, and you may need to try a few different things before you find something that works for your child. Remember, you are the expert when it comes to recognizing that your child is in pain and identifying things that help soothe your child. Preparing for a Procedure. Here, we talk about how to share information with your child to prepare for upcoming medical procedures, about pain, and providing some tips for helping your child cope. While we cannot expect to completely eliminate pain in most situations, there are some basic steps you and your child can take to ease pain. <P> If your dentist does not take steps to ease your child's fears, consider finding another dentist. It is important that your child has a positive experience at the dentist during their early years so that he or she does not develop an ongoing fear of oral health care providers. Parents' Role in the Dental Visit. To help the dental visit go more smoothly: 1 Tell your child about the visits but limit the amount of details given. 2 Answer any questions with simple, to-the-point answers. 3 Let the dentist answer more complex or detailed questions.
To help relieve your child's pain after a dental procedure, it is important to offer comfort and listen to your child's concerns.
best time to visit kangaroo island australia
<P> A Big Island-As the third largest island off the coast of mainland Australia, Kangaroo Island is more than a day-trip destination. At 155 kilometres long and up to 55 kilometres wide, it covers an area of 4,416 square kilometres. <P> Over the coming months, Experience Oz will be running a series answering the frequently-asked question by potential travellers “When is the best time to visit...?” for some of Australia's most popular destinations. Here, we look at Kangaroo Island, South Australia's stunning wildlife hotspot. <P> Kangaroo Island Australia. The best place to see Australian Wildlife. Australian Islands. The only way to describe it is a “natural zoo” You can see Australian animals in their natural habitat as you leisurely drive the islands quiet unsealed red roads, taking in all the beautiful scenery and pristine beaches. <P> Commune with native wildlife and majestic scenery on Kangaroo Island, easily accessible from Adelaide. Meet Australian sea lions on the beach, kangaroos, koalas, wallabies, penguins, echidnas and diverse birds. <P> Kangaroo Island was separated from the mainland around 10,000 years ago. It was first explored by Matthew Flinders in 1802 whilst en route from UK to Sydney. He named the island in honour of the feast of Kangaroo he and his crew enjoyed on the island. <P> Kangaroo Island Australia is just over 2 hour drive from Adelaide. I'd recommend a trip to Adelaide and then heading over to the McClaren Vale wineries. Just carry further down the Fleurieu Peninsula to Cape Jervis where you can catch a ferry over to Penneshaw on the Island. Driving time from MClaren Vale is 1 hour 10. <P> We’ve got you sorted. When is the Best Time to Visit Kangaroo Island. First up, consider the temperature. Sitting off the bottom of Australia, Kangaroo Island has cooler summers (Dec-Jan) than destinations like Sydney, and colder winters (May-July).
Summers (Dec-Jan) than destinations like Sydney, and colder winters (May-July).
abrianna name meaning
<P> Abrianna Name Meaning. The meaning of Abrianna is “Mother of Many Nations”. Keep in mind that many names may have different meanings in other countries and languages, so be careful that the name that you choose doesn’t mean something bad or unpleasant. <P> Self-awareness test of the baby. Performing the self-awareness test of the baby is quite simple. If you put a red dot on the baby’s forehead and show him the mirror, notice what he does. If they rub the dot, they are aware, else not. More About Italian Name: Abrianna. The name Abrianna comes from the Gaelic origin. In Gaelic the meaning of the name Abrianna is: Noble, virtuous, strong. In Gaelic it means Noble, Strong, Virtuous,Abrianna can also be a variant of Aubrianna. <P> Italian Meaning: The name Abrianna is an Italian baby name. In Italian the meaning of the name Abrianna is: Feminine of Abraham. SoulUrge Number: 3. Expression Number: 6. People with this name have a deep inner desire to create and express themselves, often in public speaking, acting, writing or singing. <P> What does Brianna mean, popularity, numerology and more. The name Brianna is of Irish origin. The meaning of Brianna is strong, honorable. It is also of Celtic and origin, where its meaning is . <P> Then just follow the diagram below. Just for fun, see the name Abrianna in Hieroglyphics, learn about ancient Egyptian Hieroglyphics and write a Hieroglyphic message. Learn about nautical flags and see your name or message written in nautical flags, on the Abrianna in Nautical Flags page. <P> Abrianna /abri-an-na/ [4 sylls.] as a girls' name is of Hebrew origin, and the meaning of the name Abrianna is father of many. Abrianna is an alternate spelling of Abriana (Hebrew): Italian feminine variation of Abraham. Compare last name Auburn. Kreatif forms: Abrianau, Abriannaau, Auabrianna. <P> Brianna /bri-an-na/ [3 sylls.] as a girls' name is pronounced bree-AHH-ah. It is of Irish, Gaelic and Celtic origin, and the meaning of Brianna is high, noble, exalted. May also possibly mean strong. A contemporary feminine form of Brian, found occasionally in England since the 16th century. See also Brionna. Brianna is a very popular first name for females (#738 out of 4276, Top 17%) but a unique last name for all people. (2000 U.S. Census). Displayed below is the birth name popularity of Brianna for girls. Brianna was first listed in 1970-1979 and reached its top position of #14 in the U.S. in the year 1999, and is presently at #85 <P> Tweet. Abrianna is of Hebrew, Celtic origin and it is used mainly in the English language. The name is of disputed origin; it could be a feminine form of Abraham, or else it could be a combination name. Variant forms inherit the origin and thus the meaning of Abrianna.
Noble, virtuous, strong
how can one avoid heart attack
<P> Preventing a heart attack. Making lifestyle changes is the most effective way to prevent having a heart attack (or having another heart attack). There are three main steps you can take to help prevent a heart attack (as well as stroke): 1 eat a healthy, balanced diet. 2 avoid smoking. <P> Prevention. It's never too late to take steps to prevent a heart attack — even if you've already had one. Here are ways to prevent a heart attack. 1 Medications. 2 Taking medications can reduce your risk of a subsequent heart attack and help your damaged heart function better. 3 Continue to take what your doctor prescribes, and ask your doctor how often you need to be monitored. 4 Lifestyle factors <P> This is another prime tip on how to prevent heart attack. If you can get a minimum of 30 minutes of exercise each day, you can greatly reduce your risk of heart disease. The physical activity combined with a healthy diet and lifestyle can do wonders to protect your heart and keep it healthy. Whether you are already at risk for heart attacks, or are simply concerned about your health, heart attack prevention may mean a significant lifestyle change. With these simple steps, you can learn how to prevent a heart attack – and how to stop heart attack if you feel the symptoms coming on. <P> Don’t smoke. Many people ask how to prevent heart attack, but they continue to smoke incessantly. Tobacco is a prime contributor to heart disease, as it damages the heart and blood vessels, leading to atherosclerosis. By quitting smoking, you can drastically reduce your risk of heart disease within just one year. Whether you are already at risk for heart attacks, or are simply concerned about your health, heart attack prevention may mean a significant lifestyle change. With these simple steps, you can learn how to prevent a heart attack – and how to stop heart attack if you feel the symptoms coming on. <P> 1 Medications. 2 Taking medications can reduce your risk of a subsequent heart attack and help your damaged heart function better. 3 Continue to take what your doctor prescribes, and ask your doctor how often you need to be monitored. 4 Lifestyle factors. It's never too late to take steps to prevent a heart attack — even if you've already had one. Here are ways to prevent a heart attack. 1 <P> If you want to know how to prevent heart attack, one of the best tips is sticking to a heart-smart diet. That may mean drastically changing what you eat, but cutting out certain foods can greatly reduce your heart attack risk. Here are some tips on eating a heart-smart diet: Limit unhealthy fats and cholesterol. Whether you are already at risk for heart attacks, or are simply concerned about your health, heart attack prevention may mean a significant lifestyle change. With these simple steps, you can learn how to prevent a heart attack – and how to stop heart attack if you feel the symptoms coming on. <P> This is called a heart attack and it's the No. 1 killer of both men and women each year in the United States [source: American Heart Association ]. The bad news about heart attacks is that there are many factors that play in to whether you'll have one, including your genes, what you eat and how much you exercise. The good news is that they're preventable. If you take steps now, you can greatly improve your chances of not having a heart attack. <P> Don't smoke or use tobacco. Smoking or using tobacco of any kind is one of the most significant risk factors for developing heart disease. Chemicals in tobacco can damage your heart and blood vessels, leading to narrowing of the arteries (atherosclerosis). Atherosclerosis can ultimately lead to a heart attack. <P> The blood vessels which feed the heart are called coronary arteries. A heart attack, also known as a myocardial infarction (MI), is when one of the coronary arteries gets blocked and the muscle dies. This type of blockage is usually the result of heart disease, or coronary artery disease (CAD). This leads to the formation of blood clots which can completely obstruct the arteries. This is the cause of the majority of heart attacks. If you worry you might be at risk for a heart attack, you can follow a few simple steps to prevent one from happening.
1 Medications. 2 Taking medications can reduce your risk of a subsequent heart attack and help your damaged heart function better.3 Continue to take what your doctor prescribes, and ask your doctor how often you need to be monitored. 4 Lifestyle factors.
why is tryptophan and lactose operons referred to as negative control
<P> The lac operon is involved with the breakdown of lactose to use as a food source. The trp operon produces products that are used to manufacture an amino acid, tryptophan. The pathway controlled by the trp operon is an example of an anabolic pathway. The lac operon controls a catabolic pathway, one that breaks down complex molecules to release energy for biological work. The lac operon is controlled both by the abundance of its substrate, lactose, and by the abundance of glucose, an alternative to glucose. As there is no alternative to tryptophan the control of the trp operon is less complex than that of the lac operon. <P> The tryptophan (trp) operon in E. coli is a negative control repressible system. It’s negative control because the system produces a repressor which functions to turn off the operon. It’s repressible because, unlike the lac operon, repression occurs when a critical substance is abundant in the cell. This means that the cell only metabolizes lactose if glucose is low and lactose is plentiful. The cell uses a negative control system (the lac operon) to respond to the availability of lactose in the environment. Negative control. means that it’s a system in which the active substance acts to turn off function. <P> The trp operon is an operon — a group of genes that are used, or transcribed, together — that codes for the components for production of tryptophan. The trp operon is present in many bacteria, but was first characterized in Escherichia coli. In the lac operon, allolactose binds to the repressor protein, allowing gene transcription, while in the trp operon, tryptophan binds to the repressor protein effectively blocking gene transcription. <P> lac operon (lactose operon) is an operon required for the transport and metabolism of lactose in Escherichia coli and many other enteric bacteria. Although glucose is the preferred carbon source for most bacteria, the lac operon allows for the effective digestion of lactose when glucose is not available. The protein that is formed by the lacI gene is known as the lac repressor. The type of regulation that the lac operon undergoes is referred to as negative inducible, meaning that the gene is turned off by the regulatory factor (lac repressor) unless some molecule (lactose) is added. <P> The genes encoding these are clustered together in a single operon with its own promoter and operator. In this case, however, the presence of tryptophan in the cell shuts down the operon. When Trp is present, it binds to a site on the Trp repressor and enables the Trp repressor to bind to the operator. In the absence of lactose, the repressor protein encoded by the I gene binds to the lac operator and prevents transcription. Binding of allolactose to the repressor causes it to leave the operator. This enables RNA polymerase to transcribe the three genes of the operon <P> The lac operon. In the absence of lactose, the repressor protein encoded by the I gene binds to the lac operator and prevents transcription. Binding of allolactose to the repressor causes it to leave the operator. This enables RNA polymerase to transcribe the three genes of the <P> Negative vs Positive Control. 1 While the Trp operon is an example of repressible gene regulation and the Lac operon is an example of inducible gene regulation, both are examples of negative control of genes because both operons are shut off by an active repressor. Click here if you do not have it. Class Notes [Introduction] [The Trp Operon] [Repressible vs Inducible Systems] [The Lac Operon] [Negative vs Positive Control] Introduction E. coli is a bacteria that lives in your colon. It has a metabolic pathway that allows for the synthesis of the amino acid tryptophan (Trp). <P> 1 While the Trp operon is an example of repressible gene regulation and the Lac operon is an example of inducible gene regulation, both are examples of negative control of genes because both operons are shut off by an active repressor. Click here if you do not have it. Class Notes [Introduction] [The Trp Operon] [Repressible vs Inducible Systems] [The Lac Operon] [Negative vs Positive Control] Introduction E. coli is a bacteria that lives in your colon. It has a metabolic pathway that allows for the synthesis of the amino acid tryptophan (Trp). <P> The lac operon regulates expression of the three lac genes by regulating the efficiency of that process. Negative Control of Transcription: Immediately upstream of the three lac genes is a fourth gene which is responsible for negative regulation of the operon. This gene expresses a protein called the lac repressor. The repressor can bind to a short sequence of the lac promoter. At the 5' end of the lac operon is a promoter. The promoter is the site where RNA polymerase binds to DNA to initiate transcription. The amount of mRNA produced from a given operon depends on the efficiency of promoter recognition.
The tryptophan (trp) operon in E. coli is a negative control repressible system because the system produces a repressor which functions to turn off the operon. lactose operons referred to as negative control to respond to the availability of lactose in the environment.
what is a constellation and how do they get their names
<P> The other is the Lynx, one of only two animal constellations with identical Latin and English names (the other is Phoenix). This celestial feline is rather dim and hard to visualize. Johannes Hevelius (1611-1687) a 17th century Renaissance man placed it in the sky. <P> Groups of bright stars that appear close together in the sky are called constellations. They form patterns that never seem to change over hundreds or even thousands of years. The sky is divided up into 88 <P> Constellation names that come from Greek mythology or refer to figures from Greek and Roman myths, as zodiac constellations do, are probably the ones that are best known. <P> Constellations are simply groups of stars that people have named for the sake of convenience. People have been mapping constellations for thousands of years, usually naming them after mythological characters or common items that the group of stars resembles. For instance, the constellation Leo looks like a seated lion. If you were to connect the dots, or stars, you would draw a rough outline of a lion. <P> There are 88 officially recognized constellations in the sky, and these astronomical patterns have a fascinating and long history. Forty-eight of the constellations are known as ancient or original, meaning they were talked about by the Greeks and probably by the Babylonians and still earlier peoples. <P> In 1928, the International Astronomical Union sanctioned the official constellation boundaries that defined the 88 constellations and abbreviations listed below. The new constellation boundaries were first drawn in a publication by Eugene Delporte of Belgium in 1930 and these are the boundaries that exist today. <P> Constellation Guide. The International Astronomical Union recognizes 88 constellations covering the entire northern and southern sky. Here is a selection of the most familiar and easily seen constellations in the northern sky.
Constellations are simply groups of stars that people have named for the sake of convenience. People have been mapping constellations for thousands of years, usually naming them after mythological characters or common items that the group of stars resembles
what band formed from nirvana
<P> Biography. Nirvana was an American rock band that was formed by singer and guitarist Kurt Cobain and bassist Krist Novoselic in Aberdeen, Washington, in 1987. Nirvana went through a succession of drummers, the longest-lasting being Dave Grohl, who joined the band in 1990. <P> Nirvana was an American rock band that was formed by singer/guitarist Kurt Cobain and bassist Krist Novoselic in Aberdeen, Washington in 1987. Nirvana went through a succession of drummers, the longest-lasting being Dave Grohl, who joined the band in 1990. <P> Nirvana was an American rock band that was formed by singer/guitarist Kurt Cobain and bassist Krist Novoselic in Aberdeen, Washington in 1987. Nirvana went through a succession of drummers, the longest-lasting being Dave Grohl, who joined the band in 1990. <P> Nirvana was an American rock band that was formed by singer/guitarist Kurt Cobain and bassist Krist Novoselic in Aberdeen, Washington in 1987. Nirvana went through a succession of drummers, the longest-lasting being Dave Grohl, who joined the band in 1990. <P> Nirvana was an American rock band that was formed by singer and guitarist Kurt Cobain and bassist Krist Novoselic in Aberdeen, Washington, in 1987. Nirvana went through a succession of drummers, the longest-lasting being Dave Grohl, who joined the band in 1990. <P> Biography. Nirvana was an American rock band that was formed by singer and guitarist Kurt Cobain and bassist Krist Novoselic in Aberdeen, Washington, in 1987. Nirvana went through a succession of drummers, the longest-lasting being Dave Grohl, who joined the band ... <P> Nirvana was an American Grunge Rock band that was formed by singer-songwriter/guitarist Kurt Cobain and bassist Krist Novoselic in Aberdeen, Washington 1987.
American rock band
what does age of consent protect
<P> Age of consent laws are designed to protect children and young people from sexual exploitation and abuse. Such laws effectively determine that children and young people below the age of consent do not have the emotional maturity to consent to sexual activities. QLD. Criminal Code Act 1899 (Sections 208 and 215). The age of consent for anal sex (referred to as sodomy in legislation) is 18 years, and for all other sexual acts (referred to as carnal knowledge in legislation) is 16 years. <P> For other uses, see Age of consent (disambiguation) . The age of consent is the age at which a person is considered to be legally competent to consent to sexual acts, and is thus the minimum age of a person with whom another person is legally permitted to engage in sexual activity. Marriage. In most jurisdictions, age of consent laws do not apply if the parties are legally married to each other. Close-in-age exemptions. Some jurisdictions have laws explicitly allowing sexual acts with minors under the age of consent if their partner is close in age to them. <P> There is also a close-in-age exception for 12 and 13 year olds: a 12 or 13 year old can consent to sexual activity with another young person who is less than two years older and with whom there is no relationship of trust, authority or dependency or other exploitation of the young person. The penalty for this offence is a mandatory minimum period of imprisonment of up to a maximum of 10 years; Invitation to Sexual Touching (section 152) - no one can invite a child under the age of 16 to touch himself/herself or them for a sexual purpose. <P> Northern Ireland. The age of consent to any form of sexual activity is 16 for both men and women. The age of consent is the same regardless of gender or sexual orientation. The Sexual Offences (Northern Ireland) Order 2008 introduced a series of laws to protect children under 16 from abuse. The age of consent to any form of sexual activity is 16 for both men and women. The age of consent is the same regardless of the gender or sexual orientation of a person and whether the sexual activity is between people of the same or different gender. <P> Specific laws protect children under 13, who cannot legally give their consent to any form of sexual activity. There is a maximum sentence of life imprisonment for rape and assault by penetration. There is no defence of mistaken belief about the age of the child, as there is in cases involving 13–15 year olds. The age of consent to any form of sexual activity is 16 for both men and women. The age of consent is the same regardless of the gender or sexual orientation of a person and whether the sexual activity is between people of the same or different gender. <P> However, the age of consent is 18 years where the sexual activity exploits the young person -- when it involves prostitution, pornography or occurs in a relationship of authority, trust or dependency (e.g., with a teacher, coach or babysitter). The penalty for this offence is a mandatory minimum period of imprisonment of up to a maximum of 10 years; Invitation to Sexual Touching (section 152) - no one can invite a child under the age of 16 to touch himself/herself or them for a sexual purpose. <P> The age of consent to any form of sexual activity is 16 for both men and women, so that any sexual activity between an adult and someone under 16 is a criminal offence. The age of consent to any form of sexual activity is 16 for both men and women. The age of consent is the same regardless of the gender or sexual orientation of a person and whether the sexual activity is between people of the same or different gender. <P> Whether the sexual interaction between an adult and a person under the age of consent appeared consensual is irrelevant, as the laws determine that children and young people do not possess the maturity to consent to sex with an adult. QLD. Criminal Code Act 1899 (Sections 208 and 215). The age of consent for anal sex (referred to as sodomy in legislation) is 18 years, and for all other sexual acts (referred to as carnal knowledge in legislation) is 16 years. <P> The age of consent, also known as the age of protection, refers to the age at which a young person can legally consent to sexual activity. All sexual activity without consent, regardless of age, is a criminal offence. The penalty for this offence is a mandatory minimum period of imprisonment of up to a maximum of 10 years; Invitation to Sexual Touching (section 152) - no one can invite a child under the age of 16 to touch himself/herself or them for a sexual purpose. <P> The term age of consent rarely actually appears in legal statutes; it has sometimes been used with other meanings, such as the age at which a person becomes competent to consent to marriage, but the meaning given above is the one now generally understood. Marriage. In most jurisdictions, age of consent laws do not apply if the parties are legally married to each other. Close-in-age exemptions. Some jurisdictions have laws explicitly allowing sexual acts with minors under the age of consent if their partner is close in age to them.
Refers to the age at which a young person can legally consent to sexual activity. All sexual activity without consent, regardless of age, is a criminal offence.
what is brandade
<P> Brandade De Morue. makes about 3 cups. A southern French classic, brandade is a thick and creamy emulsion of hydrated salt cod, garlic, olive oil and cream. It's usually served as a filling dip with slices of crusty bread and raw vegetables, and goes nicely with a crisp, dry white wine. <P> Sarah Bossert/E+/Getty Images. Brandade is a purely French specialty of pureed salt cod, but there is some debate over the addition of potatoes. Purists insist that cod alone is enough to create the smooth texture for which the dip is renowned. <P> The famous brandade de morue of Provence is a pounded mixture of salt cod, olive oil, garlic, milk and cream. This flavorful puree purée is served with croutes croûtes and often garnished with chopped. Black truffles other salted or smoked fish can also be used to. make brandade <P> Adorable animal families that will make you aww. Brandade is a dish made primarily of salt cod and olive oil. The two ingredients are blended together to make a thick paste with a texture similar to whipped potatoes. <P> Brandade is an emulsion of salt cod and olive oil eaten in winter with bread or potatoes. In French it is sometimes called Brandade de Morue and in Spanish it can be called Brandada de bacalao ('morue' being the French name for cod and bacalao the Spanish one).
Brandade is an emulsion of salt cod and olive oil eaten in winter with bread or potatoes.
at what temperature does bacteria grow on food
<P> 1 Temperature -- Bacteria in general are capable of growing over a wide range of temperatures and are usually classified according to the temperature at which they grow. 2 Psychrotrophic bacteria are those that are capable of growing at 32°F - 45°F but their optimum is from 68°F to 86°F. <P> In summary at least some bacteria like every temperature you will find on the planet best. Most bacteria develop rapidly between 20 and 40°C. Those that are pathogenic to humans are normally cultivated around body temperature, 37 ±3 °C for fast analysis. Most bacteria stop growing at temperatures close to 0°C. <P> 1 Most pathogenic bacteria grow at these temperatures. 2 Thermophilic bacteria. 3 These microorganisms grow at higher temperatures such as 110°F - 150°F. 4 Temperature is the most widely used method of controlling bacterial growth. <P> The temperature range in which most bacteria grow is between 40 degrees F (5 degrees C) and 140 degrees F (60 degrees C). Raw and cooked foods should not be kept in this danger zone any longer than absolutely necessary. Undercooking or improper processing of home-canned foods can cause very serious food poisoning. <P> Most … bacteria stop growing at temperatures close to 0 °C. Also most bacteria die at about 70 °C, but there are pathogenic bacteria that need 121 °C to be killed off. Refrigerators shall have max 8°C temperature to reduce bacterial growth, 2 °C for storing of fish (hence ice boxes are used).
40 degrees F (5 degrees C) to 140 degrees F (60 degrees C)
How much does it cost to go to Japan
<P> For a reasonable SOLO 7-day trip to Tokyo Japan, the cost will be around $1890 to $2090 USD when you travel from Los Angeles in November 2015. The cost of food is another big variable of cost for the trip. Sushi can go from as cheap as $15 (10 plates at revolving Sushi bar) US dollars to 300 dollars per meal, depending on the type of restaurant you visit. They typically range from $20 to $40 per lunch/dinner set. McDonald's meals costs around $7 to $10 <P> Replica. For those of you that are wondering about the money process for japan, I found it to be a good way to estimate how much things would cost Yen to USD by just not using the period. Like 70000 Yen would be around 700.00 USD. Works really well right now. <P> 1 We bought a 7 day Japan Rail Pass for 28,300 yen each – a whopping $368 or £234. 2 This does save you a lot of money if you want to ride the bullet trains (which you do, they are awesome). 3 This isn’t much more than a return trip from Tokyo to Kyoto would cost. 1 This is when things start to get expensive and more accurately reflect the cost of travelling in Japan. 2 We bought a 7 day Japan Rail Pass for 28,300 yen each – a whopping $368 or £234. 3 This does save you a lot of money if you want to ride the bullet trains (which you do, they are awesome) <P> One-way ticket from Tokyo area to Osaka costs around $125. I recommend buying All-You-Can-Ride Japan Rail Pass if your trip itinerary includes areas outside of the Tokyo area. Taxi: I do not recommend taking the taxi from Narita airport to the city center. It probably will cost $200 to $450 per ride. The cost of food is another big variable of cost for the trip. Sushi can go from as cheap as $15 (10 plates at revolving Sushi bar) US dollars to 300 dollars per meal, depending on the type of restaurant you visit. They typically range from $20 to $40 per lunch/dinner set. McDonald's meals costs around $7 to $10 <P> Medium budget: 500 - 1,000 yen per day Many coffee shops and some restaurants in shopping areas and around train stations offer breakfast sets for around 500 to 1000 yen. High budget: above 1,000 yen per day Hotel breakfasts and breakfast buffets will usually cost you more than 1000 yen. Breakfast buffets in first-class hotels typically cost between 2000 and 3000 yen. <P> 1 Spending £30 ($47) a day for two people in Kyoto is a bargain and we are so glad we found the housesit. 2 If you had to add accommodation expenses but were able to self-cater as much as we did this budget would go up to about £95 ($149) a day for two based on staying in an 8000 yen double ensuite room in a hostel. 1 This is when things start to get expensive and more accurately reflect the cost of travelling in Japan. 2 We bought a 7 day Japan Rail Pass for 28,300 yen each – a whopping $368 or £234. 3 This does save you a lot of money if you want to ride the bullet trains (which you do, they are awesome) <P> For a reasonable TWO-ADULT 7-day trip to Tokyo Japan, the cost will be around $3260 to $4460 USD when you travel from Los Angeles in November 2015. The cost of food is another big variable of cost for the trip. Sushi can go from as cheap as $15 (10 plates at revolving Sushi bar) US dollars to 300 dollars per meal, depending on the type of restaurant you visit. They typically range from $20 to $40 per lunch/dinner set. McDonald's meals costs around $7 to $10 <P> In Japan, where independent travel was much easier than I had originally thought it would be, my total spend amounted to approximately £ 1,700, $2,700 over four weeks or £61, $98 per day, which includes the cost of a three-week JR Rail Pass. Accommodation Costs. I’m used to paying around £3-£6, $5-$10 for a dorm room in Central and Southeast Asia or £10, $16 for a private, with the exception of Myanmar, where costs for accommodation are slightly higher closer to that of Japan. In Japan, accommodation will be your biggest cost, alongside transportation.
£ 1,700, $2,700 over four weeks or £61, $98 per day
explain asexual reproduction
<P> While asexual reproduction only involves one organism, sexual reproduction requires both a male and a female. Some plants and unicellular organisms reproduce asexually. Most mammals and fish use sexual reproduction. Some organisms like corals and komodo dragons can reproduce either sexually or asexually. Sexual reproduction is reproduction that requires a male and a female of the same species to contribute genetic material. Special cells called gametes are produced through meiosis, which halves the number of chromosomes in each resulting cell. <P> There is also asexual reproduction, which is a type of reproduction in which only one parent is involved. This is how the bacteria cell reproduces. With asexual reproduction, all of the genes come from a single parent, so the offspring are genetically identical to the parent. <P> Reproduction (or procreation) is the biological process by which new individual organisms – offspring – are produced from their parents. Reproduction is a fundamental feature of all known life; each individual organism exists as the result of reproduction. There are two forms of reproduction: asexual and sexual. Sexual reproduction is a biological process that creates a new organism by combining the genetic material of two organisms in a process that starts with meiosis, a specialized type of cell division. Each of two parent organisms contributes half of the offspring's genetic makeup by creating haploid gametes. <P> In animals, this can occur in two primary ways: through asexual reproduction and through sexual reproduction. Let's look at asexual reproduction. In asexual reproduction, one individual produces offspring that are genetically identical to itself. These offspring are produced by mitosis. There are many invertebrates, including sea stars and sea anemones for example, that produce by asexual reproduction. Common forms of asexual reproduction include: <P> Asexual reproduction is the primary form of reproduction for single-celled organisms such as the archaebacteria, eubacteria, and protists. Fragmentation is a form of asexual reproduction where a new organism grows from a fragment of the parent. Each fragment develops into a mature, fully grown individual. Fragmentation is seen in many organisms such as animals (some annelid worms [Which ones?] , turbellarians and sea stars), fungi, and plants. <P> Asexual reproduction is reproduction without sex. In this form of reproduction, a single organism or cell makes a copy of itself. The genes of the original and its copy will be the same, except for rare mutations. They are clones. Types of Asexual Reproduction. A cell splitting and becoming two cells (overview)Some organisms like bacteria reproduce using binary fission. They split in two, so one bacterium becomes two bacteria. This always leads to daughter cells, and the offspring will be identical to the parent. <P> Asexual reproduction in liverworts: a caducous phylloid germinating. Asexual reproduction is a mode of reproduction by which offspring arise from a single organism, and inherit the genes of that parent only; it does not involve the fusion of gametes and almost never changes the number of chromosomes. Fragmentation is a form of asexual reproduction where a new organism grows from a fragment of the parent. Each fragment develops into a mature, fully grown individual. Fragmentation is seen in many organisms such as animals (some annelid worms [Which ones?] , turbellarians and sea stars), fungi, and plants. <P> In asexual reproduction, an organism can reproduce without the involvement of another organism. Asexual reproduction is not limited to single-celled organisms. The cloning of an organism is a form of asexual reproduction. Sexual reproduction is a biological process that creates a new organism by combining the genetic material of two organisms in a process that starts with meiosis, a specialized type of cell division. Each of two parent organisms contributes half of the offspring's genetic makeup by creating haploid gametes. <P> * when offspring are produced from a single parent, it is called asexual reproduction * the offspring are identical to the parent! By cell division, one cell divides to become two. This process is used by some organisms, such as protozoans, to reproduce. TYPES OF ASEXUAL REPRODUCTION. * carried out by unicellular organisms, many lower animals, and many plants * asexual reproduction IS mitosis * offspring are identical to the parents * the process is usually rapid and results in a large number of offspring * there are several types of asexual reproduction. <P> Cell division in asexual and sexual reproduction. Sexual reproduction is reproduction that requires a male and a female of the same species to contribute genetic material. Special cells called gametes are produced through meiosis, which halves the number of chromosomes in each resulting cell.
It is a mode of reproduction by which offspring arise from a single organism, and inherit the genes of that parent only.
what does the american flag colors symbolize
<P> Sentimental writers and orators sometimes ascribe meanings to the colors in the flag. The practice is erroneous, as are statements on this subject attributed to George Washington and other founders of the country. In heraldic devices, such as seals, each element has a specific meaning. Even colors have specific meanings. The colors red, white, and blue did not have meanings for The Stars and Stripes when it was adopted in 1777. However, the colors in the Great Seal did have specific meanings. Charles Thompson, Secretary of the Continental Congress, reporting to Congress on the Seal, stated: <P> The 50 stars represents the 50 states, the 13 stripes represents the 13 colonies. The white on the flag signifies purity and innocence. The red, for hardiness and courage, and the blue for perseverance and determination. (Some people also say that the red also represents the blood spilled to protect our country and our freedom.). The 13 red and white stripes represent the 13 original colonies: Virginia, Massachusetts, New Hampshire, Maryland, Connecticut, Rhode Island, Delaware, North Carolina, South Carolina, New Jersey, New York, Pennsylvania, and Georgia. <P> The colors of the pales (the vertical stripes) are those used in the flag of the United States of America; White signifies purity and innocence, Red, hardiness & valour, and Blue, the color of the Chief (the broad band above the stripes) signifies vigilance, perseverance & justice.. In heraldic devices, such as seals, each element has a specific meaning. Even colors have specific meanings. The colors red, white, and blue did not have meanings for The Stars and Stripes when it was adopted in 1777. However, the colors in the Great Seal did have specific meanings. Charles Thompson, Secretary of the Continental Congress, reporting to Congress on the Seal, stated: <P> The colors of the pales (the vertical stripes) are those used in the flag of the United States of America; White signifies purity and innocence, Red, hardiness & valor, and Blue, the color of the Chief (the broad band above the stripes) signifies vigilance, perseverance & justice.. The 13 red and white stripes represent the 13 original colonies: Virginia, Massachusetts, New Hampshire, Maryland, Connecticut, Rhode Island, Delaware, North Carolina, South Carolina, New Jersey, New York, Pennsylvania, and Georgia. <P> The colors of the pales (the vertical stripes) are those used in the flag of the United States of America; White signifies purity and innocence, Red, hardiness & valor, and Blue, the color of the Chief (the broad band above the stripes) signifies vigilance, perseverance & justice.. <P> Here are all the reasons behind using Red, White, and Blue. The American Flag is symbolic in many ways. The alternating red and whites stripes represent the 13 British colonies that settled in America, while the stars represent each individual state. <P> White signifies purity and innocence. Red, hardiness & valour, and Blue… signifies vigilance, perseverance & justice.”. Mike Buss, a flag expert with the American Legion, says that the most obvious reason for the flag’s colors is that they were simply taken from our mother country’s flag — the Union Jack of England. The significance behind the flag’s design is more commonly known than that of its colors. The 50 stars stand for America’s 50 states, while the 13 red and white stripes represent the 13 colonies. But there’s also a lesser-known interpretation for the Stars and Stripes. <P> Red-hardiness, valor, strength, and bravery. each color on the American flag means something different: blue-justice, truth, loyalty, perseverance, and vigilance white-peac … e and honesty The color of the US Flag red stripes. The red mean the blood fought for vectored may also mean freedom. The 50 stars on the flag represent the 50 U.S. states and the 13 stripes represent the original Thirteen Colonies that rebelled against the British Crown and became the first states in the Union.
White signifies purity and innocence. Red signifies hardiness & valour. And Blue, the color of the Chief signifies vigilance, perseverance & justice.