Datasets:

0x70DA
/

ms_marco_clean

Dataset card Data Studio Files Files and versions Community

Split (3)

train · 58.2k rows

query stringlengths 8 144	context stringlengths 398 6.25k	answer stringlengths 3 990
what hormone does the parathyroid gland produce	<P> The thyroid gland also produces another hormone called calcitonin, and the parathyroid glands secrete parathyroid hormone. Parathyroid hormone and calcitonin participate in control of calcium and phosphorus homeostasis and have significant effects on bone physiology. <P> We all normally have four parathyroid glands located in our necks, which produce Parathyroid Hormone (PTH) to control the amount of calcium in our blood, nervous system and bones. If a tumor develops on these glands, it is called parathyroid disease, or hyperparathyroidism. <P> Low blood calcium levels stimulate the parathyroid gland to produce parathyroid hormone (PTH). PTH stimulates the osteoclasts to break down the bone matrix releasing the trapp … ed calcium thereby raising blood calcium levels. 1 person found this useful. 1 The function of these glands is to regulate the amount of calcium in t…. 2 The Functions of Parathyroid Hormone The parathyroid consists of four glands that reside around the thyroid and that release beneficial hormones into your body to maintain your health. <P> Too much calcium in the urine can also cause calcium stones in the kidney. Occasionally, the parathyroid glands do not produce enough parathyroid hormone leading to low blood calcium levels (hypocalcaemia). This condition is called hypoparathyroidism. Reviewed: January 2015. The parathyroid glands lie near the thyroid glands in the neck. <P> What is parathyroid hormone? Parathyroid hormone is secreted from the four parathyroid glands, which are small glands in the neck, located behind the thyroid gland. Parathyroid hormone regulates calcium levels in the blood, largely by increasing the levels when they are too low. It does this through its actions on the kidneys, bones and intestine: Parathyroid hormone is secreted by the parathyroid glands and is the most important regulator of calcium levels in the blood and within the bones. <P> The parathyroids produce a hormone called parathyroid hormone (PTH). PTHPTH-parathyroid hormone raises the blood calcium level by: 1 breaking down the bone (where most of the body's calcium is stored) and causing calcium release. 2 increasing the body's ability to absorb calcium from food. The parathyroid glands are four tiny glands, located in the neck, that control the body's calcium levels. Each gland is about the size of a grain of rice (weighs approximately 30 milligrams and is 3-4 millimeters in diameter). <P> Low blood calcium levels stimulate the parathyroid gland to produce parathyroid hormone (PTH). PTH stimulates the osteoclasts to break down the bone matrix releasing the trapp … ed calcium thereby raising blood calcium levels. 1 person found this useful. Answered. In Human Anatomy and Physiology. The parathyroid gland produces parahormone which regulates the amount of calcium in the blood. <P> The parathyroid glands are small endocrine glands in the neck of humans and other tetrapods that produce parathyroid hormone. Humans usually have four parathyroid glands, variably located on the back of the thyroid gland, although considerable variation exists. The parathyroid glands are two pairs of glands usually positioned behind the left and right lobes of the thyroid. Each gland is a yellowish-brown flat ovoid that resembles a lentil seed, usually about 6 mm long and 3 to 4 mm wide, and 1 to 2 mm anteroposteriorly. <P> The thyroid gland and parathyroid glands are a group of endocrine glands located in the base of the neck. These glands play a vital role in maintaining the body’s homeostasis by producing hormones that regulate the body’s metabolism and free calcium levels.	Parathyroid hormone
when should children stop breastfeeding	<P> If you decide you are going to stop breastfeeding your child all of a sudden one day (cold turkey), you may be inviting trouble. Your breasts will continue to get filled with milk. Since the baby will not be emptying them, they may get engorged and/or get infected, and lead to severe discomfort, at the very least. <P> You should stop breastfeeding before the child begins to grow it's first tooth. It is unhealthy and can cause psychological damage to the child if breastfeeding is continued into the child's formative years. <P> How to Stop Breastfeeding. Weaning a child is not easy as the child may feel cranky. Weaning should be done gradually. This gradual reduction of feeds will also prevent engorged breasts thus reducing the discomfort to the mother. <P> The right time to stop is when you and your child want to. The AAP reccomends a minimum of one year, the WHO says a minimum of 2 years. <P> If you’re enjoying breastfeeding, you can continue for as long as you and your baby want to. That could mean until she's a year, or even two years, old. There's no need to stop before you’re both ready. <P> Breastfeeding experts recommend letting your baby or toddler decide when she wants to stop breastfeeding (baby-led weaning). But it's up to you to decide what's best for you and your baby. To your child, breastfeeding is more than just food. <P> Yes \| No Thank you! The right time to stop is when you and your child want to. The AAP reccomends a minimum of one year, the WHO says a minimum of 2 years. Babies need whole milk until at least the age of 2, and breastmilk is whole milk, if you are still nursing then no other milk is needed. There are many benefits to nursing to 2 years and even longer! You can google extended breastfeeding or child-led weaning and get some info. <P> There are three different ways decide when to stop breastfeeding. You have to determine which way is right for you, your baby and your situation. For the American Academy of Pediatrics breastfeeding recommendations, click here. There are benefits to delaying weaning your child for both mom and baby. For a list of these benefit	AAP reccomends a minimum of 1 year and the WHO says a minimum of 2 years.
what purpose do blood platelets serve in the body	<P> Thrombocytopenia. In this condition, your bone marrow makes too few platelets, or your platelets are destroyed. If your platelet count gets too low, bleeding can occur under the skin as bruising, inside the body as internal bleeding, or outside the body through a cut that won't stop bleeding or from a nosebleed. Your health care provider may do a blood test called a complete blood count to find out if your bone marrow is making the right number of platelets: A normal platelet count is 150,000 to 450,000 platelets per microliter of blood. Risk for bleeding develops if a platelet count falls below 10,000 to 20,000. <P> 1 are only about 20% of the diameter of red blood cells. 2 The normal platelet count is 150,000-350,000 per microliter of blood, but since platelets are so small, they make up just a tiny fraction of the blood volume. 3 The principal function of platelets is to prevent bleeding. 1 - In this disorder, described in its own section in this website, platelets are consumed in tiny clots in small blood vessels throughout the body. 2 The cause of TTP is a deficiency of a blood enzyme that helps to prevent platelet clumping and the resulting formation of the tiny blood clots. <P> Platelets are the smallest of the three major types of blood cells. 1 are only about 20% of the diameter of red blood cells. 2 The normal platelet count is 150,000-350,000 per microliter of blood, but since platelets are so small, they make up just a tiny fraction of the blood volume. 1 - In this disorder, described in its own section in this website, platelets are consumed in tiny clots in small blood vessels throughout the body. 2 The cause of TTP is a deficiency of a blood enzyme that helps to prevent platelet clumping and the resulting formation of the tiny blood clots. <P> Blood is a specialized body fluid. It has four main components: plasma, red blood cells, white blood cells, and platelets. Blood has many different functions, including: 1 transporting oxygen and nutrients to the lungs and tissues. 2 forming blood clots to prevent excess blood loss. <P> Platelets are tiny blood cells that help your body form clots to stop bleeding. If one of your blood vessels gets damaged, it sends out signals that are picked up by platelets. The platelets then rush to the site of damage and form a plug, or clot, to repair the damage. Your health care provider may do a blood test called a complete blood count to find out if your bone marrow is making the right number of platelets: A normal platelet count is 150,000 to 450,000 platelets per microliter of blood. Risk for bleeding develops if a platelet count falls below 10,000 to 20,000. <P> The purpose of platelets. “Platelets are the cells that circulate within our blood and bind together when they recognize damaged blood vessels,” says Dr. Marlene Williams, Assistant Professor of Medicine and CICU Director for Johns Hopkins Bayview Medical Center. In severe cases, the patient might have to undergo a procedure called a platelet pheresis. This lowers the platelet count by removing the blood, separating out the platelets, and returning the red blood cells back to the body. With secondary thrombocytosis, the symptoms are usually related to the associated condition. <P> White blood cells protect the body from infection. They are much fewer in number than red blood cells, accounting for about 1 percent of your blood. The most common type of white blood cell is the neutrophil, which is the immediate response cell and accounts for 55 to 70 percent of the total white blood cell count. It has four main components: plasma, red blood cells, white blood cells, and platelets. Blood has many different functions, including: 1 transporting oxygen and nutrients to the lungs and tissues. 2 forming blood clots to prevent excess blood loss. <P> Platelets are made in your bone marrow along with your white and red blood cells. Your bone marrow is the spongy center inside your bones. Another name for platelets is thrombocytes, and health care providers usually call a clot a thrombus. Your health care provider may do a blood test called a complete blood count to find out if your bone marrow is making the right number of platelets: A normal platelet count is 150,000 to 450,000 platelets per microliter of blood. Risk for bleeding develops if a platelet count falls below 10,000 to 20,000. <P> Plasma is the often forgotten component of blood. White blood cells, red blood cells, and platelets are essential to body function, but plasma also plays a crucial, and mostly unrecognized, job, carrying these blood components throughout the body as the fluid in which they travel. <P> Platelets (also known as Thrombocytes) circulate in the blood (of mammals) and are are involved in hemostasis, leading to the formation of blood clots. Platelets also keep the body from bleeding in weaker structures including the nose and mouth.	Platelets are tiny blood cells that help your body form clots to stop bleeding. If one of your blood vessels gets damaged, it sends out signals that are picked up by platelets.
how much for the land skeaping charge per hour.?.	<P> The land should also be leveled while the land clearing is being done. The cost of grading can range from $65 - $100 per hour depending on the machine. Depending on the soil type and the topography of the land, you may need to put in drainage. This can add substantially to the cost of the land development but can pay for itself. You can sell this standing timber to loggers for a price of $32 - $290 per thousand board feet, depending on the species and quality. Higher prices are offered for hardwoods and lower prices for softwoods. You might also have a lot of cordwood that you could cut, depending on how much timber you cut first. <P> 1 Adding a concrete walkway or natural stone costs $5 to $35 per square foot or more, depending on the material. 2 A pergola, a kind of standing structure for plants which provides a recreational area below, costs $8,000-$12,000. 3 A pond costs approximately $7,500. 4 Fencing can cost $10-$30 per linear foot. <P> 1 Renting a small backhoe can cost $100-$200 for a half-day or day, depending on location and model. 2 Hiring an operator and a bulldozer, skid steer loader or similar equipment can cost $50-$150 or more an hour, depending on local rates and the type and size of equipment used. 1 KP Kauffman Company in Colorado and New Mexico charges $75-$80 an hour for a bulldozer or grader with an operator plus a 15% fuel surcharge. 2 Addison Equipment Rental in California charges $143-$181 an hour for a bulldozer, grader or finish scraper with a union operator. <P> = $15.50 per hour. Other variable costs, such as fuel, lubrication, and labor, have already been included in the variable costs for the tractor, so the total cost per hour for the disk is simply the sum of the ownership costs per hour and the repair costs per hour: Total cost= $13.20 + $15.50 = $28.70 per hour. If the tractor is used 400 hours per year, the total ownership per hour is: Ownership cost per hour = $16,294 / 400 hours. = $40.74 per hour. Operating costs (also called variable costs) include repairs and maintenance, fuel, lubrication, and operator labor. <P> 1 Costs vary depending on whether the land is being graded to grow grass, put in a pond or build a house. 2 Renting a scraper attachment for a small tractor or similar machinery for a straightforward project like leveling a gravel driveway can cost $50-$70 a day. 1 KP Kauffman Company in Colorado and New Mexico charges $75-$80 an hour for a bulldozer or grader with an operator plus a 15% fuel surcharge. 2 Addison Equipment Rental in California charges $143-$181 an hour for a bulldozer, grader or finish scraper with a union operator. <P> Bear in mind that this isn’t a fixed figure, but it serves as a good guide when you’re drawing up your budget. Many landscapers charge by the hour – from $25 an hour for a simple job, to $400 or more per hour for more complex, highly skilled work. However, most work within the $25 to $60 an hour range. <P> Get an INSTANT estimate of the cost to Clear Land! Our free calculator uses recent, trusted data to estimate costs for your Land Clearing project. For a basic 500 square feet project in zip code 47474, the benchmark cost to Clear Land ranges between $0.44 - $0.86 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> Independent contractors (ICs) can charge for their services in a variety of ways, such as a fixed amount for an entire project, an hourly fee, or a sales commission. No matter how you bill clients, however, you first need to figure out how much to charge -- even if you charge a fixed fee for the whole project. <P> Believe it or not, rates may vary anywhere from $50 an hour to a $1,000 an hour or more. In rural areas and small towns, lawyers tend to charge less, and fees in the range of $100 to $200 an hour for an experienced attorney are probably the norm. In major metropolitan areas, the norm is probably closer to $200 to $400 an hour. Lawyers with expertise in specialized areas may charge much more. In addition, you can expect to be charged at an hourly rate for paralegals and other support staff. <P> 1 After the trees are cut down, stump removal can cost $2-$50 or more per stump. 2 Land clearing expenses for agricultural use may be tax deductible, according to the University of Missouri Outreach & Extension. 1 Do-it-yourself land clearing is possible but it's a lot of work and typically requires access to equipment or heavy machinery. 2 A heavy-duty gas chain saw can cost $200-$500 or more. 3 Renting a backhoe can cost $100-$350 or more a day, and buying a backhoe can cost $10,000-$100,0	$65 - $100
when was the ics made	<P> ICS is a management system designed to enable effective and efficient domestic incident management by integrating a combination of facilities, equipment, personnel, procedures, and communications operating within a common organizational structure. <P> Baseline Courses. 1 IS-700 NIMS, an Introduction: This independent study course introduces the NIMS concept. 2 ICS-100 Introduction to the Incident Command System: This independent study course introduces ICS and provides the foundation for higher level ICS training. <P> The following is a list of Command Staff and General Staff responsibilities that either the IC or UC of any response should perform or assign to appropriate members of the Command or General Staffs: 1 Provide response direction; 2 Coordinate effective communication; 3 Coordinate resources; 4 Establish incident priorities; 5 Develop mutually agreed-upon 6 ... A <P> This section of the website provides information on the National Incident Management System (NIMS). NIMS is intended to be used by the whole community. <P> Founded in 1994, ICS Travel Group is a premier destination management company providing a wide range of travel services in Asia. ICS has 15 operations offices throughout the region and specialises in creating authentic, tailor-made programmes to Vietnam, Cambodia, Laos, Myanmar, Thailand, Indonesia, and India. From luxury holidays to special-interest tours, we offer customised itineraries to suit individual or group requirements. <P> Preparation: The ICS-208 is an optional form that may be included and completed by the Safety Officer for the IAP. Distribution: The ICS-208, if developed, will be reproduced with the IAP and given to all recipients as part of the IAP. All completed forms must be given to the Documentation Unit in the Planning Section. <P> In the early 1970s, ICS was developed to manage rapidly moving wildfires and to address the following problems: 1 Too many people reporting to one supervisor; 2 Different emergency response organizational structures; 3 Lack of reliable incident information; 4 Inadequate and incompatible communications; 5 Lack of structure for coordinated planning among 6 ... U <P> ICS is a standardized on-scene incident management concept designed specifically to allow responders to adopt an integrated organizational structure equal to the complexity and demands of any single incident or multiple incidents without being hindered by jurisdictional boundaries.	Founded in 1994.
patient side effects of metoprolol	<P> It is used to treat angina (chest pain), hypertension (high blood pressure), and to treat or prevent heart attack. Some of the side effects that may be experienced with metoprolol include: low blood pressure, slow heart rate, rash or itching, shortness of breath, dizziness, drowsiness, and depression. A: Lopressor (metoprolol) is in a class of drugs known as beta blockers. Beta blockers are used to treat chest pain and high blood pressure; they are also used to treat or prevent heart attack. Drinking alcohol with metoprolol can increase the dizziness and drowsiness that often occurs in patients taking metoprolol. <P> Metoprolol is used in the treatment of hypertension (high blood pressure) and angina (chest pain). Some of the more common side effects of metoprolol are fatigue, dizziness, diarrhea, itching, rash, depression, and slow heartbeat. Blood pressure measures how hard your heart is working to pump blood through your body. A: Lopressor (metoprolol) is in a class of drugs known as beta blockers. Beta blockers are used to treat chest pain and high blood pressure; they are also used to treat or prevent heart attack. Drinking alcohol with metoprolol can increase the dizziness and drowsiness that often occurs in patients taking metoprolol. <P> Metoprolol is used to treat angina (chest pain) and hypertension (high blood pressure). It is also used to treat or prevent heart attack. Metoprolol may also be used for other purposes not listed in this medication guide. Get emergency medical help if you have any of these signs of an allergic reaction: hives; difficulty breathing; swelling of your face, lips, tongue, or throat. Call your doctor at once if you have any of these serious side effects: 1 chest pain, pounding heartbeats or fluttering in your chest; <P> Common side effects of Lopressor may include nausea, vomiting, dry mouth, gas, heartburn, diarrhea, constipation, dizziness, tiredness, depression, decreased sex drive, impotence, difficulty having an orgasm, headache, sleep problems (insomnia), anxiety, nervousness, and rash. Less serious side effects may include: 1 dry mouth, constipation, heartburn, vomiting, diarrhea; 2 decreased sex drive, impotence, or difficulty having an orgasm; 3 headache, drowsiness, tired feeling; 4 sleep problems (insomnia); or. 5 anxiety, nervousness <P> Less serious side effects may include: 1 dry mouth, constipation, heartburn, vomiting, diarrhea; 2 decreased sex drive, impotence, or difficulty having an orgasm; 3 headache, drowsiness, tired feeling; 4 sleep problems (insomnia); or. 5 anxiety, nervousness. Get emergency medical help if you have any of these signs of an allergic reaction: hives; difficulty breathing; swelling of your face, lips, tongue, or throat. Call your doctor at once if you have any of these serious side effects: 1 chest pain, pounding heartbeats or fluttering in your chest; <P> A: Metoprolol belongs to a class of medications called beta blockers, which are used to treat high blood pressure, angina, and congestive heart failure. The most common side effects are dizziness, lightheadedness, or slow heart rate. A: Lopressor (metoprolol) is in a class of drugs known as beta blockers. Beta blockers are used to treat chest pain and high blood pressure; they are also used to treat or prevent heart attack. Drinking alcohol with metoprolol can increase the dizziness and drowsiness that often occurs in patients taking metoprolol. <P> A lower blood pressure can reduce the risk of strokes and heart attacks. Metoprolol is also used to treat severe chest pain (angina) and lowers the risk of repeated heart attacks. It is given to people who have already had a heart attack. In addition, metoprolol is used to treat patients with heart failure. This medicine is a beta-blocker. It works by affecting the response to nerve impulses in certain parts of the body, like the heart. As a result, the heart beats slower and decreases the blood pressure. <P> A: Metoprolol (Lopressor) is a beta blocker used to treat high blood pressure and other heart conditions as directed by your doctor. The most common side effects with metoprolol are low blood pressure, low heart rate, dizziness and fatigue. A: Lopressor (metoprolol) is in a class of drugs known as beta blockers. Beta blockers are used to treat chest pain and high blood pressure; they are also used to treat or prevent heart attack. Drinking alcohol with metoprolol can increase the dizziness and drowsiness that often occurs in patients taking metoprolol.	Dizziness and drowsiness.
where does peppercorn come from	<P> White, black and green peppercorns all come from the same vine. They grow in clusters (like grapes), and are harvested in various stages of growth. Green peppercorns are young when they are picked and dehydrated or preserved, with a resulting mild flavor. Pink peppercorns and Sichuan peppercorns are not true peppercorns. Pink peppercorns are soft, fragile berries with a sweet-sharp flavor. Sichaun pepper is the berry of the mountain ash tree, with a pungent, cold flavor instead of the usual heat of a peppercorn. <P> About this species. Black pepper fruits are the source of one of the world's most widely and frequently used spices. Black, white and green peppercorns all come from Piper nigrum and are popularly used as a hot and pungent spice for flavouring food. Sichuan pepper, a common spice used in Asian cuisine, is obtained from Zanthoxylum species (citrus family, Rutaceae). Peppercorns should not be confused with chilli peppers (Capsicum species) such as Capsicum annuum (potato family, Solanaceae). The fruits of Piper nigrum are used to make black pepper. <P> Peppercorns (dried black pepper) are, by monetary value, the most widely traded spice in the world, accounting for 20 percent of all spice imports in 2002. The price of pepper can be volatile, and this figure fluctuates a great deal year to year; for example, pepper made up 39 percent of all spice imports in 1998. The word pepper has its roots in the Dravidian word for long pepper, pippali. Ancient Greek and Latin turned pippali into the Latin piper, which was used by the Romans to refer both to black pepper and long pepper, as the Romans erroneously believed that both of these spices were derived from the same plant. <P> Answer: White pepper comes from black pepper, which is the dried berry of the woody, climbing vine Piper nigrum. While growing on the vine, the peppercorn ripens from green to yellow to red. To make black pepper, the peppercorns are picked and dried. To get white pepper, the peppercorns are left on the vine a bit longer, so they remain lighter in color in the drying process. <P> Peppercorns are actually a tiny fruit, the drupe (a fruit with a single seed in the middle) of a flowering vine known as piper nigrum, grown in tropical regions, native to the Indian subcontinent and in Southeast Asia. Some of the best peppercorns in the world come from the Malabar coast in the Indian state of Kerala. The color of the various peppercorns you see in the store are a result of either when the tiny fruits are harvested, or else the type of processing they undergo after picking. Piper nigrum. Photo by Vengolis. Red peppercorns are produced much like green peppercorns, only using the fully ripe fruit, which is treated to preserve the red color. These may also be pickled or dried before use. Sometimes in gourmet markets, you will see a mixture of dried black, red, green, and white peppercorns together in a transparent grinder. <P> Description. Black pepper comes from the berries of the pepper plant. Black pepper, green pepper and white peppercorns are actually the same fruit (Piper nigrum); the difference in their color is a reflection of varying stages of development and processing methods. Pink peppercorns are actually from a completely different plant species (Schinus molle) that is related to ragweed. Black pepper is the most pungent and flavorful of all types of peppers and it is available as whole or cracked peppercorns or ground into powder. <P> Black pepper (Piper nigrum) is a flowering vine in the family Piperaceae, cultivated for its fruit, which is usually dried and used as a spice and seasoning. When dried, the fruit is known as a peppercorn. The word pepper has its roots in the Dravidian word for long pepper, pippali. Ancient Greek and Latin turned pippali into the Latin piper, which was used by the Romans to refer both to black pepper and long pepper, as the Romans erroneously believed that both of these spices were derived from the same plant. <P> Pink Peppercorns: Pink Peppercorns are not true peppercorns, they are the aromatic berries of two trees, the Brazilian Pepper tree also known as the Baies Rose Plant (Schinus terebinthifolius) and the Peruvian Pepper tree (Schinus molle). <P> Peppercorns, and the ground pepper derived from them, may be described simply as pepper, or more precisely as black pepper (cooked and dried unripe fruit), green pepper (dried unripe fruit) and white pepper (ripe fruit seeds). The word pepper has its roots in the Dravidian word for long pepper, pippali. Ancient Greek and Latin turned pippali into the Latin piper, which was used by the Romans to refer both to black pepper and long pepper, as the Romans erroneously believed that both of these spices were derived from the same plant.	From Piper nigrum
which muscles are used to extend out your stomach	<P> 1 It allows you to extend your upper leg, spread it, and turn it outward. 2 Serratus anterior: A group of muscles connected to the rib cage, which help stabilize the shoulder. 3 Psoas major: These muscles connect the lower part of the spine to the ilium and the femur and aids in flexing the hips. <P> Muscles of the Abdomen, Lower Back and Pelvis. The muscles of the abdomen, lower back, and pelvis are separated from those of the chest by the muscular wall of the diaphragm, the critical breathing muscle. <P> Attached to the pelvis are muscles of the buttocks, the lower back, and the thighs. These muscles, including the gluteus maximus and the hamstrings, extend the thigh at the hip in support of the body's weight and propulsion. <P> In Depth: Muscles. The rectus abdominis is the large muscle in the mid-section of the abdomen. It enables the tilt of the pelvis and the curvature of the lower spine. Next to it on both sides of the body is the internal oblique. <P> If you're training other muscles and you think you're exercising your core, you're training the wrong muscles. The 5 true core muscles are the only ones that really matter when it comes to training your abs for a flat stomach. <P> 5. Push Ups. There are an array of large and small back muscles in your body, but the most worked are the trapezius, latissimus dorsi and rhomboids. Keeping these muscles flexible and in shape is essential to fluid, pain-free movement. <P> Core Workout. When you extend a skating leg forward your core muscles engage, starting from your lower back and abdomen and transferring energy to the extend leg. During this momentum transfer your core muscles must engage to maintain steady balance to keep you on your skates and off the rink.	Core muscles
what is description of polio	<P> Polio: Abbreviation for poliomyelitis, an acute and sometimes devastating disease caused by a virus. Man is the only natural host for polio virus. The virus enters the mouth and multiplies in lymphoid tissues in the throat and intestine. <P> Polio, or poliomyelitis, is a highly contagious viral infection that can lead to paralysis, breathing problems, or even death. The term poliomyelitis is from the Greek polios poliós meaning, grey myelos myelós referencing the, spinal-cord and itis. Meaning inflammation polio can be classified as either symptomatic. or asymptomatic Paralytic polio will often begin with symptoms similar to nonparalytic polio, but will progress to more serious symptoms such as a loss of muscle reflexes, severe muscle pain and spasms, and loose or floppy limbs that is often worse on one side of the body. <P> Definition. Polio is a contagious viral illness that in its most severe form causes paralysis, difficulty breathing and sometimes death. In the U.S., the last case of naturally occurring polio happened in 1979 <P> Poliomyelitis, often called polio or infantile paralysis, is an infectious disease caused by the poliovirus. Approximately 90% to 95% of infections cause no symptoms. <P> Noun. 1. polio-an acute viral disease marked by inflammation of nerve cells of the brain stem and spinal cord. acute anterior poliomyelitis, infantile paralysis, poliomyelitis. infectious disease-a disease transmitted only by a specific kind of contact. Translations. A contagious disease, caused by a virus, that mainly affects the nerve cells of the spinal cord and brain, often leading to muscle weakness and paralysis. The name is a shortening of poliomyelitis (pō′lē-ō-mī′ə-lī′tĭs). <P> Top of Page. Two types of vaccine protect against polio: oral poliovirus vaccine (OPV) and inactivated poliovirus vaccine (IPV) (given as an injection in the leg or arm, depending on the patient's age). Polio, or poliomyelitis, is a crippling and potentially deadly infectious disease. It is caused by the poliovirus. The virus spreads from person to person and can invade an infected person’s brain and spinal cord, causing paralysis (can’t move parts of the body). <P> Knowledge center. Polio, or poliomyelitis, is a highly contagious viral infection that can lead to paralysis, breathing problems, or even death. The term poliomyelitis is from the Greek polios poliós meaning, grey myelos myelós referencing the, spinal-cord and itis. meaning inflammation Paralytic polio will often begin with symptoms similar to nonparalytic polio, but will progress to more serious symptoms such as a loss of muscle reflexes, severe muscle pain and spasms, and loose or floppy limbs that is often worse on one side of the body. <P> Polio is a viral disease which may affect the spinal cord causing muscle weakness and paralysis. The polio virus enters the body through the mouth, usually from hands contaminated with the stool of an infected person. Polio is more common in infants and young children and occurs under conditions of poor hygiene. <P> Description. Polio is a disease caused by the poliovirus. It most commonly infects younger children, although it can also infect older children and adults. About 90% of people infected by poliovirus develop only a mild case or no illness at all. In its most severe form polio causes paralysis of the muscles of the legs, arms, and respiratory system. About 1% of all people infected with poliovirus develop the actual disease known as polio. In these cases, the virus (which enters the person's body through the mouth) multiplies rapidly within the intestine. <P> Description. There are three known types of polioviruses (called 1,2, and 3), each causing a different strain of the disease and all are members of the viral family of enteroviruses (viruses that infect the gastrointestinal tract). The Sabin vaccine (also called the oral polio vaccine or OPV) is given to infants by mouth at the same intervals as the DPT (three doses). It contains the live, but weakened, poliovirus, which make the recipient immune to future infections with poliovirus.	Polio is a contagious viral illness that in its most severe form causes paralysis, difficulty breathing and sometimes death.
percent of africa that is desert	<P> The Sahara Desert is located in the northern portion of Africa and covers over 3,500,000 square miles (9,000,000 sq km) or roughly 10% of the continent (image) . <P> Deserts are defined as geographic regions that receive 10 or fewer inches of precipitation annually. The continent of Africa is the second largest in the world, and over 25 percent of its total land area is desert. <P> A: More than 25 percent of Africa is desert. The Sahara Desert, the Kalahari Desert and the Namib Desert are the main deserts found in Africa. Know More. <P> The Kalahari Desert, located in southern Africa, covers 362,500 square miles. The Namib Desert, the world's oldest desert, is found in the southwestern portion of the continent and covers 100,0 <P> Percentage of Africa That Is Desert The Sahara Desert covers about one-third of Africa, so about 33 to 34 percent of Africa is desert. Though many believe most of Africa is desert and/or rainforest, or jungle, the largest vegetative zone in Africa is tropical grassland. Clarification: <P> Approximately 60% of Africa is covered in deserts and drylands. The majority of this 40% is comprised of the Sahara Desert in the north of the continent. It is the world's largest hot desert and covers 3.3 million square miles.	Over 25 percent of its total land area is desert.
what are the interdependence of environment	<P> The most easily understood method of ecological interdependence is a brutish one: living things eat other living things to survive. The predator and prey relationship was one of the first feeding relationships that scientists understood. <P> The interdependence of organisms in an ecosystem often results in approximate stability over hundreds or thousands of years. As one species proliferates, it is held in check by one or more environmental factors: depletion of food or nesting sites, increased loss to predators, or invasion by parasites. <P> Instructions. Analyze the habitats of livings organisms. Animals use plants as a form of shelter within their environment. You can describe the interdependence of living organisms by stating how an organism builds its form of shelter. For example, many birds reside within nests on the trees. <P> It is important to understand the interdependence of living organisms within an ecosystem in order to obtain a clearer understanding of the succession of biological life and symbiotic relationships. Such relationships are also necessary to understand the importance of preserving wildlife. <P> A rainforest is an ecosystem. An ecosystem is a complex balance of plants and animals (see image 1). The ecosystem of a rainforest relies on interdependence. Interdependence means that the plants and animals of a specific environmental system depend on each other for survival. This means that if a plant or animal dies then another plant or animal that depended on it may also die. If the web of interdependence is broken, the rainforest will never grow back.	The plants and animals of a specific environmental system depend on each other for survival.
what is a muscle car	<P> Muscle cars are part of an enduring high-speed American subculture that originated in the 1960s. But the era is far from over, and modern-day muscle cars for 2014 are making their debuts in showrooms at this very moment. Karl Brauer, a senior director at the car valuation and analysis company Kelley Blue Book, provided his list of classic muscle cars in April. <P> Introduction: Perhaps the most common question people have is what exactly is a muscle car. The term wasn’t even used until the late 1970s, in the 1960s there were often called “Super Cars” if called anything at all. Therefore, the actual definition of a muscle car, or which models were muscle cars, is a topic that is often disputed. Here is the general interpretation of what is a muscle car and what cars qualify, and which don’t. <P> According to Muscle Cars, a book written by Peter Henshaw, a muscle car is exactly what the name implies. It is a product of the American car industry adhering to the hot rodder 's philosophy of taking a small car and putting a large-displacement engine in it. Studebaker entered the muscle car scene in 1956 with the Golden Hawk powered by a 352 CI Packard V8 with 275 bhp. In 1957, the Rambler Rebel was the fastest stock American sedan, according to Motor Trend. <P> Muscle car is an American term used to refer to a variety of high-performance automobiles. The Merriam-Webster dictionary defines muscle cars as any of a group of American-made 2-door sports coupes with powerful engines designed for high-performance driving.. A large V8 engine is fitted in a 2-door, rear wheel drive, family-style mid-size or full-size car designed for four or more passengers. Studebaker entered the muscle car scene in 1956 with the Golden Hawk powered by a 352 CI Packard V8 with 275 bhp. In 1957, the Rambler Rebel was the fastest stock American sedan, according to Motor Trend. <P> The Australian muscle car era is considered to have ended with the release of the Australian Design Rule regarding emissions in ADR27a in 1976. An exception to this rule was the small number of factory-built Bathurst 1000 homologation specials that were constructed after 1976; these are considered to be muscle cars. Studebaker entered the muscle car scene in 1956 with the Golden Hawk powered by a 352 CI Packard V8 with 275 bhp. In 1957, the Rambler Rebel was the fastest stock American sedan, according to Motor Trend. <P> Some might disagree with the Corvette being included as a muscle car. That's because muscle cars were supposed to be affordable. The truth is, the Corvette is the American version of the European sports car and no other American car comes close in terms of sheer intensity and style. AMC might not be an obvious choice when looking for a muscle car. If you want a car that's not something you will see on the street all that often, though, the Javelin is a great choice. It was AMC's entry into the pony car market and came standard with a 360 cubic inch engine that delivers about 350 horsepower. <P> While some people have definite opinions about what qualifies as a muscle car and what doesn't, the term usually applies to two-door, rear-wheel-drive, small to midsize cars with large, powerful eight-valve (V8) engines. Muscle cars became popular with young drivers in the mid-1960s. Many muscle car enthusiasts believe the 1949 Oldsmobile Rocket 88 was the first true muscle car. It boasted America's first overhead valve V8 in a relatively light body, giving it a lot of power and speed. Manufacturers began to compete, offering more powerful engines year after year. <P> When you think muscle car many picture a prehistoric V8 belching exhaust and cheesy rock music. The 2015 Ford Mustang is not that car. They've chopped the number of cylinders in half and added a host of new tech so they can promise more power, performance, and, yes, even efficiency. The Mustang didn't become a muscle car for a few years. It was a pony car and this Mustang carries on that tradition. From the rear, there's a touching tribute to original fastback Mustangs. It looks like it should be a liftback, actually. <P> Some argue that pony cars, such as the Ford Mustang and Chevrolet Camaro, aren't muscle cars at all, but for this list, Bankrate chose not to make that distinction. Manufacturers engineered muscle cars for straight-line speed, inspiring more than an occasional Saturday night drag race between traffic lights. Because it is a genre that enthusiasts are passionate about, you are bound to generate some criticism when compiling a list of the seven greatest muscle cars of all time. However, Bankrate stuck its neck out to do just that.	It is an American term used to refer to a variety of high-performance automobiles.
what is superannuation or annuity income stream	<P> Account based pensions and annuities. An account based pension or annuity (also called an allocated pension) is one of a number of products that you can buy with a lump sum from a superannuation fund, or paid from a self-managed superannuation fund, to give you an income during your retirement. 1 For the purposes of the income test for the age pension, income from an account based (also known as an allocated pension) or annuity will be reduced by an amount that represents the return of your capital. 2 This has not changed. 3 An account based income stream is assessed under the assets test for the age pension. <P> Investing Basics: Income Streams and Annuities. It is very important to understand an income stream from a conceptual standpoint in the world of financial management. In short an income stream is a regular inflow of money. Another more technical name for this flow of money is an “annuity” <P> Income annuities can provide a stable and secure source of retirement income. With these types of annuities, you surrender future access to a portion of your savings in exchange for a stream of income that's guaranteed for life. Payments from income annuities can typically start as early as 30 days from the day you sign the contract, as late as your 85th birthday, or on any date in between. <P> 3. Life expectancy pensions and annuities. A life expectancy pension or annuity is one of a number of products that you can buy with a lump sum from a superannuation fund or other money to give you an income during your retirement. 1 For the purposes of the income test for the age pension, income from an account based (also known as an allocated pension) or annuity will be reduced by an amount that represents the return of your capital. 2 This has not changed. 3 An account based income stream is assessed under the assets test for the age pension. <P> By Daniel Kurt AAA \|. A: An annuity is a contract between you and an insurance company in which you make a lump sum payment or series of payments and in return obtain regular disbursements beginning either immediately or at some point in the future. The goal of annuities is to provide a steady stream of income during retirement. Funds accrue on a tax-deferred basis, and like 401(k) contributions, can only be withdrawn without penalty after age 59.5. Many aspects of an annuity can be tailored to the specific needs of the recipient. <P> A lifetime pension or annuity is one of a number of products that you can buy with a lump sum from a superannuation fund or other money to give you an income during your retirement. If you already have a lifetime pension or annuity you will not be able to transfer to a new account-based pension or annuity. 1 For the purposes of the income test for the age pension, income from an account based (also known as an allocated pension) or annuity will be reduced by an amount that represents the return of your capital. 2 This has not changed. 3 An account based income stream is assessed under the assets test for the age pension. <P> Immediate fixed annuities are the oldest, most common type of annuity: you pay an insurance company a lump sum up front, and in return, you receive a fixed monthly payment for life (or some other specific time period)—a reliable stream of income you can't outlive. There are two types of annuities we believe may be worth considering to generate income: immediate fixed annuities and variable annuities. Many variable annuities offer an optional rider (often called guaranteed lifetime withdrawal benefits, or GLWBs) that can provide additional protection for your income. <P> Annuities are a type of investment account typically used for retirement savings or to generate regular income payments in retirement. Annuities are insurance contracts, and the issuing insurance company provides some type of guarantee on your investment.*. With these types of annuities, you surrender future access to a portion of your savings in exchange for a stream of income that's guaranteed for life. Payments from income annuities can typically start as early as 30 days from the day you sign the contract, as late as your 85th birthday, or on any date in between. <P> An annuity is an insurance product that pays out income, and can be used as part of a retirement strategy. Annuities are a popular choice for investors who want to receive a steady income stream in retirement. Here's how an annuity works: you make an investment in the annuity, and it then makes payments to you on a future date or series of dates.	It is one of a number of products that you can buy with a lump sum from a superannuation fund or other money to give you an income during your retirement.
what is a torque wrench	<P> (April 2015). A torque wrench is a tool used to precisely apply a specific torque to a fastener such as a nut or bolt. It is usually in the form of a socket wrench with special internal mechanisms. It was invented by Conrad Bahr in 1918 while working for the New York City Water Department. <P> This is it: the bad wrench. Its scale goes from 20 to 150 ft lbs. It's a half-inch drive Sears Craftsman Microtork 44595, with your standard reversible ratchet. The beauty of the click-type torque wrench is that it's very handy in tight spots and you don't need to be able to see a dial or pointer of any kind. <P> drive click type torque wrench is the go-to tool when precise torque is needed. The click type design of this torque wrench provides a torque range from 20-150 ft. lbs and is accurate to within +/- 4%. <P> A torque wrench is used where the tightness of screws and bolts is crucial. It allows the operator to measure the torque applied to the fastener so it can be matched to the specifications for a particular application. This permits proper tension and loading of all parts. <P> A torque wrench is a tool that allows one to control circular force, or torque, when putting in, removing or tightening a bolt or a nut. It comes in many different styles and levels of complexity depending upon its applications. <P> Torque is a rotational force applied around a point or, in this case, a nut. Put a 1-foot-long wrench on a nut and apply 10 pounds of force to the opposite end. You're now twisting that nut with 10 ft-lb (distance times force, or 1 foot times 10 pounds). <P> A torque wrench is a tool used to precisely apply a specific torque to a fastener such as a nut or bolt. It is usually in the form of a socket wrench with special internal mechanisms. It was invented by Conrad Bahr in 1918 while working for the New York City Water Department.	A tool used to precisely apply a specific torque to a fastener such as a nut or bolt.
cost of removing a skin tag	<P> 1 At-home kits can cost anywhere from $30 to $150. 2 For instance, the highly rated Dermatend the Original Mole retails for $39 to $59. 3 Miracullum Spa is a spa located in California that performs skin tag removal. 4 The procedure that they offer is fast, safe and professionally guaranteed. 1 It will greatly depend upon the procedure that you choose to have performed. 2 At-home kits can cost anywhere from $30 to $150. 3 For instance, the highly rated Dermatend the Original Mole retails for $39 to $59. 4 Miracullum Spa is a spa located in California that performs skin tag removal. <P> 1 Worst cases would involve skin tag removal surgery and the cost of having it removed would depend on the number of skin tags a person has. 2 On average, plan on spending anywhere from $75 to as much as $450 per procedure. 3 It will greatly depend upon the procedure that you choose to have performed. 1 It will greatly depend upon the procedure that you choose to have performed. 2 At-home kits can cost anywhere from $30 to $150. 3 For instance, the highly rated Dermatend the Original Mole retails for $39 to $59. 4 Miracullum Spa is a spa located in California that performs skin tag removal. <P> Discovering a tiny skin tag -- or several skin tags -- on the neck or under the arm can be alarming. But there's no reason to worry. Skin tags are harmless. They're not cancerous and they don't increase the risk of any kind of cancer. People have devised all sorts of ways to remove skin tags -- some effective and some not. Regardless, it's better to have a professional examine and remove a skin tag than to treat it on your own. Do-it-yourself skin tag removal might not work or might cause unnecessary pain -- and it could create other risks. 1 Previous. <P> Freezing off skin tags off is a fast way to get rid of them. Doctors and dermatologists use liquid nitrogen for this, and it only takes about a minute to do. But it will cost you a pretty penny, also. Health insurance won’t cover the cost, so you will pay between $100 and $200, depending on the doctor. Doctor or Dermatologist. You can go to a doctor or dermatologist, but they can be quite expensive, especially with the more tags that you have. You first have to have an initial doctor visit, which will cost you between $100 to $300, if you don’t have health insurance. <P> Shopping for skin tag removal: 1 Skin tags are benign and can be left untreated if they are not painful or in a spot where they are irritated by clothing. 2 The National Library of Medicine offers an overview of skin tags. 3 Consult your general practitioner about treatment. What should be included: Additional costs: 1 The physician will either cut the skin tag off with a scalpel or sterile scissors, freeze it off with liquid nitrogen or cauterize it with an electric current. <P> 1 Skin tag removal is considered a cosmetic procedure, so insurance companies usually only cover the cost of the initial evaluation, but not removal. What should be included: Additional costs: 1 The physician will either cut the skin tag off with a scalpel or sterile scissors, freeze it off with liquid nitrogen or cauterize it with an electric current. <P> How much is it? 1 There are several procedures that can be performed to remove skin tags. 2 At-home kits can cost anywhere from $30 to $150. 3 Miracullum Spa is a spa located in California that performs skin tag removal. 4 According to the website SurgeryCosts.net, the price to have this type of surgery can cost anywhere from $150 to $450. 1 It will greatly depend upon the procedure that you choose to have performed. 2 At-home kits can cost anywhere from $30 to $150. 3 For instance, the highly rated Dermatend the Original Mole retails for $39 to $59. 4 Miracullum Spa is a spa located in California that performs skin tag removal. <P> The usual skin tag removal cost for doctors will range around $50 to $200. Diathermy and laser cost even more. Insurance may not cover and provide medical privileges for patients. Ensure you have adequate funds to pursue the treatments.	$75 to $450 per procedure.
where is my lungs located in my body	<P> Get the Latest health and medical information delivered direct to your inbox! The lungs are a pair of spongy, air-filled organs located on either side of the chest (thorax). The trachea (windpipe) conducts inhaled air into the lungs through its tubular branches, called bronchi. The bronchi then divide into smaller and smaller branches (bronchioles), finally becoming microscopic. The bronchioles eventually end in clusters of microscopic air sacs called alveoli. <P> your lungs are located on the right and left side of your body just up from your waistline. Source(s): lungs located: https://trimurl.im/a36/where-are-my-lung... <P> All rights reserved. The lungs are a pair of spongy, air-filled organs located on either side of the chest (thorax). The trachea (windpipe) conducts inhaled air into the lungs through its tubular branches, called bronchi. The bronchi then divide into smaller and smaller branches (bronchioles), finally becoming microscopic. 1 Pulmonary fibrosis: A form of interstitial lung disease. 2 The interstitium (walls between air sacs) become scarred, making the lungs stiff and causing shortness of breath. 3 Sarcoidosis: Tiny areas of inflammation can affect all organs in the body, with the lungs involved most of the time. <P> your lungs are just inside your ribcage, from the chest in. there is your heart, stomach, spine, some arm muscles, and big arteries and veins between your lungs and your back … skin. there is just the ribcage and a couple big blood vessels between the lungs and the chest. 4 people found this useful. <P> They are inside your ribs from front to back, top to bottom. Your heart sits in the space between them. They have different lobes, so your pneumonia could be in a part of your lungs that reflects to your back causing the pain. Take your medicine and rest, get well soon. Source(s): lungs located: https://trimurl.im/a36/where-are-my-lung... <P> The lungs are covered by a thin tissue layer called the pleura. The same kind of thin tissue lines the inside of the chest cavity -- also called pleura. A thin layer of fluid acts as a lubricant allowing the lungs to slip smoothly as they expand and contract with each breath. The trachea (windpipe) conducts inhaled air into the lungs through its tubular branches, called bronchi. The bronchi then divide into smaller and smaller branches (bronchioles), finally becoming microscopic. The bronchioles eventually end in clusters of microscopic air sacs called alveoli. <P> 1 Emphysema: A form of COPD usually caused by smoking. 2 The fragile walls between the lungs' air sacs (alveoli) are damaged, trapping air in the lungs and making breathing difficult. 3 Chronic bronchitis: Repeated, frequent episodes of productive cough, usually caused by smoking. 1 Pulmonary fibrosis: A form of interstitial lung disease. 2 The interstitium (walls between air sacs) become scarred, making the lungs stiff and causing shortness of breath. 3 Sarcoidosis: Tiny areas of inflammation can affect all organs in the body, with the lungs involved most of the time. <P> The lungs are located in the chest on either side of the heart in the rib cage. They stretch from close to the backbone in the rib cage, and rest on the diaphragm. The left lung shares space with the heart, with an angular notch in its anterior border called the cardiac notch. They are situated within the thoracic cavity of the chest. The right lung is bigger than the left lung, as the left lung shares space in the chest with the heart. The lungs together weigh approximately 1.3 kilograms (2.9 lb), with the right lung weighing more than the left. <P> Click here to download. Our lungs fuel us with oxygen, the body's life-sustaining gas. They breathe in air, then extract the oxygen and pass it into the bloodstream, where it's rushed off to the tissues and organs that require it to function. Oxygen drives the process of respiration, which provides our cells with energy. <P> The lungs are the primary organs of respiration in humans and many other animals. Humans have two lungs, a right lung and a left lung. They are situated within the thoracic cavity of the chest. The right lung is bigger than the left lung, as the left lung shares space in the chest with the heart. The lungs together weigh approximately 1.3 kilograms (2.9 lb), with the right lung weighing more than the left.	It is located on either side of the chest (thorax).
define intriguing	<P> Use intriguing in a sentence. LINK / CITE ADD TO WORD LIST. adjective. The definition of intriguing is something that creates curiosity or interest. An example of intriguing is the first line of a novel that makes you want to read the whole book. exciting interest or curiosity; fascinating. Adjective. (comparative more intriguing, superlative most intriguing). <P> : The magazine carries an intriguing mixture of high fashion, gossip and racing. WORD FOCUS: interesting WORD FOCUS: interesting similar words: absorbing, intriguing very interesting: fascinating, gripping, riveting, engrossing, enthralling, spellbinding ➔ See also interesting. —intriguingly adverb. <P> Arousing one’s curiosity or interest; fascinating: an intriguing story it’s an intriguing possibility the food is an intriguing combination of German and French. More example sentences. 1 Physicists model the topology of the universe in intriguing ways. 2 Elsewhere, there are intriguing exhibitions in every direction. <P> The magazine carries an intriguing mixture of high fashion, gossip and racing. WORD FOCUS: interesting WORD FOCUS: interesting similar words: absorbing, intriguing very interesting: fascinating, gripping, riveting, engrossing, enthralling, spellbinding ➔ See also interesting.	The definition of intriguing is something that creates curiosity or interest.
what is the economic impact of the japan earthquake	<P> Japan’s 2011 Earthquake and Tsunami: Economic Effects and Implications for the U.S. Congressional Research Service 3 construction supplies. If imports of certain products from Japan become scarce, China, South Korea, or other nations may gain at Japan’s expense. <P> Japan's 2011 Earthquake, Tsunami and Nuclear Disaster. Economic Impact on Japan and the Rest of the World. A local resident rests as she evacuates an area after a 9.0 magnitude strong earthquake struck on March 11 off the coast of north-eastern Japan, on March 14, 2011 in Sendai, Japan. <P> Japan’s 2011 Earthquake and Tsunami: Economic Effects and Implications for the U.S. Congressional Research Service 9 Most insurance payments are expected to be borne primarily by Japanese insurance companies and their government. <P> 1 Foreign trade linkages are a key channel through which Japan's earthquake will affect the United States. 2 Japan's share of U.S. exports is small, so a weakening in demand from Japan would have little impact on the U.S. economy overall, and reconstruction demand should ultimately boost exports. <P> Impact on Japan's Economy. The Triple Disaster devastated Japan's economy in four ways. First, it destroyed 138,000 buildings and cost $360 billion in economic damage. This is more than the $250 billion cost estimate for Hurricane Katrina. <P> Japan's government expects the economic impact of Friday's huge 8.9-magnitude quake and the devastating tsunami that followed to be considerable. <P> Nevertheless, it is likely that the impact of the earthquake and ensuing events on the bilateral economic relationship will be 1 IHS Global Insight, Japan: Japan’s Earthquake: A Macroeconomic Damage Assessment, Country Intelligence-Analysis, March 24, 2011. <P> United States. 1 Foreign trade linkages are a key channel through which Japan's earthquake will affect the United States. 2 Japan's share of U.S. exports is small, so a weakening in demand from Japan would have little impact on the U.S. economy overall, and reconstruction demand should ultimately boost exports. <P> Japan’s 2011 Earthquake and Tsunami: Economic Effects and Implications for the U.S. Congressional Research Service 7 Figure 3. A Damaged Water Pipe Shoots into the Air, Hachinohe, Japan Source: U.S. Navy photo by Chief Mass Communication Specialist Daniel Sanford. <P> Japan’s 2011 Earthquake and Tsunami: Economic Effects and Implications for the U.S. Congressional Research Service 2 modest overall; however, the effects could be more profound in the near term and on specific sectors and firms for which trade and investment with Japan is particularly important.	Japan have $360 billion economic damage because of earthquake.
what is the gulf that is located between the malay peninsula and the indochina peninsula	<P> The part of our planet referred to as Indochina is a geographical region of Southeast Asia. It occupies the easternmost region of the Indochinese Peninsula, on land located directly east of Thailand, and south of China. <P> Malay Peninsula. (məlā`, mā`lā) , southern extremity (c.70,000 sq mi/181,300 sq km) of the continent of Asia, lying between the Andaman Sea of the Indian Ocean and the Strait of Malacca on the west and the Gulf of Thailand and the South China Sea on the east. The peninsula forms a physical and cultural link between the mainland of Asia and the islands of Indonesia (often included in the Malay Archipelago). <P> Gulf of Suez (a northwestern arm of the Red Sea linked to the Mediterranean by the Suez Canal). Gulf of Tehuantepec (an arm of the Pacific in southern Mexico). Gulf of Siam; Gulf of Thailand (an arm of the South China Sea between Indochina and the Malay Peninsula). Meaning: An arm of a sea or ocean partly enclosed by land; larger than a bay. Classified under: Nouns denoting natural objects (not man-made). Hypernyms (gulf is a kind of...): body of water; water (the part of the earth's surface covered with water (such as a river or lake or ocean)). <P> Indochina. a peninsula in Southeast Asia. It is bounded by the Bay of Bengal, the Andaman Sea, and the Strait of Malacca to the west and by the South China Sea and its gulfs, the most important of which are the Gulf of Siam and the Gulf of Bac Bo (Tonkin), to the east. It was the scene in 1954 of the last great battle between the French and the Viet Minh forces of Ho Chi Minh in Indochina. The French occupied the base by parachute drop in Nov...... Click the link for more information. <P> The peninsula has an area of about 2 million sq km. Thailand, Cambodia, and most of Burma, Malaysia, Laos, and Vietnam, as well as a small part of the state of Bangladesh, are located in Indochina. The eastern shores are weakly indented; in the west there are many small bays, peninsulas, and offshore islands (for example, Moscos Islands and the Mergui Archipelago). It was the scene in 1954 of the last great battle between the French and the Viet Minh forces of Ho Chi Minh in Indochina. The French occupied the base by parachute drop in Nov...... Click the link for more information. <P> The Malay term Tanah Melayu is derived from the word Tanah (land) and Melayu (Malays), thus it means the Malay land. The term can be found in various pre-modern Malay texts, of which the oldest dating back to the early 17th century. The Titiwangsa Mountains are part of the Tenasserim Hills system, and form the backbone of the Peninsula. They form the southernmost section of the central cordillera which runs from Tibet through the Kra Isthmus (the Peninsula's narrowest point) into the Malay <P> Malay Peninsula (məlā´, mā´lā) , southern extremity (c.70,000 sq mi/181,300 sq km) of the continent of Asia, lying between the Andaman Sea of the Indian Ocean and the Strait of Malacca on the west and the Gulf of Thailand and the South China Sea on the east. The n part of the Peninsula is now s Thailand and the s part is Malaya (w Malaysia): Singapore lies off its s tip. A mountain range forms the backbone of the Peninsula, rising to 2190m (7186ft) at Mount Gunong Tahang. <P> A peninsula (Latin: paeninsula from paene almost and insula island) is a piece of land that is bordered by water on three sides but connected to mainland. The surrounding water is usually understood to belong to a single contiguous body, but is not always explicitly defined as such. The Balkans is a peninsula including Albania, Bosnia and Herzegovina, Bulgaria, Croatia, Greece, Kosovo, Macedonia, Montenegro, Romania, Serbia, Slovenia and the European part of Turkey. <P> Siam. n. 1. (Placename) the former name (until 1939 and 1945-49) of Thailand. 2. (Placename) Gulf of Siam an arm of the South China Sea between the Malay Peninsula and Indochina the former name of (the Gulf of) Thailand 2. (saɪˈaem, saɪˈæm ˈsaɪ). aem æm <P> A peninsula can also be a headland, cape, island promontory, bill, point, or spit. A point is generally considered a tapering piece of land projecting into a body of water that is less prominent than a cape. In English, the plural of peninsula is peninsulas or, less commonly, peninsulae. The Balkans is a peninsula including Albania, Bosnia and Herzegovina, Bulgaria, Croatia, Greece, Kosovo, Macedonia, Montenegro, Romania, Serbia, Slovenia and the European part of Turkey.	Gulf of Siam
what is a nematode worm	<P> Etymology: Gk, nema + eidos, form. a multicellular, parasitic animal of the phylum Nematoda. All roundworms belong to the phylum, including Ancylostoma duodenale, Ascaris lumbricoides, Enterobius vermicularis, Necator americanus, Strongyloides stercoralis, and several other species. Roundworm, see there. nematode. a roundworm; any individual organism of the class Nematoda. Parasitism with any of the worms in this group represents a significant proportion of the diseases of animals. <P> a multicellular, parasitic animal of the phylum Nematoda. All roundworms belong to the phylum, including Ancylostoma duodenale, Ascaris lumbricoides, Enterobius vermicularis, Necator americanus, Strongyloides stercoralis, and several other species. Roundworm, see there. nematode. a roundworm; any individual organism of the class Nematoda. Parasitism with any of the worms in this group represents a significant proportion of the diseases of animals. <P> Nematode Parasites of Poultry (and where to find them). R.D. Jacobs, J.A. Hogsette, and G.D. Butcher. Nematodes or roundworms are the most important group of helminth parasites of poultry. This is due to the large number of parasitic species (23) that cause damage to the host, especially in severe infections. <P> Background. Nematode infections in humans include ascariasis, trichuriasis, hookworm, enterobiasis, strongyloidiasis, filariasis, and trichinosis, among others. The phylum Nematoda, also known as the roundworms, is the second largest phylum in the animal kingdom, encompassing up to 500,000 species. <P> Noun. 1. nematode worm-unsegmented worms with elongated rounded body pointed at both ends; mostly free-living but some are parasitic. nematode, roundworm. <P> nem·a·tode. n. Any of numerous worms of the phylum Nematoda, having unsegmented cylindrical bodies often narrowing at each end, and including free-living species that are abundant in soil and water, and species that are parasites of plants and animals, such as eelworms, pinworms, and hookworms. Also called roundworm. nematode. n. 1. (Animals) any unsegmented worm of the phylum (or class) Nematoda, having a tough outer cuticle. The group includes free-living forms and disease-causing parasites, such as the hookworm and filaria. Also called: nematode worm or roundworm. (ˈnɛm əˌtoʊd) <P> What is a nematode. Nematode. (Phasmarhabditis hermaphrodita). From the Greek ‘ nematos ’ (thread) and ‘ eidos ’ (species or form), nematodes are one of the most abundant creatures on Earth; with a typical handful of soil containing thousands of the microscopic organisms.	Any unsegmented worm of the phylum (or class) Nematoda, having a tough outer cuticle.
what does monoamine oxidase do to a neuron	<P> Norepinephrine is a monoamine neurotransmitter. Monoamine neurotransmitters are neurotransmitters and neuromodulators that contain one amino group that is connected to an aromatic ring by a two-carbon chain (-CH 2 -CH 2 -). All monoamines are derived from aromatic amino acids like phenylalanine, tyrosine, tryptophan, and the thyroid hormones by the action of aromatic amino acid decarboxylase enzymes. <P> Abstract. Using enzyme histochemistry for monoamine oxidase (MAO) activity, we have examined whether MAO type A or type B or both are localized in neurons of the locus coeruleus (LC) and dorsal raphe nucleus (DR) of the rat. Monoamine oxidase staining intensity of the locus coeruleus (LC) and dorsal raphe nucleus (DR) neurons with serotonin or β -phenylethylamine as a substrate. Sections were incubated at 37°C for 90 min in the staining mixture with various concentrations (0.01 to 1 mM) of serotonin (A) or β -phenylethylamine (B). <P> After release into the synaptic cleft, monoamine neurotransmitter action is ended by reuptake into the presynaptic terminal. There, they can be repackaged into synaptic vesicles or degraded by the enzyme monoamine oxidase (MAO), which is a target of monoamine oxidase inhibitors, a class of antidepressants. All monoamines are derived from aromatic amino acids like phenylalanine, tyrosine, tryptophan, and the thyroid hormones by the action of aromatic amino acid decarboxylase enzymes. <P> Monoamine oxidase staining of the locus coeruleus (LC) and dorsal raphe nucleus (DR) neurons with preferential substrates. Sections were incubated in the staining mixture with 1 mM serotonin (A,B) or 0.1 mM β -phenylethylamine (C,D). A,C: LC. Monoamine oxidase staining intensity of the locus coeruleus (LC) and dorsal raphe nucleus (DR) neurons with serotonin or β -phenylethylamine as a substrate. Sections were incubated at 37°C for 90 min in the staining mixture with various concentrations (0.01 to 1 mM) of serotonin (A) or β -phenylethylamine (B). <P> Monoamine oxidases catalyze the oxidative deamination of monoamines. Oxygen is used to remove an amine group from a molecule, resulting in the corresponding aldehyde and ammonia. Monoamine oxidases contain the covalently bound cofactor FAD and are, thus, classified as flavoproteins. They are found bound to the outer membrane of mitochondria in most cell types in the body. The enzyme was originally discovered by Mary Bernheim in the liver and was named tyramine oxidase. They belong to the protein family of flavin-containing amine oxidoreductases. <P> Monoaminergic systems, i.e., the networks of neurons that utilize monoamine neurotransmitters, are involved in the regulation of cognitive processes such as emotion, arousal, and certain types of memory. All monoamines are derived from aromatic amino acids like phenylalanine, tyrosine, tryptophan, and the thyroid hormones by the action of aromatic amino acid decarboxylase enzymes. <P> L-Monoamine oxidases (MAO) (EC 1.4.3.4) are a family of enzymes that catalyze the oxidation of monoamines. They are found bound to the outer membrane of mitochondria in most cell types in the body. The enzyme was originally discovered by Mary Bernheim in the liver and was named tyramine oxidase. They belong to the protein family of flavin-containing amine oxidoreductases. <P> It has been found that monoamine neurotransmitters play an important role in the secretion and production of neurotrophin-3 by astrocytes, a chemical which maintains neuron integrity and provides neurons with trophic support. All monoamines are derived from aromatic amino acids like phenylalanine, tyrosine, tryptophan, and the thyroid hormones by the action of aromatic amino acid decarboxylase enzymes. <P> Int J Neurosci 1993 May; 70(1-2):75-84 ABSTRACT Monoamine oxidase is an iron containing enzyme that exists as 2 isozymes, A and B, that have different affinities for various amines as substrates. The activity of monoamine oxidase helps to maintain neuron firing rates throughout the body within homeostatic limits. Other drugs that inhibit monoamine oxidase are used to treat patients with atypical depression, panic attacks or post traumatic stress syndrome. It is hypothesized that the emotions act as positive or negative reinforcers of behavior patterns that increase the probability of survival of the organism.	Helps to maintain neuron firing rates throughout the body within homeostatic limits.
what kind of guitar does james taylor play	<P> JT's alternate guitar: See the Soundbites page for some examples of JT's playing on these instruments (we provide bites from both a studio and a live recording). JT's 1992 Acoustic Guitar Magazine cover story by Jeffrey Pepper Rodgers describes his first three Olsons: James Taylor plays three guitars by James Olson. Two have an SJ body shape, one with a cutaway (because Taylor likes the sound, not because he plays up high on the neck), one without. <P> In his youth Taylor had a flirtation with electric guitar. He played a Silvertone and a Fender Duo-Sonic in his first rock bands. But starting with his first acoustic guitar, the J-50 he purchased in his teens, Taylor has had a love affair with natural tone generation that’s still in full bloom. At least it was until this Tuesday, when James Taylor’s Other Covers became available. The song opens Taylor’s new album, the sequel to last year’s successful Covers, which paid tribute to Elvis Presley, George Jones, Glenn Campbell and others. <P> James Taylor. In 1989 James Taylor bought three Olsons: An SJ, an SJ cutaway, and a Dreadnaught. James prominently displays one of his Olsons both on the cover of a 1992 issue of. , and in the artwork of his album, , the first to feature his Olsons. JT's 1992 Acoustic Guitar Magazine cover story by Jeffrey Pepper Rodgers describes his first three Olsons: James Taylor plays three guitars by James Olson. Two have an SJ body shape, one with a cutaway (because Taylor likes the sound, not because he plays up high on the neck), one without. <P> Category: Who Plays What. Last Updated on Friday, 01 February 2013 21:29. Published on Saturday, 07 February 2009 21:50. James Taylor is a Grammy Award winning American singer-songwriter and guitarist. Many are curious about what guitars James Taylor plays. Taylor has most often been known to play acoustics, mainly his Olson guitars, but there also are surprise electrics he has used too. <P> In 2002, during his 25th year as a luthier, Jim collaborated with James Taylor on the specification of a limited edition series of. James Taylor Signature Model Olson Guitars. Each JT Signature Model guitar bears a label personally signed by both James Taylor and Jim Olson, visible through the soundhole. Inside, the neck head block is laser-engraved with the James Taylor Signature Model designation, in addition to the serial number and year of construction. <P> Today he uses guitars custom made for him by Minnesota luthier James A. Olson, which Taylor has described in interviews as having Gibson-style necks. What unites all of Taylor’s acoustic guitar choices over the decades is highly responsive soundboards to accommodate the wide dynamic range of his light-touch picking. At least it was until this Tuesday, when James Taylor’s Other Covers became available. The song opens Taylor’s new album, the sequel to last year’s successful Covers, which paid tribute to Elvis Presley, George Jones, Glenn Campbell and others. <P> Taylor is the sole star from the classic rock era whose career has continued to grow while exclusively employing the acoustic guitar. Early on Taylor played a Gibson J-50, and through the decades he’s played a wide variety of instruments. At least it was until this Tuesday, when James Taylor’s Other Covers became available. The song opens Taylor’s new album, the sequel to last year’s successful Covers, which paid tribute to Elvis Presley, George Jones, Glenn Campbell and others. <P> If you're a James Taylor fan, you'll probably recognise this guitar as the model James is seen with these days. It's a smallbodied jumbo made by another James: one Jim Olson, from Circle Pines, Minnesota. I asked Jim how the JT connection came about... The SJ has a cedar top and rosewood back and sides. Build Quality: 5 (of 5) Features: 5 Sound: 5 Value For Money: 4+ Guitarist Says: Exclusive and superb sounding, the Olson does more than just play James Taylor tunes. <P> Home What kind of guitar does James Taylor play. While James Taylor played Gibson guitars earlier in his career, he currently plays a custom guitar built for him by James Olson of Minnesota. The relationship goes back to 1989, when Olson gave Tay... Read More ». http://www.answerbag.com/q_view/2013133. <P> Review: Jim Olson SJ James Taylor. The very model played by James Taylor finds its way into the grasp of our own Sweet Baby. The SJ has a cedar top and rosewood back and sides. Build Quality: 5 (of 5) Features: 5 Sound: 5 Value For Money: 4+ Guitarist Says: Exclusive and superb sounding, the Olson does more than just play James Taylor tunes.	Two have an SJ body shape and one with a cutaway.
the outer layer of blood vessels is composed of	<P> The tunica adventitia is the outermost layer of the arteries and veins. The word 'adventitia' in tunica adventitia comes from the Latin 'adventicius,' which means 'coming from outside.' This strong outer layer is composed of connective tissue that allows the blood vessel to withstand forces acting on the vessel wall. All arteries and veins contain three layers. The innermost layer is called the tunica intima. The muscular middle layer is called the tunica media, and the outermost layer is called the tunica adventitia. <P> The walls of arteries and veins are composed of endothelial cells, smooth muscle cells and extracellular matrix (including collagen and elastin). These are arranged into three concentric layers: intima, media and adventitia. The intima is the inner layer abutting the vessel lumen. <P> The collagen serves to anchor the blood vessel to nearby organs, giving it stability. The tunicae of blood vessels are three layers: an inner, middle, and outer layer that are called, respectively, the tunica intima, the tunica media, and the tunica externa (or tunica adventitia). <P> Capillaries. 1. Microscopic vessels that carry blood from small arteries (arterioles) to small veins (venules). 2. They connect arterioles to venules. 3. The capillary wall is composed of only single layers of cells (endothelium) 4. They have no tunica media or adventitia. 5. 1. The tunica media (middle layer) contain more elastic fibers (hence the name elastic) than smooth muscle smooth muscle 2. These vessels will conduct (hence the name conducting) blood to the muscular arteries 3. They are designated large because the diameter is larger than the medium sized arteries. <P> connective The outer layer of a blood vessel (artery or vein) is called the tunica externa or tunica adventitia. See http://training.seer.cancer.gov/module_anatomy/unit7_3_ca … rdvasc_blood1_classification.html pericardium is the layer of the blood vessel that is made of tough connective tissue. <P> 1. Microscopic vessels that carry blood from small arteries (arterioles) to small veins (venules). 2. They connect arterioles to venules. 3. The capillary wall is composed of only single layers of cells (endothelium) 4. They have no tunica media or adventitia. 1. The tunica media (middle layer) contain more elastic fibers (hence the name elastic) than smooth muscle smooth muscle 2. These vessels will conduct (hence the name conducting) blood to the muscular arteries 3. They are designated large because the diameter is larger than the medium sized arteries. <P> Hello, The arteries and veins have different structures, veins having two layers and arteries having three. Tunica intima is the innermost/ tunic media the middle one and tunica adventitia is the outermost. The outermost layer {tunica adventitia} is made of connective tissue. It contains nerves that supply the vessel and tiny nutrient capillaries (vasa vasorum) in the larger blood vessels. Best. <P> The tunica media is the middle layer of the wall of a blood vessel. It is made up of smooth muscle cells and sheets of elastic tissue that help regulate blood flow in the body … by causing the blood vessel to narrow or widen. In arteries the outer margin of the tunica intima cointains a thick layer of elastic fibers called the internal elastic membrane. 2.Tunica media (Latin for middle coat) is the middle layer. Contains concentric sheets of smooth muscle tissue in a framework of loose connective tissue. <P> 1 Tunica adventitia : (the thickest layer in veins) entirely made of connective tissue. 2 It also contains nerves that supply the vessel as well as nutrient capillaries (vasa vasorum) in the larger blood vessels. There are three major types of blood vessels: the arteries, which carry the blood away from the heart; the capillaries, which enable the actual exchange of water and chemicals between the blood and the tissues; and the veins, which carry blood from the capillaries back toward the heart.	Connective tissue
what age should dogs be spayed	<P> All the medical evidence suggests a dog should be spayed before her first heat. It’s much easier for her then because it’s a much easier surgery at that time. And the problem with letting your dog have a litter is you’ve just instantly contributed to the pet overpopulation problem. Animals can be miserable -- and make you miserable -- when they are in heat. And then there’s always the problem of what to do with the puppies. There’s also the financial side. Just in the Atlanta area alone, more than $15 million is spent annually dealing with stray and unwanted pets. That’s your tax dollars. <P> My last dog was spayed for $20 at a clinic that was running a special, but at a vet it can be up to $300. People don't always agree on when to spay, but I always do it at 4 to 5 months. Doing it this early basically eliminates your dogs risk of mammary cancer and certain female cancers as well as pyometra. It depends, talk to the dog's vet and get their opinion(or if you get her from a breeder ask them what age they'd recommend). I didn't get my female spayed until she was a little after 2 years old-that's after I did a lot of research. <P> A very legitimate concern, pet overpopulation, has been the primary driving force behind 30 years of national and local spay/neuter campaigns. When it comes to deciding at what age a companion animal should be sterilized, the standard for most spay/neuter campaigns has been sooner rather than later. This is especially true in the case of adoptable abandoned and rescued pets that wind up in shelters and foster care. <P> It's best if it's a puppy but you can have your dog spayed at any age. Wait until the dog is at least six months old. The ovaries release necessary hormones for proper growth, and the dog can be stunted or not mature properly if they are removed too early. The same holds true for a male dog's testicles. If she is spayed before her first heat, she will reap many more health advantages than if she experiences even one heat cycle. The neuter surgery should be done when the dog is young and healthy, usually between 5 and 8 months old. In the female, ideally before the first heat. <P> Puppies can be spayed as young as 8 weeks, although 16 weeks is more common. It is strongly recommended that all female puppies that are not being considered for showing or br … eeding be spayed prior to their first heat cycle, as this decreases the risk of breast cancer by over 99%. If she is spayed before her first heat, she will reap many more health advantages than if she experiences even one heat cycle. The neuter surgery should be done when the dog is young and healthy, usually between 5 and 8 months old. In the female, ideally before the first heat. <P> When it’s time to spay your dog. She can be spayed any time after eight weeks of age, and preferably before her first heat for the best health benefits. The first heat cycle occurs somewhere around six months of age, depending on the breed. <P> It’s also better for your pet’s health. And it’s better for you because it will make your life easier if your pet is spayed or neutered. Animals can be miserable -- and make you miserable -- when they are in heat. And then there’s always the problem of what to do with the puppies. There’s also the financial side. Just in the Atlanta area alone, more than $15 million is spent annually dealing with stray and unwanted pets. That’s your tax dollars. <P> Spay ing and neutering puppies is the responsible thing to do, and it's important to know when to neuter a puppy. When love is in the air, the dogs know it. Girl pups mature more quickly than you might think. They can become pregnant as early as five or six months of age, and most dogs can produce two litters a year. For many years, the recommended spay/neuter age was six to nine months. When a puppy’s future involves performance competition, ask your veterinarian and breeder about timing. Delaying for a couple of months may allow the pup to attain better physical development important to these demands. <P> You should be able to get her spayed now. It is a myth that you have to wait until after their first heat cycle. Some experienced vets can spay as early as 8 weeks provided the dog is big enough weight wise. mother2two · 7 years ago. Thumbs up. 2. <P> Adult dogs can be neutered at any age, but the best time is before sexual maturity. For many years, the recommended spay/neuter age was six to nine months. When a puppy’s future involves performance competition, ask your veterinarian and breeder about timing. Delaying for a couple of months may allow the pup to attain better physical development important to these demands.	When the dog is young and healthy, usually between 5 and 8 months old. In the female, ideally before the first heat.
define hormones	<P> Hormone: A chemical substance produced in the body that controls and regulates the activity of certain cells or organs. Many hormones are secreted by special glands, such as thyroid hormone produced by the thyroid gland. Hormones are essential for every activity of life, including the processes of digestion, metabolism, growth, reproduction, and mood control. <P> noun. The definition of a hormone is a substance formed in an organ or tissue in the body of a plant or animal and then transported by body fluid to another organ or tissue for a specific action. An example of a hormone is estrogen in humans. <P> Definition of HORMONE for Kids. : any of various chemical substances produced by body cells and released especially into the blood and having a specific effect on cells or organs of the body usually at a distance from the place of origin. <P> hormone. a chemical transmitter substance produced by cells of the body and transported by the bloodstream to the cells and organs on which it has a specific regulatory effect. adj., adj hormo´nal. Hormones act as chemical messengers to body organs, stimulating certain life processes and retarding others. <P> Full Definition of HORMONE. 1. : a product of living cells that circulates in body fluids (as blood) or sap and produces a specific often stimulatory effect on the activity of cells usually remote from its point of origin; also: a synthetic substance that acts like a hormone. 2. <P> The definition of a hormone is a substance formed in an organ or tissue in the body of a plant or animal and then transported by body fluid to another organ or tissue for a specific action. An example of a hormone is estrogen in humans.	A chemical substance produced in the body that controls and regulates the activity of certain cells or organs.
when does winter start	<P> just now report abuse it starts with the winter solstice around december 21 in the northern hemisphere and june 21 in the southern hemisphere and ends with the spring equinox around march 21 in the northern hemisphere and september <P> the december solstice is on either december 20 21 22 or 23 it is called winter solstice in the northern hemisphere where it is the shortest day of the year in the southern hemisphere it is the summer solstice and the long <P> apparantly is a key word here winter in ireland actually starts on winter solstice this could be anywhere between dec20th and 23rd 2010 sees winter start on december 21st at 23 38 gmt greenwich mean time ireland s world time <P> when winter starts some animals go into hibernation what these animals do is sleep during the period this behavior is most apparent in bears however it can also be seen in other species like snakes bats and other reptiles changes in animal behavior include accumulation of food <P> 2015 2016 the seasons 2015 winter uk 2015 summer uk 2015 autumn 2015 england 2015 calendar 2016 spring uk 2016 autumn england 2016 when is 2015 summer winter spring autumn starting ending begin finish 2015 and 2016 when is winter summer spring summer when winter starts is 22 december 2015 when spring starts is 20 march 2016 when summer starts is 21 june 2016 when autumn starts is 22 september 2016 when winter starts is 21 december 2016 when spring starts is 20 march 2017 when summer starts is 21 june 2017 <P> the period when winter starts differ in the northern and southern hemisphere in the northern hemisphere it is from december 20 up to march 21 in the southern hemisphere this would be around june 20 and culminates on september 22 the beginning and end dates may vary a day or two	it is from december 20 up to march 21 in the southern hemisphere this would be around june 20 and culminates on september 22.
what molecule is two glycine	<P> R-group Hydrocarbon Neutral Acid or base where the COOH is understood to be the carboxyl group shown above. There are 20 amino acids which make up the proteins, distinguished by the R-group. The simplest of the amino acids, glycine, has just H as an R-group. Amino acids are the structural elements from which proteins are built. When amino acids bond to each other, it is done in the form of an amide, making a connection which is called a peptide linkag <P> Two amino acid molecules, such as glycine and alanine shown here, can bond together using the carboxylic acid group of one and the amino group of the other by means of a dehydration reaction to form what is called a dipeptide. The name of this dipeptide is glycylalanine. The-ine ending of the glycine is changed to-yl because it's-OH is lost in the dehydration reaction, making it a glycyl group. The glycyl group is attached to the alanine making <P> Alanine is one of the 20 most common natural amino acids. It is hydrophobic, with a methyl group side chain, and is the second-smallest of the 20 after glycine. Alanine is a non-essential amino acid that is involved in the metabolism of tryptophan and the vitamin pyridoxine. <P> It is now also an amino acid residue rather than an amino acid molecule. So, in the reaction above, glycine and alanine molecules are joined together to make a dipeptide molecule of glycylalanine which contains a glycine residue and an alanine residue. Zwitter Ions. Dipeptide Structure. As drawn, we have a nitrogen atom with three single bonds and, of course, a pair of electrons. The name of this dipeptide is glycylalanine. The-ine ending of the glycine is changed to-yl because it's-OH is lost in the dehydration reaction, making it a glycyl group. The glycyl group is attached to the alanine making <P> Exactly. Amino acids can join together in a condensation reaction, when the amine group of one molecule reacts with the carboxylic acid group of a second molecule, eliminating a molecule of water. They form a peptide link (-CO-NH-). Two amino acids form a dipeptide; three form a tripeptide and so on. When glycine joins to a different amino acid (R does not equal H), then there are two possible dipeptides. As there are 22 different natural amino acids (20 being common amino acids), there are huge numbers of different products possible when amino acids join together. <P> Glycine is very evolutionarily stable at certain positions of some proteins (for example, in cytochrome c, myoglobin, and hemoglobin), because mutations that change it to an amino acid with a larger side chain could break the protein's structure. Most proteins contain only small quantities of glycine. It is the simplest of the 20 natural amino acids; its side chain is a hydrogen atom. Because there is a second hydrogen atom at the ± carbon, glycine is not optically active. Since glycine has such a small side chain, it can fit into many places where no other amino acid can. <P> Symbol: Gly G Molecular Weight: 75.07 Isolectric point (pH) 6.06 Molecular Formula: C2H5NO2. Glycine is a nonpolar amino acid. It is the simplest of the 20 natural amino acids; its side chain is a hydrogen atom. Because there is a second hydrogen atom at the ± carbon, glycine is not optically active. Since glycine has such a small side chain, it can fit into many places where no other amino acid can. <P> Lots of amino acid molecules → a protein molecule. Glycine is an amino acid. Alanine is also an amino acid. It has a CH3 group instead of a hydrogen atom. There are only about 20 different naturally occurring amino acids. However, each protein molecule [molecule: A molecule is a collection of two or more atoms held together by chemical bonds. <P> Among these are the amino (-NH2) and acid (-COOH) groups. Amino acids, which contain both of these groups, are the building blocks of proteins. Glycine and alanine are examples of amino acids. One amino acid can join with another forming a peptide bond. Thus glycine and alanine can combine by the COOH (carboxyl) group combining with the NH2 (amino) group, to form a combined molecule and H2O.	Amino acids
what is pixel raster	<P> In raster datasets, each cell (which is also known as a pixel) has a value. The cell values represent the phenomenon portrayed by the raster dataset such as a category, magnitude, height, or spectral value. The category could be a land-use class such as grassland, forest, or road. Sometimes you don't have the choice of storing your data as a raster; for example, imagery is only available as a raster. However, there are many other features (such as points) and measurements (such as rainfall) that could be stored as a feature (vector) data type (or both). <P> Raster images are made of pixels. A pixel is a single point or the smallest single element in a display device. Vector images are mathematical calculations from one point to another that form geometrical shapes. How to determine what size your raster image must be, for good quality printing: Multiply the resolution required by the area to be printed. Examples: If a printer requires a minimum of 300 ppi and you want to print an image in an area that is 5 inches wide, multiply 300 pixels x 5 inches (300 x 5 = 1500). <P> PC Help Center. Answer: The difference between vector and raster graphics is that raster graphics are composed of pixels, while vector graphics are composed of paths. A raster graphic, such as a gif or jpeg, is an array of pixels of various colors, which together form an image. <P> In its simplest form, a raster consists of a matrix of cells (or pixels) organized into rows and columns (or a grid) where each cell contains a value representing information, such as temperature. Rasters are digital aerial photographs, imagery from satellites, digital pictures, or even scanned maps. Sometimes you don't have the choice of storing your data as a raster; for example, imagery is only available as a raster. However, there are many other features (such as points) and measurements (such as rainfall) that could be stored as a feature (vector) data type (or both). <P> General characteristics of raster data. In raster datasets, each cell (which is also known as a pixel) has a value. The cell values represent the phenomenon portrayed by the raster dataset such as a category, magnitude, height, or spectral value. Data stored in a raster format represents real-world phenomena: 1 Thematic data (also known as discrete) represents features such as land-use or soils data. 2 Continuous data represents phenomena such as temperature, elevation, or spectral data such as satellite images and aerial photographs. <P> PPI-Pixels per Inch Digital raster images are measured in pixels, or picture elements. How many pixels per inch is determined by the device you create the digital image with: camera, scanner, or graphics software and can be modified with a photo editing software like Photoshop. How to determine what size your raster image must be, for good quality printing: Multiply the resolution required by the area to be printed. Examples: If a printer requires a minimum of 300 ppi and you want to print an image in an area that is 5 inches wide, multiply 300 pixels x 5 inches (300 x 5 = 1500). <P> In digital imaging, a pixel, pel, or picture element is a physical point in a raster image, or the smallest addressable element in an all points addressable display device; so it is the smallest controllable element of a picture represented on the screen. The address of a pixel corresponds to its physical coordinates. The pixels, or color samples, that form a digitized image (such as a JPEG file used on a web page) may or may not be in one-to-one correspondence with screen pixels, depending on how a computer displays an image. In computing, an image composed of pixels is known as a bitmapped image or a raster image. <P> Bitmap (or raster) images are stored as a series of tiny dots called pixels. Each pixel is actually a very small square that is assigned a color, and then arranged in a pattern to form the image. When you zoom in on a bitmap image you can see the individual pixels that make up that image. <P> A raster is technically characterized by the width and height of the image in pixels and by the number of bits per pixel (a color depth, which determines the number of colors it can represent). The printing and prepress industries know raster graphics as contones (from continuous tones ). It originates from the raster scan of cathode ray tube (CRT) video monitors, which paint the image line by line by magnetically steering a focused electron beam. By association, it came also to refer to a rectangular grid of pixels. The word rastrum is now used to refer to a device for drawing musical staff lines. <P> In computer graphics, a raster graphics image is a dot matrix data structure representing a generally rectangular grid of pixels, or points of color, viewable via a monitor, paper, or other display medium. Raster images are stored in image files with varying formats. It originates from the raster scan of cathode ray tube (CRT) video monitors, which paint the image line by line by magnetically steering a focused electron beam. By association, it came also to refer to a rectangular grid of pixels. The word rastrum is now used to refer to a device for drawing musical staff lines.	A raster graphics image is a dot matrix data structure representing a generally rectangular grid of pixels, or points of color, viewable via a monitor, paper, or other display medium.
when did psychology become a discipline	<P> See the Timeline of Psychology article. Psychology as a self-conscious field of experimental study began in 1879, when Wilhelm Wundt founded the first laboratory dedicated exclusively to psychological research in Leipzig, Germany. Wundt was also the first person to refer to himself as a psychologist. The history of psychology as a scholarly study of the mind and behavior dates back to the Ancient Greeks. There is also evidence of psychological thought in ancient Egypt. Psychology was a branch of philosophy until the 1870s, when it developed as an independent scientific discipline in Germany and the United States <P> However, the emergence of developmental psychology as a specific discipline can be traced back to 1882 when Wilhelm Preyer (a German physiologist) published a book entitled. . In the book Preyer describes the development of his own daughter from birth to two and a half years. However, the emergence of developmental psychology as a specific discipline can be traced back to 1882 when Wilhelm Preyer (a German physiologist) published a book entitled The Mind of the Child <P> The academic title professor of psychology is given to James McKeen Cattell in 1888, the first use of this designation in the United States. A student of Wilhelm Wundt's, Cattell serves as professor of psychology at University of Pennsylvania and Columbia University. First doctorate in psychology. The first doctorate in psychology is given to Joseph Jastrow, a student of G. Stanley Hall at Johns Hopkins University. Jastrow later becomes professor of psychology at the University of Wisconsin and serves as president of the American Psychological Association in 1900. <P> As a discipline, psychology has long sought to fend off accusations that it is a soft science. Philosopher of science Thomas Kuhn 's 1962 critique implied psychology overall was in a pre-paradigm state, lacking the agreement on overarching theory found in mature sciences such as chemistry and physics. Psychology is the study of mind and behavior. It is an academic discipline and an applied science which seeks to understand individuals and groups by establishing general principles and researching specific cases. <P> Prior to psychology being recognised as a scientific discipline in its own right, it was mainly a philosophical concept developed by theorists in areas such as animism and dualism. <P> THE HISTORY OF SOCIAL PSYCHOLOGY. As a scientific discipline, social psychology is only a bit older than one hundred years, with most of the growth occurring during the past five decades (McGarty & Haslam, 1997). By most standards, social psychology is a relatively young science. In discussing the discipline's history, it should be noted that there are two social psychologies, one in psychology and the other in sociology, with the larger of the two being the psychological branch (Jones, 1998) <P> Developmental psychology as a discipline did not exist until after the industrial revolution when the need for an educated workforce led to the social construction of childhood as a distinct stage in a person's life. However, the emergence of developmental psychology as a specific discipline can be traced back to 1882 when Wilhelm Preyer (a German physiologist) published a book entitled The Mind of the Child. In the book Preyer describes the development of his own daughter from birth to two and a half years. <P> First psychology laboratory. Wilhelm Wundt opens first experimental laboratory in psychology at the University of Leipzig, Germany. Credited with establishing psychology as an academic discipline, Wundt's students include Emil Kraepelin, James McKeen Cattell, and G. Stanley Hall. First doctorate in psychology. The first doctorate in psychology is given to Joseph Jastrow, a student of G. Stanley Hall at Johns Hopkins University. Jastrow later becomes professor of psychology at the University of Wisconsin and serves as president of the American Psychological Association in 1900. <P> Psychology as a self-conscious field of experimental study began in 1879, when Wilhelm Wundt founded the first laboratory dedicated exclusively to psychological research in Leipzig, Germany. The history of psychology as a scholarly study of the mind and behavior dates back to the Ancient Greeks. There is also evidence of psychological thought in ancient Egypt. Psychology was a branch of philosophy until the 1870s, when it developed as an independent scientific discipline in Germany and the United States	After 1870
what is polyphonic	<P> Polyphony Polyphony (polyphonic texture) is an important texture in all historic style periods. Polyphony contains two or more active melodies. In contrast to homophony, emphasis is placed upon the interplay between lines rather than on a single melody or a stream of chord sounds. The interplay of contour, motives, continuity features, and rhythms are important factors in polyphonic texture. Counterpoint Counterpoint is the interaction of voices in polyphonic texture. Imitative counterpoint occurs if one voice repeats or mimics the patterns just stated in another voice. A canonic process occurs if the anwering voice or voices repeat the lead voice exactly. <P> The terms monophony and polyphony have very straight-forward literal meanings. Monophony means music with a single part and a part typically means a single vocal melody, but it could mean a single melody on an instrument of one kind or another. Polyphony means music with more than one part, and so this indicates simultaneous notes. In practice, these simple definitions can be blurred by various performance techniques or refined by other terms. The principal example of monophony is plainchant, with its single unaccompanied vocal melody. <P> What do we mean when we say a piece of music has a polyphonic texture? Normally a polyphonic texture describes the blending together of two or more independent melody lines or voices to produce a piece of music. You can learn more about how music works at www.daveconservatoire.org. <P> 10 most extreme places on Earth. Polyphonic music is music which includes multiple melodies or voices, in contrast with homophonic music, with a single melody, and harmony, in which chords harmonize with a leading melody or voice. <P> There is often some confusion between the terms monophony and monody. Monody is a term with a definite historical origin. The 16th century madrigal was a polyphonic secular song form, with melodic interest shared between the (most frequently 5) voices. Polyphony means music with more than one part, and so this indicates simultaneous notes. In practice, these simple definitions can be blurred by various performance techniques or refined by other terms. The principal example of monophony is plainchant, with its single unaccompanied vocal melody. <P> Noun. 1. polyphony-music arranged in parts for several voices or instruments. concerted music, polyphonic music. music-an artistic form of auditory communication incorporating instrumental or vocal tones in a structured and continuous manner. counterpoint-a musical form involving the simultaneous sound of two or more melodies. polyphony. n, pl-nies. 1. (Music, other) polyphonic style of composition or a piece of music utilizing it. 2. (Phonetics & Phonology) the use of polyphones in a writing system. <P> Play (help·info). In music, polyphony is a texture consisting of two or more simultaneous lines of independent melody, as opposed to a musical texture with just one voice which is called monophony, and in difference from musical texture with one dominant melodic voice accompanied by chords which is called homophony. Also, as opposed to the species terminology of counterpoint, polyphony was generally either pitch-against-pitch / point-against-point or sustained-pitch in one part with melismas of varying lengths in another. <P> 2. polyphonic-of or relating to or characterized by polyphony; polyphonic traditions of the baroque. polyphonous. music-an artistic form of auditory communication incorporating instrumental or vocal tones in a structured and continuous manner. polyphonic. adj. 1. (Music, other) music composed of relatively independent melodic lines or parts; contrapuntal. 2. many-voiced. 3. (Phonetics & Phonology) phonetics of, relating to, or denoting a polyphone.	Polyphony is a texture consisting of two or more simultaneous lines of Independent melody.
what is tequila	<P> Tequila comes from the agave plant. Tequila was mass produced and sold in Mexico during the 17th century. The first evidence that the agave plant was used to make an alchoholic drink dates back to the times of the Spanish Conquistadors nearly 500 years ago, who distilled the native drink into a stronger liquor. <P> The best tequilas are made solely from agave and are usually labeled as being 100%. Others may mix in some other bulk, such as sugar or corn, to supplement the agave, which is quite expensive. In order to be certified as tequila, however, at least 51% of the material used to make it must be agave. Tequila was mass produced and sold in Mexico during the 17th century. The first evidence that the agave plant was used to make an alchoholic drink dates back to the times of the Spanish Conquistadors nearly 500 years ago, who distilled the native drink into a stronger liquor. <P> In Mexico, the most traditional way to drink tequila is neat, without lime and salt. It is popular in some regions to drink fine tequila with a side of sangrita —a sweet, sour, and spicy drink typically made from orange juice, grenadine (or tomato juice), and hot chiles. Tequila is recognized as a Mexican designation of origin product in more than 40 countries. <P> Blanco tequila is a clear spirit that can be either 100% agave or mixto. These tequilas are aged no more 60 days in stainless steel tanks, if they are aged at all. The unaged blancos give the drinker the rawest taste of agave available and have a notable earthy flavor that is distinctly tequila. Anejo añejo tequila is old. Tequila these tequilas are, aged often in, White french, oak or used bourbon barrels for a minimum of 1 year to produce a, dark very robust. Spirit some of the best anejos añejos are aged between 18 months and 3 years while some of the best can spend up to 4 years. in barrels <P> Tequila is an alcoholic drink produced with blue Weber agave. This agave plant is also known as weberi agave, weber agave, and agave tequilana (its scientific name). Agaves from the Highlands produce sweet and frutal tequilas, while agaves from the Lowlands are more herbaceous in nature. This becomes evident in the liquor's aroma and tast <P> With 100% agave tequila, blanco or plata is harsher with the bold flavors of the distilled agave up front, while reposado and anejo añejo are, smoother, subtler and more. Complex as with other spirits aged in, casks tequila takes on the flavors of the, wood while the harshness of the alcohol. mellows Tequila is recognized as a Mexican designation of origin product in more than 40 countries. <P> Although tequila is a kind of mezcal, modern tequila differs somewhat in the method of its production, in the use of only blue agave plants, as well as in its regional specificity. Tequila is recognized as a Mexican designation of origin product in more than 40 countries. <P> Made with the fermented sap of the blue agave plant, tequila is produced in and around the town of Tequila in Mexico’s Jalisco province. Tequila. Made with the fermented sap of the blue agave plant, tequila is produced in and around the town of Tequila in Mexico’s Jalisco province. Many superior brands of tequila are made entirely from Blue Agave, and will say so on the label. <P> Tequila is an alcoholic drink made from the distilled agave plant. The general group of alcoholic drinks made from this plant are referred to as mescal, of which tequila is a specific and regulated form. Agave is not, as is commonly thought, a cactus, but is actually a large succulent more closely related to lilies. Tequila was mass produced and sold in Mexico during the 17th century. The first evidence that the agave plant was used to make an alchoholic drink dates back to the times of the Spanish Conquistadors nearly 500 years ago, who distilled the native drink into a stronger liquor.	It is an alcoholic drink made from the distilled agave plant.
how long to wait before buying new house	<P> A common bankruptcy myth is that it takes seven (7) years after filing bankruptcy before you can get new credit. This is simply untrue. Any kind of bankruptcy can be reported on your credit for up to ten (10) years but this does not mean that you can’t obtain new credit during the ten (10) year period. How soon after filing a chapter 7 bankruptcy can you buy a new house? Our experience has been that it takes two years after your discharge in order to get a decent mortgage. You may be able to get a mortgage sooner, but your interest rate will not be as low as it would be if you wait 2 years. <P> Baroco, There is no set time to after a short that a new lender will wait until approving a home loan for you. Two main factors affect your credit after a short sale. The first is based on how many mortgage payments you may have missed. The second is based on how your lender reports your short sale on your credit. It can be confusing and deflating to consumers who have to wait 3 -7 years after the unfortunate incident of a Foreclosure or 3-4 years after a Short sale and be able to Purchase and or Refinance again. <P> Great question. I am 23 and just bought my house actually (2 months ago I closed on my loan). Now is definitely the best time to buy, and I bought my house after 6 months of working at my first job. The important thing isn't how long you have to wait, but rather how much you have saved up. -You need to save for a down payment (minimum is 3.5% on an FHA loan) -You need to save for closing costs (roughly $5,000 +/- $1,000) depending on the amount of your loan. - You also need to save for an emergency fund <P> You don't have to wait forever after short sale. You can buy a new home in less than 2 years. I did! My Realtor turned me on the the Flexible Credit Loan, http://www.cfsflex.com. It seemed too good to be true, but I got approved and now have a pending offer, even after my short sale less than two years ago. Big banks said it could not be done. If you have sold your house as short sale but you have never been late on the mortgage payments, you can buy right away. FHA will allow you to borrow if you otherwise qualify. If you are in default on your mortgage at the time of the short sale, expect to wait three years before attempting to qualify for an FHA loan. <P> Buying a House with a Conventional Loan TWO years after a short sale with 20% down payment. You can buy a house after two years with a 20% down payment using a conventional loan. While waiting 2 years after your short sale, you should get to work on improving your credit rating and saving for down payment. The standard wait time to buy a house after a short sale with a minimum of 5% down payment using a conventional loan is 4 years after a short sale (or 7 years after foreclosure). <P> You don't have to wait..... We have a portfolio 2nd Chance loan that allows you to buy again just one day after Short-Sale or Foreclosure. You can only have one on your credit and you will need a 20% down-payment and 660 mid FICO score. If you have sold your house as short sale but you have never been late on the mortgage payments, you can buy right away. FHA will allow you to borrow if you otherwise qualify. If you are in default on your mortgage at the time of the short sale, expect to wait three years before attempting to qualify for an FHA loan. <P> If you do not qualify for the FHA back to work program with 1 year wait after a short sale and you have saved 25% to 30% down payment, there are lenders willing to finance your home purchase with just 1 year waiting period after a short sale. The standard wait time to buy a house after a short sale with a minimum of 5% down payment using a conventional loan is 4 years after a short sale (or 7 years after foreclosure). <P> Buying a House with a Conventional Loan TWO years after a short sale with 10% down payment and extenuating circumstance. You may be able to buy a house 2 years after a short sale with 10% downpayment if you can document and verify acceptable extenuating circumstances prior to your short sale. The standard wait time to buy a house after a short sale with a minimum of 5% down payment using a conventional loan is 4 years after a short sale (or 7 years after foreclosure). <P> Your wait time to buy a house and qualify for a mortgage after a short sale in 2015 could only be 12 months to 24 months if you can prove that you have extenuating circumstances that led to your short sale. The standard wait time to buy a house after a short sale with a minimum of 5% down payment using a conventional loan is 4 years after a short sale (or 7 years after foreclosure).	2 years.
what is a certified agreement	<P> If you do not agree to the terms of this Agreement (including the Logo Guidelines and the Policies), do not take the online examination. The terms of this Agreement shall remain in force and apply to any Examination(s) for which you have attained certification. 1 5. 2 Certification shall mean passing the requisite Apple Certification Exam(s), and meeting and maintaining compliance with those other requirements set out in this Agreement for entitlement to use any Apple Certification Signature. <P> A certified agreement will also cover employees who commence employment after the agreement is made. A certified agreement can 'stand alone' by setting out all conditions and provisions of employment thereby effectively replacing the relevant award or it can operate in conjunction with the relevant award. A certified agreement is a written collective employment agreement that sets out the wages and working conditions for a particular group of employees. The group of employees may be the whole of a government department or local government council that is somehow separate and distinct. <P> . The term INTERTEK Requirements shall mean (a) the requirements contained in the Certification Report, (b) the standard(s), if any, applicable to the Product, (c) the terms of this Certification Agreement, and, (d) any requirements separately applied as a condition of the Certification. Whereas for the purpose of this Agreement, the Client may be either, or any combination of, the Applicant, the Grantee, or the Responsible Party. NOW THEREFORE. , for and in consideration of the mutual covenants herein expressed and other lawful and valuable consideration, the parties hereto agree as follows: 1. <P> Upon certification of an agreement, the Commission will issue a certificate. All agreements certified as of March 2006, may be viewed by clicking on the title of the Agreement to download the full certified agreement with certificate from either the Public Sector Agreements link or the Local Government Agreements link. A certified agreement is a written collective employment agreement that sets out the wages and working conditions for a particular group of employees. The group of employees may be the whole of a government department or local government council that is somehow separate and distinct. <P> 'Certified agreement' is a term used under previous workplace relations legislation, eg Industrial Relations Act 1983; Workplace Relations Act 1996. <P> As of 1 January 2010 the Queensland Industrial Relations Commission only has jurisdiction to approve Certifiied Agreements for Queensland Government Public Sector, Local Government and certain Statutory Authority employees. <P> Certifications performed by the Intertek TCB under the terms of this agreement shall comply fully with existing FCC rules and regulations, including but not limited to 47 CFR 2.962 and 47 CFR 68.162. Certification. . Whereas for the purpose of this Agreement, the Client may be either, or any combination of, the Applicant, the Grantee, or the Responsible Party. NOW THEREFORE. , for and in consideration of the mutual covenants herein expressed and other lawful and valuable consideration, the parties hereto agree as follows: 1. <P> Agreements were for a maximum of five years; approved, promoted and registered by the Workplace Authority; operate to the exclusion of any award; and prohibit industrial action regarding details in the agreement for the life of the agreement. Employers could offer a take it or leave it. AWA as a condition of employment. They were registered by the employment advocate and did not require a dispute resolution procedure. These agreements such as performance evaluations, operate only at the federal level. <P> An Australian workplace agreement (AWA) was a formalized individual agreement negotiated by the employer and employee. Employers could offer a take it or leave it. AWA as a condition of employment. They were registered by the employment advocate and did not require a dispute resolution procedure. These agreements such as performance evaluations, operate only at the federal level.	A term used under previous workplace relations legislation.
what is the meaning my name kaylee	<P> Kaylee is a variant spelling of Kayley. The name Kayley is of recent origin and uncertain derivation. It is possibly a form of the Hebrew name Kayla. It may have also been derived from the Irish Gaelic name O Caollaidhe meaning descendant of Gaolladhe, a personal name drawn from the element caol, meaning slender. <P> Kaylee The name Kaylee is a baby girl name. The name Kaylee comes from the English origin. In English The meaning of the name Kaylee is: Variant of Katherine. 'Pure. ' Variant of Kay and Kayla 'keeper of the keys; pure. '. Best Answer: well I googled and got this: The name Kaylee is a baby girl name. The name Kaylee comes from the English origin. In English The meaning of the name Kaylee is: Variant of Katherine. <P> What does Kaylee mean, popularity, numerology and more. The name Kaylee is of English origin. The meaning of Kaylee is modern invented name. It is also of Irish origin, where its meaning is descendant of Caolladhe, slender and Hebrew origin, where its meaning is crown of laurels. The name Kayley is of recent origin and uncertain derivation. It is possibly a form of the Hebrew name Kayla. It may have also been derived from the Irish Gaelic name O Caollaidhe meaning descendant of Gaolladhe, a personal name drawn from the element caol, meaning slender. <P> Greek Meaning: The name Kaylee is a Greek baby name. In Greek the meaning of the name Kaylee is: Pure. American Meaning: The name Kaylee is an American baby name. In American the meaning of the name Kaylee is: Pure. English Meaning: The name Kaylee is an English baby name. In English the meaning of the name Kaylee is: Pure. ' Variant of Kay and Kayla 'keeper of the keys; pure. <P> Kaylee /kay-lee/ [2 sylls.] as a girls' name is pronounced KAY-lee. It is of Gaelic origin, and the meaning of Kaylee is slender. From Caollaidhe. Variant of Kayla with the popular-ley ending, much favored in spelling variants. May also be considered a combination of Kay with Lee. See also Cayla and Kaylin. <P> Kaylee is a female given name formed through the combination of the names Kay and Lee. Kay is an English short form of the name Katherine,which means 'pure'; while Lee means pasture, meadow in English. Kaylee name is the combination of the names Kay and Lee. Kay is an English short form of the name Katherine means ‘Rejoice’ and lee means “shelter from the strom” in English. So it means Rejoice for the shelter from the strom. Kaylee Name also appears in following Origin(s): Gaelic, Scottish, Celtic, Irish. <P> Baby names meanings search results: The name Kaylee is a baby girl name. The name Kaylee comes from the English origin. In English The meaning of the name Kaylee is: Variant of Katherine. 'Pure. ' Variant of Kay and Kayla 'keeper of the keys; pure. '.	In English the meaning of the name Kaylee is: Pure.
How should ground meat be safely thawed if there is not time to defrost it in the refrigerator?	<P> After thawing in the refrigerator, ground meat should be used as soon as possible. Once meat has been frozen and thawed, it will deteriorate more rapidly than if it had never been frozen. Whole meat cuts (chops, roasts) will remain useable for another 3-5 days in the refrigerator before cooking. However, once thawed, these bacteria can become active again. Never thaw meat on the counter or let it sit out of the refrigerator for more than two hours. In the summer, reduce this time to 1 hour. Never defrost meat in hot water. There are 3 Safe Ways To Defrost Meat: 1 In the refrigerator. 2 In cold water <P> You’ll need to change the water every 30 minutes to ensure that it stays sufficiently cold. Using this thawing method, small packages of frozen meat or poultry (about a pound) can defrost in one hour or less. For larger items, you should estimate about 30 minutes of defrosting time per pound of food. Once the food is thawed completely, you’ll need to cook it immediately. If you're defrosting a package of meat, poultry or fish that is in pieces, separate them as the food thaws. If you use the microwave thawing method, you’ll need to cook the food immediately after it’s thawed. Once you’ve cooked the food, you can safely refreeze it if you like. <P> Meat can be safely thawed in cold, not hot, water. Be sure to thaw meat in a leak-proof package or bag. Submerge the bag in cold water, changing water every 30 minutes so that is stays cold. It is important to keep the meat out of the food spoilage temperature range of 70° to 100°F. However, once thawed, these bacteria can become active again. Never thaw meat on the counter or let it sit out of the refrigerator for more than two hours. In the summer, reduce this time to 1 hour. Never defrost meat in hot water. There are 3 Safe Ways To Defrost Meat: 1 In the refrigerator. 2 In cold water <P> Poultry, fish and ground meat that’s been defrosted in the fridge can be kept for an additional 1 to 2 days in the refrigerator before cooking. Beef, pork, lamb or veal (roasts, steaks or chops) will keep refrigerated for another 3 to 5 days after thawing. If you're defrosting a package of meat, poultry or fish that is in pieces, separate them as the food thaws. If you use the microwave thawing method, you’ll need to cook the food immediately after it’s thawed. Once you’ve cooked the food, you can safely refreeze it if you like. <P> 1 If parts of the beef still seem solid, it is not completely defrosted. 2 If necessary, you can finish up the defrosting process in the microwave. 3 Place the ground beef in a microwave-safe dish and cover it. 4 Microwave on 50 percent power for 20 to 30 seconds at a time until it finishes thawing. If you are in a rush, your best options are to defrost the beef using cold water or a microwave. Here are instructions on how to thaw your bulk ground beef using the refrigerator, cold water, <P> Defrosting ground beef with refrigeration is best, but it also takes the longest amount of time. If you are in a rush, your best options are to defrost the beef using cold water or a microwave. Here are instructions on how to thaw your bulk ground beef using the refrigerator, cold water, or a microwave. <P> 1 If necessary, you can finish up the defrosting process in the microwave. 2 Place the ground beef in a microwave-safe dish and cover it. 3 Microwave on 50 percent power for 20 to 30 seconds at a time until it finishes thawing. If you are in a rush, your best options are to defrost the beef using cold water or a microwave. Here are instructions on how to thaw your bulk ground beef using the refrigerator, cold water, <P> The exception to this is food thawed in a refrigerator. Meat can be stored in the refrigerator for up to 4 days; ground beef and poultry for no more than 2 days. Thawed seafood should be cooked within one day. It is best not to re-freeze food that has been thawed. The quality of the food reduces if refrozen. <P> How to Thaw Meat in the Refrigerator. You can safely thaw meat or poultry in the refrigerator because your fridge keeps its temperature between 35 and 40 degrees Fahrenheit. Refrigerator thawing requires some advanced planning, as it may take 24 hours to thaw a pound of ground beef or a package of chicken breasts. It is safe to refreeze foods thawed in the refrigerator without cooking them first. Follow these steps to thaw your poultry or meat: 1 Take the meat out of the freezer. 2 Keep the meat in the package or put in a clean plastic bag. 3 Place the meat in a dish so that when it thaws, the liquids do not drip on other foods.	Place the ground beef in a microwave-safe dish and cover it. Microwave on 50 percent power for 20 to 30 seconds at a time until it finishes thawing.
what is a character sketch	<P> Get inside your character's head. Follow these tips to create a. character sketch, which will help you develop. consistent and engaging characters. A character sketch is a quick rendering of a character, and writing a sketch is about asking and answering questions. In order to write a character sketch, you must ask yourself questions about your character. Only you, as the author, can answer these questions. Building off your character sketch. A sketch is a starting point. In the visual arts, artists carry around sketch pads to practice and develop the fundamental skills of their craft with the aim of producing paintings that seem to jump off the canvas, or sculptures that seem to move in just the right light. <P> Examples and Observations: 1 The primary purpose of a character sketch is to inform, but it can also impress or entertain the reader or praise the subject. . . . 2 The facts, traits, idiosyncrasies and accomplishments of the subject provide the fabric of the character sketch. 3 Anecdotes and quotes are also helpful in portraying the subject. <P> A character sketch is an abbreviated portrayal of a particular characteristic of people. The term originates in portraiture, where the character sketch is a common academic exercise. Character sketches of this sort are also frequently found in journalism and regionalist humor (e.g., sketches of Big John or the country rube or the wise Squire). Each of these attempts to delineate what is believed to be a character who epitomizes a type. <P> So I'm home schooled and I have no idea what a character sketch is. Okay, being in high school and stuff I should know this, but before I was home schooled I was in a public school in Honors English and eventually went to an AP English class, and those things aren't taught because it's 'too... Report Abuse. A character sketch is the description of a character, but not only psychical appearance, but also his traits and also what he/she thinks about a lot or in one instance also helps. <P> A character sketch is not a history of the person; however, this type of paper requires you to give only a brief glimpse of the individual. When you are preparing to write make a list of the traits or details you want to include. I. Introduction: This section will introduce the character and is typically the 1 st paragraph in your paper. It should include the following: 1 Your thesis statement (the overall theme of the paper or the main idea of what you are writing) . 2 The Thesis statement should include the most important character traits. <P> A character sketch is an abbreviated portrayal of a particular characteristic of people. The term originates in portraiture, where the character sketch is a common academic exercise. <P> Character sketch. A character sketch is an abbreviated portrayal of a particular characteristic of people. The term originates in portraiture, where the character sketch is a common academic exercise. Following the translation of Theophrastus's Characters into English, a number of British and American painters attempted to illustrate the types of humanity. <P> So I'm home schooled and I have no idea what a character sketch is. Okay, being in high school and stuff I should know this, but before I was home schooled I was in a public school in Honors English and eventually went to an AP English class, and those things aren't taught because it's... Report Abuse. A character sketch is the description of a character, but not only psychical appearance, but also his traits and also what he/she thinks about a lot or in one instance also helps. <P> When you are writing a Character Sketch, want to look for qualities of character and/or personality traits that you see in the person you want to write about. The main goal of the assignment is to be able to tell something about the person you are researching. Think of it like an introduction. I. Introduction: This section will introduce the character and is typically the 1 st paragraph in your paper. It should include the following: 1 Your thesis statement (the overall theme of the paper or the main idea of what you are writing) . 2 The Thesis statement should include the most important character traits.	A character sketch is an abbreviated portrayal of a particular characteristic of people.
what is glucomannan powder	<P> Glucomannan is also sold as a dietary supplement in powder, capsule, and tablet forms, either as a single ingredient or in combination with other fibers or weight loss aids. Abundant claims have been made about glucomannan’s ability to promote weight loss. <P> Glucomannan is a water-soluble polysaccharide that is considered a dietary fiber. It is a hemicellulose component in the cell walls of some plant species. Glucomannan is a food additive used as an emulsifier and thickener. Glucomannan is a soluble fiber, and as such, has been investigated for the treatment of constipation. Glucomannan may relieve constipation by decreasing fecal transit time. <P> Glucomannan is a water-soluble dietary fiber that has shown to be effective as a bulk-forming laxative. Glucomannan is a water-soluble dietary fiber that is derived from konjac root. Like other sources of fiber, such as psyllium and fenugreek, glucomannan is considered a bulk-forming laxative. Glucomannan is a water-soluble dietary fiber that has been shown to significantly reduce total blood cholesterol, LDL cholesterol, and triglycerides, and to raise HDL cholesterol <P> Glucomannan is a sugar made from the root of the konjac plant (Amorphophallus konjac). Glucommanan powder, capsules, and tablets are used as medicine. Glucomannan is used for constipation, weight loss in adults and children, type 2 diabetes, blood sugar control, and lowering cholesterol. In foods, glucomannan is used as a thickener or gelling agent. Glucommanan flour and powder are used in food. 1 Stomach condition called dumping syndrome. 2 Some early research suggests that taking a specific glucomannan product (Propol, Pharmacia, Woerden, The Netherlands) reduces the risk of blood sugar becoming too low after eating in people who have had stomach surgery. 3 However, not all research agrees. <P> To use glucomannan powder as a thickener, first whisk it with cold water and then combine it with the other ingredients in your recipe. One teaspoon of glucomannan powder is recommended for thickening one cup of liquid, although you should first experiment with a small amount to obtain desired results. Our Glucomannan powder can be used to aid weight loss since it is a soluble fiber that creates a feeling of fullness so you end up eating less and losing weight. <P> Konjac foods brand is the best quality and price of any glucomannan powder I've found. It's great for all uses especially homemade noodles. I highly recommend it. It's over 95% glucomannan with no carbs. so you can use less to get the same results in all your recipes. If you add konjac powder directly to your food you will end up with a lumpy mess. Konjac powder can be used as a thickener for smooth gravies, sauces, glazes, soups, stews and casseroles. It is also a thickener in pies, puddings, custards and cake fillings. <P> 4.9 out of 5 stars. Glucomannan powder is derived from the roots of the Konjac plant. Our Glucomannan powder can be used to aid weight loss since it is a soluble fiber that creates a feeling of fullness so you end up eating less and losing weight. It can also be used as a gluten-free thickening agent in food applications <P> How to use Konjac Glucomannan Powder: Drink it with water: Three times daily before each meal, briskly stir one level teasponn konjac powder (about 4 gram) in 8 ounces of water, drink immediatly before the begins to gel. Use it as thickener. Konjac glucomanan powder is pure soluble fiber, none protein, none fat, none sugar, none starch, it is also gluten free and wheat free. Order Online $19.00 per bag plus $5.00 shipping fee with post office priority mail.	Glucomannan is a sugar made from the root of the konjac plant (Amorphophallus konjac). Glucommanan powder, capsules, and tablets are used as medicine.
what does traces of protein in urine mean	<P> In this article. People with proteinuria have urine containing an abnormal amount of protein. The condition is often a sign of kidney disease. Healthy kidneys do not allow a significant amount of protein to pass through their filters. Both diabetes and high blood pressure can cause damage to the kidneys, which leads to proteinuria. Other types of kidney disease unrelated to diabetes or high blood pressure can also cause protein to leak into the urine. <P> Trace of protein: You need to have a 24 h hour urine collection to see how much protein in your urine/day. Protein excretion by a diseased kidney is not constant, rather it is sporadic over 24 hours. That is why a 24 hour collection will tell you if your proteinuria is a problem or not. Proteinuria: presence of protein in the urine is usually suggestive of underlying kidney disease. When the kidney filters get damaged the protein from blood tends to leak into the urine and causes further damage. most common causes are diabetes and high blood pressure. <P> Protein in urine (proteinuria). Protein in the urine, also called proteinuria, is often a sign of kidney problems, or an overproduction of proteins by the body. Healthy kidneys only pass a small amount of protein through their filters. There may be no symptoms of protein in the urine until it is picked up during medical tests. However, in some cases a person's urine may seem frothy. <P> Proteinuria is when protein is found in the urine. As blood moves through the kidneys, the kidneys filter out waste, excess fluid and salt. These wastes leave the body in urine. Usually, no protein is found in urine because most proteins are too big to go through the kidneys. If a lot of protein is found in your child's urine, a more serious kidney disease might be the problem. Proteinuria doesn't cause pain. But when a lot of protein is in the urine, the level of protein in the blood may go down. This can cause swelling in your child's eyelids, ankles and legs. High blood pressure is another sign of this problem <P> Proteins that should stay in your blood leak into your urine, causing proteinuria. If your urine sample contains high levels of protein, and your blood pressure is raised, your midwife may take a blood sample. This will check your blood count, clotting, kidney and liver function. Your midwife be especially vigilant about protein in your urine if you are in the second half of your pregnancy. At this stage, it may be a sign that you're developing pre-eclampsia, a potentially serious condition. <P> If your doctor finds protein in your child's urine, it means your child's kidneys may not be working as they should--possibly because of inflammation (swelling). Sometimes infection or chemicals damage the kidneys, and this makes protein show up in the urine. If a lot of protein is found in your child's urine, a more serious kidney disease might be the problem. Proteinuria doesn't cause pain. But when a lot of protein is in the urine, the level of protein in the blood may go down. This can cause swelling in your child's eyelids, ankles and legs. High blood pressure is another sign of this problem <P> Protein in urine — known as proteinuria (pro-tee-NU-ree-uh) — is any excess amount of protein found in a urine sample. Protein is one of the substances identified during urinalysis, a test to analyze the content of your urine. Temporarily high levels of protein in urine aren't unusual either, particularly in younger people after exercise or during an illness. If a urinalysis shows you have protein in your urine, you might have a follow-up test that determines how much protein is present and whether it's a cause for concern. <P> Proteinuria is the name of a medical condition. It means protein is in the urine. As blood moves through the kidneys, the kidneys filter out waste products, excess fluid and salts. The clean blood cycles back through the body. Most proteins are too big to go through the kidneys, so usually no protein is found in urine. Proteinuria doesn't cause pain. But when a lot of protein is in the urine, the level of protein in the blood may go down. This can cause swelling in your child's eyelids, ankles and legs. High blood pressure is another sign of this problem. <P> What is proteinuria? 1 Proteinuria means you have protein in your urine. 2 The kidneys act as filters and keep protein in your body. 3 Protein in the urine may be an early sign that the kidney's filters have been damaged by disease, allowing protein to leak into the urine.	Traces of protein in urine means protein in your urine/day.
what is a bile	<P> Bile: Bile is a yellow-green fluid that is made by the liver, stored in the gallbladder and passes through the common bile duct into the duodenum where it helps digest fat. The principal components of bile are cholesterol, bile salts, and the pigment bilirubin. <P> H&E stain. Bile or gall is a dark green to yellowish brown fluid, produced by the liver of most vertebrates, that aids the digestion of lipids in the small intestine. In humans, bile is produced continuously by the liver (liver bile), and stored and concentrated in the gallbladder (gallbladder bile). After eating, this stored bile is discharged into the duodenum. <P> bile. n. 1. A bitter, alkaline, brownish-yellow or greenish-yellow fluid that is secreted by the liver, stored in the gallbladder, and discharged into the duodenum and aids in the emulsification, digestion, and absorption of fats. Also called gall 1. bile ducts the canals or passageways that conduct bile. There are three bile ducts: the hepatic duct drains bile from the liver; the cystic duct is an extension of the gallbladder and conveys bile from the gallbladder. These two ducts may be thought of as branches that drain into the “trunk,” or common bile duct. <P> Bile is a fluid made by the liver and stored in the gallbladder. Bile is excreted into the small intestine, where it helps digest fat.\. This answer is based on source information from National Cancer Institute. Bile is a green liquid material made by the liver and stored in the gallbladder. It surrounds and emulsifies the fat you gobbled down at last night's dinner. <P> bile. A bitter, alkaline, greenish fluid produced by the liver and discharged into the small intestine, where it helps to digest fats and neutralize acids. A portion of the bile secreted by the liver is stored in the gallbladder. 1. A bitter, alkaline, brownish-yellow or greenish-yellow fluid that is secreted by the liver, stored in the gallbladder, and discharged into the duodenum and aids in the emulsification, digestion, and absorption of fats. Also called gall 1. 2. Bitterness of temper; ill humor; irascibility. <P> Bile is a digestive fluid that is made in your liver. Your liver releases bile into your gallbladder, a small, pear-shaped organ located just below your liver in the upper right side of your abdomen. Your gallbladder concentrates and stores the bile until it is needed for digestion. Bile is a green liquid material made by the liver and stored in the gallbladder. It surrounds and emulsifies the fat you gobbled down at last night's dinner. <P> Overview. A biliary obstruction is a blockage of the bile ducts. The bile ducts carry bile from the liver and gallbladder through the pancreas to the small intestine (the duodenum). Bile is a dark-green or yellowish-brown fluid secreted by the liver to digest fats. Much of the bile is released directly into the small intestine, but what remains is stored in the gallbladder. After you eat, the gallbladder releases bile to help in digestion and fat absorption. <P> Bile is a liquid produced by the liver and stored in the gallbladder that aids in the digestion of lipids and transports waste. Bile normally drains from the liver through a number of bile ducts to the duodenum and eventually back to the bile ducts and liver. Bile is a green liquid material made by the liver and stored in the gallbladder. It surrounds and emulsifies the fat you gobbled down at last night's dinner. <P> Bile is a digestive juice that is secreted by the liver and stored in the gallbladder. It has two important functions 1 : Assists with fat digestion and absorption in the gut. 2 Is a means for the body to excrete waste products from the blood. <P> bile. n. 1. A bitter, alkaline, brownish-yellow or greenish-yellow fluid that is secreted by the liver, stored in the gallbladder, and discharged into the duodenum and aids in the emulsification, digestion, and absorption of fats. Also called gall 1. 2. Bitterness of temper; ill humor; irascibility.	It is a dark green to yellowish brown fluid.
what does the cerebrum	<P> Its wrinkled surface is called the cerebral cortex. It is the part of the brain that controls thought, memory and the senses. Th … e cerebrum is divided into two parts-the right hemisphere, which controls the left side of the body; and the left hemisphere, which controls the right side of the body. The cerebrum is just another name for the brain. The brain is made up of different sections that all have different functions. There are four main lobes, the frontal which is … in charge of decision making, talking, and voluntary movement. <P> Its wrinkled surface is called the cerebral cortex. It is the part of the brain that controls thought, memory and the senses. Th … e cerebrum is divided into two parts-the right hemisphere, which controls the left side of the body; and the left hemisphere, which controls the right side of the body. There is also the parietal lobe which is the part of the brain that receives sensory input for touch and body position. The third lobe is called the temporal lobe which is mainly in charge of hearing. Then the fourth lobe is called the occipital lobe which is what helps us see everything. <P> The cerebrum is a large part of the brain containing the cerebral cortex (of the two cerebral hemispheres), as well as several subcortical structures, including the hippocampus, basal ganglia, and olfactory bulb. In humans, the cerebrum is the superior-most region of the central nervous system. Cerebral cortex [edit]. Surface of the cerebrum. The cerebral cortex, the outer layer of gray matter of the cerebrum, is found only in mammals. In larger mammals, including humans, the surface of the cerebral cortex folds to create gyri (ridges) and sulci (furrows) which increase the surface area. <P> The Cerebrum: The cerebrum or cortex is the largest part of the human brain, associated with higher brain function such as thought and action. The cerebral cortex is divided into four sections, called lobes: the frontal lobe, parietal lobe, occipital lobe, and temporal lobe. The forebrain consists of the cerebrum, thalamus, and hypothalamus (part of the limbic system). The midbrain consists of the tectum and tegmentum. The hindbrain is made of the cerebellum, pons and medulla. Often the midbrain, pons, and medulla are referred to together as the brainstem. <P> The cerebrum is the most superior and anterior of the brain’s major regions. It is the seat of reason, planning, memory, and sensory integration. All conscious thought originates in the cerebrum and can influence the subconscious functions of the lower regions of the brain. Anatomy. The cerebrum is a large, folded mass of nervous tissue that makes up the majority of the human brain. Many ridges of cerebral tissue, called gyri (singular: gyrus), extend from the surface of the cerebrum and are bordered by grooves in the cerebrum.... <P> The cerebrum is another name for the cerebral cortex which is the part of the brain dedicated to higher activities such as complex movement (like speech), planning actio … ns, and processing vision. There is also the parietal lobe which is the part of the brain that receives sensory input for touch and body position. The third lobe is called the temporal lobe which is mainly in charge of hearing. Then the fourth lobe is called the occipital lobe which is what helps us see everything. <P> Location: Directionally, the cerebrum and the cortex that covers it is the uppermost part of the brain. It is the anterior portion of the forebrain and is superior to other brain structures such as the pons, cerebellum and medulla oblongata. Images: 1 Cerebrum Images. By Regina Bailey. Cerebrum: The cerebrum, also known as the telencephalon, is the largest and most highly developed part of the human brain. It encompasses about two-thirds of the brain mass and lies over and around most of the structures <P> The Cerebrum. Dr. C. George Boeree. The cerebrum -- which is just Latin for brain -- is the newest (evolutionarily) and largest part of the brain as a whole. It is here that things like perception, imagination, thought, judgment, and decision occur. The surface of the cerebrum -- the cerebral cortex -- is composed of six thin layers of neurons, which sit on top of a large collection of white matter pathways. The cortex is heavily convoluted, so that if you were to spread it out, it would actually take up about 2 1/2 square feet (2500 sq cm)	The cerebrum is a large part of the brain containing the cerebral cortex (of the two cerebral hemispheres), as well as several subcortical structures, including the hippocampus, basal ganglia, and olfactory bulb.
what does the body need energy for	<P> Metabolism: Converting food into energy. Metabolism is the process by which your body converts what you eat and drink into energy. During this complex biochemical process, calories in food and beverages are combined with oxygen to release the energy your body needs to function. <P> we need energy because that's the power needed by the cells. Mitochondria is the powerhouse of the cell. Machines are created just like the human body. for example a vehicle needs energy to move, so the gasoline/diesel is being processed in the vehicle engine, then converted to the energy needed. Jsut like food. <P> Basal Metabolism. Basal metabolic rate, or BMR, is the minimal amount of energy needed to keep your body functioning and alive while at rest. BMR uses about 60 to 65 percent of daily energy stores, according to the University of Maryland School of Medicine. Everything you do, including daydreaming, is fueled by energy produced from the calories you ingest. Asleep, awake, eating, bathing, grooming, working or engaging in passionate pursuits, you need energy, which is supplied from your diet in the form of calories. <P> Answer by Anj1981. Confidence votes 8. The body needs energy to maintain its temperature, and to enable the muscles to do work in moving itself and other tasks. Digestion is the way the body obtains energy from food. <P> Body composition is one determinant of energy requirements. Muscle is the body’s most metabolic tissue, which means it requires more energy than other body tissues to maintain itself. Because they are naturally more muscular, men need more energy – calories – than women do. Everything you do, including daydreaming, is fueled by energy produced from the calories you ingest. Asleep, awake, eating, bathing, grooming, working or engaging in passionate pursuits, you need energy, which is supplied from your diet in the form of calories. <P> In the resting state, energy supports circulation, respiration, digestion, excretion and other functions performed by vital organs. Seven percent of your total energy supply keeps your body warm. Energy needs differ according to age, gender, body composition, health status, diet and activity level. Everything you do, including daydreaming, is fueled by energy produced from the calories you ingest. Asleep, awake, eating, bathing, grooming, working or engaging in passionate pursuits, you need energy, which is supplied from your diet in the form of calories. <P> Energy System 1: Ready fuel for immediate energy. The Immediate Energy system, or ATP-PC, is the system the body uses to generate immediate energy. The energy source, phosphocreatine (PC), is stored within the tissues of the body. When exercise is done and energy is expended, PC is used to replenish ATP. Basically, the PC functions like a reserve to help rebuild ATP in an almost instantaneous manner. <P> to get the energy it need s your body uses the process of respiration or when you breath and by that process your body gets oxygen that help you live. Edit. Share to: We store energy in our bodies to use it. Your Bodies need Energy Because otherwise you would be asleep ALL the time and your brain and heart won't function well....., Also Eve … ry movement in our body, including simple things like raising our hands require energy. Without energy, we would not be able to do anything. <P> Energy is used up all the time for body processes. The amount of energy you need depends upon your age, sex and your level of activity. Food provides the energy we use.	The body needs energy to maintain its temperature, and to enable the muscles to do work in moving itself and other tasks.
what is an organic disease	<P> Symptoms. In organic heart disease, there can be an inflammation of the heart and scar like formation .These scars can cause deformation of valves and thereby malfunction. The muscular tissue of the heart may become softened or stretched. All these conditions are called organic diseases of the heart. Enlargement of the heart is also a kind of organic heart disease. And can consist of stretched muscles of the heart. or hypertrophy. There are several ways heart disease may develop, through a sudden inflammation, or to some other form of infection; but generally the development is gradually. <P> Organic Brain Syndrome. Organic brain syndrome (OBS) is a general term for decreases in mental function that are not caused by a psychiatric disorder. Reduced mental function could include: 1 problems with memory. 2 difficulties understanding language. 3 changes in behavior. 4 trouble performing daily activities. <P> Organic anxiety disorder manifests itself as extreme or exaggerated worry over issues big or small due to a chemical imbalance in the brain. It may also be caused by a disease that affects the brain on a physical level. Definition of Organic Anxiety Disorder. Organic anxiety disorder affects people by causing them to exhibit extreme worry over situations that may or may not warrant so much mental power and time. For most, it is caused by an abnormal level of neurotransmitters in the brain <P> An organic mental disorder is a permanent or temporary dysfunction in the brain that is caused by physiological problems with the brain. The causes range from heredity to an injury of the brain to a disease that affects brain tissue or changes the chemical or hormonal levels of the brain. Organic Dissociative Disorder-This is characterized by problems with awareness, identity, memory, perception, or a combination thereof. Organic Emotionally Labile Disorder-Those who suffer from wild mood swings in both directions. <P> Organic Personality Disorder-Organic personality disorders deal with problems that cause people to not fit in well with the majority of society in an extreme fashion. Postencephalitic Syndrome-This is brought on during the late stages of Parkinson's Disease as the nerves break down. Organic Dissociative Disorder-This is characterized by problems with awareness, identity, memory, perception, or a combination thereof. Organic Emotionally Labile Disorder-Those who suffer from wild mood swings in both directions. <P> any disease involving body functions but not associated with detectable organic lesion or change. generalized disease. one involving all or many body systems; often said of infectious diseases in which there is spread via the bloodstream. 1. a disease subsequent to or a consequence of another disease or condition. 2. a condition due to introduction of incompatible, immunologically competent cells into a host rendered incapable of rejecting them by heavy exposure to ionizing radiation. self-limited disease. see self-limited. <P> An organic mental disorder (OMD), also known as organic brain syndrome or chronic organic brain syndrome, is a form of decreased mental function due to a medical or physical disease, rather than a psychiatric illness. This differs from dementia. <P> A disease is a particular abnormal condition, a disorder of a structure or function, that affects part or all of an organism. The causal study of disease is called pathology. Disease is often construed as a medical condition associated with specific symptoms and signs. Non-infectious diseases are all other diseases, including most forms of cancer, heart disease, and genetic disease. Illness. Illness and sickness are generally used as synonyms for disease. However, this term is occasionally used to refer specifically to the patient's personal experience of his or her disease. <P> organic anxiety syndrome a term used in a former system of classification for an organic mental syndrome characterized by prominent, recurrent panic attacks or generalized anxiety caused by a specific organic factor and not associated with delirium. 1. a disease subsequent to or a consequence of another disease or condition. 2. a condition due to introduction of incompatible, immunologically competent cells into a host rendered incapable of rejecting them by heavy exposure to ionizing radiation. self-limited disease. see self-limited.	As organic brain syndrome or chronic organic brain syndrome, is a form of decreased mental function due to a medical or physical disease, rather than a psychiatric illness.
how fast do milkweed plants grow	<P> It takes at least a month for the plant to be ready for the larvae to eat. Once the plant is big enough, you can simply place the entire plant, pot and all, into the cage. After the larvae have eaten the leaves, simply cut the plant off about two inches above the soil and new shoots will grow in 3-4 weeks. The seeds will take approximately 10 days to germinate. Once there are 4 true leaves on the seedlings (the seedlings will be approximately 3 inches tall), the plants can be transplanted into your garden. Most milkweed species do best in full sunlight, so choose an open area with lots of sun. <P> actually very fast! I went on vacation for a week and planted milkweed before i left... when i came back, i found tons of sprouts in my pot :). Potato plants grow at different speeds. It depends on the type of potato! But i am actually a potato farmer so i know alot about growing potatoes. It takes about a month for t … hem to grow but then about a week for them to be ready. So about a month and 1 week! <P> How to Grow Asclepias Plants. Here are some easy tips regarding how to grow Asclepias plants: These garden favorites grow well in several soils: normal, sandy, or clay. They prefer the soil to be medium to coarse in texture. Choose your location well; Asclepias plants have long taproots. Here are some easy tips on how to grow “American Pillar” Arborvitae plants: These evergreen shrubs do best in deeply worked, fertile, well-draining soil. Till 10 in. deep; add 1 part peat moss or compost to 4 parts soil (increases drainage). The planting hole should be twice as wide as the root ball. <P> Do not grow too big and then plant in the garden. Each variety of milkweed is different, so it is hard to give any guidance on how long to grow a plantAnother method I tried was to soak the seeds in hot water for 36 hours, changing the water with fresh water after 12 hours. Surface sow, light needed for best germination in 1-3 weeks at 75 degrees. <P> Depends on the type of plant-there is no standard. Some seasonal annual plants grow exceptionally fast and complete their lifecyle within a few weeks. Others can take litera … lly thousands of years between germination and death. Potato plants grow at different speeds. It depends on the type of potato! But i am actually a potato farmer so i know alot about growing potatoes. It takes about a month for t … hem to grow but then about a week for them to be ready. So about a month and 1 week! <P> The milkweed plant is an upright specimen that may reach 2 to 6 feet. Leaves grow from a thick stalk and are large and green, taking on a reddish color as the plant matures. In youth, leaves are waxy, pointed and dark green, later dropping from the stem and allowing the milky substance to exude from the growing milkweed. Stems become hollow and hairy as the plant matures <P> Monarchs cannot survive without milkweed; their caterpillars only eat milkweed plants (Asclepias spp. ), and monarch butterflies need milkweed to lay their eggs. With shifting land management practices, we have lost much milkweed from the landscape. Sow milkweed seeds by scattering them on the soil surface 1/4-1/2 inch apart, and then cover with about 1/4 inch of additional soil. Water frequently after planting until plants become established. Plugs can be placed directly into the ground. <P> You can easily grow milkweed plants to attract the Monarch and other flying creatures to your garden. Plant seeds of the milkweed plant indoors or direct sow outside after danger of frost has passed and soil has warmed. If the appearance of the plant is too weedy for your taste, grow milkweed plants in a hidden but sunny corner or at the back of a border. Leaves grow from a thick stalk and are large and green, taking on a reddish color as the plant matures. In youth, leaves are waxy, pointed and dark green, later dropping from the stem and allowing the milky substance to exude from the growing milkweed.	Approximately 10 days
what books did julia child write	<P> Julia Child. Julia Child-Mini Biography (TV-14; 4:11) A short biography on Julia Child's groundbreaking cookbook, Mastering the Art of French Cooking, and her television show, The French Chef, which changed the face of cooking in America. Julia Child was born Julia McWilliams, on August 15, 1912, in Pasadena, California. The eldest of three children, Julia was known by several pet names as a little girl, including Juke, Juju and Jukies.. Her father John McWilliams, Jr., was a Princeton graduate and early investor in California real estate. <P> In the 1970s and 1980s, she was the star of numerous television programs, including Julia Child & Company, Julia Child & More Company and Dinner at Julia's. For the 1979 book Julia Child and More Company she won a National Book Award in category Current Interest. Julia Carolyn Child (born McWilliams; August 15, 1912 – August 13, 2004) was an American chef, author, and television personality. <P> From Wikipedia, the free encyclopedia. Mastering the Art of French Cooking is a two-volume French cookbook written by Simone Beck and Louisette Bertholle, both of France, and Julia Child of the United States. The book was written for the American market and published by Knopf in 1961 (Volume 1) and 1970 (Volume 2). Beck had wanted to create a volume 3, but Child, with her TV career doing well, was less interested; they severed their writing partnership and Beck's work for volume 3 became her first published book in English, Simca's Cuisine. <P> It appears that she wrote approximately 18 books from 1961 until 2006, her last book being published after her death. She was well known for her cooking skills and her book, … Mastering The Art of French Cooking is very well respected. 4 people found this useful. No, as depicted in the movie Julia Child did not want to read the blog after hearing about it. She felt it was exploitative. She didn't sanction any ulterior marketing regardi … ng her cooking, not even a line of cookware as so many modern chefs do, for the same reason. To her, it was about the cooking and the book <P> Search Books. Julia Child (1912-2004) can be thanked for introducing French cuisine to America-the land of hot dogs and apple pie-during the 1960s. Aside from her most famous creation, Mastering the Art of French Cooking, Child wrote more than a dozen cookbooks. Mastering the Art of French Cooking was first published in 1961 and her TV career began two years later. She married a diplomat, Paul Child, in 1946 and the couple moved to Paris in 1948 where her love of French cooking truly developed. <P> My Life in France. Please note: Books were published by Alfred A. Knopf with the exception of Baking with Julia, which was published by William Morrow Cookbooks and Julia Child's Menu Cookbook, which was published by Wings Books. <P> Child's fourth book, From Julia Child's Kitchen, was illustrated with her husband's photographs and documented the color series of The French Chef, as well as providing an extensive library of kitchen notes compiled by Child during the course of the show. Julia Carolyn Child (born McWilliams; August 15, 1912 – August 13, 2004) was an American chef, author, and television personality. <P> Synopsis. Popular TV chef and author Julia Child was born on August 15, 1912, in Pasadena, California. In 1948, she moved to France where she developed a penchant for French cuisine. Julia Child was born Julia McWilliams, on August 15, 1912, in Pasadena, California. The eldest of three children, Julia was known by several pet names as a little girl, including Juke, Juju and Jukies.. Her father John McWilliams, Jr., was a Princeton graduate and early investor in California real estate.	Mastering the Art of French Cooking and My Life in France.
what is midrash	<P> The purpose of midrash was to resolve problems in the interpretation of difficult passages of the text of the Hebrew Bible, using Rabbinic principles of hermeneutics and philology to align them with the religious and ethical values of religious teachers. Gesenius ascribes the etymology of midrash to the Qal of the common Hebrew verb darash (דָּרַשׁ) to seek, study, inquire. The word midrash occurs twice in the Hebrew Bible: 2 Chronicles 13:22 in the midrash of the prophet Iddo , and 24:27 in the midrash of the Book of the King <P> The type of midrash most commonly referred to (as in, “There is a midrash which says…”) is from the collections of midrash aggadah, most of which were compiled between about 200 and 1000 C.E. (Many midrashim circulated orally before then). Midrash aggadah may begin its exploration with any word or verse in the Bible. <P> Midrash is a form of rabbinic literature. There are two types of midrash: midrash aggada and midrash halakha. Midrash aggada can best be described as a form of storytelling that explores ethics and values in biblical texts. (Aggada literally means story or telling in Hebrew.) It can take any biblical word or verse and interpret it to answer a question or explain something in the text. <P> • MIDRASH (noun). The noun MIDRASH has 1 sense: 1. (Judaism) an ancient commentary on part of the Hebrew scriptures that is based on Jewish methods of interpretation and attached to the biblical text. Familiarity information: MIDRASH used as a noun is very rare. Dictionary entry details <P> Midrash (מדרש; plural midrashim) is a Hebrew word referring to the exposition, or exegesis, of a biblical text. The term can also refer to a specific compilation of midrashic teachings. Collections of midrashim (the plural form of midrash) often contain two or more rabbinical opinions on the same subject, sometimes diametrically opposed to one another. For example, a passage in the Jerusalem Talmud preserves a midrashic debate over the question of what is the most important verse in the Torah : <P> There are two basic categories of Midrashim. A collection of Midrashim on a single topic or book is also called a Midrash. Midrash Halakhah In Hebrew, halakhah refers to the law given in the Torah and the Mishnah. It includes the religious, ceremonial, and civil regulations.	A form of rabbinic literature used to resolve problems in the interpretation of difficult passages of the text of the Hebrew Bible, using Rabbinic principles of hermeneutics and philology to align them with the religious and ethical values of religious teachers.
current salary and typical schedule for a cosmetologists	<P> Salary. Hairdressers aren’t typically salaried employees. The majority are self-employed and many work part time. The BLS reports the median hourly wage for hairdressers in 2013 was $11.12, which translates to $23,140 a year. The best-paid earned approximately $44,220, while the worst-paid made about $17,010 <P> Hairdressers, Hairstylists, and Cosmetologists will usually earn a wage of Twenty Six Thousand Five Hundred dollars yearly. Hairdressers, Hairstylists, and Cosmetologists receive the highest salary in the District of Columbia, where they can get salary pay of close to $43330. Employees with these job titles are paid at the highest level in Public Administration, where they can get pay of $31750. The national wage distribution is shown below. <P> For example the median expected annual pay for a typical Hairdresser/Hairstylist in the United States is $24,796 so 50% of the people who perform the job of Hairdresser/Hairstylist in the United States are expected to make less than $24,796. Source: HR Reported data as of October 2015. Median $24,796. 1 Salary. <P> Many general cosmetologists perform skin and nail services in addition to hair care. Their average wage nationwide was $12.72 per hour, or $26,460 a year, according to the BLS. Their annual wages ranged from $16,710 a year or less for the lowest-earning 10 percent to $41,490 a year or higher for the top 10 percent. Location. Licensed general cosmetologists in the District of Columbia averaged $48,720 per year in 2011, according to the bureau, more than for any state. The highest-paying states were Hawaii and Washington, both with average pay exceeding $34,000 per year. <P> A large part of your salary will be based on tips, commissions and overtime. According to an April 2014 report by Payscale.com, tips added $0.52-$4.98 to hourly wages for cosmetologists in the 10th-90th percentile range, while hourly overtime was $1.19-$24.92. In addition, workers in the same range earned up to an additional $20,781 in annual commission <P> Hairdressers, hairstylists, and cosmetologists. $10.91. The median hourly wage for barbers, hairdressers, and cosmetologists was $10.95 in May 2012. The median wage is the wage at which half the workers in an occupation earned more than that amount and half earned less. The lowest 10 percent earned less than $8.11, and the top10 percent earned more than $20.39. <P> Most than 88 percent of licensed general cosmetologists work in personal care services, such as beauty shops, where their average annual full-time wage came to $26,550 a year in 2011, according to the bureau. Those who worked in department stores averaged $22,880 per year, the lowest wages for major industries. Location. Licensed general cosmetologists in the District of Columbia averaged $48,720 per year in 2011, according to the bureau, more than for any state. The highest-paying states were Hawaii and Washington, both with average pay exceeding $34,000 per year. <P> How a Cosmetologist Is Paid. Just over half of all cosmetologists in the United States are paid an hourly wage or regular salary by the salon, resort, spa or other site where they work. However, tips and commissions on services and cosmetic products may account for additional earnings. According to an April 2014 report by Payscale.com, tips added $0.52-$4.98 to hourly wages for cosmetologists in the 10th-90th percentile range, while hourly overtime was $1.19-$24.92. <P> Earnings and Salary for Hairdressers, Hairstylists, and Cosmetologists. Median hourly wages for hairdressers, hairstylists, and cosmetologists, including tips and commission, are $11.21. The middle 50 percent earn between $8.79 and $15.12. The lowest 10 percent earn less than $7.68, and the highest 10 percent earn more than $20.79. For hairdressers, hairstylists, and cosmetologists, earnings depend on whether they are on salary or commission as well as if they are entry-level or experienced. Some salons even pay bonuses to hairdressers, hairstylists, and cosmetologists who bring in a lot of business.	Between $7.68 to $20.79 per hour.
what are considered processed meats	<P> http://www.chacha.com/question/what-is-considered-processed-meat. Processed meat include breakfast sausage, hot dogs, jerkies, bacon, lunch meat, and even meats in canned soup products. Process meat can cause cancer because it contains sodium nitrite which is a precursor to highly carcinogenic nitrosamine.. <P> They often come in a box or a jar, are can be high in added sugars, low in fiber and whole grains, processed with sodium, high in fat or include trans fat and lots of saturated fat. While snack foods, candy, cookies and crackers are certainly considered processed foods, “healthy” foods can fall into this category too. Here is a list of 6 common processed foods that you can easily make a healthier homemade version of: — Hilary Meyer, Associate Food Editor. Next: 1. Salad Dressing 1 ». 1. 2 2. 3 3. <P> Choose natural cheeses instead of cheese food or cheese products. *Processed meat is defined as any meat preserved by smoking, curing or salting, or with the addition of chemical preservatives; examples include bacon, salami, sausages, hot dogs or processed deli or lunch-eon meats. <P> AICR/WCRF’s expert report and its updates define processed meat as “meat preserved by smoking, curing or salting, or addition of chemical preservatives.” Ham, bacon, sausages, hot dogs and yes, deli meats, are all considered processed meat. Research suggests that regularly eating even small amounts of cold cuts, bacon, sausage and hot dogs increase colorectal cancer risk, which is why AICR recommends avoiding these foods, except for special occasions. The risk continues to rise as processed meat consumption increases. <P> List of Processed Foods. This is a list of processed foods by type (not by brand). It is not a complete list. Many new food products are marketed every year. You can evaluate how processed a food is by reading the label's ingredients list to see the names, number, and type of ingredients. A large number of ingredients, with names that you don't recognize, indicates a highly processed food. More generally, virtually every food that has a label is processed. Virtually every food that comes in a box, bag, jar, or can is processed. For more information see the pages on processed food and whole foods. <P> Bacon, ham, cold cuts – we get more questions about processed meats than any other type of food. It’s not surprising since the headlines can change with every new study. So we put together some answers to your most-asked questions. Research suggests that regularly eating even small amounts of cold cuts, bacon, sausage and hot dogs increase colorectal cancer risk, which is why AICR recommends avoiding these foods, except for special occasions. The risk continues to rise as processed meat consumption increases. <P> Breakfast cereals and commercial orange juice can be considered processed foods. The definition of what constitutes a processed food can vary slightly, but it usually refers to foods that are packaged in boxes, cans or bags. These foods need to be processed extensively to be edible and are not found as is in nature. These oils, and foods containing them, are highly processed. Trans fat, which is the result of the hydrogenation of vegetable oils, is also a processed food. <P> The amount of salt/sodium typically added to fresh meat is not enough for it to be considered processed meats. It is considerably less salt than is in luncheon meats. For example, the “enhanced” chicken breast meat would contain about 150 mg sodium per 3 oz, whereas 3 oz of deli chicken can contain more than 700 mg. As for meat in canned soups, plain chicken or beef, for example would not be considered processed meat, but if it is processed before going into the soup – like sausage, ham or bacon – then it would be considered processed meat. <P> The evidence is specifically related to processed meats and does not address processed plant-based burgers like soy burgers. Vegetarian burgers are less likely to contain added nitrites (you can check the label) and they wouldn’t contain heme iron (found only in meat). As for meat in canned soups, plain chicken or beef, for example would not be considered processed meat, but if it is processed before going into the soup – like sausage, ham or bacon – then it would be considered processed meat.	Ham, bacon, sausages, hot dogs and yes, deli meats, are all considered processed meat.
where carrots come from	<P> Have you ever wondered where baby carrots come from? These bite-sized crunchers have experienced a pretty incredible journey by the time they wind up in our lunch boxes and snack trays. I recently got the carrot's-eye view of this whole process during Grimmway Farms' fall carrot harvest. Baby carrots are pulled from the field as long and skinny carrots, and get whittled down, step by step, into their snack-worthy final form. <P> Carrots, Sweet Versatility. Carrots, in the same family as Queen Ann’s lace, come in a variety of colors from white, yellow, and orange. You’ll even find a dark purple varietal that is also called “black carrots” — rich in anthocyanins (found in the plant’s pigment) that also happen to be a powerful antioxidant. FALSE. Baby carrots are cut from a specially raised carrot seed that produces thin, long, slender, and very sweet roots. Then they are cut into thirds and peeled (or rather buffed in a special tumbler), and bagged fresh within minutes of this process. <P> All varieties of modern domesticated carrots descend from the wild carrot (Daucus carota). This plant was native to Europe and Southwest Asia and was thought to have originated from Iran and Afghanistan. The wild carrot root is edible, but becomes woody with age and is quite bitter. The United States, Russia and Uzbekistan all produce more than a million tonnes. Other large producers of this vegetable are Poland, the United Kingdom and Ukraine. Today, carrots are grown on every continent on Earth, apart from Antarctica. <P> From Wikipedia, the free encyclopedia. A baby carrot is an immature carrot, grown in a small size, in which it is sold. A baby-cut carrot is a small piece cut from a larger carrot; baby-cut carrots are often marketed as baby carrots, leading to potential confusion. In 2006, nearly three-quarters of the fresh baby-cut carrots produced in the United States came from Bakersfield, California. Bolthouse Farms and Grimmway Farms are the world's two largest growers, processors, and shippers of baby-cut carrots. <P> Brief Carrot History and TimelineThe cultivated carrot is one of the most important root vegetables grown in temperate regions of the world. It was derived from the wild carrot, which has whitish/ivory coloured roots. The most popular, orange rooted carrot, is derived from yellow rooted domestic varieties. Early writings in classical Greek and Roman times refer to edible white roots, but these may have also been parsnips, or both. There are white rooted carrots in existence today, often used as animal feed or a novelty crop. 2) Western or Carotene carrots: These have orange, red or white roots. Most likely these carrots derived from the first group by selection among hybrid progenies of yellow Eastern carrots, white carrots and wild subspecies grown in the Mediterranean. The first two originated by mutation. <P> Baby carrots start off life as actual, honest-to-goodness, full-sized carrots -- although they are usually picked while still young for best sweetness and texture. These carrots are planted closely together to encourage them to grow straight down into the earth and develop a uniform width. Baby carrots are pulled from the field as long and skinny carrots, and get whittled down, step by step, into their snack-worthy final form. <P> Carrots are an important source of vitamin A, fibre, antioxidants and other essential minerals. Today, there are many varieties of carrots and they are grown throughout much of the world. However, these modern carrots all share a common ancestor. Let’s find out where carrots come from. The United States, Russia and Uzbekistan all produce more than a million tonnes. Other large producers of this vegetable are Poland, the United Kingdom and Ukraine. Today, carrots are grown on every continent on Earth, apart from Antarctica. <P> Have you ever wondered where baby carrots come from? These bite-sized crunchers have experienced a pretty incredible journey by the time they wind up in our lunch boxes and snack trays. <P> The carrot (Daucus carota subsp. sativus) is a root vegetable, usually orange in colour, though purple, red, white, and yellow varieties exist. It has a crisp texture when fresh. The most commonly eaten part of a carrot is a taproot, although the greens are sometimes eaten as well. It is a domesticated form of the wild carrot Daucus carota, native to Europe and southwestern Asia. A naturally occurring subspecies of the wild carrot, Daucus carota subsp. sativus, has been selectively bred over the centuries to reduce bitterness, increase sweetness and minimise the woody core. This has produced the familiar garden vegetable.	This plant was native to Europe and Southwest Asia and was thought to have originated from Iran and Afghanistan.
what kind of organic compound is propyl ethanoate that is present in pears	<P> More types of organic compound Carboxylic acids Carboxylic acids contain the-COOH group, which is better written out in full as: Carboxylic acids are shown by the ending oic acid. When you count the carbon chain, you have to remember to include the carbon in the-COOH group. <P> Esters have a very sweet fruity smell. Naturally occurring esters are found in fruits. An ester is a product of the reaction of an acid (usually organic) and an alcohol (the hydrogen of the acid R-COOH is replaced by an alkyl group R'). Esters mainly result from the condensation (a reaction that produces water) of a carboxylic acid and an alcohol. The process is called esterification. Common names of esters are derived from the organic acid and the alcohol from which they are derived. For example, when acetic acid reacts with ethyl alcohol, the ester formed is called ethyl acetate. The IUPAC name is different. <P> · just now. Report Abuse. Propyl ethanoate is produced when propyl alcohol reacts with ethanoic (acetic) acid. This compound belongs to a group of organic compounds known as esters. This would be an ester. Esters form when an organic acid reacts with an alcohol. The-OH from the carboxyl group of the organic acid reacts with an-H from the-OH group of the alcohol. These-OH and-H combine to form water and the two remnants of the organic acid and alcohol combine to form an ester. <P> An organic acid has a structure: O This compound, which contains two carbon atoms with a group on one end of the molecule is ethanoic acid, commonly called acetic acid or vinegar (a 5% solution of acetic acid). <P> Propyl acetate, also known as propyl ethanoate, is a chemical compound used as a solvent and an example of an ester. This clear, colorless liquid is known by its characteristic odor of pears. Due to this fact, it is commonly used in fragrances and as a flavor additive. It is formed by the esterification of acetic acid and 1-propanol (known as a condensation reaction), often via Fischer–Speier esterification, with sulfuric acid as a catalyst and water produced as a byproduct. <P> Making ethyl ethanoate. Ethyl ethanoate is the ester made from ethanol and ethanoic acid. Sulfuric acid is added to act as a catalyst [catalyst: A catalyst changes the rate of a chemical reaction without being changed by the reaction itself.] in the reaction. ethanol + ethanoic acid ethyl ethanoate + water. <P> In chemistry, esters are chemical compounds derived from an acid (organic or inorganic) in which at least one-OH (hydroxyl) group is replaced by an-O- alkyl (alkoxy) group. Usually, esters are derived from a carboxylic acid and an alcohol. <P> Ethyl ethanoate, is the organic compound with the formula CH3COOCH2CH3. This colorless liquid has a characteristic sweet smell (similar to pear drops) and is used in glues or nail polish removers. Ethyl acetate is the ester of ethanol and acetic acid; it is manufactured on a large scale for use as a solvent.	Acetic acid
what are the four groups of cnidarians	<P> The five classes of cnidarians. Corals, sea anemones and jellyfish are the most familiar of the cnidarians. Two lesser-known groups are tiny moss-like creatures called hydroids and the ocean-going siphonophores. Siphonophores are colonies of highly specialised individuals. Previous Short Story Next. <P> 1 Animals of the Phylum Cnidaria The phylum Cnidaria includes animals such as corals, jellyfish, and sea anemones. 2 All Cnidarians are aquatic and carnivorous, and they occur in two basic body shapes: polyps,…. 3 Community Collaboration in Reiki Practice Reiki is a stress-reduction technique that originates from Japan. Share to: cnidarians, such as jelly fish, sea anemones, hydra, and corals, have tentacles surrounding their mouth. they are a hollow-bodied animal with two celled layers that are organ … ized into tissues. the inner layer forms a digestive cavity where food is broken down. A jelly fish. <P> Cnidaria is one of the more primitive animal phyla. It includes aquatic organisms such as jellyfish, sea anemones, corals, and hydras. Most cnidarians are marine, although a few, such as the well-known hydra, are freshwater species. Cnidaria A phylum that comprises the sea anemones, jellyfish, and corals, and which is known from the late Precambrian. Cnidarians are basically radially symmetrical and have tentacles. The body contains a gastrovascular cavity and the body wall is diploblastic. <P> Aurelia, or Moon Jellies, by the reefs off Lizard Island, Australia. Photo by Chris Meyer. Scyphozoans include most of the jellyfish familiar to beach-goers; other similar organisms are classified in the Hydrozoa and Cubozoa, two other groups of cnidarians. True jellyfish are graceful, and sometimes deadly creatures. Their stings may cause skin rashes, muscle cramps, or even death. <P> Hydrozoa, the most diverse group with siphonophores, hydroids, fire corals, and many medusae; and. Scyphozoa, the true jellyfish. Click on the buttons below to learn more about Cnidaria. Visit the Cnidaria WWW Server for information and links dealing with all manner of cnidarians. Visit the home page of the Hydrozoan Society. Yet, these diverse animals are all armed with stinging cells called nematocysts. Cnidarians are united based on the presumption that their nematocysts have been inherited from a single common ancestor. The name Cnidaria comes from the Greek word cnidos, which means stinging nettle. <P> Cnidarians are classified into four main groups: non-moving (sessile) Anthozoa (sea anemones, corals, sea pens); Cubozoa (box jellies);swimming Scyphozoa (jellyfish); and Hydrozoa, a broad group that includes all the freshwater cnidarians as well as many marine forms. There are about 10, 000 species of Cnidarians. Cnidaria is a phylum containing over 9,000 species found only in aquatic and mostly marine environments. All cnidarians have radial symmetrical. There are two major body forms among the Cnidaria-the polyp and the medusa. Sea anemones and corals have the polyp form, while jellyfish are typical medusae. <P> Jellyfish, corals, and other stingers. Cnidarians are incredibly diverse in form, as evidenced by colonial siphonophores, massive medusae and corals, feathery hydroids, and box jellies with complex eyes. Yet, these diverse animals are all armed with stinging cells called nematocysts. Cnidarians are united based on the presumption that their nematocysts have been inherited from a single common ancestor. The name Cnidaria comes from the Greek word cnidos, which means stinging nettle. <P> Cnidarians, members of phylum Cnidaria, are among the simplest and most basal animals, splitting off from other phyla even before sponges did, as was discovered by molecular studies in 2008. They are among the earliest animal fossils with recognizable affinity to modern groups. Like other members of this phyla, corals can reproduce either asexually, by budding, or sexually, by releasing sperm into the water. These organisms have two major body forms: the polyp, which is a stalk with cnidocytes at its top, or the medusa, which is the iconic shape of the jellyfish. <P> The four main cnidarian groups (or classes) are Anthozoa (anemones, corals, etc.), Scyphozoa (jellyfish), Staurozoa (stalked jellyfish), Cubozoa (box jellies), Hydrozoa (Obelia, Portuguese Man o' War, Aequorea, etc.), and Polypodiozoa, which includes a single species, Polypodium hydriforme, a small parasite. Like other members of this phyla, corals can reproduce either asexually, by budding, or sexually, by releasing sperm into the water. These organisms have two major body forms: the polyp, which is a stalk with cnidocytes at its top, or the medusa, which is the iconic shape of the jellyfish.	Non-moving (sessile) Anthozoa (sea anemones, corals, sea pens); Cubozoa (box jellies);swimming Scyphozoa (jellyfish); and Hydrozoa, a broad group that includes all the freshwater cnidarians as well as many marine forms.
what is yeast fermentation lysate	<P> A yeast ingredient known as bifida ferment lysate. This same ingredient is the backbone of Estee Lauder’s Advanced Night Repair Concentrate Recovery Boosting Treatment, which is overall a significantly better formula, although not as moisturizing as this cream. <P> There is very little scientific information on Saccharomyces Lysate, although it is known to be a yeast compound. The Cosmetics Database lists it as a skin-conditioning agent. <P> Functions: Minerals, in this case copper, are converted by a yeast called Saccharomyces cerevisiae into a bioavailable, low molecular weight glycopeptide. The yeast is then removed and the copper peptide can penetrate the skin. The Cosmetics Database lists it as a skin-conditioning agent. According to CosmeticsCop.com, citing the Global Cosmetic Industry journal, Saccharomyces Lysate is a group of fungi that ferment sugars, and a source of beta-glucan, which is a good antioxidant. <P> Saccharomyces Lysate (Yeast) Extract. Stimulates oxygen consumption and combats irritation; helps in tissue regeneration. Saccharomyces/Xylinum/Black Tea Ferment. Commonly known as Kombucha. Boosts skin immune function and assists in restoring volume to deficient zones in the skin. <P> What is L’Oreal’s solution—a yeast ingredient known as bifida ferment lysate. The problem is that there’s no research proving that this specific form of yeast has any anti-aging, regenerating, or gene-stimulating activity when applied to skin. <P> It is also used in the baking process as a leavening agent; yeast releasing gas into their environment results in the spongy-like texture of breads and cakes. Because of its role in fermentation, humans have known about and used Saccharomyces cerevisiae for a long time. <P> Saccharomyces cerevisiae (commonly known as baker’s yeast) is a single-celled eukaryote that is frequently used in scientific research. S. cerevisiae is an attractive model organism due to the fact that its genome has been sequenced, its genetics are easily manipulated, and it is very easy to maintain in the lab.	Yeast releasing gas into their environment results in the spongy-like texture of breads and cakes.
what are metamorphic rocks used for in everyday life and why	<P> Slate is another metamorphic rock that is used in buildings for floor and roofing tiles, and it was once used for blackboards. Quartzite is used as a source of silica; other forms of metamorphic rocks are useful as building components, monuments, counter tops, and facings. + 186 others found this useful. Shellie Fisher. Marble is a metamorphic rock that is used to make floor tiles, counter tops and it is carved int … o statues and was used extensively in the building of the Roman Colosseum and other historic buildings. <P> Talc-a metamorphic mineral is used as a lubricant. Serpentine is used for carving. Corundum, another metamorphic mineral, is used for abrasives. Kyanite and its polymorphs-for ceramics. Graphite-pencils. Many economic deposits of gold, copper, tungsten and iron occur in metamorphic rocks. Marble is a metamorphic rock that is used to make floor tiles, counter tops and it is carved int … o statues and was used extensively in the building of the Roman Colosseum and other historic buildings. <P> Back to Top. II. Goals of this module 1 -. To learn the processes that form metamorphic rocks. 2 To learn the definitions of and proper spelling for scientific terms that are used commonly in newspapers, magazines, and books, and on television and radio programs to discuss metamorphic rocks. 1 The Earth is composed of land, air, and water. 2 As a basis for understanding this concept, students know: 3 how to identify resources from the Earth that are used in everyday life, and that many resources can be conserved. <P> 1 Pumice is also used as insolation or as a handsoap ingredient. 2 3. Granite. 3 4. GraniteGranite as said before is similar to marble and is also used forkitchen countertops and floors or statues. 4 Granite is the mostused rock for everyday life for example most buildings havegranite in it. 1 Granite is the mostused rock for everyday life for example most buildings havegranite in it. 2 A lot of pebbles on the ground are granite. 3 Likemarble it is cooled very slowly and has almost the exact samesized crystals as marbles. 4 Granite is the most common rock onthe earths surface. 5 Granite has a pretty rough texture. <P> 1 To learn the processes that form metamorphic rocks. 2 To learn the definitions of and proper spelling for scientific terms that are used commonly in newspapers, magazines, and books, and on television and radio programs to discuss metamorphic rocks. 3 To learn how to identify the most common metamorphic rocks. 1 The Earth is composed of land, air, and water. 2 As a basis for understanding this concept, students know: 3 how to identify resources from the Earth that are used in everyday life, and that many resources can be conserved. <P> Best Answer: Granite, shale, and limestone, are used on the outside of homes and other buildings. Graphite, a metamorphic rock, is the part of the pencil used for writing. Marble is used in decorative ways in homes, other buildings, and gravestones. Some rocks are classified as gems and, as such, are used in jewelry. Talc is used in bath powders. Halite, salt, is used in food preparation and on icy roads. <P> 1 To learn the processes that form sedimentary rocks. 2 To learn the definitions of and proper spelling for scientific terms that are used commonly in newspapers, magazines, and books, and on television and radio programs to discuss sedimentary rocks. 3 To learn how to identify the most common sedimentary rocks. <P> Rocks are used all around us in many different ways. In the classroom, students use rocks everyday. Graphite, a metamorphic rock, is the part of the pencil used for writing. Slate, another metamorphic rock, was used to make blackboards in years past. Now most blackboards are constructed of man-made materials. Chalk is a soft form of limestone which is a sedimentary rock.	As lubricant, for craving, abrasives, ceramics, pencils, slates, to make floor tiles, counter tops and it is carved into statues and was used extensively in the building of the Roman Colosseum and other historic buildings.
how long does marijuana stay in your system after one hit	<P> Habitual users (everyday smokers) will have it stay in their system for up to 30 days (or sometimes longer) But one hit it should be gone in a couple of days. 1-2 I'd say. It also depends on how fast your metabolism is and how sensitive the test is on whether or not the levels of THC in your system are detectable. It also depends on how long and how frequently you've smoked. If it was one hit, one time only and ever, should be out of your system for a urine test within a couple weeks, if not days. If you're asking how long you stay high off one hit...depends on the weed and how often you smoke. But, usually not very long <P> Best Answer: If that was your only time you should pass and here is why. Marijuana has a half-life in your system. How long it takes to leave your system depends on how much you smoke. But the time maxes out at around 45 days. One smoking session for someone with a clean system takes about 3-4 days to be clean. <P> Best Answer: Marijuana can stay in your system anywhere from 3 days to 90 days, depending on a variety of factors, the main one being how much THC – the drug component in marijuana – your body stores. THC is fat-soluble, meaning a heavier person will store more of it than a thin person. It also depends on how long and how frequently you've smoked. If it was one hit, one time only and ever, should be out of your system for a urine test within a couple weeks, if not days. If you're asking how long you stay high off one hit...depends on the weed and how often you smoke. But, usually not very long <P> http://boards.cannabis.com/cannabis-com-lounge/30861-how-long-does-one-hit-weed-stay-your-system.html. No it doesn't. the Cannabinoids stay in your body for up to a month. If you took a single hit a week ago it may still be in your body but might not even be detectable. Marijuana can stay in the system for as little as 36 hours, but as long as 3 months depending on your body's metabolism. ChaCha! [ Source: http://www.chacha.com/question/how-long-does-one-hit-of-weed-stay-in-your-system ]. <P> One hit of weed isn't going to stay in your system for more then 24-48 hours if your not smoking anything else at all. I've have many many drug test and passed several wondering how i did when i had smoked. but i also drank a gallon of water a day after that. <P> So, we call this approximate calculation as half life. If you have smoked marijuana then the drug will stay for 3 to 30 days. This is normal for the common drugs. But in the case of marijuana, this can be detected even after a month in Urine drug test marijuana. Marijuana will stay in your system for 10 days if you have been smoking occasionally. If it is smoked on regular basis it will be there up to 45 days and if you smoke constant pace then it will be in the system for as long as 90 days. http://clnk.me/1yc0I. <P> • and the Frequency of Use. The most popular drug test is a urine test. THC will test positive in a urine drug test within 2-5 hours of use. If you are a one time user or no more than a couple of times per month, you may test positive for 1-6 days after your last use. A moderate or weekly user may test positive for 7-13 days after their last use. <P> Best Answer: If it was a one time toke then 3-4 days and here is why. Marijuana has a half-life in your system. How long it takes to leave your system depends on how much you smoke. But the time maxes out at around 45 days. One smoking session for someone with a clean system takes about 3-4 days to be clean. Smoke 2 days later and then have to wait about a week, and so on.	For 3 to 30 days
where is oblique	<P> The internal abdominal oblique muscle is an opposing force to the diaphragm, reducing upper chest cavity volume during exhalation. As the diaphragm contracts, the chest cavity is pulled down to increase lung size. The internal abdominal oblique muscle is located closer to the skin than the transverse abdominal muscle. <P> The oblique muscles are located on both sides of the abdomen running diagonally along the rectus abdominis, which is the center abdominal muscle. There are two sets of oblique … s, the external and the internal. The external obliques are more superficial while the internal obliques are a deeper muscle. <P> The oblique muscles are considered part of the abdominal muscles. They are located between the ribs and the pelvis and make up the waist. The obliques help the trunk to rotate and bend. There are the external obliques which are large muscles close to the surface of the skin. <P> From Wikipedia, the free encyclopedia. The external oblique muscle (of the abdomen) (also external abdominal oblique muscle) is the largest and the most superficial (outermost) of the three flat muscles of the lateral anterior abdomen. In most humans (especially females), the oblique is not visible, due to subcutaneous fat deposits and the small size of the muscle. It arises from eight fleshy digitations, each from the external surfaces and inferior borders of the fifth to twelfth ribs. <P> : something (as a line) that is oblique. 2. : any of several oblique muscles; especially: any of the thin flat muscles forming the middle and outer layers of the lateral walls of the abdomen. See oblique defined for English-language learners. <P> Structure [edit]. The external oblique is situated on the lateral and anterior parts of the abdomen. It is broad, thin, and irregularly quadrilateral, its muscular portion occupying the side, its aponeurosis the anterior wall of the abdomen. In most humans (especially females), the oblique is not visible, due to subcutaneous fat deposits and the small size of the muscle. It arises from eight fleshy digitations, each from the external surfaces and inferior borders of the fifth to twelfth ribs. <P> External Abdominal Oblique Muscle. The external abdominal obliques are a pair of broad, thin, superficial muscles that lie on the lateral sides of the abdominal region of the body. Contraction of these muscles may result in several different actions, but they are best known for their lateral flexion and rotation of the trunk known as a side bend. The external obliques get their name from their position in the abdomen external to the internal abdominal obliques and from the direction of their fibers, which run obliquely (diagonally) across the sides of the abdomen.... <P> External oblique. The external oblique muscle is one of the largest parts of the trunk area. Each side of the body has an external oblique muscle. The external oblique muscle is one of the outermost abdominal muscles, extending from the lower half of the ribs around and down to the pelvis <P> The internal abdominal oblique muscle ends at the bottom edge of the rib cage, the rectus sheath (fibrous tissue that covers the abdominal muscles), and the pubic crest (an area in the lower-front of the pelvis). The internal abdominal oblique muscle is located closer to the skin than the transverse abdominal muscle. This muscle supports the abdominal wall, assists in forced respiration, aids in raising pressure in the abdominal area, and rotates and turns the trunk with help from other muscles	The external oblique muscle is one of the outermost abdominal muscles, extending from the lower half of the ribs around and down to the pelvis.
average cost of a new tyre	<P> If any new tyre, as fitted and installed by JAX Tyres is deemed to have a manufacturer's fault, we will replace the tyre on a pro-rata basis, as outlined previously. For example, if the tyre is 50% worn, you will only pay 50% of the cost of a replacement tyre, purchased from JAX Tyres. <P> 1 Winter or snow tires can cost $60-$550 or more each for 14-20 wheel diameters; it averages about $100-$150 per tire for a typical car and $200-$400 for an SUV or light truck, depending on size and type of tire. 1 Some shops include a valve stem, tire mounting and wheel balancing in the cost of the tire, while others may charge an additional $2-$25 per wheel for these needed installation services. <P> That question is all relative to what brand, size, and where you shop for them. Generally speaking, the smaller the rim size, the lower the cost. On the flip side, the lower the profile, the higher the cost. Here's an example. I pad $170 for a set of 4 195/60/15 Kumho touring tires. Same size in Goodyear-$210. Is Goodyear a better tire you ask....well I personally don't think so <P> 1 The cost of tires depend on the size and the quality. 2 All season tires made for sedans and smaller SUVs will cost between $50-125 per tire. 3 Examples would be the Barum Bravaris 2 sold for $62 or the Michelin Destiny sold for $116. 4 Both of these tires can be found at Discount Tire. 1 A new wheel will cost anywhere from $10 to $150 depending on how many you purchase, what size, and what model. 2 Some tire shops even have free wheel sets with the purchase of new tires. <P> Report Abuse. you can get 4 new tires anywhere from 100-1000 dollars, average. the cheap ones would be economy tires. the top end ones are specialized, good branded, and/or rated for high speeds. my tires on my 3000gt are z rated (186mph i think) and cost me about 700 bux. I'm thinking 16 inch rims and i think the tire size will be 225/60r16. They should be anywear from 80 to 120 per depending on the brand and the place. This is only a guess, but a lot of them come with that size I think. I don't remember off hand what year they started that tire size. It was anywere from 1998 to 2001. <P> “These days a minority of people are focussed on the quality of the tyre,” says tyre retailer George Chalazia. “They are more focussed on cost.”. Mr Chalazia said that the tyre you buy depends on what your needs are. If you are travelling short distances in the city, it may not make sense to spend $1000 on a tyre. Since all tyres are compromises, it makes sense to buy a mid range tyre that will walk the line between value and performance. <P> 1 Tire retailers may suggest additional services, such as a wheel alignment ($20-$400) or replacing the brake pads ($130-$190 per axle). 2 A wheel alignment is only necessary if the old tires wore unevenly, or if the vehicle pulls to one side when steering; it is not standard when installing new tires. 1 Some shops include a valve stem, tire mounting and wheel balancing in the cost of the tire, while others may charge an additional $2-$25 per wheel for these needed installation services. <P> 1 For example, the Hankook Optimo H727 with a 100,000-mile or five-year warranty costs about $65-$85 for a 14 wheel and $140-$170 for 18. 2 CostHelper readers report paying $50-$290 per tire for car tires (in sets of two or four), at an average cost of $139 per tire, installed. 1 Some shops include a valve stem, tire mounting and wheel balancing in the cost of the tire, while others may charge an additional $2-$25 per wheel for these needed installation services. <P> 1 If you are purchasing a new tire as a result of getting a flat, it is possible that there may also be damage done to the wheel. 2 A new wheel will cost anywhere from $10 to $150 depending on how many you purchase, what size, and what model. 3 Some tire shops even have free wheel sets with the purchase of new tires. 1 A new wheel will cost anywhere from $10 to $150 depending on how many you purchase, what size, and what model. 2 <P> The best place to buy Tires online cheap is at Amazon.com The cost of tires depends on a few different factors but the two important ones are the size of the tire and the quality you want to purchase. They will start as low as $30 or $40 per tire and go up to hundreds of dollars each. I'm thinking 16 inch rims and i think the tire size will be 225/60r16. They should be anywear from 80 to 120 per depending on the brand and the place. This is only a guess, but a lot of them come with that size I think. I don't remember off hand what year they started that tire size. It was anywere from 1998 to 2001.	$100 to $150
how long does cooked turkey bacon last	<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> 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> 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. <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. 6 Weeks. 6 Months. Of course, all foods last for a shorter period of time if they are not stored properly. But remember, bacon, like a lot of other proteins, usually has a sell by date and not a use by date or expiration date. <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 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> 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. 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. <P> How long will uncooked bacon last in the fridge? 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. 1 person found this useful. Answered. Cooked ham has been cured before so it can be left in the fridge for 4 - 5 days, but to be on the safe side it's best to have your ham, then cut off what you may want from the … next nights meal and then slice the rest of the ham up and freeze.	In the refrigerator for 3 to 4 days
retaining wall cost per square foot	<P> Wood Retaining Wall Prices. Wooden retaining walls start at around $20 per square foot including materials and installation if using cost-effective pressure treated lumber. Hardwoods such as redwood, Cyprus or mahogany will raise the price over $30 per surface square foot but add an element of beauty to your wall. <P> 1 Material and labor for a wood retaining wall runs approximately $20-$25 a square face foot (and there's usually a minimum charge for small projects), which would be about $1,000-$1,300 for a 50-square-face-foot wall. <P> 1 Materials and installation for a stone retaining wall start around $25-$40 a square face foot and go up depending on materials, site conditions, and other factors. 2 It costs $1,250-$2,000 or more for a wall 30 inches high and 20 feet long. <P> 1 A retaining wall that uses a material such as wood rather than brick can cost anywhere from $19 to $30 per square face foot for a professional laborer to come in. 2 Higher quality stone can cost upwards of $40 per square face foot. <P> Retaining Wall Costs. The cost of a retaining wall depends on the material chosen, the overall height of the wall and the length of the wall. Wood retaining walls start at $15 per square foot, while concrete retaining walls start at $20 per square foot. <P> Retaining Wall Cost. Poured retaining walls with elaborate curves require complex formwork and will drive up cost for a wall. The total cost to have a concrete retaining wall installed will be a combination of material and labor prices. For a basic wall you can expect to pay between $30 and $40 per square foot. If you add a decorative finish, curves, steps, lighting or other upgrades, the cost will rise. <P> Concrete retaining wall prices start around $30 per square foot including materials and installation and can go as high as $45 to $50 per square foot depending on how much prep work is involved in building the forms. Walls higher than four feet typically require a different type of form which will raise the cost.	Between $30 and $40 per square foot.
tucson carpet cost per square foot	<P> Get an INSTANT estimate of the cost to Install a Tile Floor! Our free calculator uses recent, trusted data to estimate costs for your Tile Floor Installation project. For a basic 120 square feet project in zip code 47474, the benchmark cost to Install a Tile Floor ranges between $10.02 - $14.22 per square foot* . <P> For a basic 250 square feet project in zip code 47474, the benchmark cost to Install Carpet ranges between $3.74 - $4.83 per square foot* . To estimate costs for your project: 1. <P> 1 Selecting the carpet-carpeting can cost as little as $2 per square foot, or as high as $100 per square yard, but the average carpet and pad will cost between $30 and $40 per square yard-for a total of around $995 for the carpeting alone. <P> Average Cost per square foot for Tile Floor Installation in Tucson. The average cost to Install Tile Flooring in Tucson 2015 is $6.66 to $9.85 per square foot. Always make sure to make all hiring decisions carefully and to make sure the contractor is fully insured, bonded and licensed. It is a good idea to check references and verify prior work quality.	$6.66 to $9.85
what is an oxygen concentrator used for	<P> (October 2013). An oxygen concentrator is a device which concentrates the oxygen from a gas supply (typically ambient air) to supply an oxygen enriched gas mixture. An oxygen concentrator has an air compressor, two cylinders filled with zeolite pellets, a pressure equalizing reservoir, and some valves and tubes. In the first half-cycle the first cylinder receives air from the compressor, which lasts about 3 seconds. <P> Portable oxygen concentrator (or POC) is a portable device used to provide oxygen therapy to patients at substantially higher oxygen concentrations than the levels of ambient air. Most of the current portable oxygen concentrator systems provide oxygen on a pulse (on-demand) delivery in order to maximise the purity of the oxygen. The system supplies a high concentration of oxygen and is used with a nasal cannula to channel oxygen from the concentrator to the patient. <P> Non-medical oxygen concentrators can be used as a feed gas to a medical oxygen system, such as the oxygen system in a hospital, though governmental approval is required, such as by the FDA, and additional filtering is generally required. An oxygen concentrator has an air compressor, two cylinders filled with zeolite pellets, a pressure equalizing reservoir, and some valves and tubes. In the first half-cycle the first cylinder receives air from the compressor, which lasts about 3 seconds. <P> An Invacare Perfecto 2 oxygen concentrator. Portable oxygen concentrator (or POC) is a portable device used to provide oxygen therapy to patients at substantially higher oxygen concentrations than the levels of ambient air. It is very similar to a home oxygen concentrator, but is smaller in size and more mobile. The portable oxygen concentrator makes it easy for patients to travel freely; they are small enough to fit in a car and many concentrators are now FAA-approved. Most of the current portable oxygen concentrator systems provide oxygen on a pulse (on-demand) delivery in order to maximise the purity of the oxygen. The system supplies a high concentration of oxygen and is used with a nasal cannula to channel oxygen from the concentrator to the patient. <P> The Inogen One G3 Portable oxygen concentrator for people that only need pulse flow is one excellent machine. It is light weight and ultra small which makes it easy to carry either by the handle or with a shoulder strap for hands free. And Direct Home Medical is an excellent company to deal with. <P> Oxygen ConcentratorsNew / Reconditioned / Refurbished / Used Buying reconditioned or used oxygen concentrators from OxygenPlus can give you a substantial savings over a new unit. <P> An oxygen concentrator is a medical device used to deliver oxygen to those who require it. People may require it if they have a condition that causes or results in low levels of oxygen in their blood. An oxygen concentrator has a compressing element, but it should not be confused with compressed oxygen or an oxygen tank. Whereas a tank has a set amount of oxygen that it dispenses, a concentrator filters in air, compresses it, and delivers air continuously. <P> Home oxygen concentrators also often use what is called a continuous flow system, instead of the on-demand system that is used by most portable units. The on-demand system is one of the reasons that portable oxygen units can be designed as small as they are. Previous. As its name suggests, a portable oxygen concentrator is designed to be used both in the home and on the go. These types of units tend to be smaller and much more compact while still being great for people with breathing issues and various types of chronic lung conditions. <P> Oxygen concentrators typically use pressure swing adsorption technology and are used very widely for oxygen provision in healthcare applications, especially where liquid or pressurised oxygen is too dangerous or inconvenient, such as in homes or in portable clinics. An oxygen concentrator has an air compressor, two cylinders filled with zeolite pellets, a pressure equalizing reservoir, and some valves and tubes. In the first half-cycle the first cylinder receives air from the compressor, which lasts about 3 seconds.	Oxygen concentrators typically use pressure swing adsorption technology and are used very widely for oxygen provision in healthcare applications.
how long can i keep cactus outside	<P> If you are moving your cactus outside for the summer, be sure to place it in a position of partial shade for the first few weeks, and slowly move it to a sunnier location. A plant going directly outside into full sun will likely be scorched by the more intense light found outside the home. If you want small specimens (less than one inch above the ground), you will want to grow lithops, which is Greek for living rocks. Other cacti which mimic the appearance of rocks include titanopsis, lapidaria, penestraria and gibbaeum. Some cactus and succulent types can be used as pot plants. <P> The more rain your area gets, the more drainage you need. In super-wet regions, grow cacti in pots under a shelter such as a roof overhang. Likewise, never plant cacti in regular or clay soil as they can easily get too much water and die. Cactus plants do need some water. Not all prickly pears are hardy in cold-winter climates. Other cactus plants with cold-weather tolerance to Zones 5 or 6 include: 1 Cylindropuntia, called cholla, a prickly pear relative, grows with segmented cylindrical stems that can reach 10 feet tall. <P> GROWING OUTDOOR CACTI. Be sure the cactus you have chosen is hardy in your area and in your growing situation or that you are willing to experiment and chance losing the cacti. Plant as early in the season as possible to allow the cactus to become established before the next winter. Don’t let the cactus freeze hard at night during this time—cover or postpone planting until nights are slightly above freezing. Light freezes won’t hurt hardy cacti if they have been acclimated to freezing temperatures and are not growing. Plant in well-drained soil. <P> Take It Outside. In springtime, you can take your Christmas cactus outside in its pot as long as day and nighttime temperatures stay above 50 degrees Fahrenheit. But unlike desert cactuses, the Christmas cactus won’t tolerate the intense full summer sun. Full direct sun will give the plant severe sunburn. The Christmas cactus (Schlumbergera bridgesii) is a native of Brazil but is grown widely as a winter-flowering houseplant. In nature, it grows as an epiphyte in shady tropical rain forests. <P> Christmas cactus can be kept outdoors in summer in a shaded spot. The Christmas cactus (Schlumbergera bridgesii) is a native of Brazil but is grown widely as a winter-flowering houseplant. In nature, it grows as an epiphyte in shady tropical rain forests. <P> GROWING INDOOR CACTI. Many cacti and succulents are extremely well adapted to living in houses where the relative humidity is low (10-30 percent). They require only modest amounts of water and fertilizer, but do need abundant light. They should be placed in a bright, sunny window. Before watering your cactus, check to see if the soil is dry. Then water well, especially in the growing months (April through mid-September) and let the water drain off. In the winter, water sparingly — allow your cactus a rest. <P> In springtime, you can take your Christmas cactus outside in its pot as long as day and nighttime temperatures stay above 50 degrees Fahrenheit. But unlike desert cactuses, the Christmas cactus won’t tolerate the intense full summer sun. The Christmas cactus (Schlumbergera bridgesii) is a native of Brazil but is grown widely as a winter-flowering houseplant. In nature, it grows as an epiphyte in shady tropical rain forests. <P> Both the Christmas cactus and the poinsettia are not hardy outdoors and will freeze if planted outside. They should remain in their pots and not be planted outdoors in the garden if you live where it freezes in the winter. Repotting is a good idea for the poinsettia especially. Poinsettias can become rather large and need a large pot. Christmas cacti should be repotted when they become large. <P> In most cases cactus will do well in pots as long as you remember three things. Food, light, water. Food. When you bring the plant home most of the time it is in a small pot and it probably has grown there for a long time, which means it has used up most of all the nutrients in the soil. This should do them well for the year. Light. A potted cactus will live and flower in the house if given enough light, place the plant near a bright lighted window, where it will receive light most of the day. On the patio is different place the cactus in a partly shaded area until it become accustom to the sun. <P> In fact, cactus plants are native only to North and South America. To successfully grow cacti in cold-winter climates, it's important to understand how they grow. All cacti are succulents -- plants that can store water in their roots, stems, and leaves. But not all succulents are cacti. It's sometimes difficult to tell which succulent is really a cactus. Not all prickly pears are hardy in cold-winter climates. Other cactus plants with cold-weather tolerance to Zones 5 or 6 include: 1 Cylindropuntia, called cholla, a prickly pear relative, grows with segmented cylindrical stems that can reach 10 feet tall.	In springtime, you can take your Christmas cactus outside in its pot as long as day and nighttime temperatures stay above 50 degrees Fahrenheit.
how much does a tooth extraction cost without insurance	<P> My insurance covered extraction with co-pay of 28 dollars per tooth. (15 cracked, 16 was impacted wisdom tooth in the way). $56 for extraction and $700 for bone graft and and covering membrane. 1 Swelling and discomfort are common for the first 24-48 hours after a tooth extraction, and should subside completely in four to seven days. 2 Complete healing typically takes three to four weeks for the gum tissue and six to eight months for bone. <P> Surgical extractions of permanent teeth cost $180 to $400; a simple tooth extraction of a baby tooth ranges from $90 to $150. Many dental insurance plans cover up to 80 percent of tooth extraction costs if the procedure is medically necessary and not for cosmetic reasons. <P> Cost of wisdom teeth removal-Extraction. As of 2015, our cost range from $200 to $400 per tooth for surgical wisdom teeth removal. This includes the cost of local anesthesia and follow visits. On average, the patient can expect to spend about $1,200 for four wisdom teeth removal. <P> 1 CostHelper readers without insurance report paying $185-$600 for these more complicated extractions, at an average cost of $334. 2 CostHelper readers with insurance report out-of-pocket expenses of $60-$885, for an average cost of $401. 1 Swelling and discomfort are common for the first 24-48 hours after a tooth extraction, and should subside completely in four to seven days. 2 Complete healing typically takes three to four weeks for the gum tissue and six to eight months for bone. <P> 1 A simple wisdom tooth extraction (where the tooth is fully erupted from the gums and has simple roots) using a local anesthetic costs about $75-$200 per tooth, or $300-$800 to have all four wisdom teeth removed as simple, non-surgical extractions. 1 CostHelper readers without dental insurance reported paying $720-$2,735 to have all four wisdom teeth removed at once, for an average cost of $1,616. <P> 1 Surgical extraction of a tooth can cost $150-$650 or more, depending on the type of anesthesia used (IV sedation typically costs $250-$500 more than local anesthesia), the local cost of living, whether the appointment is on an emergency basis and the type of extraction. 1 Swelling and discomfort are common for the first 24-48 hours after a tooth extraction, and should subside completely in four to seven days. 2 Complete healing typically takes three to four weeks for the gum tissue and six to eight months for bone. <P> A tooth extraction for an uninsured individual should cost from around $80 up to $350 depending on the dentist and the local cost of living. tooth extraction cost. Molar extraction costs can vary in different parts of the country. They can start in price around $90 a tooth. Molar extraction costs on impacted teeth start around $225 and can be $400 or more. These prices do not reflect the cost of x-ray’s. <P> Having a tooth extracted can be a costly and painful procedure. Non-surgical tooth extraction costs can be from $75 all the way to $350, depending on the tooth. Surgical tooth extraction costs can run anywhere from $150 all the way to $650 per tooth depending on what type and how much anesthesia is used. The cost of multiple teeth being extracted usually is on a sliding scale. Meaning the more teeth extracted at once, the lower the price per tooth extracted will be. They can start in price around $90 a tooth. Molar extraction costs on impacted teeth start around $225 and can be $400 or more. These prices do not reflect the cost of x-ray’s. <P> 1 If the appointment is on an emergency basis (evenings, weekends, or same-day or next-day scheduling) the total cost can be $300-$450 or more. 2 Dental insurance typically covers 70%-80% of standard costs if the extraction is considered medically necessary and not done just for cosmetic reasons. 1 Swelling and discomfort are common for the first 24-48 hours after a tooth extraction, and should subside completely in four to seven days. 2 Complete healing typically takes three to four weeks for the gum tissue and six to eight months for bone. <P> 1 Dental insurance might cover 15%-50% of wisdom tooth removal if the procedure is considered medically necessary, and some dental plans only pay an annual maximum of $1,000-$1,500. 2 CostHelper readers without insurance report total costs of $250-$750 for extracting a single impacted wisdom tooth. 1 CostHelper readers without dental insurance reported paying $720-$2,735 to have all four wisdom teeth removed at once, for an average cost of $1,616.	$75 to $650
occupational therapy salary in georgia	<P> The salaries paid to occupational therapy professionals are growing in Georgia. Occupational therapy professionals earned a yearly mean salary of $41,370 in 2006. They earned a yearly mean salary of $49,490 in 2010. <P> Occupational Therapist Atlanta, GA average salary is $64,071, median salary is $60,000 with a salary range from $20,109 to $1,941,094. Occupational Therapist Atlanta, GA salaries are collected from government agencies and companies. <P> Average Occupational Therapist salaries for job postings in Georgia are 14% higher than average Occupational Therapist salaries for job postings nationwide. <P> This chart describes the expected percentage of people who perform the job of Occupational Therapist in Atlanta, GA that make less than that salary. For example 50% of the people who perform the job of Occupational Therapist in Atlanta are expected to make less than the median. <P> $108,000. Average Occupational Therapist salaries for job postings in Atlanta, GA are 25% higher than average Occupational Therapist salaries for job postings nationwide. <P> Occupational Therapist Atlanta, GA Salary. Occupational Therapist Atlanta, GA average salary is $64,071, median salary is $60,000 with a salary range from $20,109 to $1,941,094. Occupational Therapist Atlanta, GA salaries are collected from government agencies and companies. <P> A Certified Occupational Therapy Assistant (COTA) in Atlanta, Georgia earns an average wage of $26.79 per hour. A skill in Home Health/Home Care is associated with high pay for this job. $19.73 - $33.43.	Average salary is $64,071,
what is the mid atlantic ridge and how many miles does it stretch	<P> How long is the Mid-Atlantic Ridge? The Mid-Atlantic Ridge is in effect an immensely long mountain chain extending for about 10,000 miles(16,000 km) in a curving path from the Arctic Ocean to near the s … outhern tip of Africa. Answered. The mid-atlantic ridge is a divergent boundary between tectonic plates. The plates separate at an average rate of about 1 inch per year. Magma from the mantle rises in the ga … p between the plates, erupting as lava which cools and adds to the plates. 3 people found this useful. <P> The mid-atlantic ridge is a divergent boundary between tectonic plates. The plates separate at an average rate of about 1 inch per year. Magma from the mantle rises in the ga … p between the plates, erupting as lava which cools and adds to the plates. 3 people found this useful. How many miles from Oak ridge TN to Nashville TN? It is 160 miles taking this route, if you are referring to Oak Ridge, as in the site of the Oak Ridge National Lab: Take SR-58 SOUTH, form Oak Ridge, to I-40 WEST to NASHVI … LLE.Take I-40 WEST to NASHVILLE. <P> The Mid-Atlantic Ridge runs down the center of the Atlantic Ocean. It spread apart at rates of 2 to 5 cm per year, and at these relatively slow spreading rates, the ridge has a deep rift valley along its crest. The rift valley is 1 to 3 km deep, about the depth and width of the Grand Canyon. University of California, Santa Barbara. The mid-ocean ridge system is the most extensive chain of mountains on earth, but more than 90% of this mountain range lies in the deep ocean. The mid-ocean ridge wraps around the globe for more than 65,000 km like the seam of a baseball. <P> The mid-Atlantic ridge splits nearly the entire Atlantic Ocean north to south-it's a divergent plate boundary. How many miles from Oak ridge TN to Nashville TN? It is 160 miles taking this route, if you are referring to Oak Ridge, as in the site of the Oak Ridge National Lab: Take SR-58 SOUTH, form Oak Ridge, to I-40 WEST to NASHVI … LLE.Take I-40 WEST to NASHVILLE. <P> The Mid-Atlantic Ridge is approximately 10,000 kms (6,213.5 miles) long. The mid-atlantic ridge is a divergent boundary between tectonic plates. The plates separate at an average rate of about 1 inch per year. Magma from the mantle rises in the ga … p between the plates, erupting as lava which cools and adds to the plates. 3 people found this useful. <P> The Mid-Atlantic Ridge divides the floor of the Atlantic Ocean into eastern and western sections that are composed of a series of deep-sea basins (abyssal plains). The greatest depth (c.28,000 ft/8,530 m) is the Milwaukee Deep, in the Puerto Rico Trench, N of Puerto Rico. <P> The Mid-Atlantic Ridge (MAR) is a mid-ocean ridge, a divergent tectonic plate or constructive plate boundary located along the floor of the Atlantic Ocean, and part of the longest mountain range in the world. Although the Mid-Atlantic Ridge is mostly an underwater feature, portions of it have enough elevation to extend above sea level. The section of the ridge that includes the island of Iceland is also known as the Reykjanes Ridge. The ridge has an average spreading rate of about 2.5 cm per year. <P> How long is the Mid-Atlantic Ridge? The Mid-Atlantic Ridge is in effect an immensely long mountain chain extending for about 10,000 miles(16,000 km) in a curving path from the Arctic Ocean to near the s … outhern tip of Africa. How many miles from Oak ridge TN to Nashville TN? It is 160 miles taking this route, if you are referring to Oak Ridge, as in the site of the Oak Ridge National Lab: Take SR-58 SOUTH, form Oak Ridge, to I-40 WEST to NASHVI … LLE.Take I-40 WEST to NASHVILLE. <P> The Mid-Atlantic Ridge is a huge underwater mountain range that runs from just 207 miles (333 km) south of the North Pole to Bouvet Island, located in the Atlantic ocean at a longitude just below South Africa. At about 6,200 miles (10,000 km) long, this range connects to a series of oceanic ridges that encircle the entire planet, with a total length of about 25,000 miles (40,000 km). <P> The Atlantic Ocean is the second largest of the world's oceanic divisions, following the Pacific Ocean. With a total area of about 106,400,000 square kilometres (41,100,000 sq mi), it covers approximately 20 percent of the Earth's surface and about 29 percent of its water surface area. The depth of water at the apex of the ridge is less than 2,700 metres (1,500 fathoms; 8,900 ft) in most places, while the bottom of the ridge is three times as deep. Several peaks rise above the water and form islands. The South Atlantic Ocean has an additional submarine ridge, the Walvis Ridge.	The Mid-Atlantic Ridge is a huge underwater mountain range that runs from just 207 miles (333 km) south of the North Pole to Bouvet Island, it is approximately 10,000 kms (6,213.5 miles) long.
what is a nameserver	<P> The Domain Name System (DNS) is a hierarchical distributed naming system for computers, services, or any resource connected to the Internet or a private network. Internet name servers and a communication protocol implement the Domain Name System. A DNS name server is a server that stores the DNS records for a domain name; a DNS name server responds with answers to queries against its database. <P> A DNS name server is a server that stores the DNS records, such as address (A, AAAA) records, name server (NS) records, and mail exchanger (MX) records for a domain name (see also List of DNS record types) and responds with answers to queries against its database. A name server indicates that its response is authoritative by setting the Authoritative Answer (AA) bit in the response to a query on a name for which it is authoritative. Name servers providing answers for which they are not authoritative (for example, name servers for parent zones) do not set the AA bit. <P> Contrary to a seemingly popular misconception, DNS does not stand for Domain Name Server or Domain Name Software. DNS is an abbreviation for the aforementioned system that catalogs every domain and IP address on the internet, including registration information, as well as their relation to other domains and web hosts. The DNS is the central database of the internet, and without it, the internet would cease to exist as we know it. Before the domain name system was devised, computers would connect to each other via IP addresses, which are strings of segmented numbers separated by dots. <P> DNS is an acronym for Domain Name Server, and is the system used to translate word-based addresses of systems (such as WWW.EXAMPLE.COM) to the numerical IP (Internet Protocol) address of the computer or system that should be located at that address. When you use an alphanumeric address such as WWW.EXAMPLE.COM, your computer needs to understand what numerical IP addresses it needs to contact, and this is accomplished through DNS servers. <P> A vanity nameserver is a name server that is branded to a website of your choice, instead of our public name servers. This can make your site appear more professional, by masking the fact you're using our name servers. What are name servers? A name server is a specialized server on the Internet that handles queries or questions from your local computer, about the location of a domain name's various services. <P> A name server is a computer hardware or software server that implements a network service for providing responses to queries against a directory service. It translates an often humanly-meaningful, text-based identifier to a system-internal, often numeric identification or addressing component. A name server indicates that its response is authoritative by setting the Authoritative Answer (AA) bit in the response to a query on a name for which it is authoritative. Name servers providing answers for which they are not authoritative (for example, name servers for parent zones) do not set the AA bit. <P> An example of a name server is the server component of the Domain Name System (DNS), one of the two principal name spaces of the Internet. A name server indicates that its response is authoritative by setting the Authoritative Answer (AA) bit in the response to a query on a name for which it is authoritative. Name servers providing answers for which they are not authoritative (for example, name servers for parent zones) do not set the AA bit. <P> A name server is a web server that has DNS software installed on it, particularly a server that is managed by a web host that is specifically designated for managing the domain names that are associated with all of the hosting provider's accounts. The DNS is the central database of the internet, and without it, the internet would cease to exist as we know it. Before the domain name system was devised, computers would connect to each other via IP addresses, which are strings of segmented numbers separated by dots. <P> Related: In this article we'll explain what a name server is, and how name servers are used to direct the traffic of your website to a specific web server at a web host. We'll also go over InMotion Hosting's public name servers, vanity name servers, and custom name servers. What are name servers? A name server is a specialized server on the Internet that handles queries or questions from your local computer, about the location of a domain name's various services.	A computer hardware or software server that implements a network service for providing responses to queries against a directory service.It translates an often humanly-meaningful, text-based identifier to a system-internal, often numeric identification or addressing component
normal temperature in six year in degree celsius	<P> The equivalent to 98.6 degrees Fahrenheit is 37 degrees Celsius. This is the average normal human body temperature, which is slightly lower in adults. The range is 36.8 degr … ees plus or minus 0.7 degrees. Normal temperature range will vary, sometimes considerably, for individuals. Body temperature varies between person to person, a normal range is between 36 Celsius to 37.5 degrees Celsius The lower your normal temperature is the slower your metab … olism may be. <P> The average temperature range is 5.7 degrees only. Temperature variation along the year in Aracaju is very damped (standard deviation of 1.93 for the maximum temperature and 2.72 for the minimum temperature). In Campinas, for example, the daily temperature range in July (the coolest month of the year) may vary between typically 10 and 24 degrees Celsius (range of 14), while in January, it may range between 20 and 30 degrees Celsius (range of 10). <P> A location which combines an average temperature of 19 degrees Celsius, 60% average humidity and a temperature range of about 10 degrees Celsius around the average temperature (yearly temperature variation) is considered ideal in terms of comfort for the human species. In Campinas, for example, the daily temperature range in July (the coolest month of the year) may vary between typically 10 and 24 degrees Celsius (range of 14), while in January, it may range between 20 and 30 degrees Celsius (range of 10). <P> Most people think of a normal body temperature as an oral temperature of 98.6°F (37°C) . This is an average of normal body temperatures. Your temperature may actually be 1°F (0.6°C) or more above or below 98.6°F (37°C) . <P> Janet Larsen. Last year was the thirty-seventh consecutive year of above-normal global temperature. According to data from NASA, the global temperature in 2013 averaged 58.3 degrees Fahrenheit (14.6 degrees Celsius), roughly a degree warmer than the twentieth-century average. Since the dawn of agriculture 11,000 years ago, civilization has enjoyed a relatively stable climate. <P> 37 °C is a value that one encounters probably more often than any other temperature reading. If you are used to the Celsius scale, you recognize it immediately. Indeed, a normal body temperature of a healthy person is in the vicinity of 37 degrees Celsius, which makes this value so special and important. For the Fahrenheit folks, you may know it as 98.6 °F (as you can easily verify using our online converter). <P> The normal core body temperature of a healthy, resting adult human being is stated to be at 98.6 degrees fahrenheit or 37.0 degrees celsius. Abstract: A recent study of body temperature in 148 healthy adults revealed that only 8 percent of 700 readings were normal, i.e., 98.6 °F or 37 °C. In addition, diurnal, sex, and racial differences were observed. <P> A baby’s temperature is no different. According to the American Academy of Pediatrics, normal body temperature for a health baby ranges between 97 degrees and 100.4 degrees Fahrenheit (36 degrees to 38 degrees Celsius). A rectal temperature reading above this range indicates a fever. <P> Atmospheric temperature range is the numerical difference between the minimum and maximum values of temperature observed in a given location during a period of time (e.g., in a given day, month, year, century) or the average (average of all temperature ranges in a period of time). In Campinas, for example, the daily temperature range in July (the coolest month of the year) may vary between typically 10 and 24 degrees Celsius (range of 14), while in January, it may range between 20 and 30 degrees Celsius (range of 10). <P> For decades it was thought that the normal body temperature was 98.6 °F. This number was calculated from a study in Germany which reported normal at 37 °C. What was not known was that this number was an average rounded to the nearest degree. Abstract: A recent study of body temperature in 148 healthy adults revealed that only 8 percent of 700 readings were normal, i.e., 98.6 °F or 37 °C. In addition, diurnal, sex, and racial differences were observed.	37.5 degrees
how many carbs can a diabetic eat in one day	<P> A serving of carbohydrates is 15 grams of carbs. On average, a male can have 5-6 servings of carbs for each meal and a serving of carb in between each meal. Remember, though, that the type of carb matters to. As a diabetic, you should choose carbs that are whole grains. <P> Most adults need 6-11 servings of carbs per day, depending on the factors listed above. The general starting point for a moderate-size woman is 45-60 grams of carbohydrates at each meal; for moderate-size men, 60-75 grams of carbs per meal. Most people with diabetes don't need to eat snacks. <P> The American Diabetes Association recommends that adults with diabetes consume about 45 to 60 grams of carbohydrate per meal, which adds up to 135 to 180 grams of carbohydrates per day. Note that some individuals may need more or fewer carbohydrates. <P> The amount of carbohydrate, or carb that one should eat varies from person to person. Your carb needs are based on a number of factors, such as your age, gender, activity level, body weight and glucose levels. <P> Carb grams/day range: 180–308 grams. Carb grams/meal range (3 meals per day): 60–103 grams. Based on 45%–65% of calories from carbohydrate. Note: These recommendations are the same for a woman of small stature who wants to maintain weight. <P> Carb grams/day range: 259–455 grams. Carb grams/meal range (3 meals per day): 86–151 grams. Based on 45%–65% of calories from carbohydrate. Note: Men who are under 65 years of age, moderate to large in stature, at a healthy weight, and get a lot of exercise may need more calories and grams of <P> Most people with diabetes should consume about 130 grams of carbohydrate each day. Some suggest a higher intake of between 60-90 grams per meal for men and 45-75 grams per meal for women. Sources of carbohydrate include starches, grains, fruits, vegetables, milk and yogurt.	259–455 grams
what is a cineraria plant	<P> Florist's cineraria (Pericallis x hybrida) grace flower markets and greenhouses most often in late winter and early spring, making lovely potted plants. <P> Cinerarias are a true Annual, and only flower once. Cineraria, Senecio cruentus, have many daisy like flowers covering the top of the plant that can come in shades of dark pink, red, purple, blue, and white. The Cineraria blooms last between four and six weeks. <P> Cineraria Flower-Pictures & Meanings. The cineraria flower – sometimes known at the florist’s cineraria – is a hybrid species in the pericallis genus and belongs to the vast compositae family. These plants, which are native to England, grow their best in thoroughly moistened soil and a good deal of shade. What makes cineraria flowers a favorite amongst gardeners and florists is the variety of vibrant colors. These plants may be seen in shades of magenta and violet, blue, white and red; they may be variegated, uniformly bicolored, or have contrasting centers. <P> Learn how to care for house plants: ABOUT THE AUTHOR: The brightly colored, daisylike flowers that cover the cineraria make it a popular gift plant. The flowers can be white, pink, red, blue, or purple, often with a white ring surrounding a contrasting central disk. The leaves are medium green and roughly arrow-shaped. House Plants Image Gallery. The cineraria is usually purchased in full bloom and thrown away when it becomes unattractive. <P> Definition of CINERARIA. : any of several garden or potted plants derived from a perennial senecio (Senecio cruentus) of the Canary Islands and having heart-shaped leaves and clusters of bright flower heads. ADVERTISEMENT <P> Cineraria is one plant name with a lot of confusion. Cineraria is a name used to reference plants in multiple genera, and that practice causes some confusion in identifying the plants' characteristics. The Cineraria genus is considered the true cineraria, but it is not as well-known as other genera's plants that have the name cineraria.. Native to the Canary Islands, florist's cineraria (Pericallis x hybrida), is hardy in USDA zones 9b to 10b in sites that receive partial shade to full sun. Its spring and winter blooms are in shades of blue, pink, purple, red and white and are used for cut flower arrangement <P> Florist's cineraria or tall cineraria (Pericallis x hybrida, formerly Senecio hybridus, and Senecio stellata) have daisy-like blooms, usually blue to purple and white, that are cheerful summer annuals in most parts of the country and perennial in U.S. Department of Agriculture plant hardiness zones 9 through 11. <P> Florist's Cineraria. Native to the Canary Islands, florist's cineraria (Pericallis x hybrida), is hardy in USDA zones 9b to 10b in sites that receive partial shade to full sun. Its spring and winter blooms are in shades of blue, pink, purple, red and white and are used for cut flower arrangements. The Cineraria genus is considered the true cineraria, but it is not as well-known as other genera's plants that have the name cineraria.. Native to the Canary Islands, florist's cineraria (Pericallis x hybrida), is hardy in USDA zones 9b to 10b in sites that receive partial shade to full sun. <P> Cineraria Flower. The cineraria flower – sometimes known at the florist’s cineraria – is a hybrid species in the pericallis genus and belongs to the vast compositae family. These plants, which are native to England, grow their best in thoroughly moistened soil and a good deal of shade. What makes cineraria flowers a favorite amongst gardeners and florists is the variety of vibrant colors. These plants may be seen in shades of magenta and violet, blue, white and red; they may be variegated, uniformly bicolored, or have contrasting centers.	The Cineraria genus is considered the true cineraria, but it is not as well-known as other genera's plants that have the name cineraria.
what does the wolffian ducts develop into	<P> Definition of WOLFFIAN DUCT. : the duct of the mesonephros that persists in the female chiefly as part of a vestigial organ and in the male as the duct system leaving the testis and including the epididymis, vas deferens, seminal vesicle, and ejaculatory duct. ADVERTISEMENT. Kaspar Friedrich Wolff <P> The mesonephric duct (also known as Wolffian duct, archinephric duct, Leydig's duct and nephric duct) is a paired organ found in mammals including humans during embryogenesis. In the female, with the absence of anti-Muellerian müllerian hormone secretion by the sertoli cells and Subsequent muellerian, müllerian Apoptosis the wolffian, duct regresses and inclusions. May persist the Epoophoron'and skene s glands may. be present <P> The mesonephric duct connects the primitive kidney, the mesonephros, to the cloaca and serves as the anlage for certain male reproductive organs. In the female, with the absence of anti-Muellerian müllerian hormone secretion by the sertoli cells and Subsequent muellerian, müllerian Apoptosis the wolffian, duct regresses and inclusions. May persist the Epoophoron'and skene s glands may. be present <P> Wolffian ducts develop into male sex organs, and Mullerian ducts develop into female sex organs. Which sex organs develop depends on the presence of a Y chromosome and the male hormone testosterone and anti-Mullerian hormone (AMH). If the embryo has both an X and a Y chromosome and produces the two hormones, then the testosterone will stimulate the Wolffian duct to develop male sex organs, including the vas deferens and the seminal vesicles. If there's no Y chromosome, but two X chromosomes instead, then the embryo is female. <P> Male development. When the ducts are exposed to testosterone during embryogenesis, male sexual differentiation occurs: the Wolffian duct develops into the rete testis, the efferent ducts, the epididymis, the vas deferens and the seminal vesicles. The prostate is formed separately from the urogenital sinus. In both the male and the female the Wolffian duct develops into the trigone of the urinary bladder. <P> The Mullerian duct is present in the embryo of both genders. In females, this pair of ducts will develop into the organs of reproduction. In males, these ducts will disappear. However, the adjoining ducts, known as the Wolffian ducts, will develop and help to form the male reproductive organs. The Mullerian duct is a duct, or tube, that is present in the human embryo. This duct extends down the sides of the structure known as the urogenital ridge, a structure that later develops to help form the external genitalia, and ends at the Mullerian eminence, a structure that helps form the urinary and genital organs. <P> In both the male and the female the Wolffian duct develops into the trigone of urinary bladder, a part of the bladder wall. In the female, with the absence of anti-Muellerian müllerian hormone secretion by the sertoli cells and Subsequent muellerian, müllerian Apoptosis the wolffian, duct regresses and inclusions. May persist the Epoophoron'and skene s glands may. be present <P> As an embryo develops, it acquires both Wolffian and Mullerian ducts. Wolffian ducts develop into male sex organs; mullerian ducts develop into female sex organs. <P> The Wolffian duct (also known as the mesonephric duct) is one of the paired embryogenic tubules that drain the primitive kidney (mesonephros) to the cloaca. In both the male and the female the Wolffian duct develops into the trigone of the urinary bladder. <P> In a male, it develops into a system of connected organs between the efferent ducts of the testis and the prostate, namely the epididymis, the vas deferens, and the seminal vesicle. The prostate forms from the urogenital sinus and the efferent ducts form from the mesonephric tubules. In the female, with the absence of anti-Muellerian müllerian hormone secretion by the sertoli cells and Subsequent muellerian, müllerian Apoptosis the wolffian, duct regresses and inclusions. May persist the Epoophoron'and skene s glands may. be present	Trigone of urinary bladder, a part of the bladder wall.
average civil engineering graduate salary london	<P> Salary results for Civil Engineer in London. Here you can see the average salary for the job you entered, based on our most recent job adverts. <P> Salary guide for civil engineering, construction and surveying careers: starting salaries for leading firms \| average industry salaries for graduates \| average salaries for experienced professionals \| other things to consider \|. Entering the construction industry isn’t a get-rich-quick scheme. <P> The average graduate starting salary is a fairly robust £25,000, though we’ve also seen folk reporting anything between £16,000 and £70,000! Who gets what depends on what subject you study, what industry you go into and even where in the country your dream job is based. Cue our guide to first-job wages. <P> In its own report on construction, property and engineering salaries in 2014, Hays reported that typical salaries for graduate quantity surveyors ranged from £19,000 in Northern Ireland, West Midlands and Scotland to £24,000 in Greater London. <P> salary results for civil engineering in london here you can see the average salary for the job you entered based on our most recent job adverts our salary calculator also lets you view the highest and lowest salaries recently offered for that job and how your current salary compares <P> Discover what a typical engineering graduate salary is like, how much the top graduate schemes pay and average salaries for chartered engineers and incorporated engineers. A graduate engineer could earn £18,000 with a modest regional employer or £33,000 working for a global oil company. <P> We've collected the starting salary from every Civil Engineering graduate employee who has written a review on TheJobCrowd and the page below shows you the average salaries being earned. You can also see the specific comments that Civil Engineering graduates made about their salary in their review. <P> A Graduate Civil Engineer earns an average salary of £23,407 per year. People in this job generally don't have more than 10 years' experience.	£23,407 per year
what rate does a horse's heart beat per minute	<P> HORSE HEART RATE. An adult horse at rest will have a pulse rate ranging from 30 to 40 beats per minute. Foals will have a pulse rate ranging from 70 to 120, yearlings from 45 to 60 and two-year-olds from 40 to 50. If you are using a stethoscope, place it on the horse s girth area just behind the left elbow. You will hear the heart beat it makes two sounds, lub then dub, to count as a single heart beat. <P> LEARNING ABOUT HORSES. HORSE HEART RATE. An adult horse at rest will have a pulse rate ranging from 30 to 40 beats per minute. Foals will have a pulse rate ranging from 70 to 120, yearlings from 45 to 60 and two-year-olds from 40 to 50. If you are using a stethoscope, place it on the horse s girth area just behind the left elbow. His heart rate was about 150 beats per minute and down to approximatly 60 beats per minute at the end of the recording. A healthy, well-conditioned horse should, after strenuous exercise, return to near normal within 15 minutes, depending on the ambient temperature. <P> A normal resting heart rate (pulse) for a healthy, mature horse is between 35 to 45 beats per minute (bpm) It varies, depending on the age and physical condition of the horse. In general, a normal resting heart rate for an adult is between 70-80 beats per minute with women tending to have a … slightly higher heart rate than men. Also children and the elderly tend to also have a higher rate that can be as high as 100 bpm. The other factor is if you are physically fit. <P> HEART RATE Heart rate (pulse) is faster in young horses than in older horses. Normal adult horses have a heart rate of 28 to 40 beats per minute. Newborn foals’ heart rates range from 80 to 120, older foals from 60 to 80, and yearlings from 40 to 60 beats per minute. To determine an accurate heart rate, However, in a fit horse the rate should decline to 40 or 50 breaths per minute within 10 or 15 minutes. The ratio of heart rate to respiration rate in horses is usually about 4:1. That is, the heart beats 4 times for each breath the horse takes. <P> For example, a young, strong, healthy athlete may have a resting heart rate of 30-40 beats per minute, but may easily increase his heart rate to 180 beats per minute with exercise. This is normal. Slow heartbeat (heart rate), called bradycardia, is an arrhythmia, or disorder of the heart’s rhythm. Each day, a normal heart beats about 100,000 times, at a rate anywhere from 60 to 100 times a minute. Changes in heart rate caused by activity, diet, medications, and age are normal and common. <P> The heart of a blue whale weighs about a half a ton, 1000 lbs. It has to be large enough to pump about 15,000 pints of blood as compared to about 8 pints in a human. The average heart rate for a man is 72bpm. A blue whale’s heart beats six times a minute. A horse has 38bpm. A rabbit has 205bpm. A rat 420. A mouse 670. The heartbeat of a canary occurs 17 times in a second. A rate of 1260 beats per minute was measured in a Blue-throated Hummingbird. In torpid hummingbirds, the heart rate can drop to 50-180 per minute. <P> The sounds you hear (if you have your speakers on) is the heart of a horse recovering after ten minutes of loping. His heart rate was about 150 beats per minute and down to approximatly 60 beats per minute at the end of the recording. Foals will have a pulse rate ranging from 70 to 120, yearlings from 45 to 60 and two-year-olds from 40 to 50. If you are using a stethoscope, place it on the horse s girth area just behind the left elbow. You will hear the heart beat it makes two sounds, lub then dub, to count as a single heart beat. <P> Confidence votes 725. A normal resting heart rate (pulse) for a healthy, mature horse is between 35 to 45 beats per minute (bpm) It varies, depending on the age and physical condition of the horse. For instance, a horse who is exercised regularly and is in good physical condition will be on the low end, 35 - 36 bpm. In general, a normal resting heart rate for an adult is between 70-80 beats per minute with women tending to have a … slightly higher heart rate than men. Also children and the elderly tend to also have a higher rate that can be as high as 100 bpm. The other factor is if you are physically fit.	Fore normal adult hourse its 28 to 40 beats per minute,80 to 120 for newborn and 60 to 80 for older foals and for yearlings its 40 to 60.
what does a smart car cost	<P> The two-seat Smart Fortwo is one of the smallest cars on the market, but according to reviewers, it has a surprising amount of cabin space. They say that tall adults will have plenty of head-and legroom. Visibility is also good, but only in the coupe model. Other Cars to Consider. The Scion iQ is more expensive than the Smart Fortwo, but it has a lot more standard features including an upscale stereo, Bluetooth and 11 airbags, which is more than what the Fortwo offers. Though the iQ has four seats, reviewers don’t recommend sitting anyone in the back seats. <P> Australia: The Smart Fortwo has been marketed through select Mercedes-Benz dealers in Australia since 2003 in only the middle 'Pulse' range, and with the petrol engine. As of April 16, 2007 the base price for the Fortwo coupe coupé Is$ 19,900, 19900 and for The fortwo cabriolet is22,900. 22900 The Smart Fortwo is a rear-engine, rear-wheel-drive, 2-seater, 2-door hatchback city car manufactured and marketed by the Smart division of Daimler AG, introduced in 1998, now in its third generation. <P> I recently spent a week driving the 2013 Smart coupe. I loved driving it. I had a ton of fun zipping around Manhattan and Brooklyn. But I wouldn't buy one. Why I Loved It. I've been intrigued by Smart since my approximately 12-year-old mind was blown on a trip to Paris by the first one I ever saw. Watch the 2013 Smart coupe in action below: Why I Wouldn't Buy One. To be clear, I'm not saying I don't want a Smart: If I found one outside my apartment with a bow on it, I would be thrilled. But two very important things bothered me: The price and the fuel economy. The Smart coupe starts at $12,490, but the model I drove cost $19,490. In comparison, a 2013 Nissan Sentra — a perfectly fine car with room for five people — starts at $15,590. The Smart I drove was comfortable, but hardly loaded with features <P> Smart Cars History. smart car prices start around $12,000, making the base smart car model affordable for just about everyone. Smart cars are known for their unique size and shape but also offer the functionality of fitting into even the smallest of parking spots. Check our price report to find a great smart car price. In 1993 Daimler-Benz AG (makers of Mercedes Benz) partnered with SMH (makers of the Swatch brand of watches) to create a funky city car that would be engineered by Daimler and designed by Swatch. * The prices displayed on this page may be the Estimated TrueCar Dealer Price, the Target Price, or the Manufacturer's Suggested Retail Price (MSRP). Please proceed to the Price Report to see which price is being displayed and the definition of that price. <P> 2015 smart fortwo Overview. Price Range: $13,270 to $17,930. Your Price: Ask Us. New/Notable: As recognizable today as the day it debuted, the tiny 2015 smart fortwo takes urban transportation to a new, smaller level. The two-door fortwo carries over sans substantive changes for the new model year. <P> Smart's ForTwo microcar has been around these parts since it debuted as a 2008 model, and it's seen few changes since then. Next year... <P> When the Smart Fortwo debuted in 2008, America's smallest car garnered an instant following as buyers flocked to this 2-seater for its low price, good fuel economy, and the sheer Euro-chic factor it brought to our shores. The years since have not been so kind to Smart, a subsidiary of Mercedes-Benz. <P> With gas prices at historic highs in the United States and fuel-efficient cars in vogue, the time might be perfect for DaimlerChrysler to introduce the Smart Car to U.S. markets. Already popular in Europe, the Smart Car is small in stature but big on economy. The updated Smart Fortwo (named because it's for two people) is ready for release in 2008, so we could be seeing a lot more Smart Cars on the road in the near future.	The Smart coupe starts at $12,490, but the model I drove cost $19,490.
what type of epithelial tissue covers the villi	<P> The epithelium of the villi is made up of tall columnar absorptive cells called enterocytes, and goblet cells, which secrete mucin, for lubrication of the intestinal contents, and protection of the epithelium. This shows the epithelium of part of a villus at high magnification. <P> The mucosa is characterized by numerous fingerlike villi that protrude into the lumen of the intestine. Enterocytes, which are columnar epithelial cells with basally located oval nuclei and an apical brush border mainly line the villi. The enterocytes located to the villi have mainly absorptive function. <P> The mucosa of the small intestine is lined by a simple columnar epithelium which consists primarily of absorptive cells (enterocytes), with scattered goblet cells and occasional enteroendocrine cells. In crypts, the epithelium also includes Paneth cells and stem cells. <P> More than one villus is known as villi. Villi are located in different areas of the body. Most commonly, the term is used to describe the many tiny, fingerlike structures that stick out and are located in groups over the entire mucous surface (a type of thin sheet of tissue) of the small intestine. <P> These structures are called villi and are 'finger-like projections of epithelial tissue which increase surface area.' The increased surface area created by the villi allow a greater number of epithelial cells to have access to nutrients in the small intestine, and therefore, increases absorption efficiency. <P> These villi are covered a surface epithelium, which, as seen in subsequent slides, can be described as a simple columnar epithelium. A medium power view of a portion of an intestinal villus reveals the single layer of tall cells, the simple columnar epithelium, that covers the villous surface. <P> Simple columnar epithelium lines much of the intestinal tract where it functions in the absorption of digested food. The pillar-like epithelial cells cover the finger-like projections (villi) of the intestinal surface. Observe the variation in appearance of the epithelial layer which is caused by different angles of cutting (refer to p. 6 of the lab manual). If possible, define the basement membrane underlying the bases of the cells.	The pillar
what is the difference between snow chains and cables	<P> Geography. Snow chains and snow cables are used in areas that experience snowy winters, such as states in the Eastern region and the Midwest. In some areas, such as the steep mountain passes, roads and highways, car owners must have snow chains, snow tires or snow cables on their tires when driving. <P> Q1. What are cable chains and how are they different from traditional link tire chains. A1. Cable chains are a new breed of tire chain that instead of using large, heavy steel links, these cable chains use a high strength steel aircraft cable surrounded by alloy steel traction coils. <P> Types. Snow chains are available in the recognizable ladder pattern, while snow cables are available in the ladder pattern or a z chain pattern. The latter is supposed to offer the best traction due to the zigzag pattern across the length of the snow cable. <P> asked by: Steve. Expert Reply: Both of the snow chains and snow cables will work great in snow conditions. The difference is the snow chains will give you better grip in more ice conditions because the chain links will bite into the ice where as the snow cables tend to slide over the ice. The snow chains will make a little more noise on dry pavement as compared to the snow cables.	The snow chains will give you better grip in more ice conditions where as the snow cables tend to slide over the ice. The snow chains will make a little more noise on dry pavement as compared to the snow cables.
what makes up the layer of the alveoli	<P> These can be arranged in a single layer of cells as simple epithelium, either squamous, columnar or cuboidal, or in layers of two or more cells deep as stratified (layered), either squamous, columnar or cuboidal. All glands are made up of epithelial cells. <P> Alveoli. The epithelium of the alveoli, contains two main types of cells: 1. type I pneumocytes: large flattened cells - (95% of the total alveolar area) which present a very thin diffusion barrier for gases. They are connected to each other by tight junctions. 2. type II pneumocytes (making up 5% of the total alveolar area, but 60% of total number of cells). <P> the walls of the alveoli are composed of simple squamous epithelium. these cells are called type I cells. there are also type II cells that secrete surfactant. Making the world better, one answer at a time. the walls of the alveoli are very thin but strong layers of elastic tissue lines with a single layer of flattened epithelium. <P> a thin layer of tissue that covers a surface, lines a cavity, or divides a space or organ. adj., adj mem´branous. alveolar-capillary membrane (alveolocapillary membrane) a thin tissue barrier through which gases are exchanged between the alveolar air and the blood in the pulmonary capillaries. Called also blood-air barrier and blood-gas barrier. alveolodental membrane periodontium. arachnoid membrane arachnoid. <P> Third, the surface area would be reduced as the surface area of the alveoli becomes covered by a thick layer of water. The surface area of the water has now become the effective surface area of the lung. For these reasons, excess water in the lungs creates a barrier to oxygen uptake and can cause drowning. Carbon dioxide diffuses out of the capillaries, into the alveoli, into the thin layer of water, and then quickly exits into the air. The end result is that oxygen is taken out of the air and enters the bloodstream, while carbon dioxide is removed from the blood and released <P> The alveolar epithelium comprises two main cell types: the alveolar type I and alveolar type II cell. The type I cell is a complex branched cell with multiple cytoplasmic plates that are greatly attenuated and relatively devoid of organelles; these plates represent the gas exchange surface in the alveolus. <P> the walls of the alveoli are composed of simple squamous epithelium. these cells are called type I cells. there are also type II cells that secrete surfactant. The outer layer of the skin (epidermis) is made up of stratified squamous epithelium. If it helps, remember stratified squamous is made up of multiple layers to provide protec … tion, like when you scrape your knee. because hopefully, there will be other layers underneath! <P> The epithelium is made up of ciliated columnar cells in larger bronchioles, or non-ciliated in smaller bronchioles (difficult to see at this magnification). There are no goblet cells, but there are cells called Clara cells. These cells are secretory-they secrete one of the components of surfactant. Respiratory \| Trachea, bronchioles and bronchi. The conducting portion is made up of: nasal cavities, nasopharynx, larynx, trachea, bronchii and bronchioles. The trachea branches to give rise to two primary (main) bronchii. These then branch successively to give rise in turn to secondary and tertiary bronchii. <P> The alveoli consist of an epithelial layer and extracellular matrix surrounded by capillaries. In some alveolar walls there are pores between alveoli called Pores of Kohn. The alveoli contain some collagen and elastic fibres. The elastic fibers allow the alveoli to stretch as they are filled with air during inhalation. The alveolar membrane is the gas-exchange surface. Carbon dioxide rich blood is pumped from the rest of the body into the alveolar blood vessels where, through diffusion, it releases its carbon dioxide and absorbs oxygen.	A thin layer of tissue that covers a surface, lines a cavity, or divides a space or organ.
normal pulse rate for women	<P> thus a normal heart rate for women is between 70 to 80 beats per minute for women that are into health and fitness and exercise regularly this range may go down and be between 45 to 60 beats per minute your heart rate is affected by factors such as <P> for adults 18 and older a normal resting heart rate is between 60 and 100 beats per minute bpm depending on the person s physical condition and age for children ages 6 to 15 the normal resting heart rate is between 70 and 100 bpm according to the aha <P> at rest a woman s pulse should always be lower a normal pulse for a woman not currently involved in a strenuous activity is between 60 to 70 beats per minute it is not uncommon for a woman s pulse to be slightly higher or lower depending on other factors <P> for women a normal resting heart rate isn t different than in a man the national institutes of health state that 60 to 100 beats per minute is considered normal for a resting pulse rate any female over 10 years of age should fall within this resting pulse rate range unless they are well trained athletically in this situation the normal resting heart rate can be as low as 40 to 60 beats per minute maintains mayoclinic com <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 <P> normal pulse rates for women a pulse is the measurement of how many times your heart beats per minute the normal pulse for a healthy adult is between 60 and 100 beats per minute a number of factors determine where your pulse should range first women over 13 generally have a higher pulse than do men	60 and 100 beats per minute.
what pollutant does carbon monoxide cause	<P> Carbon Monoxide Fact Sheet. Carbon monoxide (CO) is an odorless, colorless gas formed when carbon in fuels does not burn completely. Hundreds of Americans die every year from carbon monoxide poisoning caused by improperly used or malfunctioning fuel-burning appliances. <P> Making the world better, one answer at a time. Carbon monoxide is an odorless, colorless and toxic gas. Because it is impossible to see, taste or smell the toxic fumes, CO can kill you before you are aware it is in your home. At lower levels of exposure, CO causes mild effects that are often mistaken for the flu. <P> Combustion pollutants are most often released into the home by vented or unvented appliances and vehicles running in an attached garage. Carbon monoxide isproduced when there is a lack of oxygen or enough heat to burn fuels completely. The smoldering burn of incense or cigarettes also produces carbon monoxide. <P> Causes. Carbon monoxide poisoning is caused by inhaling combustion fumes. When too much carbon monoxide is in the air you're breathing, your body replaces the oxygen in your red blood cells with carbon monoxide. This prevents oxygen from reaching your tissues and organs. <P> Carbon monoxide reacts with other pollutants in the air to form potentially harmful ground level ozone. This occurs close to the site of emission. It does not have any significant environmental effects at a global level. <P> Low levels of carbon monoxide can cause flu-like symptoms, headaches, dizziness, and make it difficult to think clearly. Often a family may not realize that their illnesses are related to chronic exposure to carbon monoxide in the home.	CO causes mild effects that are often mistaken for the flu.
how long does it take endone to kick in	<P> How long does it take for mdma to kick in? When you're swallowing it as a pill, it can take anywhere from 20 minutes to 60 minutes. Depends on the person, but it can take up to a few weeks. For long-term users the effects of suboxone can last for months or even years after its use. <P> I have been given Endone 5mg for torn muscles on my chest wall. The script only says one every six hours but does not have anything about how many can be taken in a 24 hour period. Follow. <P> I take 50mg 15 minutes before love making, and now I can spend hours with foreplay and not worry if I'm gonna go soft or lose interest. It takes effect in 15 minutes on the average and out love-making session goes for over an hour every time. - Age 65, Florida. I could feel my penis get erect within 15 minutes, getting harder than usual and lasting longer too-YT, Age 45, Nigeria. The effects last 3 or 4 hours, and it takes 30 to 45 minutes to kick in. - Art, Age 62, Texas. It worked faster than a 1/2 hour and I had the first complete sexual experience in over 6 YEARS! William, Age 42, Texas. It begins to work in about 15 minutes to a half an hour and lasts for 3 hours or so. I find that 25 mg two hours prior to sex is best for me, and allows sensitivity, to remain at its peak. - Phil, Age 60, California. The first time I took it, my wife and I had already made love that afternoon. <P> If you have been using this medicine for a long period of time and it is no longer needed to control pain DO NOT suddenly stop taking ENDONE. Your doctor may want you to gradually reduce the amount of ENDONE you are taking before stopping completely in order to lessen the risk of withdrawal symptoms. Do not take any other medicines while you are taking ENDONE unless you have discussed this with your doctor. This includes medicines you can buy without a prescription from a pharmacy, supermarket or health food shop. Do not take ENDONE to treat any complaint other than that directed by <P> How long will it take for pain medication to work? It usually takes 20 minutes to a half hour for medicine to work, but some medicine takes more time then others. Tramadol, for example, can take 50-55 minutes to really get rol … ling in the blood stream, but will usually last six hours. + 30 others found this useful. Satch Hrdlicka. The most intense cramping and bleeding generally lasts for 3-5 hours, but it can last for less or more time. Some women bleed heavily for up to 48 hours and may pass clots days or even weeks after taking the misoprostol. <P> Endone is from the same family of drugs as heroin, and like heroin it can be addictive. People who take a lot of Endone for long periods can find their body adapts to having regular Endone. If the regular dose is not taken, they go into withdrawal. This makes cutting down or stopping Endone difficult. <P> I have notice it takes longer for the oxy to start working then the percocet. I am on the 20mg er oxycodone (generic for oxycontin 20 mg cr) on the Teva brand. I have seen the post about the generics being somewhat different. I take the same dosage every 8 hours due to the fact that it does not last 12hrs for me. I have found that it takes an hour to and hour and half for it to relieve my pain. Thats if it is even going to work at all. I personally have to stay away from the teva brand. <P> When I take it, it usually takes a good hour to kick in and relieve my pain. My doctor has told me in the past that oxy initially releases 8 mg's into your body, so that may be why it doesn't last 12 hours. It seems silly that they market it that way. I also take percocet for b/t pain. I take the same dosage every 8 hours due to the fact that it does not last 12hrs for me. I have found that it takes an hour to and hour and half for it to relieve my pain. Thats if it is even going to work at all. I personally have to stay away from the teva brand. <P> It is important to always take the dose prescribed by your doctor. Never increase or decrease the dose unless advised to do so by your doctor. Endone takes 10-15 minutes to start working and relieves pain for 3-6 hours. Always try to take Endone at the correct time. If you miss a dose, you can take it 2-3 hours after the scheduled time, but do not take the missed dose within 2-3 hours of the time at which the next Endone dose is due. If you do not realise you have missed a dose until within 2-3 hours of your next dose, skip the missed dose	Endone takes 10-15 minutes to start working and relieves pain for 3-6 hours.
what is the phospholipid bilayer ? How does the structure of a phospholipid relate	<P> Phospholipids are a class of lipids that are a major component of all cell membranes. They can form lipid bilayers because of their amphiphilic characteristic. The structure of the phospholipid molecule generally consists of two hydrophobic fatty acid tails and a hydrophilic head consisting of a phosphate group. The two components are joined together by a glycerol molecule. The phosphate groups can be modified with simple organic molecules such as choline <P> The cell membrane is called the phospholipid bilayer because the phospholipids form two distinct lay … ers. In each layer, the phospholipid molecules lie with the hydrophilic heads at the membrane surface and the hydrophobic tails on the inside, in association with cholesterol and small quantities of other lipids. The phospholipid bilayer is fluid due to the unsaturated hydrocarbon tails of phospholipids found in the hydrophobic region. These unsaturated hydrocarbon tails do not have al … l the hydrogen it can possibly have, so carbon forms a double bond. <P> The Actual Cell membrane has proteins embedded in the lipid bilayer. Embedded in the phospholipid bi-layer are a diverse set of proteins which do most of the important functions of the cell membrane. This idea is called the fluid mosaic model of the cell membrane. Remember these key points: 1 Cell membranes or plasma membranes consist of a phospholipid bilayer with proteins embedded in the membrane. 2 Most of the functions of plasma membranes are handled by the proteins. 3 This arrangement of proteins and phospholipids is often called the fluid mosaic model for a cell membrane. <P> A cell membrane is composed of a double layer of phospholipids, more commonly referred to as a phospholipid bilayer, and each phospholipid itself is important to the structure … and function of the cell membrane. <P> Lipid bilayer is a universal component of all cell membranes. The structure is called a lipid bilayer because it composed of two layers of fatty acids organized in two sheets. The lipid bilayer is typically about five nanometers to ten nanometers thick and surrounds all cells providing the cell membrane structure. The structure of the lipid bilayer explains its function as a barrier. Lipids are fats, like oil, that are insoluble in water because of its long hydrophobic tails. The hydrophobic interactions among several phospholipids and glycolipids, a certain structure called lipid bilayer or bimolecular sheet is favored. <P> 1. Cell membranes are based on lipid bilayer. Plasma membranes consist of a lipid bilayer with proteins embedded in the bilayer. The principle lipids are phospholipids. A phospholipid molecules has a hydrophilic head with a phosphate group as part of its structure and two hydrophobic tails. The hydrophobic tails consist of long hydrocarbon chains. Remember these key points: 1 Cell membranes or plasma membranes consist of a phospholipid bilayer with proteins embedded in the membrane. 2 Most of the functions of plasma membranes are handled by the proteins. 3 This arrangement of proteins and phospholipids is often called the fluid mosaic model for a cell membrane. <P> Phospholipids. Phospholipids are the primary molecules found in the plasma membrane. A phospholipid is unique in that it has a hydrophilic region called the head, and a hydrophobic region known as the tail. The hydrophilic region can interact with water due to the presence of a phosphate group which is polar, like water. If something is hydrophilic, that means it likes water. The lipid bilayer is important for maintaining the shape of a cell and for selective permeability. Therefore, it is vital for the survival and function of the cell. This article explains what the lipid bilayer is and how its structure contributes to cell viability. <P> phospholipid bilayers. One structure that can result when phospholipids are suspended in water is shown below. A bilayer of phospholipids forms a sphere in which water is trapped inside. The hydrophilic phosphate regions interact with the water inside and outside of the sphere. The fatty acids of the phospholipids interact and form a hydrophobic center of the bilayer. <P> Your cells are surrounded by a very important type of lipid, called phospholipids. Phospholipids consist of a hydrophilic (or 'water loving') head and a hydrophobic (or 'water fearing') tail. Phospholipids like to line up and arrange themselves into two parallel layers, called a phospholipid bilayer.	Phospholipids are a class of lipids that are a major component of all cell membranes. They can form lipid bilayers because of their amphiphilic characteristic. The structure of the phospholipid molecule generally consists of two hydrophobic fatty acid tails and a hydrophilic head consisting of a phosphate group.
requirements for medicaid specialist	<P> We specialize in helping families correctly arrange finances to meet eligibility guidelines for Florida Medicaid when a family member requires long-term nursing home. That means you have the financial specialists on your side--people who truly understands your Medicaid options. We help you: Medicaid Eligibility Inc, met our expectations by addressing and resolving our special needs. No one looks forward to having a family member enter a nursing home and few people completely understand all of the Medicaid eligibility requirements that can help them pay for it. <P> That means you have the Oregon Medicaid eligibility specialists on your side -- people who truly understand Medicaid qualification and can go toe-to-toe with the local Medicaid office, if needed. When it comes to Medicaid asset protection, this is no place for amateurs. And although Oregon Medicaid can help pay for nursing home, or other long-term care, only a handful of Medicaid specialists really understand the Medicaid eligibility rules and requirements, including asset protection. <P> Job requirements for eligibility specialists vary depending on the type of work one does. For eligibility 'fact checkers' who comb over paperwork looking for errors, a high school diploma may be the sufficient educational qualification. Eligibility specialists assess whether or not individuals qualify for various programs. Typically these programs offer financial aid from the government, especially in the health care industry. Eligibility specialists may work with Medicare or Medicaid, disability claims, or other government-sponsored programs <P> In addition to meeting education and experience requirements, you need other qualifications to become a Medicaid specialist. First, you should be well-versed in Medicaid laws. While on the job, you also will be expected to keep up to date on any changes or pending changes. Before you become a Medicaid specialist, understand that the job can be very stressful. As budget cuts occur, Medicaid specialists can find themselves handling large numbers of client cases. <P> Eligibility Specialist. The Eligibility Specialist is responsible for assisting hospital patients with the completion of the application process for any applicable governmental medical... 7 days ago-save job-email-more... 1 View all Adreima jobs in Guntersville, AL-Guntersville jobs. The Medicare/Medicaid Enrollment & Reconciliation Specialist will monitor and correct all membership data discrepancies between the plan and CMS (Medicare), and... <P> To be eligible for Medicaid, you must meet the requirements for an eligibility group that your state covers under its Medicaid program. <P> Eligibility specialists determine whether or not applicants for various programs meet the necessary qualifications. Usually they work with government aid, especially in the health care industry, like Medicare or Medicaid. Their job involves fact checking, record keeping, and advocacy on behalf of their clients. Eligibility specialists assess whether or not individuals qualify for various programs. Typically these programs offer financial aid from the government, especially in the health care industry. Eligibility specialists may work with Medicare or Medicaid, disability claims, or other government-sponsored program <P> A career as a Medicaid specialist usually requires at least a high school diploma and can require a bachelor’s degree, depending on the scope of the job. Some Medicaid specialists perform mostly clerical or billing-related duties, and others serve more in the capacity of a social worker. Before you become a Medicaid specialist, understand that the job can be very stressful. As budget cuts occur, Medicaid specialists can find themselves handling large numbers of client cases. <P> Extensive knowledge of Medicare and Medicaid Insurance. As a Medicare/Medicaid Specialist you must be a team player and possess the ability to adapt multiple... 27 days ago-save job-email-more... 1 View all Medix jobs in Nashville, TN-Nashville jobs. The Medicaid Specialist (MAS) will be the liaison between the Community LIFE applicant and multiple County Assistance Offices (CAO)....	A high school diploma may be the sufficient educational qualification.
how much to charge for rental late fee	<P> Many landlords set a percentage for a late fee. A standard amount for a late fee is 3 to 5 percent of the monthly rental amount. If you pay $750 per month, this would be about $23 to $38. This amount is typically considered an adequate amount to cover any late fees or other charges the landlord absorbs because your rent is late. Calculate the percentage to make sure the flat fee is a reasonable amount. For example, if you're paying $750 per month and the late fee is $75, that's a 10 percent fee. Although that high percentage may be legal in some states, it's higher than the standard 3 to 5 percent. <P> Landlords may choose to charge a flat fee instead of a percentage. Calculate the percentage to make sure the flat fee is a reasonable amount. For example, if you're paying $750 per month and the late fee is $75, that's a 10 percent fee. Although that high percentage may be legal in some states, it's higher than the standard 3 to 5 percent. <P> Typical late rent fees are 5% to 10% of the monthly rent (e.g. $50 to $100 late fee for $1000 of rent). Some landlords may also demand an additional fee for each day that the late is rent. (e.g. $15 additional charge per day). <P> OTHER METHODS. DAILY AMOUNT-The landlord may charge a daily amount as a late fee ($10 per day, as an example). SIMPLE INTEREST-The Landlord may be able to charge simple interest, which is a percentage (use 6% as an example) of the rent that due. HOW MUCH SHOULD THE LATE FEE BE. Since not all states regulate LATE RENT PAYMENT FEES, it is up to the landlord to decide how much to charge. The general rule of thumb is a REASONABLE or FAIR fee, regardless of which method is used. <P> A landlord generally has the ability to charge a late fee if rent is not paid on the due date. However, the landlord must have included a late fee provision in the written lease agreement stating how much the late fee is and when the late fee is due. <P> 1 Your landlord is always on shaky ground if the late charge exceeds 5% of the rent. 2 That’s $38 on a $750-per-month rental. 3 Of course, if the rent is extremely late—say, ten days—a higher late fee, such as 10% of the rent, might be reasonable. 1 Normally, a late fee should not apply until at least three days after the rent due date. 2 The fee should be within a certain percentage of your rent. 3 Your landlord is always on shaky ground if the late charge exceeds 5% of the rent. 4 That’s $38 on a $750-per-month rental <P> Re: Late Fee-How much do you charge? by Jack (NY) on March 25, 2009 @13:42. My late fees are usually 10% of the rent or if the rental is over $1000, the initial late fee if not paid by the 5th would be a flat $100. with a $20. per day daily late fee after the 7th. <P> 1 The fee shouldn’t begin immediately. 2 Normally, a late fee should not apply until at least three days after the rent due date. 3 The fee should be within a certain percentage of your rent. 4 Your landlord is always on shaky ground if the late charge exceeds 5% of the rent. 5 That’s $38 on a $750-per-month rental. 1 Normally, a late fee should not apply until at least three days after the rent due date. 2 The fee should be within a certain percentage of your rent. 3 Your landlord is always on shaky ground if the late charge exceeds 5% of the rent. 4 <P> 1 The fee should be within a certain percentage of your rent. 2 Your landlord is always on shaky ground if the late charge exceeds 5% of the rent. 3 That’s $38 on a $750-per-month rental. 4 Of course, if the rent is extremely late—say, ten days—a higher late fee, such as 10% of the rent, might be reasonable. 1 Normally, a late fee should not apply until at least three days after the rent due date. 2 The fee should be within a certain percentage of your rent. 3 Your landlord is always on shaky ground if the late charge exceeds 5% of the rent. 4 That’s $38 on a $750-per-month rental	A standard amount for a late fee is 3 to 5 percent of the monthly rental amount. If you pay $750 per month, this would be about $23 to $38.
what do jumping jacks do	<P> Jumping jacks are an ideal warm-up exercise. Five minutes of this exercise will increase your heart rate and get blood flowing to all your major muscle groups. The extra blood flow raises your body and muscle temperature, which gets your body ready for more vigorous exercise. <P> Classic jumping jacks provide a simple calisthenic exercise with many health benefits. For example, they can burn calories to help with weight management, improve your cardiovascular endurance and strengthen and tone your muscles. <P> Jumping jacks help you burn calories and tone your muscles. Getting a flat, eye-catching stomach that's ready for the beach isn't something that will happen overnight, but if you don't mind working hard, you'll be able to gradually achieve the look you desire. <P> Muscle Strength. Jumping jacks work the muscles in your shoulders, abs and legs. If you add dumbbells, move your hands between your shoulders and raised into a V position, rather than bringing them down to your sides. This motion will strengthen your shoulders. <P> Jumping jacks can help you trim up your tummy, as long as you do them for long enough periods and frequently enough. While no exercise will focus the spot from which you’ll lose fat, as you lower your body fat percentage, you’ll notice changes in your waist circumference. <P> Although jumping jacks are effective on their own, you can add weight to your body to increase the challenge of this exercise. Ankle weights, wrist weights and even a weighted vest will require your body to work harder, which will help exercise your muscles and burn calories even faster. <P> HOW TO DO A JUMPING JACK. 1 Stand with your feet together and your hands down by your side. 2 In one motion jump your feet out to the side and raise your arms above your head. <P> Think about the body parts you are utilizing while executing jumping jacks-your arms and legs in particular. In addition, jumping jacks are a form of aerobics, so if done properly, you are achieving a workout for your whole body. Jumping ...	Jumping jacks work the muscles in your shoulders, abs and legs.
what caused the syrian refugee crisis	<P> Media caption UN refugee chief Antonio Guterres said refugee numbers had not risen at such a frightening rate since the 1994 genocide in Rwanda. The conflict in Syria has caused the world's worst refugee crisis for 20 years, with an average of 6,000 people fleeing every day in 2013, the UN says. UN refugee chief Antonio Guterres said refugee numbers had not risen at such a frightening rate since the 1994 genocide in Rwanda. <P> By the beginning of June, more than 4,000 Syrian Kurds had crossed the border into the Kurdish region of Iraq, as violence in Syria continued. The large number of Syrian refugees in Jordan, estimated at 120,000, was reported to have caused a burden on Jordan's limited water resources. By the end of August 2014, the UN estimated 6.5 million people had been displaced within Syria, while more than 3 million refugees had fled to countries such as Lebanon (1.14 million), Jordan (608,000) and Turkey (815,000). <P> Refugee crisis was caused by a careless West that allowed anarchy and fear to take root in the Middle East. The war in Syria and Iraq has gone on as long as the First World War. Migrants wait at the Horgos 2 border crossing at the Serbia-Hungary border, 15 September 2015 EPA. Little has been done to end the four-year civil war that is destroying Iraq and Syria and which has caused the biggest mass flight of people ever seen in the Middle East. More than half of the 23 million Syrian population have fled their homes, of which four million are refugees outside Syria <P> More than four million refugees of the Syrian Civil War have left the country during the course of the war. Most of them fled to neighboring Turkey, Lebanon, Jordan, and Iraq, while thousands also ended up in more distant countries of the Caucasus, the Persian Gulf, North Africa and Europe. By the end of August 2014, the UN estimated 6.5 million people had been displaced within Syria, while more than 3 million refugees had fled to countries such as Lebanon (1.14 million), Jordan (608,000) and Turkey (815,000). <P> Syrian Refugees A snapshot of the crisis – in the middle east and europe. Migration and refugee movements in the Mediterranean countries have gained unprecedented momentum in recent months. A snapshot of the crisis – in the middle east and europe. An estimated 9 million Syrians have fled their homes since the outbreak of civil war in March 2011, taking refuge in neighbouring countries or within Syria itself. <P> Refugee crisis Help Syrian refugees fleeing war Vulnerable families are still fleeing violence in Syria, risking their lives searching for safety. We're on the ground helping nearly 4 million people in the region. <P> The war and repression driving this unprecedented crisis. Thomas van Linge. The biggest driver of the crisis by far is Syria. Four million people, nearly a fifth of Syria's population, have fled the country since the war began in 2011. <P> The Iraq-Syrian war is the cause of the European Union’s refugee crisis and it is going to get worse. There is a bloody stalemate in Iraq, with the country divided by military front lines more heavily defended than the frontiers of the state. Migrants wait at the Horgos 2 border crossing at the Serbia-Hungary border, 15 September 2015 EPA. Little has been done to end the four-year civil war that is destroying Iraq and Syria and which has caused the biggest mass flight of people ever seen in the Middle East. More than half of the 23 million Syrian population have fled their homes, of which four million are refugees outside Syria <P> Media caption UN refugee chief Antonio Guterres said refugee numbers had not risen at such a frightening rate since the 1994 genocide in Rwanda. The conflict in Syria has caused the world's worst refugee crisis for 20 years, with an average of 6,000 people fleeing every day in 2013, the UN says. UN refugee chief Antonio Guterres said refugee numbers had not risen at such a frightening rate since the 1994 genocide in Rwanda.	Refugee crisis was caused by a careless West that allowed anarchy and fear to take root in the Middle East. The war in Syria and Iraq has gone on as long as the First World War.
why is organic chemistry so important in the study of biology	<P> Organic Chemistry is important because most reactions in Biology are organic reactions. Organic Chemistry is the study of structure, properties, and reactions of organic c … ompounds. Biology is the study of biological organisms and processes. All biological organisms and processes are created, maintained and changed through chemical processes and are made up of chemical compounds. Without an understanding organic chemistry one cannot accurately and fully understand biology. <P> Chemical principles are important in modern cell biology because all living cells are made up of chemicals and many chemical processes occur in various living organisms. … Chemistry is the one science in which all the other sciences are based. In biology you learn about living organisms and their composition. <P> it is important because it is the source of all what we do and what we are. 6 people found this useful. Edit. Share to: 1 Different Areas of Study in the Field of Biology The study of biology is a broad academic discipline focused on observing and further understanding various forms of life throughout the world. <P> Confidence votes 39.2K. Organic Chemistry is important because most reactions in Biology are organic reactions. Organic Chemistry is the study of structure, properties, and reactions of organic compounds. Biology is the study of biological organisms and processes. All biological organisms and processes are created, maintained and changed through chemical processes and are made up of chemical compounds. Without an understanding organic chemistry one cannot accurately and fully understand biology. <P> Since not all carbon reactions are organic, another way to look at organic chemistry would be to consider it the study of molecules containing the carbon-hydrogen (C-H) bond and their reactions. Organic chemistry is important because it is the study of life and all of the chemical reactions related to life. <P> Organic Chemistry is important because most reactions in Biology are organic reactions. Organic Chemistry is the study of structure, properties, and reactions of organic compounds.	Because most reactions in Biology are organic reactions. Organic Chemistry is the study of structure, properties, and reactions of organic compounds.
last five liverpool fc managers	<P> Liverpool FC supporters with a banner of their five most successful managers: Bill Shankly, Bob Paisley, Joe Fagan, Kenny Dalglish and Rafael Benitez. Benítez Liverpool Football club is An english association football club based In, Liverpool. merseyside <P> Overall Liverpool Football Club have had 17 permanent managers as well as one caretaker manager since the club was established in 1892. Tom Watson is currently the longest-serving manager, managing Liverpool FC for 19 years. The most LFC matches ever managed by a single manager is 783, by the famous Bill Shankly. The first player-manager in English football history was Kenny Dalglish appointed in 1985. The most successful manager of all time in Liverpool FC's history is Bob Paisley, who won a total of 19 trophies. <P> Liverpool Football Club is an English association football club based in Liverpool, Merseyside. The club was formed in 1892 following a disagreement between the board of Everton and club president John Houlding, who owned the club's ground, Anfield. <P> Liverpool have had 19 full time managers in the club's 120 year history. The reds longest-serving manager is Tom Watson who managed the club for 19 years. In the post-war period Bill Shankly was at the helm for 15 years. <P> Kenny Dalglish. King Kenny returned as Liverpool manager for a second time on 8 January 2011, following the departure of Roy Hodgson. Roy Hodgson. Roy Hodgson was appointed Liverpool manager on 1st July, 2010 following the departure of Rafael Benitez. <P> Could not subscribe, try again later. Brendan Rodgers manager of Liverpool with Mike Marsh first team coach and Colin Pascoe assistant manager during a training session at Melwood Training Ground on April 30, 2015 in Liverpool, England. <P> As of the end of the 2011–12 season, Liverpool have had 18 full-time managers. The most successful person to manage Liverpool is Bob Paisley, who won six Football League titles, five Charity Shields, three Football League Cups, three European Cups, one UEFA Super Cup and one UEFA Cup in his nine-year reign as manager.	Bill Shankly, Bob Paisley, Joe Fagan, Kenny Dalglish and Rafael Benitez.
what is the difference between dopamine and serotonin	<P> At the center of these complex behaviors are two powerful neurotransmitters, dopamine and serotonin. These naturally occurring chemicals in your brain help your body move fluidly, your mind stay calm and focused on a task, and help you to resist depression and other mood disorders. Levodopa is a medication used to increase dopamine levels and restore normal movement in people with Parkinson disease. The dose is difficult to adjust, and too much dopamine can cause uncontrolled movements such as tremors and jerking. Unlike dopamine, the role of serotonin in movement is not as clear. <P> Norepenephrine:increase adrenergic neurotransmission.(exerts the same effect as adrenaline) Serotonin:affect mood and behavior Dopamine:allow us to feel pleasure Serotonin is a chemical compound inside the body, which is used to relay electrical signals from the central nervous system to other cells. <P> by admin. Dopamine vs Serotonin. Dopamine and serotonin are the biogenic amines, and both are known as neurotransmitters secreted by nerve cells that influence the activity of other nerve cells. These amines are very important substances as they influence mental, emotional, and physical health of humans. Dopamine vs Serotonin. • Dopamine is derived from tyrosine amino acid, while serotonin is derived from the amino acid called tryptophan. • Dopamine production is localized in the basal ganglia, whereas serotonin production is localized in the raphe nucleus of the reticular formation. • Dopamine is used to control body movements, motivational and pleasure seeking behaviors, attention, learning and mood <P> Differences Between Serotonin vs dopamine. Although serotonin and dopamine both work in the brain, they act in different parts of the brain. Serotonin fires out nerve signals in the “raphe nucleus” section of the brain, plus the central section of the brain stem. Scientists have been able to identify a large number of neurotransmitters in the brain, but dopamine and serotonin are the two of the sixteen most important ones. As already stated, although serotonin and dopamine are both neurotransmitters, they each play a different role in the brain. Serotonin is synthesized from tryptophan, an amino acid found in various foods, from dairy produce such as milk and cheese, to meat and whole grains. The chemical name for serotonin is 5-hydroxytryptamine, usually shortened to 5-HT <P> Location. Dopamine is a neurotransmitter that is primarily found in the brain. Serotonin is also a neurotransmitter, but 80 to 90 percent of serotonin is found in the gastrointestinal tract. Dopamine and serotonin are two neurotransmitters that are necessary for many aspects of human behavior. Inadequate production and regulation of either neurotransmitter is a cause of many medical conditions. <P> Serotonin and dopamine are two chemical compounds that are essential to proper brain functioning. They belong to the category of biogenic amines, a group that also includes noradrenaline, acetylcholine, and histamine. Where They Are Found. Serotonin is a neurotransmitter hormone that is occurs naturally in the brain of humans, and it has also been identified in certain animals' digestive tracts. The compound is also found in several different varieties of vegetables and fruits. <P> Best Answer: Seratonin and dopamine are both endorphins. Endorphins are psychoactive chemicals released by the brain in response to certain stimuli. All drugs considered to be psychoactive drugs; illegal as well as prescribed cause the release of endorphins that effect brain chemistry. Report Abuse. Serotonin is the good mood hormone. Dopamine is the hormone that allows a user to have a very excited/sensitive state. Endorphin is the natural pain reliever. Serotonin is activated when the person is in an elevated mood. It's the cause of this mood. <P> Dopamine is closely linked to mood and is part of our pleasure response, which is why good sex causes the brain to be flooded with dopamine. It is also linked to motivation and movement, and a lack of dopamine plays a part in several mental health disorders, including depression.	Serotonin is the good mood hormone. Dopamine is the hormone that allows a user to have a very excited/sensitive state.
where is magnolia oh	<P> Magnolia is a village in Carroll and Stark counties in the U.S. state of Ohio. The population was 978 at the 2010 census. It is part of the Canton – Massillon Metropolitan Statistical Area. Magnolia is located at 40°39′9″N 81°17′46″W / 40.65250°N 81.29611°W / 40.65250; -81.29611 (40.652546, -81.296119), along Sandy Creek. According to the United States Census Bureau, the village has a total area of 0.87 square miles (2.25 km 2), all land. Magnolia lies at the intersection of State Routes 183 and 542. <P> In 1834 Richard Elson and John W. Smith laid out the village of Magnolia in Sandy Township. In 1836, Isaac Miller platted the village of Downingville in Rose Township. The towns merged and became Magnolia on February 1, 1846. Magnolia is located at 40°39′9″N 81°17′46″W / 40.65250°N 81.29611°W / 40.65250; -81.29611 (40.652546, -81.296119), along Sandy Creek. According to the United States Census Bureau, the village has a total area of 0.87 square miles (2.25 km 2), all land. Magnolia lies at the intersection of State Routes 183 and 542. <P> Follow magnolia ohio to get e-mail alerts and updates on your eBay Feed. Unfollow magnolia ohio to stop getting updates on your eBay Feed. Yay! You're now following magnolia ohio in your eBay Feed. Related: dellroy carrollton ohio augusta ohio juanita pottery fly line tin harlem springs gi joe magnet new rumley mechanicstown amsterdam ohio waynesburg ohio macioci. <P> Ohio's native magnolias include Tulip-tree, Cucumber-tree, Umbrella Magnolia, and Bigleaf Magnolia. The magnolia family, Magnoliaceae, is represented by two genera in North America, Magnolia and Liriodendron. This family has a very ancient lineage in the broad-leaved group. Fossils of numerous, now extinct magnolia species have been found which date back about 60 million years to the upper Cretaceous Period. <P> According to our research of Ohio and other state lists there were 2 registered sex offenders living in Magnolia, Ohio as of October 07, 2015. Colleges/universities with over 2000 students nearest to Magnolia: 1 Malone University (about 13 miles; Canton, OH; Full-time enrollment: 2,201). 2 Walsh University (about 16 miles; North Canton, OH; FT enrollment: 2,553). 3 Kent State University at Stark (about 17 miles; Canton, OH; FT enrollment: 3,259). <P> After Ohio became a state in 1803, people came on The Great Trail by foot, horseback, wagons and stagecoach. Magnolia's founder, Richard Elson, emigrated from Virginia with his parents and settled near Mapleton in 1830. He purchased the land for $1,200 and in 1834 laid out sixty lots for the Village of Magnolia with the help of John Smith and John Whitacre. The part of Magnolia in Carroll County was originally called. The Tuscarawas Indians were the first to inhabit the Magnolia area. Most of these Indians were friendly to the white settler with some of them remaining in the area until as late as 1852. The first white settlers to come to the Magnolia area were Captain James Downing and Isaac Miller. Magnolia was started by settlers and homesteaders who came to claim land through the government land offices in Steubenville <P> Ohio: 4.1%. According to our research of Ohio and other state lists there were 2 registered sex offenders living in Magnolia, Ohio as of October 07, 2015. The ratio of number of residents in Magnolia to the number of sex offenders is 488 to 1. Colleges/universities with over 2000 students nearest to Magnolia: 1 Malone University (about 13 miles; Canton, OH; Full-time enrollment: 2,201). 2 Walsh University (about 16 miles; North Canton, OH; FT enrollment: 2,553). 3 Kent State University at Stark (about 17 miles; Canton, OH; FT enrollment: 3,259).	Magnolia is a village in Carroll and Stark counties in the U.S. state of Ohio.
canouan average temperature december	<P> Climate Average daytime temperatures range from 24 C/75 F to 30 C/87 F. Driest season is December to May. The coolest month occur between November and February. Currency Canouan uses the local Eastern Caribbean Dollars (EC$). <P> The numbers allow you to compare typical December daily high and low temperatures for the 33 largest Canadian cities, ranging from St John's, Newfoundland in the east to Victoria, British Columbia in the west. These are all the metropolitan areas that, according to Statistics Canada, had at least 100,000 people in 2011. Average Temperatures in December for Canadian Cities. Average temperatures for December at major cities across Canada are listed below in degrees Celsius and Fahrenheit. <P> The average temperature at caribou of 12.9 degrees was 5.3 degrees below the 1981-2010 average temperature. There were only 9 days with an average temperature that was above normal, and there were no days with a high temperature above freezing after the 6th. It was the coldest December since 1989. At Bangor, the average temperature of 18.8 degrees was 5.8 degrees below average. It was also the coldest December since 1989. <P> Canouan (pronounced can-ah-wan) is an island in the Grenadines Islands belonging to St Vincent. It is a small island, measuring only 3.5 miles (5.6 km) by 1.25 miles (2 km). The population is about 1,200 people. A barrier reef runs along the Atlantic side of the island. <P> Averages for Cancun in December. Weather lowdown. December is a very cool time to visit Cancun, Mexico, when the average temperature is 24°C, created by highs of 28°C at the hottest part of the day, cooling down to 21°C after sunset. During this winter month, the resort enjoys eight hours of sunshine each day and an average sea temperature of 27°C. With 109mm of rainfall over five days, there is a small chance you’ll experience a shower during your holiday. <P> Typical Weather in December. December temperatures in the Caribbean range from an average low of 73.3 degrees to an average high of 82.9 degrees. Rain occurs in the Caribbean a total of 11.4 days during an average December. Total precipitation during the month averages 3.7 inches. Bear in mind, however, that all precipitation, no matter how slight, is considered in the tables on this page. <P> The most important weather conditions to be aware of are: * 1 Average temperatures. * 2 Average high and low temperatures. * 3 Average rainfall. * 4 Average sea temperatures. * 5 Average number of sunshine hours. * 6 Average number of fog days. * 7 Average number of snow days. <P> Temperature. Caribbean temperatures during December are slightly cooler than in previous months. The Bahamas and Cuba in the northern Caribbean have the most noticeable decline in heat. Ocean temperatures this month average 79 degrees Fahrenheit in the Bahamas and 81 °F around most islands to the south. Information on the weather in December for cities and beach towns throughout the Caribbean has been pulled together here. The December temperatures and rainfall given in the table below allow you to compare the climate for places on two dozen islands. The monthly averages are based on historical weather records. These temperatures are in degrees Fahrenheit. You can also view the temperatures in degrees Celsius	24 C/75 F to 30 C/87
how much does childcare cost in london	<P> The cost of childcare varies depending on the type of childcare and your location. The tables below give you an idea of how much different childcare might cost on average if your children are too young to qualify for free early years education (England only). <P> One of the biggest costs for working families ends up being childcare, on average a full-time place costs £11,000 a year and if you live in London it ends up being £14,000. Fortunately, there are ways to trim the bill, we explain how. <P> Find the right childcare option for you with our guide to childcare options. In Britain, the average cost of sending a child under two to nursery is: 1 £115 per week-part time. 2 £212 per week-full time. <P> Mind the brat: Childcare costs can mount up. According to the charity, the average annual cost of a childminder looking after a child under two in England is now £3.93 per hour across Britain. Childminders who pick up children after school charge on average £72.78 per week. <P> How much you spend on childcare depends on a number of factors, including: For more information about your options, read our childcare choices article. The typical cost of a full-time day nursery place is £177 a week for a child younger than two. In some areas, such as inner London, it may cost a lot more than that. While your child is less than two years old, you'll find day nursery places tend to be more expensive. <P> For instance the average cost of a nursery place for under 2s in Inner London is £226 a week, while in the East Midlands it's just £141 a week. However, some parents were found to be paying up to £400 a week for a nursery place-an amount that adds up to a staggering £20,800 a year. <P> The £11,000 a year average cost of a nursery becomes even more expensive if you live in London or South East where you could face costs of on average £14,000. If you had two children in nursery in London full time you would need a spare £28,000, more than the average salary in the UK. <P> Prices vary according to the type of childcare that you need, the hours that you need childcare for and the experience and qualifications that your chosen candidate has. Location also affects the price of childcare, for example Nannies in London cost considerably more than Nannies in Birmingham or Nannies in Manchester.	Costs of on average £14,000 a year.
how long should soreness last after working out	<P> But that’s just not true. “It doesn’t mean that you’re not getting as good of a workout because you’re not crippled the next day,” says Monica Vazquez, NASM certified personal trainer. “You should feel [soreness] 24 hours to three days after the activity. <P> There are two types of muscle soreness: 1). – This is the muscle soreness your feel during and shortly after a workout. 2). – also referred to as DOMS, this is the muscle soreness you feel 24 hours after your workout, which may last up to 72 hours. After a your muscles get sore, they rapidly adapt to reduce further damage from the same exercises, which is called the “repeated-bout” effect. <P> From a microscopic level, training with weights causes muscles to slightly tear in an event called microtrauma. There’s nothing wrong with this. Depending on the intensity of the workout, soreness can last anywhere from 1 to 5 days after the workout is complete. To minimize the aches and maximize your results, follow these guidelines. If your soreness is spread over your muscles, that’s fine. <P> You may notice some muscle aches while you are exercising. This is called acute soreness. More often, you may begin to feel sore about 12 hours after exercising, and the discomfort usually peaks at 48 to 72 hours after exercise. This is called delayed-onset muscle soreness. It is thought that, during this time, your body is repairing the muscle, making it stronger and bigger <P> If you feel pain or soreness while working out and it doesn’t start to go away after 72 hours, you may have an injury such as a strained or pulled muscle. If you think you have a strain or a sprain, try the RICE approach: rest, ice, compression, and elevation. This is called acute soreness. More often, you may begin to feel sore about 12 hours after exercising, and the discomfort usually peaks at 48 to 72 hours after exercise. This is called delayed-onset muscl <P> · just now. Report Abuse. i am in gymnastics, and i get sore a lot, usually soreness just lasts 1 to 2 days, depending how hard you pushed yourself that day, you might be ok to go and do paint ball on Thursday, what usually works for me is if i just go through the pain for the first few days i am fine after 4, 5 days. It should go away after a couple of days but it is impossible to tell exactly how long. It normally lasts from 2-5 days but it could be more or less depending on the injury. Try going to your local drugstore like cvs or wallgreens. <P> Best Answer: It depends on how hard you worked out those muscles. You can be sore anywhere from 1 day to 4 days, but the soreness will end alot quicker if you exercise those muscles while they are still sore, just not as intensely. Weight lifting should only be done every other day or 3 days a week with rest in-between. Muscles take at least 24 hours to heal. With intense workouts, it might take up to 48-74 hours. Tip: If your muscle get sore for more than 2 day or longer than you wanted, decrease the intensity. Vincent · 8 years ago. <P> Yes, you should keep working out even though you are sore, but there is more to it than that. Muscle soreness has two primary causes. The first soreness you experience happens during your workout (the burn) and should subside within a couple of hours. This is caused by lactic acid production. 6. You absolutely must rest the muscles you worked for 1-2 days after a workout. Take at least one day off between strength training sessions, and if you are still very sore, take 2 days off. (This means from lifting, not from all exercise such as cardio)	Up to 72 hours
what is quantum biofeedback	<P> Simply put, Quantum Biofeedback assists health practitioners to find energetic imbalances. It is applied through the use of a device called the SCIO or INDIGO (latest upgrade); an incredibly accurate system based on the science of Quantum Physics. Quantum Biofeedback is totally non-invasive. The SCIO or INDIGO requires only 5 comfortable straps that wrap around your wrists, ankles and forehead. A quick three-minute test is performed energetically and the results are fed into the computer software. <P> Quantum Biofeedback helps clients learn how to reduce these electrical frequencies and thus reduce their levels of stress and pain. This is done through a process of relaxing deep within and letting go of the attachments to these thoughts and feelings that are at the root of their stress and pain. HOME. Quantum Biofeedback is an FDA registered bio-energetic device that measures your reactions to various stresses in your mind/body and feeds back to you what you need for balance and well being. <P> The function of Quantum Biofeedback is similar to that of a virus-scan on a computer. It finds the energetic imbalances of stressors such as viruses, nutritional imbalances, allergies, abnormalities, and food sensitivities by calculating the biological reactivity and resonance in your body. Quantum Biofeedback is totally non-invasive. The SCIO or INDIGO requires only 5 comfortable straps that wrap around your wrists, ankles and forehead. A quick three-minute test is performed energetically and the results are fed into the computer software. <P> By restoring electromagnetic harmony, quantum biofeedback allows your body to do what it does best: heal itself. Too many people are walking around at suboptimal health because they do not understand that their energy is out of alignment. If you or someone you know is suffering from impaired brain function, low cognition, low-functioning memory, depression, anxiety or attention deficit hyperactive disorder, quantum biofeedback may be the safe, non-invasive, non-medication therapy you are looking for. <P> From RationalWiki. Quantum biofeedback is a repackaging of biofeedback (a phenomenon that actually works) to encompass such respected New Age medical concepts as chakras, acupuncture meridians, energy-fields and the EM smog from modern living. But it is quantum. The idea of quantum biofeedback was invented by William Nelson, who fled from the US after lawsuits related to his false claims of healing the sick with his fake device. It appears he is now operating from Budapest marketing machines that do not cure diseases as claimed and can even be dangerous. <P> Quantum Biofeedback Therapy and How it Works. Quantum Biofeedback stimulates the body’s immune and energy systems in order to promote energy flow, while releasing stress previously caused by imbalanced frequencies. Quantum Biofeedback scans the client’s body looking for everything from viruses, deficiencies, weaknesses, allergies, abnormalities and food sensitivities. It reports on the biological reactivity and resonance in your body and indicates needs, dysfunctions and vulnerabilities. <P> Simply put. Quantum Biofeedback is a device used by health practitioners to assist in finding energetic stresses occurring in humans and animals. The function of Quantum Biofeedback is similar to that of a virus scan on a computer. It finds the energetic imbalances of the stressors such as viruses, nutritional imbalances, allergies, and food sensitivities by calculating the biological reactivity and resonance in the body <P> Quantum biofeedback is a completely safe, non-drug treatment that, when paired with proper nutritional support, behavioral therapy and lifestyle changes, can help people who are suffering from the long-term effects of elevated stress. If you or someone you know is suffering from impaired brain function, low cognition, low-functioning memory, depression, anxiety or attention deficit hyperactive disorder, quantum biofeedback may be the safe, non-invasive, non-medication therapy you are looking for.	It is a device used by health practitioners to assist in finding energetic stresses occurring in humans and animals.
what is a minimally viable product	<P> A minimum viable product has just those core features that allow the product to be deployed, and no more. The Business Model Canvas is used to map out the major components and activities for a company starting out. The Minimum Viable Product can be designed by using selected components of the Business Model Canvas : <P> A product may have many great features but building features doesn't help a product in search of a problem. The first version of a product is often referred to as a Minimum Viable Product, or in other words, a product that has just the core features that make the product work. The term Minimum Viable Product was popularized when it was referenced as part of the Lean Startup methodology. A Minimum Viable Product has just those core features that allow the product to be deployed, and no more. It is a strategy targeted at avoiding building products that customers do not want, that seeks to maximize the information learned about the customer per dollar spent. - Wikipedia. <P> Below you'll find the video of my remarks as well as the full slides embedded below. But I wanted to say a few words first. First, a definition: the minimum viable product is that version of a new product which allows a team to collect the maximum amount of validated learning about customers with the least effort. Some caveats right off the bat. MVP, despite the name, is not about creating minimal products. <P> Summary. The minimum viable product (MVP) is a powerful concept that allows you to test your ideas. It is not to be confused with the minimal marketable product (MMP), the product with the smallest feature set that still addresses the user needs and creates the right user experience. <P> Eric Ries and I recently sat down to talk about minimum viable products: the product with just the necessary features to get money and feedback from early adopters. The minimum viable product (MVP) is often an ad on Google. Or a PowerPoint slide. Or a dialog box. Eric: When you already have customers you need to have some way to experiment with making them an offer. In a lot of cases the minimum viable product really is just that offer. You can crisply articulate to customers what they’re going to get and how much they’re going to pay for it. <P> In product development, the minimum viable product (MVP) is the product with the highest return on investment versus risk. The term was coined and defined by Frank Robinson, and popularized by Steve Blank, and Eric Ries. The Business Model Canvas is used to map out the major components and activities for a company starting out. The Minimum Viable Product can be designed by using selected components of the Business Model Canvas : <P> So, the minimum viable product is that product which has just those features (and no more) that allows you to ship a product that resonates with early adopters; some of whom will pay you money or give you feedback. The idea of minimum viable product is useful because you can basically say: our vision is to build a product that solves this core problem for customers and we think that for the people who are early adopters for this kind of solution, they will be the most forgiving. <P> The minimum viable product is that version of a new product which allows a team to collect the maximum amount of validated learning about customers with the least effort. . The definition's use of the words maximum and minimum means it is decidedly not formulaic. The Business Model Canvas is used to map out the major components and activities for a company starting out. The Minimum Viable Product can be designed by using selected components of the Business Model Canvas : <P> A minimum viable product is therefore not a product. It is a minimum viable go to market step. You don’t want to waste your time and money building a product no one will want to use or pay for. So, first get out of the building and talk to your customers. But there’s a world of difference between talk and action. What your customers say, and what they eventually do.	Is the product with the highest return on investment versus risk.
how long do labradors sleep	<P> The amount of time spent napping varies from dog to dog and depends on the dog's age and personality. Counting little naps and longer snoozes, most puppies sleep from 18 to 20 hours a day. As your puppy ages, he will sleep less. Adult dogs sleep about fourteen hours a day. The various breeds of dogs also seem to have different sleep requirements. <P> Hi! I'm completely new here. I was just googling how much sleep a four month old lab puppy should sleep in a 24 hour period and I found you guys! We have Luna, who is 4 months old, and she is just darling. She is so calm and patient, but everyone has been commenting on how much she sleeps. <P> Dogs naturally sleep for far longer periods of time each day, than people do. Many adult Labradors will sleep for well over half of every 24 hours, and puppies under four months old may sleep as much as 20 hours a day. Dogs on the other hand though less dependent on their eyes, have better night vision than we do. So their ancestors could hunt both by day and by night, if necessary. Sleeping all night had no advantage to your dog, and dogs have not evolved a natural tendency to sleep for a single long stretch of time like we do. <P> How dogs have adapted to life with humans. Dogs are very adaptable creatures. Although your dog’s ancestors may have hunted at night, modern dogs have learned to live by our clocks. And living with humans means that most dogs do learn to sleep the night away in a single long stretch, just as we do. Dogs on the other hand though less dependent on their eyes, have better night vision than we do. So their ancestors could hunt both by day and by night, if necessary. Sleeping all night had no advantage to your dog, and dogs have not evolved a natural tendency to sleep for a single long stretch of time like we do. <P> Labrador Retriever won't sleep through the night. Subject:My Labrador Retriever won't sleep through the night. From: Suzanne (USA). Labrador Retriever Name: Graham. Reader's E-mail-Suzanne Writes: Graham is now 9 months old. From ground up he is about 29 inches. <P> There's no doubt about it: dogs sure know how to sleep. The amount of time spent napping varies from dog to dog and depends on the dog's age and personality. Counting little naps and longer snoozes, most dogs sleep about fourteen hours a day. Dogs sleep more than us, but they wake more frequently than we do. How much and when they sleep depends on the level of activity in their environment. A dog living as a pet in the home is likely to sleep more than a dog that works for a living, like a search and rescue dog or a dog working on a farm. <P> minimum of 8 hours of sleep for adults, but for kids they should be sleeping 9 to 12 hours. *Scientists have now stated that every person is different in the amount of sleep … their body requires. New Born to 3 years old should get 12-18 hours of sleep 3 Year to 5 year olds should get 11-13 hours of sleep 5 year to 12 year old shou … ld get 10 -12 hours of sleep 12- 18 year olds should get 8.5 -10 hours of sleep 18 and up should get 7.5 - 9 hours of sleep. 1 person found this useful. <P> New Born to 3 years old should get 12-18 hours of sleep 3 Year to 5 year olds should get 11-13 hours of sleep 5 year to 12 year old should get 10 -12 hours of sleep 12- 18 year olds should get 8.5 -10 hours of sleep 18 and up should get 7.5 - 9 hours of sleep. 3 people found this useful. New Born to 3 years old should get 12-18 hours of sleep 3 Year to 5 year olds should get 11-13 hours of sleep 5 year to 12 year old shou … ld get 10 -12 hours of sleep 12- 18 year olds should get 8.5 -10 hours of sleep 18 and up should get 7.5 - 9 hours of sleep. 1 person <P> The amount of sleep needed for each person is different. Children under 18 usually need more sleep, up to 10 hours a night. Adults should get between 7-8 hours per night b … e fully rested for optimum health. New Born to 3 years old should get 12-18 hours of sleep 3 Year to 5 year olds should get 11-13 hours of sleep 5 year to 12 year old shou … ld get 10 -12 hours of sleep 12- 18 year olds should get 8.5 -10 hours of sleep 18 and up should get 7.5 - 9 hours of sleep. 1 person found this useful.	Over half of every 24 hours
what nationality is the name huntley	<P> Huntley /hunt-ley/ [2 sylls.] as a boys' name is of Old English origin, and the meaning of Huntley is meadow of the hunter. Place name. Kreatif forms: Heintley, Hurtley. <P> English name. In English, the name Huntley means-from the hunters meadow.The name Huntley originated as an English name. The name Huntley is most often used as a boy name or male name. English Name Meaning-from the hunters meadow. Origin-England. <P> This is an interesting medieval locational name of English and Scots origin, from places so called in Gloucestershire, Berwick, and Aberdeen. The derivation is from the Olde English pre 7th Century hunta, a hunter, and leah, a wood or clearing in a wood. <P> Huntley is a rare first name for males but a very popular surname for both adults and children (#2715 out of 150436, Top 2%). (2000 U.S. Census). Shown below is the baby name popularity of Huntley for boys. <P> This is an interesting medieval locational name of English and Scots origin, from places so called in Gloucestershire, Berwick, and Aberdeen. The derivation is from the Olde English pre 7th Century hunta, a hunter, and leah, a wood or clearing in a wood. <P> Huntley Name Meaning. English: habitational name from a place in Gloucestershire, so named from Old English hunta ‘hunter’ (perhaps a byname (see Hunt) + leah ‘wood’, ‘clearing’).Scottish: habitational name from a lost place called Huntlie in Berwickshire (Borders), with the same etymology as in 1.	English and Scots.
how to study for the lpn acceptance program	<P> A: Yes, you will have to study pharmacology in LPN degree programs. This subject is an important part of all LPN degree programs. To earn an LPN degree, it is important that you complete all the subjects in the curriculum, including pharmacology. The curriculum of online and campus based programs are the same. A: The duration of the LPN degree and the associates degree vary. The LPN course can be completed within one year whereas the associates degree takes a minimum of two years to be completed. However, when both these programs are opted in an online program, there is no set criteria of the degree completion duration. <P> The minimum GPA requirement for most programs is a 2.5. However, due to the highly competitive nature of receiving a spot in a licensed practical nursing program, applicants with the highest GPAs tend to get first priority in the admissions process. A number of licensed practical nursing programs do require that applicants take a specified number of prerequisite classes. These classes tend to be science and mathematics classes, for example: 1 Medical Terminology. 2 Anatomy and Physiology. 3 Biology. 4 Freshman Intro Classes. <P> The tuition fee of an LPN program depends on the type of school you are enrolled at. For public colleges, the program can run for as low as $740 per semester. For private universities, it can reach up to $2,500 per semester. 1 LPN to RN Bridge Programs – This program is tailor-made for students who wish to attain an RN license. 2 It usually entails an additional year of study to complete an associate’s degree in nursing. 3 After that, students are to sit for the NCLEX-RN to obtain the RN license. 4 Learn More. <P> LPN Entrance Exam. Admission into the LPN Program at Jersey College requires a minimum proficiency on our Entrance Exam. Scoring on this exam determines your entering skill level and allows the school to place you appropriately. <P> Several LPN programs are available in every state with tuition ranging from $1,000 to $15,000 depending on the program. Although some program options are noteworthy, not all meet the criteria for approval by your state's Board of Nursing, the governmental agency that regulates nursing and determines license eligibility. College Based LPN Programs. This option can become expensive, costing anywhere from $3,500 to $15,000, but this option is ideal for those who cannot handle an intensive one-year program of study. Several pre-requisite courses are required, including biology, chemistry, psychology, anatomy, physiology and math. <P> In order to be accepted into an LPN program, most schools require a high school diploma with a GPA of at least 2.0 or a GED certificate. You will need to show proof of citizenship, and if English is your second language provide official results of your TOEFL (Test of English as a Foreign Language) test. 1 You want to choose a school that has a high “pass rate”. 2 School Accreditation-There are two organizations that can accredit LPN schools. 3 They are the National League of Nursing Accrediting Agency (NLNAC). 4 This accreditation status means that the schools meets the standards for LPN set by the agency. <P> High School Diploma or GED. Before being able to apply for admission to an accredited licensed practical nursing program, it is essential for the applicant to have completed high school and to have received a diploma. A number of licensed practical nursing programs do require that applicants take a specified number of prerequisite classes. These classes tend to be science and mathematics classes, for example: 1 Medical Terminology. 2 Anatomy and Physiology. 3 Biology. 4 Freshman Intro Classes. <P> Admission to the LPN program is competitive, and applicants are ranked according to total number of college credits and grades in their pre-major courses, especially math and science. 1 Programs Offered: Practical Nursing Certificate. 2 Tuition & Fees (2012-2013) : $14,370, in-state; $18,000, out-of-state*. <P> The LPN program requires the PAX-PN exam (National League for Nursing Pre-Admission Examination). The ADN program requires the HESI Admission Assessment Exam. The C.O.D. Library contains a variety of print and electronic resources that will assist with examination preparation. <P> 1 Cost-An LPN program can range in price from $4000 - $20,000 for the entire program. 2 Cost may be more or less of an issue for you. 3 Usually you get what you pay for but now always! 4 Location-If you wish to keep costs low, you may want to choose an LPN program near home. 1 You want to choose a school that has a high “pass rate”. 2 School Accreditation-There are two organizations that can accredit LPN schools. 3 They are the National League of Nursing Accrediting Agency (NLNAC). 4 This accreditation status means that the schools meets the standards for LPN set by the agency.	High school diploma with a GPA of at least 2.0 or a GED certificate. You will need to show proof of citizenship, and if English is your second language provide official results of your TOEFL (Test of English as a Foreign Language) test. You want to choose a school that has a high “pass rate”. 2 School Accreditation-There are two organizations that can accredit LPN schools. 3 They are the National League of Nursing Accrediting Agency (NLNAC). 4 This accreditation status means that the schools meets the standards for LPN set by the agency.
why are flatworms flat	<P> Marine flatworms: The marine flatworms (polycladids) are the largest of the free-living flatworms, sometimes reaching lengths of 15 centimeters. Polycladids get their name from their highly branched digestive cavity. These individuals were photographed on a reef near the island of Guam. Life without a coelom: The image at left is a fluke (possibly a species of Probolitrema). Flukes, like other parasitic flatworms, have complex life cycles often involving two or more host organisms. At right, a planarian (Dugesia). Planarians are free-living flatworms, and have a much simpler life history. They inhabit freshwater, and are carnivores (even without teeth) or scavengers <P> From Wikipedia, the free encyclopedia. The flatworms, or Platyhelminthes, Plathelminthes, or platyhelminths (from the Greek πλατύ, platy, meaning flat and ἕλμινς (root: ἑλμινθ-), helminth- , meaning worm) are a phylum of relatively simple bilaterian, unsegmented, soft-bodied invertebrates. Most turbellarians have pigment-cup ocelli (little eyes), one pair in most species, but two or even three pairs in some. A few large species have many eyes in clusters over the brain, mounted on tentacles, or spaced uniformly around the edge of the body. <P> Platyhelminthes are also known as flatworms because they are worms with a flat body. This is the main external morphological feature that differentiates them from nematodes (roundworms). Turbellarians are free-living platyhelminthes and their main representative is planaria (Dugesia tigrina). Trematodes are parasites, which live inside a host,. The schistosome (Schistosoma mansoni) that causes schistosomiasis is an example of one. <P> Platyhelminthes. are commonly called flatworms. There are both. parasitic. (dependent on a host organism for survival) and. free-living. forms of this group. Flatworms, either parasitic or free-living forms, have both sexes on the same individual, a condition referred to as. hermaphroditic. . <P> student. There is a special reason that flatworms are flat. Because of their flatness the area of their 'body' is bigger (so a bigger surface area). Through this characteristic, they are able to diffuse more in and out of their endosystem. because <P> All flatworms have a soft body and a triangle-shaped head. They also have eye-spots on top of their heads which can see light. Flatworms are not closely related to most other worms, such as earthworms. Bodies are flat instead of round, and they do not have segments. Flatworms spend most of their time on the bottom, especially since they can't swim. They release sticky mucus (a lot like slugs and snails) which they glide on top of. <P> Over half of all known flatworm species are parasitic, and some do enormous harm to humans and their livestock. Schistosomiasis, caused by one genus of trematodes, is the second-most devastating of all human diseases caused by parasites, surpassed only by malaria. Most turbellarians have pigment-cup ocelli (little eyes), one pair in most species, but two or even three pairs in some. A few large species have many eyes in clusters over the brain, mounted on tentacles, or spaced uniformly around the edge of the body. <P> Flatworms also have a feature that the sponges and cnidarians do not, a middle layer of actual organized cells. Flatworms have three cell layers: an ectoderm, an outer covering like the other groups have; an endoderm, a lining of the digestive spaces somewhat like a cnidarians; and a mesoderm between the other two. With actual tissues protected like this, another evolutionary explosion of features happened. Mesoderm allows tissues to organize into organs and even connect in organ systems, so flatworms are much, much more complex than cnidarians. It is thought that flatworms are descended from some type of early jellyfish. The types of organs and organ systems vary among the groups of flatworms.	Because of their flatness the area of their 'body' is bigger (so a bigger surface area).
pain medication that may cause blood in urine	<P> Urinary Tract Infection. The most common cause of white blood cells in urine, a urinary tract infection (UTI) often involves infection in the urethra or ureter. If you have a UTI, you will most often have pain and burning when you urinate. In addition, you may notice blood in your urine (hematuria). Treatment <P> Blood in the urine which is also known as hematuria is not always a problem for concern. Exercise which is strenuous may cause urine to have blood in it as well as numerous drugs, for instance aspirin. However urinary bleeding without pain may also be an indication of a disorder that is serious. There are 2 kinds of urine in the blood. When blood can be readily seen is referred to as gross hematuria <P> In hematuria, your kidneys — or other parts of your urinary tract — allow blood cells to leak into urine. A number of problems can cause this leakage, including: Urinary tract infections. Urinary tract infections often occur when bacteria enter your body through the urethra and begin to multiply in your bladder. Symptoms can include a persistent urge to urinate, pain and burning with urination, and extremely strong-smelling urine. <P> Hematuria can be caused due to many different reasons; however, these are some of the possible causes of occurrence of urine with some amount of blood. Any conditions that may result in infection, injury or inflammatory condition of urinary system may also cause the blood to appear in urine. <P> Medications or substances causing Blood in urine. The following drugs, medications, substances or toxins are some of the possible causes of Blood in urine as a symptom. This list is incomplete and various other drugs or substances may cause your symptoms (see Blood in urine). Always advise your doctor of any medications or treatments you are using, including prescription, over-the-counter, supplements, herbal or alternative treatments. 1 Accutane. 2 Aches-N-Pain. 3 Advil. 4 Aleve. 5 Alferon N. <P> 1 Bladder infections (acute cystitis). 2 In adults, bladder infections usually cause burning or pain with urination. 3 Infants with bladder infections may have fever, be irritable, and feed poorly. 4 Older children may have fever, pain and burning while urinating, urgency, and lower belly pain. 1 Kidney infections (pyelonephritis). 2 Symptoms may include fever, chills, and flank pain, which refers to pain in the lower back. 3 Kidney stones. 4 Symptoms may include severe abdominal or pelvic pain. 5 Kidney diseases. 6 Symptoms may include weakness, high blood pressure, and body swelling, including puffiness around the eyes. <P> 1 Kidney injury. 2 A blow or other injury to your kidneys from an accident or contact sports can cause blood in your urine that you can see. 3 Medications. 4 The anti-cancer drug cyclophosphamide (Cytoxan) and penicillin can cause urinary bleeding. Urinary tract infections often occur when bacteria enter your body through the urethra and begin to multiply in your bladder. Symptoms can include a persistent urge to urinate, pain and burning with urination, and extremely strong-smelling urine. <P> 1 Cancers: Kidney and bladder cancers may be associated with blood in the urine. 2 Injury: Trauma to the urinary tract can cause bleeding into the urine. 3 Drugs: Medications including aspirin, heparin, and penicillin can cause hematuria. 1 Nephrolithiasis: Kidney or bladder stones may form inside the urinary tract and can cause bleeding into the urine. 2 Kidney disease: Diseases of the kidney can be associated with blood in the urine. 3 Prostate gland enlargement: Enlargement of the prostate can compress the urethra and partially block the flow of urine. <P> These include: 1 Bladder infections (acute cystitis). 2 In adults, bladder infections usually cause burning or pain with urination. 3 Infants with bladder infections may have fever, be irritable, and feed poorly. 4 Older children may have fever, pain and burning while urinating, urgency, and lower belly pain. 1 Kidney infections (pyelonephritis). 2 Symptoms may include fever, chills, and flank pain, which refers to pain in the lower back. 3 Kidney stones. 4 Symptoms may include severe abdominal or pelvic pain. 5 Kidney diseases. 6 Symptoms may include weakness, high blood pressure, and body swelling, including puffiness around the eyes.	Aspirin, Heparin, Penicillin and Cyclophosphamide.
medication that can cause kidney problems	<P> Topic Overview. Many medicines can cause acute kidney injury (acute renal failure), such as: 1 Antibiotics. 2 These include aminoglycosides, cephalosporins, amphotericin B, bacitracin, and vancomycin. 3 Some blood pressure medicines. 4 One example is ACE inhibitors, such as lisinopril and ramipril. 5 Another is angiotensin receptor blockers. <P> Kidney failure may occur from an acute situation that injures the kidneys or from chronic diseases that gradually cause the kidneys to stop functioning. In acute renal failure, kidney function is lost rapidly and can occur from a variety of insults to the body. <P> Most street drugs, including heroin, cocaine and ecstasy can cause high blood pressure, stroke, heart failure and even death, in some cases from only one use. Cocaine, heroin and amphetamines also can cause kidney damage. <P> 1. Antibiotics. Antibiotics drugs are widely used to treat infections. However some antibiotics such as ciprofloxacin, methicillin, vancomycin, sulfonamides can cause toxins buildup in the kidneys and deterioration of kidney functions. 2. <P> Our kidneys have great compensatory ability, but they are also very fragile organ. Many factors can cause kidney damages and lead to kidney disease or even kidney failure such as drugs, injuries, systemic diseases, etc. Since the kidneys have the important function to filter blood and discharge wasteful and toxic substances from the blood. <P> Many medicines can cause acute kidney injury (acute renal failure), such as: 1 Antibiotics. 2 Some blood pressure medicines. 3 Medicines used for cancer treatment (chemotherapy). 4 Dyes (contrast media). 5 Illegal drugs. 6 Medicines used to treat HIV. 7 Nonsteroidal anti-inflammatory drugs. 8 Ulcer	Antibiotics,Some blood pressure medicines,Medicines used for cancer treatment (chemotherapy),Dyes (contrast media) Illegal drugs,Medicines used to treat HIV,Nonsteroidal anti-inflammatory drugs,Ulcer medicines.
how long does lawn seed take to germinate	<P> The amount of time needed for grass seed to germinate depends on the type of grass planted. Bluegrass is visible after 20 to 30 days. Bermuda grass sprouts after 10 to 30 days. Rye grass can grow in as little as five days. <P> Submit. The amount of time needed for grass seed to germinate depends on the type of grass planted. Bluegrass is visible after 20 to 30 days. Bermuda grass sprouts after 10 to 30 days. Rye grass can grow in as little as five days. <P> The germination time for grass seed ranges from 5 to 30 days depending on the variety. It can be even longer than this in cooler temperatures. This is how long it will take to actually see the grass growing. Until this point, the seed, or the soil and mulch in contact with the seed, must stay moist. <P> How long does it take for seed to grow. Different seed mixtures establish at different speeds. As a general rule, hardwearing mixtures usually contain ryegrass and red fescue, two species that establish quite quickly-they can germinate in as little as 3-4 days, but 7-10 days is more average. <P> Cool-season grasses tend to germinate quickly, usually between three and 14 days. Perennial rye grass (Lolium perenne), which thrives in U.S. Department of Agriculture plant hardiness zones 3 through 8, can germinate in as few as five days, although it can take up to 10 days, for example. <P> Concerning how long does grass seed take to grow, if the conditions are good and the variety of grass used is of the type that grows fast, within a week’s time the result may be a lush green patch in the lawn. While it may not be properly grown yet the visible result may take about two to three weeks. <P> The normal duration at which the seed of the grass germinates is between 6 to 10 days after the seed has been planted. However it can also take from minimum 4 days to maximum forty days. The climate condition during which the seed is sown is also very essential for the seeds to germinate faster and to grow.	5 to 30 days.
what are intrusions	<P> Technically speaking, an intrusion is any formation of intrusive igneous rock; rock formed from magma that cools and solidifies within the crust of the planet. In contrast, an extrusion consists of extrusive rock; rock formed above the surface of the crust. Intrusive structures are often classified according to whether or not they are parallel to the bedding planes or foliation of the country rock: if the intrusion is parallel the body is concordant, otherwise it is discordant. A well-known example of an intrusion is Devils Tower. <P> Magma slowly pushes up from deep within the earth into any cracks or spaces it can find, sometimes pushing existing country rock out of the way, a process that can take millions of years. As the rock slowly cools into a solid, the different parts of the magma crystallize into minerals. Intrusive structures are often classified according to whether or not they are parallel to the bedding planes or foliation of the country rock: if the intrusion is parallel the body is concordant, otherwise it is discordant. A well-known example of an intrusion is Devils Tower. <P> noun. The definition of an intrusion is an unwelcome interruption or a situation where somewhere private has an unwelcome visit or addition. When you are having a quiet nap in your backyard and your neighbor's dog comes in uninvited and jumps all over you to wake you up, this is an example of an intrusion. Noun. (plural intrusions). 1 The forcible inclusion or entry of an external group or individual; the act of intruding. ( 2 geology) Magma forced into other rock formations; the rock formed when such magma solidifies. <P> Definition of INTRUSION. 1. : the act of intruding or the state of being intruded; especially: the act of wrongfully entering upon, seizing, or taking possession of the property of another. 2. : the forcible entry of molten rock or magma into or between other rock formations; also: the intruded magma. See intrusion defined for kids. <P> Igneous Intrusions. Igneous intrusions form when magma cools and solidifies before it reaches the surface. Three common types of intrusion are sills, dykes, and batholiths (see image below). form when magma intrudes between the rock layers, forming a horizontal or gently-dipping sheet of igneous rock. <P> An intrusion is an igneous rock body that forms from crystallized magma under Earth's surface. Intrusive structures are often classified according to whether or not they are parallel to the bedding planes or foliation of the country rock: if the intrusion is parallel the body is concordant, otherwise it is discordant. A well-known example of an intrusion is Devils Tower. <P> 1. the act or an instance of intruding; an unwelcome visit, interjection, etc: an intrusion on one's privacy. 2. (Geological Science). a. the movement of magma from within the earth's crust into spaces in the overlying strata to form igneous rock. [ɪnˈtruːʒən] n → intrusion f. I hope you don't mind this intrusion → J'espere espère que vous me pardonnerez cette. intrusion an intrusion into'sb s → privacy un atteinte a à la vie privee. Privée de qn it was an unthinkable intrusion into → Our'private life c etait était une atteinte a à notre vie. privee privée tout a à fait impensable <P> An intrusion detection system (IDS) is a device or software application that monitors network or system activities for malicious activities or policy violations and produces reports to a management station. IDS come in a variety of “flavors” and approach the goal of detecting suspicious traffic in different ways. Though they both relate to network security, an intrusion detection system (IDS) differs from a firewall in that a firewall looks outwardly for intrusions in order to stop them from happening. Firewalls limit access between networks to prevent intrusion and do not signal an attack from inside the network. <P> The solidification of such injected magma leads to the formation of intrusive rock. (2) An intrusion is a geological body composed of igneous rock and formed in the process of injection and solidification of mag-matic melt in the earth’s crust (intrusion, intrusive body, plutonic intrusion). In relation to the structure of the country rock, intrusions are classified as concordant and discordant. Intrusions are classified according to the depths at which the magmatic intrusion occurred as deep-seated intrusions (abyssal) and shallow-depth intrusions (hypabyssal). In this context the conditions of cooling of the magma and its effect on surrounding rock differ sharply.	Is an unwelcome interruption or a situation where somewhere private has an unwelcome visit or addition.
How can I take care of a duck egg to make it hatch	<P> Here is a neat and easy project on how to make a chicken egg incubator. Doesn't take long to make. The eggs will hatch in 21 days. I give you all the guidelines for successfully incubating the chickens including what to do and how to make the incubator. About My Channel: I have hundreds of videos covering all kinds of creative projects. <P> Feed and water should be available for the broody duck and for the ducklings when they hatch. Egg Storage If eggs are stored for a while before they are set, they should be stored at a temperature and humidity level that will minimize deterioration of the egg. For a small number of eggs, storage in a cellar may suffice. If the duckling is developing normally, the air cell should occupy about one-third of the space inside the egg at 25 days of incubation (common ducks). Weight loss can also be used as a guide. Common duck eggs should lose about 14% of their weight at time of setting by 25 days. <P> Pekin duck eggs are kept in a setter for 25 days and then transferred on the 25th day to a hatcher where they remain until they hatch on the 28th day. Eggs are automatically turned while in the setter (usually hourly), but not in the hatcher. If the duckling is developing normally, the air cell should occupy about one-third of the space inside the egg at 25 days of incubation (common ducks). Weight loss can also be used as a guide. Common duck eggs should lose about 14% of their weight at time of setting by 25 days. <P> Eggs from common ducks like Pekins require 28 days to hatch. Eggs from Muscovy ducks hatch in about 35 days after setting. When larger numbers of duck eggs are to be hatched, large commercial incubators (setters) and hatchers are normally used. If the duckling is developing normally, the air cell should occupy about one-third of the space inside the egg at 25 days of incubation (common ducks). Weight loss can also be used as a guide. Common duck eggs should lose about 14% of their weight at time of setting by 25 days. <P> Incubating and Hatching Duck Eggs. The incubation and hatching of duck and goose eggs is not a difficult experience and can be very rewarding. Besides the information below, there is valuable incubation information elsewhere on our website. <P> Clean eggs keep the incubator clean and give you a higher hatch rate. As you are collecting the duck eggs for hatching, keep them a room temperature of 65* to 75*F and turn them once a day. I put mine in an egg carton, small side down, and support one end of the egg carton on a book. To turn the eggs, I change the end of the carton that is raised. While for incubating chicken eggs I keep these holes covered until the final 4 days of the hatch, when incubating duck eggs I keep these holes constantly open. In the final week, as you get closer to hatching, be sure that the Hova-bator has all ventilation holes uncovered. <P> When larger numbers of duck eggs are to be hatched, large commercial incubators (setters) and hatchers are normally used. Pekin duck eggs are kept in a setter for 25 days and then transferred on the 25th day to a hatcher where they remain until they hatch on the 28th day. As the duckling develops inside the egg there is a loss of water from the egg and an increase in the size of the air cell. If the duckling is developing normally, the air cell should occupy about one-third of the space inside the egg at 25 days of incubation (common ducks). Weight loss can also be used as a guide. <P> Eggs from common ducks like Pekins require 28 days to hatch. Eggs from Muscovy ducks hatch in about 35 days after setting. When larger numbers of duck eggs are to be hatched, large commercial incubators (setters) and hatchers are normally used. Pekin duck eggs are kept in a setter for 25 days and then transferred on the 25th day to a hatcher where they remain until they hatch on the 28th day. Eggs are automatically turned while in the setter (usually hourly). It is not necessary to turn eggs in the hatcher. <P> How to Hatch a Mallard Duck Egg. Mallard ducks are amazing animals. And sometimes you want to help them hatch. It's important to not remove wild ducks eggs from any nest without the proper cause; however, if the mother is confirmed missing for over a period of 48 hours, you may be able to help. Ad. To increase your chances of a complete hatch the sooner you put them in to hatch the better. Before placing eggs in the incubator use a pencil and gently write an O on one side and an X on the other side (sides not top and bottom).	Pekin duck eggs are kept in a setter for 25 days and then transferred on the 25th day to a hatcher where they remain until they hatch on the 28th days.

Subsets and Splits

No community queries yet

The top public SQL queries from the community will appear here once available.