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question stringlengths 8 144	positive_context stringlengths 38 1.17k	negative_context_0 stringlengths 50 1.06k	negative_context_1 stringlengths 19 1.03k	negative_context_2 stringlengths 41 1.11k	negative_context_3 stringlengths 22 1.09k
how much money is it per credit hour in utep	Physical Therapy Major Fee - $50.00 per semester with a declared major in Physical Therapy. ADDITIONAL REQUIRED FEES. Graduate Student Service Fee for Courses Held at the Graduate Business Center - $125 per semester credit hour for each course section that is offered at UTEP's Graduate Business Center. International Student Services Fee - $25.00 per student per term. Applied only to International Students.	Tuition and Fees ‐ The average cost of tuition and fees for a typical student based on enrolling for 30 credit hours per academic year including 6 hours in the summer semester.	$21,668.00. The average cost of tuition and fees for a typical student based on enrolling for 21 credit hours per academic year including 3 hours in the summer semester.	Tuition and Fees. The average cost of tuition and fees for a typical student based on enrolling for 21 credit hours per academic year including 3 hours in the summer semester. The actual costs that a student incurs will vary depending on the student's degree or certificate program.	$17.26. Consult the Cost of Attendance table on the Student Financial Affairs website for the estimated total cost for a full-time student. * Fees consist of a $5.25 Financial Aid fee, a $5.25 Technology fee and a $6.76 Capital Improvement fee per credit hour.
age difference between shahid and his wife mira	Shahid Kapoor and Mira Rajput. In what has been termed as 'the Bollywood shaadi of the year,' Shahid Kapoor and Mira Rajput tied the knot on July 7, 2015. There is a 13-year age difference between the 34-year-old Bollywood heartthrob and the 21-year-old student from Lady Shri Ram College.	The couple’s alliance was arranged by their parents who are followers of the same faith. Shahid had also met his future wife on a few occasions. However, Mira had second thoughts about getting married to the celebrity, the reason being the age difference between the two. Shahid is 34 years old while Mira is 21. As Bollywoodlife.com reported, it was Mira’s elder sister who convinced her for the marriage.	There have been rumors about Mira Rajput married Shahid Kapoor or Shahid Kapoor wife pregnant but the actor has denied it all and has come out open about his relationship. Shahid Kapoor Mira Rajput wedding date was 07 July, 2015 and Mira Rajput marriage with the star Bollywood actor shall mark enormous grandeur. The would be husband of Mira Rajput has been linked with many actresses like Vidya Balan, Amrita Rao, etc.; but now it’s time for his wedding bells.	Shahid Kapoor and Mira Rajput. Shahid and Mira have a wide age gap between them. Shahid is 13 years older than his wife Mira. Mira is 21 and Shahid is 34 years old.	Shahid Kapoor wife Mira Rajput biography has garnered information about Mira Rajput Delhi based girl but the exact date for Mira Rajput date of birth is 07 September, 1994, therefore, as of now, Shahid Kapoor wife age is 21 years only and Shahid Kapoor Mira Rajput age difference is nearly of ten years.
normal wbc for child	Normal Range. For most children, as well as adults, the normal range of total WBCs is 4,500 to 11,000 WBCs per microliter. This number is elevated in newborns, up to 9,000 to 30,000 WBCs per microliter, but this number should fall to the adult level after about two weeks of life.	Low White Blood Cell Count (Neutropenia). White blood cells fight infection. A normal white blood cell count is between 5,000 and 10,000 cells. A white blood cell count below 1,000 cells increases the risk of infection. In some cases, your child may be given a medicine, such as “G-CSF (granulocyte-colony stimulating factor) ,” to help increase the number of white blood cells in the bone marrow.	Normal WBC range in children is 4,500 to 11,000 per microliter. Photo Credit lab image by Alhazm Salemi from Fotolia.com. White blood cell (WBC) counts are indicative of the immune status of your child. Total white blood cell counts are similar for children and adults; however, newborns have greatly raised WBC ranges, which typically approach normal adult levels, about two weeks after birth.	For example, if your child had a white blood cell count of 3000, we might just consider this to be normal for your child even though it is below the lower limit of normal on some tests. The symptoms of mild fever, cough, and the diagnosis of croup really don't play a role in this finding.	The normal number of WBCs in the blood is 4,500-10,000 white blood cells per microliter (mcL). Normal value ranges may vary slightly among different labs. Some laboratories use different measurements or may test different specimens. Talk to your doctor about your test results.
oral maxillofacial surgeon salary usa	Oral Surgeon Salary in the USA. In the USA the average annual expected salary of an Oral surgeon is $247,450. The highest earning of these professionals is expected to earn about $164 per hour totaling an income of over $300,000 per year. These are considered to be in the 90 th percentile of the profession.	Conclusion about maxillofacial surgeon salary. According to PayScale.com, oral and maxillofacial surgeons with less than 1 year work experience receive an annual salary ranging from between $50,421 to $203,473 while those with 10 years or work experience receive a salary ranges from between $192,196 to $298,999. The average expected salary for a maxillofacial surgeon based in United Kingdom is about £33,333 per annum while the median salary for a maxillofacial surgeon is about £40,000 per year. An average hourly wage for a maxillofacial surgeon is about £16.67.	Oral surgeon’s salary according to the BLS is about $210,710 on an annual basis while a median hourly wage is about $101.3 per hour. The highest paid oral surgeon receives an hourly wage of about $164 per hour which averages to more than $300,000 per year. In contrary, the lowest paid oral surgeon receives an hourly wage of about $48.91 per hour which averages to about $101,730 per year. In addition, the overall mean salary for an oral surgeon in the United States ranges from between $100,958 – $612,500 based on work experience.	An average salary for an oral surgeon based in Canada ranges from between 98,819 CAD – 599,522 CAD per annum while an average hourly wage ranges from between 56.46 CAD – 342 CAD per hour. A median salary for an oral surgeon averages to about 171,292 CAD per annum while a median wage is about 97.8 CAD per hour. In contrary, the lowest paid oral surgeon receives an hourly wage of about $48.91 per hour which averages to about $101,730 per year. In addition, the overall mean salary for an oral surgeon in the United States ranges from between $100,958 – $612,500 based on work experience.	(United States). Average pay for an Oral Surgeon in the United States is considerable, rounding six figures at $212K per year. Cash earnings for Oral Surgeons — which occasionally include more than $101K from bonuses and more than $148K from profit sharing — stretch from around $34K to approximately $406K
what is the purpose of a program segment	The size of this segment is determined by the size of the values in the program's source code, and does not change at run time. The data segment is read-write, since the values of variables can be altered at run time. The .data segment contains any global or static variables which have a pre-defined value and can be modified. That is any variables that are not defined within a function (and thus can be accessed from anywhere) or are defined in a function but are defined as static so they retain their value across subsequent calls.	See the relevant discussion on the talk page. (June 2011). In computing, a data segment (often denoted .data) is a portion of an object file or the corresponding virtual address space of a program that contains initialized static variables, that is, global variables and static local variables. The .data segment contains any global or static variables which have a pre-defined value and can be modified. That is any variables that are not defined within a function (and thus can be accessed from anywhere) or are defined in a function but are defined as static so they retain their value across subsequent calls.	The main reason for using a segmented memory is to increase the reliability of programs and systems. For example, placing a program’s stack in a separate segment, prevent the stack from growing into the code or a data space and overwriting them. Placing the OS’s or executive’s code, data and stack in separate segments also protect them from application/program and vice versa.	The purpose of this Market Segment Specialization Program (MSSP) guide is to provide the examiner with general and technical background information and to recommend specific audit techniques to make future examinations of garment manufacturers more efficient and effective. The Market Segment Specialization Program (MSSP) focuses on developing highly trained examiners for a particular market segment. A market segment may be an industry such as construction or entertainment, a profession like attorneys or real estate agents or an issue like passive activity losses.	A segment register is a register that contains the base address, or something related to the base address, of a region of memory. In the 8086/8088, the four segment registers … are multiplied by 16 and added to the effective address to form the physical address. Code segment (CS) is a 16-bit register containing address of 64 KB segment with processor instructions. The processor uses CS segment for all accesses to instructions referenced by instruction pointer (IP) register.
Inflammation of the alveoli of the lung is called	Pleurisy is a lung condition where the lining of your lungs and chest cavity are inflamed. The lung and chest cavity lining is called the pleura. Pleurisy causes sharp chest pains when you cough or breathe. It can be caused by a variety of conditions, including infection, cancer, or chest trauma. The lining inside the rib cage and around the lung is called the pleura. Inflammation of this lining is known as pleuritis, but the more commonly used term is pleurisy.	Top 10 facts about the world. Alveolitis is a general medical term for a case of acute or chronic lung inflammation. It occurs when the inner linings of air sacs in the lungs called alveoli become irritated and damaged. Resulting symptoms may include shortness of breath, coughing, and fatigue that worsen over time. Acute or chronic lung inflammation is called alveolitis. The scarring and inflammation in alevoli tissue can be revealed with an x-ray scan. Asbestos exposure can damage alveoli. X-rays of the lung can help a doctor diagnose alveolitis in the early stages. View slideshow of images above.	Respiratory System. The oxygen exchange in the lungs takes place across the membranes of small balloon-like structures called alveoli attached to the branches of the bronchial passages. These alveoli inflate and deflate with inhalation and exhalation. The behavior of the alveoli is largely dictated by LaPlace's law and surface tension.	When there is inflammation in the chest or lungs, the pleura may rub directly against each other. This typically causes a sharp pain on the inflamed side of the chest that occurs when a person breathes in. The lining inside the rib cage and around the lung is called the pleura. Inflammation of this lining is known as pleuritis, but the more commonly used term is pleurisy.	In this article. Pleurisy, also called pleuritis, is an inflammation of the pleura, which is the moist, double-layered membrane that surrounds the lungs and lines the rib cage. The condition can make breathing extremely painful
Inflammation of the alveoli of the lung is called	Pneumonia. Pneumonia represents an infection in one or both lungs that causes inflammation of the tiny air sacs, called alveoli, that line the lungs. Fungi, bacteria or viruses can cause pneumonia, when the alveoli fill with fluid and make breathing more difficult. Conclusion. When your lungs swell and become inflamed, the airways may feel constricted and you could find it harder to breathe. One general term for lung inflammation is pneumonitis, and this type of malady could have several causes. Learn three common causes of lung inflammation with this easy-to-follow guide.	Respiratory System. The oxygen exchange in the lungs takes place across the membranes of small balloon-like structures called alveoli attached to the branches of the bronchial passages. These alveoli inflate and deflate with inhalation and exhalation. The behavior of the alveoli is largely dictated by LaPlace's law and surface tension.	A. Pleurisy, also called pleuritis, is an inflammation of the pleura, which is the moist, double-layered membrane that surrounds the lungs and lines the rib cage. The condition can make breathing extremely painful	Top 10 facts about the world. Alveolitis is a general medical term for a case of acute or chronic lung inflammation. It occurs when the inner linings of air sacs in the lungs called alveoli become irritated and damaged. Resulting symptoms may include shortness of breath, coughing, and fatigue that worsen over time. Acute or chronic lung inflammation is called alveolitis. The scarring and inflammation in alevoli tissue can be revealed with an x-ray scan. Asbestos exposure can damage alveoli. X-rays of the lung can help a doctor diagnose alveolitis in the early stages. View slideshow of images above.	Between the alveoli is a thin layer of cells called the interstitium, which contains blood vessels and cells that help support the alveoli. 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. 1 Sarcoidosis: Tiny areas of inflammation can affect all organs in the body, with the lungs involved most of the time. 2 The symptoms are usually mild; sarcoidosis is usually found when X-rays are done for other reasons. 3 Obesity hypoventilation syndrome: Extra weight makes it difficult to expand the chest when breathing.
what are thermosetting plastics made from	Thermosetting plastics are simply plastics when moulded into shape and allowed to cool will not change shape when heated again they will char or burn an example of a thermoset … ting plastic is urea formaldehyde.	The bulk of the material used to make a microwave is steel, and not thermosetting plastic. The cavity (the cooking space) is a metal cave with a door on it. There will be so … me components in an oven that are made of thermosetting plastic, but the bulk of the construction material is mild steel.	There are almost countless numbers of things made from thermosetting plastics. Just a single example are the plastic forks, knives and spoons that we consider as disposable … or single use utensils.	Most plastics are made from oil. Plastics are man-made materials. They are a useful invention because they are waterproof, easy to shape and tough. They have taken the place of traditional materials like wood and metal in many products.	There are almost countless numbers of things made from thermosetting plastics. Just a single example are the plastic forks, knives and spoons that we consider as disposable … or single use utensils. 12 people found this useful.
maximum neurontin dose	Treatment of Epilepsy. The recommended initial dosage of Gabapentin (Neurontin) for adults being treated for epilepsy is 300 mg taken once up to three times a day. The usual maintenance dose is 900 mg per day given in 3 divided doses. If necessary, the maintenance dose may be increased up to the maximum daily dose of 1,800 mg, until the condition is under control. Children (aged 3 to 12 years old) should be given individualized dosage of gabapentin based on child’s body weight. Your gabapentin dosage depends on several of factors that include your age and weight, the medical condition being treated, other medications currently taken, and other underlying medical conditions. The following information provides only the average dosage as indicated by the manufacturer.	Gabapentin Dosage. Gabapentin comes in capsule form, as a regular or extended-release tablet, and as a liquid. A typical adult dose for postherpetic neuralgia usually starts at 300 milligrams (mg), and your doctor may increase the dose to up to 1,800 mg a day. Do not change the dose or stop taking gabapentin without speaking with your doctor first. The maximum dose for pain is 1800 mg. Gabapentin is a medication that needs to be slowly titrated up and down, under a doctor's care.	The starting dose is 300 mg three times a day. The effective dose of NEURONTIN is 300 mg to 600 mg three times a day. Dosages up to 2400 mg/day have been well tolerated in long-term clinical studies. The effective dose of NEURONTIN in patients 3 to 4 years of age is 40 mg/kg/day, given in three divided doses. The effective dose of NEURONTIN in patients 5 to 11 years of age is 25 mg/kg/day to 35	Gabapentin can be initiated at doses of 100 to 300 mg at bedtime or 100 to 300 mg three times daily. The dose should be titrated by 100 to 300 mg every 3 to 7 days as tolerated to a maximum dose of 3600 mg per day. The usual effective dose is 1800 mg to 3600 mg per day, which may take several weeks to achieve. A recent crossover design study compared nortriptyline (maximum dose of 100 mg daily), gabapentin (maximum dose of 3600 mg daily), and a combination of both in 56 patients with painful diabetic neuropathy or PHN. Participants received each treatment for 6 weeks followed by a one week taper and a one-week washout phas	I am really concerned that your doctor is confusing the maximum dosage for lyrica with the dosage for gabapentin (neurontin). Consistently, lyrica is not recommended in doses over 600 mg. gabapentin on the other hand can be OK at four-figure amount s. Neurontin-well I was up to 3600mg/ day, the dose, and it never ever made me sleepy. Others here have reported problems at only 100 - 300mg/ day. I'm now ex per imenting with Lyrica; coming of f the Neurontin slowly and going up on the Lyrica.
average cost to build an manufacturing space	3. The average per square foot cost for commercial office space construction can be anywhere between $100 per square foot to $200 per square foot or even more. The cost will depend on the kind of material and fitting and furniture you plan to use for the office construction.	According to Remodeling Magazine, the average home-office renovation runs $187.50 per square foot. This includes new cabinetry, countertops, added storage space, new carpeting, new drywall and modernized electrical wiring. You can find square footage by multiplying the length of a room by its width. Example: a 12-foot-by-12-foot room amounts to 144 square feet. The cost for renovation using Remodeling Magazine's average figure would be 144 times $187.50, or $27,000.	Calculate your space rental costs for properties quoting Yearly Rates. For example it could be a gross rate of $24. or a Triple Net (NNN) rate of $12 Base + $8 NNN. If estimated operating expenses are included in the base rate (gross rate) then leave as $0.	Taking all of these qualifications into account, the typical cost estimate for a basic steel industrial building is approximately $10 to $25 per square foot. This does not include the cost of land where the building is constructed, or the cost of site preparation and foundation.	An average commercial steel building costs between $16 and $20 per square foot, including building package (I-Beams, purlins, girts etc.) , delivery, foundation and the cost of construction.
how prepared or unprepared were the people of japan earthquake	All rights reserved. More from OurAmazingPlanet. VANCOUVER, British Columbia — In 2011, Japan was one of the most prepared countries in the world for a massive earthquake. Yet when a mega-quake hit Japan last March, sparking a huge tsunami, it was shockingly devastating.	The deadliest quake in Japan’s history came in 1923, when more than 140,000 people perished in the magnitude 7.9 Great Kanto Earthquake. That tremor was centered southwest of Tokyo Bay. The March 11 quake struck more to the north, offshore from the city of Sendai.	Japan's earthquake preparation has spared it from a far worse fate. People live in a constant state of readiness in a country that suffers a fifth of the world's most powerful earthquakes. Tokyo hotel workers after the earthquake in Japan.	Japan is one of the best tsunami-prepared countries in the world, which is one of the reasons the world is still reeling from the 2011 event.	While there are many lessons Oregon can take away from the massive earthquake that struck Japan in 2011, one of the most basic is just how much more energy is released during a 9.0 compared to lesser magnitude earthquakes.
what is wajib	Home. Wajib is a religious task or duty that has become definite through sound evidence but that is not ordered as strongly as fard; like sacrificing an animal, performing witr and eid prayers. Author: Mehmet Dikmen.	Difference between Fardh, Wajib and Sunnah. What is the difference between Wajib and Fardh? Is the Sunnah after Maghrib Wajib, or Fardh, or Sunnah? What is the difference among these three? Answer. All perfect praise be to Allaah, The Lord of the Worlds. I testify that there is none worthy of worship except Allaah, and that Muhammad is His slave and Messenger. There is no difference according to the majority of the scholars between Fardh and Waajib. Fardh means Waajib and Waajib means Fardh (obligation).	wajib is also something necessary, although of a slightly lesser degree than Fardh. The person who denies this will not become a Kaafir, but will be a Faasiq (flagrant sinner). Sunnat-e-Muakkadah are those actions of Nabi which were done regularly. A person who leaves out such an act will be sinning.	1 Sufficiency duty or fardh al-kifāya (الفرض الكفاية) is a duty which is imposed on the whole community of believers (ummah). 2 The classic example for it is janaza: the individual is not required to perform it as long as a sufficient number of community members fulfill it. 1 Individual duty or fardh al-'ayn (الفرض العين) relates to tasks every Muslim is required to perform, such as daily prayer (salat), or the pilgrimage to Mecca at least once in a lifetime (hajj). 2	A person who denies or rejects a Fardh will become a Kaafir. wajib is also something necessary, although of a slightly lesser degree than Fardh. The person who denies this will not become a Kaafir, but will be a Faasiq (flagrant sinner). Sunnat-e-Muakkadah are those actions of Nabi which were done regularly. A person who leaves out such an act will be sinning.
how early can you tell your pregnant	The only way to tell for sure is with a pregnancy test. Spotting and Cramping. A few days after conception, the fertilized egg attaches itself to wall of the uterus. This can cause one of the earliest signs of pregnancy -- spotting and, sometimes, cramping. That's called implantation bleeding. It occurs anywhere from six to 12 days after the egg is fertilized. The cramps resemble menstrual cramps, so some women mistake them and the bleeding for the start of their period	Pregnancy tests range in sensitivity from 10mIU/ml to 40 mlU/ml. The lower the number, the more sensitive the test, and the earlier it can detect pregnancy. If you test too soon in pregnancy, even with a sensitive test, the amount of hCG in your urine may not be high enough to detect. Getting a false negative, when a test that says you're not pregnant and you are, can be stressful. If you are pregnant, the levels of hormone may build up enough by then to be picked up by the test. A blood test can also detect hCG. Blood tests are more sensitive than urine tests and can detect pregnancy from about six to eight days after ovulation. However you will not be offered a blood test for pregnancy until after your period is due, and even then only if there is a medical need	Nausea. Most pregnant women start to get the queasies when they're about 6 weeks along, but some can experience morning sickness (which unfortunately can occur morning, noon and night) earlier. It will most likely subside as you enter the second trimester. You won't know for sure whether you're a mama-to-be until you do the pee-stick test. If you get a negative result and you still don't get your period, it just might just be too early for the test to detect. In the meantime, look a few of these weird pregnancy symptoms that can appear upon conception.	After a few minutes, an indicator on the stick will register whether you're pregnant. Generally, you can take this test as soon as you've missed your period, though some tests can be taken sooner. Blood test: There are two kinds of blood tests: qualitative hCG and quantitative hCG, also called a beta hCG test. To take a pregnancy test, you can see your doctor or you can purchase one to take one at home. A doctor's test will give you an accurate result, but a visit may be expensive. Home pregnancy tests are less expensive, and when taken correctly, can deliver quite accurate results.	A negative result can mean that you are not pregnant, you took the test too early, or you took the test wrong. Pregnancy tests vary in their sensitivity (how soon they can detect the hormone hCG), and you may not have given your body enough time to produce enough hCG hormones that will show up on the test. Also, if you let a test sit for too long (after the instructions on the box tell you), the test is invalid.
what is furosemide	Furosemide (INN / BAN), previously frusemide (former BAN), is a loop diuretic used in the treatment of congestive heart failure and edema. It is most commonly marketed by Sanofi under the brand name Lasix, and also under the brand names Fusid and Frumex. Furosemide, like other loop diuretics, acts by inhibiting NKCC2, the luminal Na-K-2Cl symporter in the thick ascending limb of the loop of Henle.	BRAND NAME: Lasix. DRUG CLASS AND MECHANISM: Furosemide is a potent diuretic (water pill) that is used to eliminate water and salt from the body. In the kidneys, salt (composed of sodium and chloride), water, and other small molecules normally are filtered out of the blood and into the tubules of the kidney.	Furosemide is also used in horses for pulmonary edema, congestive heart failure (in combination with other drugs), and allergic reactions. Although it increases circulation to the kidneys, it does not help kidney function, and is not recommended for kidney disease. Furosemide, like other loop diuretics, acts by inhibiting NKCC2, the luminal Na-K-2Cl symporter in the thick ascending limb of the loop of Henle.	A: Lasix (furosemide) is a diuretic (water pill). Lasix signals the kidneys to get rid of (unneeded) salt and water from the body into the urine. Reducing salt and water from the body can reduce swelling and fluid retention and lower blood pressure. Lasix is also used on its own or together with other drugs to treat high blood pressure (hypertension). Lasix is part of a group of drugs known as loop diuretics or water pills, which reduce the amount of water in the body by increasing the flow of urine.	2 Reviews. Lasix is the brand name of furosemide, a prescription drug used to eliminate extra water and salt in people who have problems with fluid retention. Swelling and fluid retention-also known as edema-can be caused by congestive heart failure, liver or kidney disease, as well as other conditions. Lasix is also used on its own or together with other drugs to treat high blood pressure (hypertension). Lasix is part of a group of drugs known as loop diuretics or water pills, which reduce the amount of water in the body by increasing the flow of urine.
where do black swans come from	The black swan (Cygnus atratus) is a large waterbird, a species of swan, which breeds mainly in the southeast and southwest regions of Australia. A mature black swan measures between 110 and 142 centimetres (43 and 56 in) in length and weighs 3.7–9 kilograms (8.2–19.8 lb). Its wing span is between 1.6 and 2 metres (5.2 and 6.6 ft). The neck is long (relatively the longest neck among the swans) and curved in an S-shape.	How To Tell a Mute Swan from a Native Swan: The most notable difference between mute swans and the two native swan species found in Michigan (trumpeter swan and tundra swan) is that adult mute swans have orange bills. The two native swans have black bills. Mute swans also have a black knob on the top of their bill, which is absent in the native swan species. Mute swans typically have an S-shaped curve to their neck, while trumpeter swans have a C-shaped curve.	There are many different species of swans found all over the world, including Mute Swan, Trumpeter Swan, Tundra Swan, Black Swan, Coscoroba Swan, and Whooper Swan. While s … pecies like the Australian Black Swan are indigenous to Australia, others like the Trumpeter Swan is native to North America.	The Northern Hemisphere species of swan have pure white plumage but the Southern Hemisphere species are mixed black and white. The Australian black swan (Cygnus atratus) is completely black except for the white flight feathers on its wings; the chicks of black swans are light grey. The South American black-necked swan has a white body with a black neck. The largest species, including the mute swan, trumpeter swan, and whooper swan, can reach a length of over 1.5 m (59 in) and weigh over 15 kg (33 lb). Their wingspans can be almost 3 m (9.8 ft). Compared to the closely related geese, they are much larger and have proportionally larger feet and necks.	Young swans are known as swanlings or as cygnets, from Greek κύκνος, kýknos and from the Latin word cygnus (swan) and the Old French suffix-et (little). An adult male is a cob, from Middle English cobbe (leader of a group); an adult female is a pen. The largest species, including the mute swan, trumpeter swan, and whooper swan, can reach a length of over 1.5 m (59 in) and weigh over 15 kg (33 lb). Their wingspans can be almost 3 m (9.8 ft). Compared to the closely related geese, they are much larger and have proportionally larger feet and necks.
what is larynx	The larynx is a tough, flexible segment of the respiratory tract connecting the pharynx to the trachea in the neck. It plays a vital role in the respiratory tract by allowing air to pass through it while keeping food and drink from blocking the airway.	The larynx, also called the voice box, is a funnel-shaped organ located in the throat. It is formed by the hyoid bone and nine cartilages which are connected by muscles and ligaments. The primary functions of the larynx are to protect the trachea, or windpipe, when swallowing and to produce sound.	The larynx is another name for the voice box. It is a tube about 2 inches (5cm) long in adults. The larynx sits above the windpipe (trachea) in the neck, in front of the upper part of the food pipe (pharynx). The larynx is where the breathing and digestive systems separate. When you breathe in, air travels through your mouth, larynx, windpipe (trachea), and then into your lungs.	The larynx /ˈlaerɪŋks/ (ˈlærɪŋks plural; larynges from The greek λάρυγξ), larynx lárynx commonly called the, voice box is an organ in the neck, of, amphibians reptiles and mammals involved, in breathing, sound production and protecting the trachea against. Food aspiration it manipulates pitch. and volume	The larynx is another name for the voice box. It is a tube about 2 inches (5cm) long in adults. It sits above the windpipe (trachea) in the neck and in front of the food pipe. The food pipe in the upper part of the neck is called the pharynx.
what is a quay	quay. noun \ˈkē, ˈkā, ˈkwā\. Tweet. : a structure built on the land next to a river, lake, or ocean that is used as a place for boats to stop for loading and unloading freight and passengers. : a structure built parallel to the bank of a waterway for use as a landing place. See quay defined for English-language learners. Full Definition of QUAY. : a structure built parallel to the bank of a waterway for use as a landing place. See quay defined for English-language learners. See quay defined for kids. ADVERTISEMENT	Provides safe anchoring or mooring for ships. A quay is the built up bank of a harbour or dock where ships can moor. A jetty is a sort of pier sticking out either to provide shelter for shipping, or short term mooring in deep water for ships that cannot approach the shore-such as liners and oil tankers. Dock (maritime), an area of water for building or repairing or loading and unloading ships or ferries. A port is a facility for receiving ships and transferring cargo. A quay, pronounced 'kay', 'key' or 'kway', is a wharf or bank where ships and other vessels are loaded. A harbor or harbour or haven, is a place where ships may shelter from the weather or are stored	quay. A structure of solid construction along a shore or bank that provides berthing and generally provides cargo-handling facilities. A similar facility of open construction is called a wharf. See also wharf. Half the sky was chequered with black thunderheads, but all the west was luminous and clear: in the lightning flashes it looked like deep blue water, with the sheen of moonlight on it; and the mottled part of the sky was like marble pavement, like the quay of some splendid seacoast city, doomed to destruction.	noun. Boats tied up at a quay in Italy. Boats tied up at a quay in Italy. The definition of a quay is a wharf or platform built into the water and used to load or unload ships or other sea vessels. A concrete or stone dock for loading boats is an example of a quay.	quay ‎(third-person singular simple present quays, present participle quaying, simple past and past participle quayed). 1 To land or tie up at a quay or similar structure, especially used in the phrase quay up .
what is a quay	Wiktionary (4.00 / 1 vote) Rate this definition: quay (Noun). A stone or concrete structure on navigable water used for loading and unloading vessels; a wharf. quay (Verb). To land or tie up at a quay or similar structure, especially used in the phrase quay up. Origin: From cai, from chai (modern French: quai). quay. A structure of solid construction along a shore or bank that provides berthing and generally provides cargo-handling facilities. A similar facility of open construction is called a wharf. See also wharf.	quay ‎(third-person singular simple present quays, present participle quaying, simple past and past participle quayed). 1 To land or tie up at a quay or similar structure, especially used in the phrase quay up .	Provides safe anchoring or mooring for ships. A quay is the built up bank of a harbour or dock where ships can moor. A jetty is a sort of pier sticking out either to provide shelter for shipping, or short term mooring in deep water for ships that cannot approach the shore-such as liners and oil tankers. Dock (maritime), an area of water for building or repairing or loading and unloading ships or ferries. A port is a facility for receiving ships and transferring cargo. A quay, pronounced 'kay', 'key' or 'kway', is a wharf or bank where ships and other vessels are loaded. A harbor or harbour or haven, is a place where ships may shelter from the weather or are stored	quay. the Arsenale dockyard. Venice, Italy. n. A wharf or reinforced bank for the loading or unloading of ships or boats. [Middle English. Half the sky was chequered with black thunderheads, but all the west was luminous and clear: in the lightning flashes it looked like deep blue water, with the sheen of moonlight on it; and the mottled part of the sky was like marble pavement, like the quay of some splendid seacoast city, doomed to destruction.	noun. Boats tied up at a quay in Italy. Boats tied up at a quay in Italy. The definition of a quay is a wharf or platform built into the water and used to load or unload ships or other sea vessels. A concrete or stone dock for loading boats is an example of a quay.
what is a quay	Definition of QUAY for Kids. : a structure built along the bank of a waterway (as a river) for use as a landing for loading and unloading boats. Full Definition of QUAY. : a structure built parallel to the bank of a waterway for use as a landing place. See quay defined for English-language learners. See quay defined for kids. ADVERTISEMENT	quay ‎(third-person singular simple present quays, present participle quaying, simple past and past participle quayed). 1 To land or tie up at a quay or similar structure, especially used in the phrase quay up .	quay. the Arsenale dockyard. Venice, Italy. n. A wharf or reinforced bank for the loading or unloading of ships or boats. [Middle English. Half the sky was chequered with black thunderheads, but all the west was luminous and clear: in the lightning flashes it looked like deep blue water, with the sheen of moonlight on it; and the mottled part of the sky was like marble pavement, like the quay of some splendid seacoast city, doomed to destruction.	noun. Boats tied up at a quay in Italy. Boats tied up at a quay in Italy. The definition of a quay is a wharf or platform built into the water and used to load or unload ships or other sea vessels. A concrete or stone dock for loading boats is an example of a quay.	Provides safe anchoring or mooring for ships. A quay is the built up bank of a harbour or dock where ships can moor. A jetty is a sort of pier sticking out either to provide shelter for shipping, or short term mooring in deep water for ships that cannot approach the shore-such as liners and oil tankers. Dock (maritime), an area of water for building or repairing or loading and unloading ships or ferries. A port is a facility for receiving ships and transferring cargo. A quay, pronounced 'kay', 'key' or 'kway', is a wharf or bank where ships and other vessels are loaded. A harbor or harbour or haven, is a place where ships may shelter from the weather or are stored
what order should i pay off my debt	If you have a certain amount of money available to pay off a portion of your credit card debt each month, even if that certain amount changes, there is a mathematically correct way of paying off that debt. You can call this approach the Debt Avalanche. There are really only three strategies to pay off debt: 1) pursue the payments that cost you the most in monthly payments first or 2) pay of the highest interest debt first or 3) pay off the debt that has the smallest balance owed.	If you have a $10,000 credit card that is at 15% interest, but you take 6 months to pay off a $5,000 debt that is 10% interest you've just let your $10,000 debt increase by 5% (I'm not using actual API calculations, because that's really complicated, but you get the idea). It's silly. The highest interest rate should be at the top as this is what you’ll pay off first. Paying off your high interest debt is the key to the stack method. Interest is a powerful weapon and right now the bank or other financial institutions are using it against you.	Make a list of all your debt with amounts and the interest rate. The highest interest rate should be at the top as this is what you’ll pay off first. Paying off your high interest debt is the key to the Stack Method and paying off debt as fast as possible. Interest is a powerful weapon and right now the bank or other financial institutions are using it against you.	The most important thing in paying down debt faster and with less interest paid is the ‘catch-up payments’. As you pay off one debt, apply what you would have paid for that debt to something else. In short, it doesn’t much matter what you pay the $2000/month on first … only that you consistently spend down $2000/month. There are really only three strategies to pay off debt: 1) pursue the payments that cost you the most in monthly payments first or 2) pay of the highest interest debt first or 3) pay off the debt that has the smallest balance owed.	A: Stacy, there are about as many ways of paying off debt as their blogs dedicated to the subject! First of all, I commend you for taking control of your financial situation and eliminating the temptation to go even deeper into debt. Q: If you have a canceled credit card and its balance is the lowest should you work on paying that one off first or one that isn’t canceled? Also, would you work on paying over the credit limit cards or paying off payday loans first? We have ideas but just aren’t sure where to start and attempt to tackle the debt.
what is silk used for	Answer: It is used in clothing, yarns, decorative textiles, bed linens and fabric. Silk's good absorbency makes it comfortable to wear in warm weather and while active. Its low conductivity keeps warm air close to the skin during cold weather. It is often used for clothing such as shirts, blouses, formal dresses, high fashion clothes, negligees, pyjamas, robes, skirtsuits, sun dresses and kimonos. Silk's elegant, soft luster and beautiful drape makes it perfect for many furnishing applications. It is used for upholstery, wall coverings, window treatments (if blended with another fiber), rugs, bedding and wall hangings.	Silk Habotai Fabrics. Also known as china silk this is the classic silk fabric you see used in all kinds of projects. This silk fabric has a soft and supple hand and a lustrous sheen. Perfect for beginners and students as it is economical and has a smooth surface so lends itself to all painting techniques.	1 Silk is sometimes used in the construction of parachute materials and cords, though it is more common for parachutes to be made from nylon. 2 It is also occasionally used to make the casing of bicycle tires; cotton and nylon are also used for this purpose. 3 Silk thread is used as a non-absorbable surgery sutures. Uses of Silk. 1 Silk is mainly used in the manufacture of clothing such as dresses, ties, shirts, trousers, pajamas, underwear and folk costumes. 2 It is also used in skiing garments because of its ability to keep body warmth contained and because it is lightweight.	1 Silk is also used to make silk comforter or duvets which are lightweight and hypoallergenic. 2 It is also used as fabric for upholstery, curtains, rugs and bedding such as sheets. 3 Silk is sometimes used in the construction of parachute materials and cords, though it is more common for parachutes to be made from nylon. Uses of Silk. 1 Silk is mainly used in the manufacture of clothing such as dresses, ties, shirts, trousers, pajamas, underwear and folk costumes. 2 It is also used in skiing garments because of its ability to keep body warmth contained and because it is lightweight.	09 Apr, 2012 uses 2. Silk is a natural fiber that is used to create materials. It is obtained from the cocoon of the mulberry silkworm which is reared in captivity. Silk is also made by a variety of other insects that undergo metamorphosis and some insects such as spiders that are web spinners. Uses of Silk. 1 Silk is mainly used in the manufacture of clothing such as dresses, ties, shirts, trousers, pajamas, underwear and folk costumes. 2 It is also used in skiing garments because of its ability to keep body warmth contained and because it is lightweight.
when should male rabbits be neutered	WHEN TO SPAY/NEUTER. Female rabbits reach sexual maturity at about 6 months of age and should be spayed at this point; male rabbits reach sexual maturity between 3 1/2 and 4 months (as soon as the testicles descend) and should be neutered at this point. Opposite-gender rabbits will have to be housed separately until both are fixed.	1 Spaying and neutering for rabbits has become a safe procedure when performed by experienced rabbit veterinarians. 2 The House Rabbit Society has had over 1000 rabbits spayed or neutered with approximately .1% mortality due to anesthesia. 1 Your neutered male rabbit will live longer as well, given that he won’t be tempted to fight with other animals (rabbits, cats, etc.) due to his sexual aggression. 2 Altered rabbits make better companions. 3 They are calmer, more loving, and dependable once the undeniable urge to mate has been removed.	1 The risk of reproductive cancers (ovarian, uterine, mammarian) for an unspayed female rabbit stands at is virtually eliminated by spaying your female rabbit. 2 Your neutered male rabbit will live longer as well, given that he won’t be tempted to fight with other animals (rabbits, cats, etc.) due to his sexual aggression. 1 Your neutered male rabbit will live longer as well, given that he won’t be tempted to fight with other animals (rabbits, cats, etc.) due to his sexual aggression. 2 Altered rabbits make better companions. 3 They are calmer, more loving, and dependable once the undeniable urge to mate has been removed.	The stronger smell of urine in uncastrated rabbits can be eliminated by neutering. A spay is actually an ovariohysterectomy; the uterus, ovaries and the two cervices of the rabbit are surgically removed. A castration, or orchidectomy is the removal of the testicles.	My male rabbit was castrated yesterday so there is no need to spay my female rabbit. As well as the other reasons for spaying rabbits mentioned above, female rabbits should not be placed with male rabbits following a castration. This is because for up to six weeks following the procedure, breeding can still occur.
what is a strategic procurement	10 hilariously insightful foreign words. The primary concept of strategic procurement is that through advanced planning, scheduling, and group buying initiatives, a firm can experience significant cost savings.	strategic sourcing. A method of managing procurement processes for an organization in which the procedures, methods, and sources are constantly re-evaluated to optimize value to the organization.	Tactical vs. Strategic Purchasing Description . The full technique overview is available for members only. Why not sign up for a free trial of our business management platform, and learn all about Tactical vs. Strategic Purchasing. Tactical vs. Strategic Purchasing References (4 of up to 20) *. 1 Aberdeen Group (2010) Strategic sourcing: The 2010 guide to driving savings and procurement performance.	Strategic Procurement. ... [T]he best strategic sourcing decision may be to not make a purchase at all (Russel, 2009).. This concept addresses the fundamental objectives of purchasing activity and outlines useful implementation information for the development of a competitive purchasing strategy.	Confidence votes 9. Strategic purchasing is a methodology used in many businesses to realize the greatest amount of benefit to the company while still effectively managing the costs associated with the acquisition of raw materials and operational components.
what you require for government funding	Organizations and individuals must register in order to apply for funding through Grants.gov. Other official sources of information on government funding include the Catalog of Federal Domestic Assistance, the Federal Register, and individual agency web sites. For information on these and additional resources, see the listing of books, articles, and web sites below.	Grants.gov is the official government site for information on federal grants and funding. Managed by the U.S. Department of Health and Human Services, the site offers a database of more than 1,000 grant programs administered by 26 federal grantmaking agencies, searchable by agency, category, eligibility or CFDA number. Other official sources of information on government funding include the Catalog of Federal Domestic Assistance, the Federal Register, and individual agency web sites. For information on these and additional resources, see the listing of books, articles, and web sites below.	Grants. A grant is an amount of money given to an individual or business for a specific project or purpose. You can apply for a grant from the government, the European Union, local councils and charities. 5. A grant is an amount of money given to an individual or business for a specific project or purpose. You can apply for a grant from the government, the European Union, local councils and charities.	1 A real government agency won't ask you to pay a processing fee for a grant that you have already been awarded—or to pay for a list of grant-making institutions. 2 Specifically, Federal government agencies and employees never ask people to wire money or use a prepaid debit card to pay for anything. 1 If you have to pay money to claim a free government grant, it isn't a government grant and it isn't really free. 2	About Grants.gov. Grants.gov is your place to FIND and APPLY for federal grants. The United States Department of Health and Human Services is proud to be the managing partner for Grants.gov. Learn more about Grants.gov.
when does a serpentine belt need to be replaced	Answer by lynn (821). I'm not sure on this I think it probably depends on how much wear and tear is put on the car. I have a 15 year old car and to my knowledge replaced the serpentine belt once because it broke when i had to have the water pump replaced. I drove it a long time before this happened. add a comment.	Serpentine belts are built to last – much longer than before because of advancements in rubber technology. Under ideal conditions, a belt should stick with you for an average of 60,000 to 100,000 miles. Pretty impressive. However, some belts are manually tensioned and may need to be adjusted. Others have a self-tensioning mechanism that can experience wear over time and may need to be serviced. Some rides may have an additional belt to run select accessories, but the serpentine does the bulk of the work. Before this all-in-one serpentine solution, cars were equipped with many different belts to power individual parts and components. Get your engine belt inspected or replaced.	Report Abuse. If you have that many cracks in one inch of the belt contact side it needs to be replaced. The belt costs about 30.00 and it is not hard to replace it yourself. labor at a shop would be about 1/2 and hour. John · 2 years ago.	Replacing the serpentine belt may cost from $75 to $250, depending on the car. Is it easy to replace the serpentine belt as a DIY project? If you have sufficient mechanical skills, proper tools and the belt routing diagram, it’s not very difficult. Your parts store may help you with the routing diagram and tools.	The point at which you should have your serpentine belt changed depends on the vehicle. It is best to check the owner's manual. That said, under the best of conditions, th … e belt should last from 60,000 to 100,000 miles, depending on the vehicle. Losen the idler then slide off the serpentine belt off. There should be a diagram for routing the belt if not draw a diagram before rem … oving it. Replace the serpentine belt crank it 2 or 3 times but don't start the engine.
what is roman abacus	The Ancient Romans developed the Roman hand abacus, a portable, but less capable, base-10 version of the previous Babylonian abacus. It was the first portable calculating device for engineers, merchants and presumably tax collectors. The name semuncia denotes 1/2 of an uncia or 1/24 of the base unit, the As. Likewise, the next character is that used to indicate a sicilicus or 1/48 of an As, which is 1/4 of an uncia. These two characters are to be found in the table of Roman fractions on page 75 of Graham Flegg's book.	The Roman hand abacus had a lower groove which represents units and the beads in the upper grooves were in fives such that five units, five tens and so on. The groove values were marked by roman numerals. This was designed to bi-quinary coded decimal system. This counting board was the Roman hand abacus. Structure of Roman Abacus. The Roman Abacus was made of metal plate and this was where the beads ran in slots. The size of the abacus was such that it can fit into the pocket of a modern shirt.	50 and 20. The diagram is based on the Roman hand abacus at the London Science Museum. The lower groove marked I indicates units, X tens, and so on up to millions. The beads in the upper shorter grooves denote fives—five units, five tens, etc. , essentially in a bi-quinary coded decimal place value system. The name semuncia denotes 1/2 of an uncia or 1/24 of the base unit, the As. Likewise, the next character is that used to indicate a sicilicus or 1/48 of an As, which is 1/4 of an uncia. These two characters are to be found in the table of Roman fractions on page 75 of Graham Flegg's book.	The construction of roman abacus has seven longer and shorter grooves for whole number counting, the former having four beads while the latter has only one. The rightmost two grooves are used for fractional counting. Sponsored Links. The abacus was made of a metal sheet and the size was small enough to fit into a shirt pocket, almost like our modern day calculator. This device has helped the basic operation of roman arithmetic and roman numerals. The Romans are said to have a flourished economy, and they have discovered the hand abacus. It was almost a copy of the Babylonian abacus but the changes Romans have introduced for decimal system has helped the engineers a lot. In Rome the hand abacus was used by the engineers, merchants and the tax collectors.	The abacus, called Suan-Pan in Chinese, as it appears today, was first chronicled circa 1200 C.E. in China. The device was made of wood with metal re-inforcements. On each rod, the classic Chinese abacus has 2 beads on the upper deck and 5 on the lower deck; such an abacus is also referred to as a 2/5 abacus. The 2/5 style survived unchanged until circa 1850 at which time the 1/5 (one bead on the top deck and five beads on the bottom deck) abacus appeared.
what is wonderflex	WONDERFLEX is an extruded thermoplastic composite sheet. It is comprised of a unique synthetic polymer that when heated in the range of 150-170 degrees Fahrenheit (70-80 degrees C), will soften and activate a built in adhesive for molding and forming.	Fosshape and Wonderflex. Those of you who’ve used Fosshape and Wonderflex know just how cool these products are for costuming and prop-making. Just a little steam, and the Fosshape transforms from a felt-like fabric into a shape-holding plastic. And Wonderflex is amazing too.	Wonderflex® is a thermoplastic-a type of plastic sheeting which can be softened and shaped under low heat to mould and form sculptural shapes. It sets hard and strong. It also becomes sticky when heated, so it bonds easily to other fabrics and surfaces. Wonderflex® contains three elements:	I mainly work with the termoplastic materials Worbla or Wonderflex. Wonderflex is the grey stuff, Worbla the brown one that looks like cookie dough. In addition I usually add a layer of craft foam between two layers of Worbla or Wonderflex to make them more sturdy and controllable.	You have found the suppliers of all things WONDERFLEX® and FOSSHAPE®. Home of the leading heat activated composite material and heat activated fabric for theatre, costumes, millinery, mask or armor making, puppetry, props, cosplay, craft work, model making, set design, the entertainment industry and beyond.
what is chlorpheniramine	Uses. Chlorpheniramine is an antihistamine used to relieve symptoms of allergy, hay fever, and the common cold. These symptoms include rash, watery eyes, itchy eyes /nose/throat/ skin, cough, runny nose, and sneezing.	Chlorpheniramine is an antihistamine that reduces the effects of natural chemical histamine in the body. Histamine can produce symptoms of sneezing, itching, watery eyes, and runny nose. Chlorpheniramine is used to treat runny nose, sneezing, itching, and watery eyes caused by allergies, the common cold, or the flu. Chlorpheniramine may also be used for purposes not listed in this medication guide. Always ask a doctor before giving a cough or cold medicine to a child.	Chlorpheniramine is an antihistamine medication used as an active ingredient in many different non-prescription products (such as Chlor-Trimeton ®) and prescription drugs (such as Tussionex ®). It is used to treat allergies such as hay fever, hives, and the common cold.	Chlorpheniramine is an antihistamine that reduces the effects of natural chemical histamine in the body. Histamine can produce symptoms of sneezing, itching, watery eyes, and runny nose. Chlorpheniramine is used to treat runny nose, sneezing, itching, and watery eyes caused by allergies, the common cold, or the flu. Chlorpheniramine may also be used for purposes not listed in this medication guide.	Chlorpheniramine is an antihistamine medication used as an active ingredient in many different non-prescription products (such as Chlor-Trimeton ®) and prescription drugs (such as Tussionex ®). It is used to treat allergies such as hay fever, hives, and the common cold.
Home Remedies for Molluscum in Children	Apple cider vinegar is a natural remedy for molluscum contagiosum. It has antibacterial, antiviral and anti-inflammatory properties which destroy the infection at the root and effect quick healing. Take a cotton wad and dip it in apple cider vinegar. Dab the vinegar all over the bumps. Apply this, three times daily.	Molluscum contagiosum (MC) is a viral infection of the skin or occasionally of the mucous membranes, sometimes called water warts. It is caused by a DNA poxvirus called the molluscum contagiosum virus (MCV).	The Molluscum Contagiosum Virus (MCV) is a common skin disease that is (a) a contagious condition affecting children and (b) a transmitted infection affecting adults. Molluscum is caused by a poxvirus that infects only the skin by entering through small breaks in the skin's barrier.	As a result, many parents often search for natural remedies for molluscum contagiosum in children. Traditional treatments for MCV include procedures like burning, cutting and freezing lesions-treatments that can be frightening and painful for children (and parents!).	Molluscum contagiosum is a common, contagious viral skin infection caused by poxvirus. This skin condition most commonly affects children and sexually active adults, but it can also affect individuals whose immune system is not strong.
Home Remedies for Molluscum in Children	Australian Lemon Myrtle. This is one of the good Molluscum contagiosum home remedy that is used successfully for treating molluscan virus. You can use it by mixing with olive oil and apply it daily using droop. Tea tree oil. Tea tree oil is one of the common and available home remedies for molluscum contagiosum. It contains useful properties like antibacterial and antiseptic which is very essential to cure molluscum. It has powerful astringent that can help to reduce the growth of lesions.	Molluscum contagiosum (MC) is a viral infection of the skin or occasionally of the mucous membranes, sometimes called water warts. It is caused by a DNA poxvirus called the molluscum contagiosum virus (MCV).	Molluscum contagiosum is a skin infection that causes small pearly or flesh-colored bumps. The bumps may be clear, and the center often is indented. The infection is caused by a virus. The virus is easily spread but is not harmful.	As a result, many parents often search for natural remedies for molluscum contagiosum in children. Traditional treatments for MCV include procedures like burning, cutting and freezing lesions-treatments that can be frightening and painful for children (and parents!).	Molluscum contagiosum is a common, contagious viral skin infection caused by poxvirus. This skin condition most commonly affects children and sexually active adults, but it can also affect individuals whose immune system is not strong.
what is the function of nephrons	Function of Nephron. The nephron is the basic functional and structural unit found in the kidneys. Its main functions include regulating the concentration of sodium salts and water by filtering the kidney’s blood, excreting any excess in the urine and reabsorbing the necessary amounts. Function of Nephron. The main functions of the nephron are related to filtering, reabsorbing and secreting glutamate, carbohydrates and solutes. The glomerulus has two cell layers as well as a basement membrane that separate it from the Bowman’s capsule.	Its chief function is to regulate water and soluble substances by filtering the blood, reabsorbing what is needed and excreting the rest as urine. Nephrons eliminate wastes from the body, regulate blood volume and pressure, control levels of electrolytes and metabolites, and regulate blood pH. The chief function of nephrons is to regulate the concentration of water and soluble substances (electrolytes) by filtering the blood, reabsorbing what is needed and excreting … the rest as urine. 6 people found this useful. Judy Olmsted.	What is Nephron and function. Nephron-The microscopic functional unit of the kidney. Each kidney contains more than a million nephrons, each of which extends from the renal cortex into the renal medulla in fairly linear fashion.	About one million nephrons are in the cortex of each kidney, and each one consists of a renal corpuscle and a renal tubule which carry out the functions of the nephron. The renal tubule consists of the convoluted tubule and the loop of Heinle. The nephron is part of the homeostatic mechanism of your body. The nephron is the basic functional and structural unit found in the kidneys. Its main functions include regulating the concentration of sodium salts and water by filtering the kidney’s blood, excreting any excess in the urine and reabsorbing the necessary amounts.	· just now. Report Abuse. Nephron is the basic structural and functional unit of the kidney. Its chief function is to regulate the concentration of water and soluble substances like sodium salts by filtering the blood, reabsorbing what is needed and excreting the rest as urine. The nephron is the basic functional and structural unit found in the kidneys. Its main functions include regulating the concentration of sodium salts and water by filtering the kidney’s blood, excreting any excess in the urine and reabsorbing the necessary amounts.
what is the effect of human chorionic gonadotropin hcg	A: Human chorionic gonadotropin (HCG) is a hormone that supports the normal development of an egg in a woman's ovary, and stimulates the release of the egg during ovulation. It can be used to cause ovulation and to treat infertility in women, and to increase sperm count in men. It is not indicated for weight loss. A: Human chorionic gonadotropin (HCG) is a hormone that supports the normal development of an egg in a woman's ovary, and stimulates the release of the egg during ovulation. HCG is used to cause ovulation and treat infertility in women	Human chorionic gonadotrophin is a reproductive hormone that is essential for establishing and maintaining early pregnancy. Alternative names for human chorionic gonadotrophin Human chorionic gonadotrophin; hCG; Novarel; Ovidrel; Pregnyl; A.P.L; Profasi; Chorex; Chorigon; Chorigon-10.	Human chorionic gonadotropin (HCG) is a hormone produced by the human placenta and found in the urine of pregnant women. HCG is FDA-approved for the treatment of select cases of female infertility and hormone treatment in men. Currently, there are no FDA-approved HCG drug products for weight loss. HCG has not been demonstrated to be effective therapy in the treatment of obesity. There is no substantial evidence that HCG increases	Be the first to review this Drug. Human chorionic gonadotropin (HCG) is a natural hormone that doctors prescribe as an injectable drug with the brand names Pregnyl and Novarel, and in a related form called Ovidrel. HCG improves fertility by increasing sperm production in men and encouraging egg release in women. A: Human chorionic gonadotropin (HCG) is a hormone that supports the normal development of an egg in a woman's ovary, and stimulates the release of the egg during ovulation. HCG is used to cause ovulation and treat infertility in women and to increase sperm count in men.	OBJECTIVE: To evaluate the effect of altering the timing of human chorionic gonadotropin (hCG) administration on the clinical outcome of in vitro fertilization (IVF) and intracytoplasmic sperm injection (ICSI) using gonadotropic hormone releasing hormone (GnRH) agonist or antagonist. Intrauterine insemination (IUI) is an assisted reproduction procedure that places sperm directly into the uterus. Timing of IUI can be performed with hormone (luteinising hormone) detection in urine or blood, human chorionic gonadotropin (hCG) injection and other more infrequently used methods.
where is warwickshire	Warwickshire (/ˈwɒrɨkʃə/ or /ˈwɒrɨkʃɪər/) is a landlocked non-metropolitan county in the West Midlands region of England. The county town is Warwick, although the largest town is Nuneaton. There are 3 clubs who include the word Warwickshire within their names: Olton & West Warwickshire, Coventry & North Warwickshire, and Rugby & East Warwickshire, though it is not certain where these claims to regional areas within the County came from.	Rugby is a city/town with a small population in the state/region of Warwickshire, England which is located in the continent/region of Europe. Cities, towns and places near Rugby include Long Lawford, Dunchurch, Wolston and Lutterworth. The closest major cities include Leicester, Birmingham, Derby and Wolverhampton.	Coventry is effectively in the centre of the Warwickshire area, and still has strong ties with the county. Coventry and Warwickshire are sometimes treated as a single area and share a single Chamber of Commerce and BBC Local Radio Station (BBC Coventry & Warwickshire). There are 3 clubs who include the word Warwickshire within their names: Olton & West Warwickshire, Coventry & North Warwickshire, and Rugby & East Warwickshire, though it is not certain where these claims to regional areas within the County came from.	The county is divided into five districts of North Warwickshire, Nuneaton & Bedworth, Rugby, Warwick and Stratford-on-Avon. The current county boundaries were set in 1974 by the Local Government Act 1972. The historic county boundaries also included Coventry and Solihull, as well as much of Birmingham. There are 3 clubs who include the word Warwickshire within their names: Olton & West Warwickshire, Coventry & North Warwickshire, and Rugby & East Warwickshire, though it is not certain where these claims to regional areas within the County came from.	Warwickshire is a state/region with a small population in the country of England which is located in the continent/region of Europe. Its biggest cities and towns include Nuneaton, Rugby, Royal Leamington Spa and Bedworth.
how long can you be without oxygen	In general, the brain can withstand up to three to six minutes without oxygen before brain damage occurs, but this may vary from person to person. If the brain goes without oxygen longer than this, serious and often irreversible damage is likely to take place. Death is usually declared once the brain has gone more than 15 minutes without oxygen. Although the brain can only go a few minutes without oxygen before some type of brain damage occurs, patients can often regain cognitive function if treated quickly. The severity of long-term complications is usually in direct correlation with the length of time the person has gone without oxygen	The human body needs oxygen to sustain itself. The decrease of oxygen to at least one body part is known as hypoxia. The total lack of oxygen is known as anoxia. Brain cells are destroyed after 4 to 6 minutes without oxygen. When the flow of oxygen to the brain is completely cut off, a person will lose consciousness within 10 seconds. Extended hypoxia leads to brain damage and ultimately death. Causes. The brain is the body's largest user of oxygen, even though it makes up less than 5 percent of the body's weight. The brain consumes 20 percent of the body's needed oxygen. Cerebral hypoxia is the deficiency of needed oxygen to the brain.	1 The brain cannot store oxygen. 2 A person can feel a lack of oxygen after only a few seconds. 3 When someone stands up too quickly and becomes dizzy, this is an example of the loss of blood flow to the brain that can be sensed. 4 The brain cannot store glucose (blood sugar). The brain can survive for up to about six minutes after the heart stops. The reason to learn cardiopulmonary resuscitation (CPR) is that if CPR is started within six minutes of cardiac arrest, the brain may survive the lack of oxygen.	Usually a person can only survive 3 minutes without breathing, although there are women divers In Japan and other countries who dive for abalone or pearls who are able to survive for 5 minutes at a time, even diving to a depth of 100 feet, on a single breath, though this requires years of training. Conclusion: If we can only survive a month or two at the most without food, and only 3-10 days at the most without water, and 3 22 minutes at the most without air (breath), we must understand that these are the physical requirements of our physical body to sustain physical life.	About 6 minutes before brain cells start to die. If a person has a cardiac arrest resuscitation has to begin within this time to be successful. The time may be prolonged if the body is cooled, for example by drowning in ice cold water. As mentioned, temperature (specifically metabolism) plays a very big role in how long you can go without oxygen, but as general guideline: Thus, the main areas of concern is the heart and the brain. A human body ca only live for six minutes without oxygen, before the brain cells start to die
are dehydrated foods good for you	Most vegetables, with the exception of onions, mushrooms and tomatoes, should be blanched briefly before being dehydrated to limit discoloration and the risk of food-borne illnesses. You can dehydrate tomatoes, carrots, beets, greens, beans, squash, onions, peas, celery, corn, pumpkin and broccoli with good results. When they are finished, they will be brittle and hard. You can eat the dried vegetables like veggie chips or use them in main dishes like soups and stews.	A food dehydrator enables you to preserve fresh, nutritious foods in your own home at a fraction of the cost. The shelf lives of dehydrated foods can be decades long. Add your favorite nuts to dehydrated apples, pineapples, grapes, or cranberries for a tasty and healthy trail mix.	1 Select the best fruit and vegetables! 2 As with canning and freezing, dehydrated foods are only as good as the fresh fruit or vegetables. 3 When selecting fruits and vegetables for dehydration, choose ones that are ripe, unbruised and at peak-eating quality. 4 Prepare foods to be dehydrated as you want them to be served.	It's easy to dehydrate your own fruit at home. Dehydrating foods makes them lighter and easier to store. They will take up less space and be less likely to spoil than fresh foods. Foods can be dehydrated with the intention of rehydrating them later or with the intention of eating them in dried form. A wide variety of foods is suited for this type of treatment, including fruits, vegetables, meats and even main dishes that you cook at home.	For the same fresh plums, you are eating 16% of your daily needs for vitamin C, but when dried, you are getting only 1%. It is also important to note that a single serving of fresh fruit is 1 cup, but when fruit has been dehydrated, a single serving is only one half of a cup.
characteristics of muscles journal article	All types of muscles consist of muscle fibers. Striated muscle fibers in skeletal muscles form bundles joined together by layers of connective tissue. The ends of muscle fibers are intertwined with tendon fibers, and through this combination muscular tension is transmitted to the skeletal bones. Cardiac muscle. Cardiac muscle has many properties in common with smooth muscle; for example, it is innervated by the autonomic system and retains the ability to contract spontaneously. Presumably, cardiac muscle evolved as a specialized type from the general smooth muscle of the circulatory vessels.	Biomechanics of Skeletal Muscles is the third volume in the Biomechanics of Human Motion series. Advanced readers in human movement science gain a comprehensive understanding of the biomechanics of human motion as presented by one of the world’s foremost researchers on the subject, Dr. Vladimir Zatsiorsky.	(Published: February 11, 2013). The following CDC scientific articles are listed in order of date published from present to 2008. Corticosteroid Treatments in Males with Duchenne Muscular Dystrophy: Treatment Duration and Time to Loss of Ambulation. Journal of Child Neurology 2014 Nov 20 [Epub ahead of print].	Muscular hypertrophy is an increase in muscle mass and cross-sectional area (1). The increase in dimension is due to an increase in the size (not length) of individual muscle fibers. Both cardiac (heart) and skeletal muscle adapt to regular, increasing work loads that exceed the preexisting capacity of the muscle fiber. It is important to emphasize the point that this process is not creating more skeletal muscle fibers (in humans), but increasing the size and number of contractile proteins (actin and myosin) within the muscle fiber (see Table 1. for a summary of changes that occur to muscle fibers as they hypertrophy).	Therefore, cortisol breaks down muscle proteins, inhibiting skeletal muscle hypertrophy (10). Testosterone Testosterone is an androgen, or a male sex hormone. The primary physiological role of androgens are to promote the growth and development of male organs and characteristics. It is important to emphasize the point that this process is not creating more skeletal muscle fibers (in humans), but increasing the size and number of contractile proteins (actin and myosin) within the muscle fiber (see Table 1. for a summary of changes that occur to muscle fibers as they hypertrophy).
what is suffixes examples	Definition. A suffix is a letter or group of letters added to the end of a word or root (i.e., a base form), serving to form a new word or functioning as an inflectional ending. Adjective: suffixal. There are two primary types of suffixes in English: 1 A derivational suffix (such as the addition of-ly to an adjective to form an adverb) indicates what type of word it is. 2 An inflectional suffix (such as the addition of-s to a noun to form a plural) tells something about the word's grammatical behavior.	Suffixes. A suffix is a group of letters placed at the end of a word to make a new word. A suffix can make a new word in one of two ways: 1 inflectional (grammatical): for example, changing singular to plural (dog → dog s), or changing present tense to past tense (walk → walk ed).	Definition. A suffix is an important component of word meaning which is added to the end of a word. A suffix follows a root word, and the suffix modifies the meaning of the root word. It's important to note that suffixes usually don't radically alter the meaning of a word, they just modify it.	1 A derivational suffix (such as the addition of-ly to an adjective to form an adverb) indicates what type of word it is. 2 An inflectional suffix (such as the addition of-s to a noun to form a plural) tells something about the word's grammatical behavior.	Definition & List of Suffixes. Definition of Suffixes:A term for fixing one or more letters or syllables to the end of words tomodify their signification. Examples: End a word with 'less' as in homeless, careless.
cost of building sprinkler system	1 For an average 2,200-square-foot home, expect to pay about $3,542. 2 For a 3,500-square-foot home, expect to pay about $5,635. 3 Fire sprinklers cost 1%-2% of the cost of a new home. 4 In already existing properties, sprinkler systems typically cost $2,000-$16,000. 1 Communities with sprinkler ordinances typically charge permit and inspection fees. 2 Some communities have flat fees, and others base the fees on square footage or value of the house. 3 Typically, the permit costs are $50-$350, but some communities charge as high as $800 in permit fees.	1 Retrofitting an existing building usually costs between $2 – 7 per square foot. 2 Retrofitting a high rise building will run you about $2 – 4 per square foot. 3 Installing a fire sprinkler in a historic building can sometimes be more expensive – up to $10 per square foot. 1 This includes equipment and installation. 2 Retrofitting an existing building usually costs between $2 – 7 per square foot. 3 Retrofitting a high rise building will run you about $2 – 4 per square foot. 4	They’re not expensive! The average costs for a fire sprinkler system are as follows: 1 A complete fire sprinkler system integrated into a new construction project costs about $1 – 2 per square foot. 2 This includes equipment and installation. 3 Retrofitting an existing building usually costs between $2 – 7 per square foot. 1 This includes equipment and installation. 2 Retrofitting an existing building usually costs between $2 – 7 per square foot. 3 Retrofitting a high rise building will run you about $2 – 4 per square foot. 4 Installing a fire sprinkler in a historic building can sometimes be more expensive – up to $10	1 For a 3,500-square-foot home, expect to pay about $5,635. 2 Fire sprinklers cost 1%-2% of the cost of a new home. 3 In already existing properties, sprinkler systems typically cost $2,000-$16,000. 1 Communities with sprinkler ordinances typically charge permit and inspection fees. 2 Some communities have flat fees, and others base the fees on square footage or value of the house. 3 Typically, the permit costs are $50-$350, but some communities charge as high as $800 in permit fees.	1 Prices for underground sprinkler systems vary considerably by region and climate, but for an average 2,500-square-foot (50-x-50-foot) front yard, it's about $1,500-$2,500, while a sprinkler system for 5,000 square feet (front and back yards) costs about $2,500-$3,500. Related articles: Deck, Landscape Design, Sod. 1 Prices for underground sprinkler systems vary considerably by region and climate, but for an average 2,500-square-foot (50-x-50-foot) front yard, it's about $1,500-$2,500, while a sprinkler system for 5,000 square feet (front and back yards) costs about $2,500-$3,500.
cost of building sprinkler system	1 A complete sprinkler system for new construction generally costs $1 to $2 per square foot including all equipment and installation. 2 Retrofitting an existing building is more expensive-usually about $2 to $7 per square foot. Sprinkler System Average Costs. Small businesses or homeowners might spend a few thousand dollars to install a fire sprinkler system while large corporations could spend hundreds of thousands. The price depends on a variety of factors. 1	1 Retrofitting an existing building usually costs between $2 – 7 per square foot. 2 Retrofitting a high rise building will run you about $2 – 4 per square foot. 3 Installing a fire sprinkler in a historic building can sometimes be more expensive – up to $10 per square foot. 1 This includes equipment and installation. 2 Retrofitting an existing building usually costs between $2 – 7 per square foot. 3 Retrofitting a high rise building will run you about $2 – 4 per square foot. 4	1 A complete fire sprinkler system integrated into a new construction project costs about $1 – 2 per square foot. 2 This includes equipment and installation. 3 Retrofitting an existing building usually costs between $2 – 7 per square foot. 1 This includes equipment and installation. 2 Retrofitting an existing building usually costs between $2 – 7 per square foot. 3 Retrofitting a high rise building will run you about $2 – 4 per square foot. 4 Installing a fire sprinkler in a historic building can sometimes be more expensive – up to $10	1 According to the Fire Protection Research Organization's 2009 Fire Sprinkler Cost Assessment, sprinkler installation costs homebuilders $0.38-$3.66 per sprinklered square foot, with an average cost of $1.61 per sprinklered square foot. 2 For an average 2,200-square-foot home, expect to pay about $3,542. 1 Communities with sprinkler ordinances typically charge permit and inspection fees. 2 Some communities have flat fees, and others base the fees on square footage or value of the house. 3 Typically, the permit costs are $50-$350, but some communities charge as high as $800 in permit fees.	1 Prices for underground sprinkler systems vary considerably by region and climate, but for an average 2,500-square-foot (50-x-50-foot) front yard, it's about $1,500-$2,500, while a sprinkler system for 5,000 square feet (front and back yards) costs about $2,500-$3,500. Related articles: Deck, Landscape Design, Sod. 1 Prices for underground sprinkler systems vary considerably by region and climate, but for an average 2,500-square-foot (50-x-50-foot) front yard, it's about $1,500-$2,500, while a sprinkler system for 5,000 square feet (front and back yards) costs about $2,500-$3,500.
is glaucoma curable	There is no cure (yet) for glaucoma. Glaucoma is not curable, and vision lost cannot be regained. With medication and/or surgery, it is possible to halt further loss of vision. Since open-angle glaucoma is a chronic condition, it must be monitored for life. Diagnosis is the first step to preserving your vision. 1. Glaucoma is a leading cause of blindness. Glaucoma can cause blindness if it is left untreated. And unfortunately approximately 10% of people with glaucoma who receive proper treatment still experience	Open-angle glaucoma. Chronic open-angle glaucoma is the most common form of glaucoma. The open drainage angle of the eye can become blocked leading to gradual increased eye pressure. If this increased pressure results in optic nerve damage, it is known as chronic open-angle glaucoma. The optic nerve carries images from the retina, which is the specialized light sensing tissue, to the brain so we can see. In glaucoma, eye pressure plays a role in damaging the delicate nerve fibers of the optic nerve. When a significant number of nerve fibers are damaged, blind spots develop in the field of vision.	Glaucoma is a group of eye diseases causing optic nerve damage. The optic nerve carries images from the retina, which is the specialized light sensing tissue, to the brain so we can see. In glaucoma, eye pressure plays a role in damaging the delicate nerve fibers of the optic nerve. When a significant number of nerve fibers are damaged, blind spots develop in the field of vision. Once nerve damage and visual loss occur, it is permanent	We hope to one day restore vision lost from glaucoma, but that can't presently be done. Existing treatments slow the process for most patients so no meaningful vision loss occurs in their lifetime. There are, however, several potential avenues to a cure.	Depending upon the type of glaucoma, treatment may include medication, usually prescription eyedrops, or surgery to lower the pressure in the eye and prevent further damag … e to the optic nerve. While there is no cure as yet for glaucoma, early diagnosis and continuing treatment can preserve eyesight.
tuple definition	A tuple is a finite ordered list of elements. In mathematics, an n-tuple is a sequence (or ordered list) of n elements, where n is a non-negative integer. There is only one 0-tuple, an empty sequence. An n-tuple is defined inductively using the construction of an ordered pair.	The most common used in general mathematics, database theory, etc. Intuitive: a n-tuple is a composite with n elements. t = (x1, x2, ..., xn). (2) In axiomatic set theory the above definition is typically not used because students are introduced to function as a special kind of relation and relation is a set of tuples. So the following technical trick is used:	The most common used in general mathematics, database theory, etc. Intuitive: a n-tuple is a composite with n elements. t = (x1, x2, ..., xn). (2) In axiomatic set theory the above definition is typically not used because students are introduced to function as a special kind of relation and relation is a set of tuples. So the following technical trick is used:	tu·ple. n. A generalization of ordered pairs, such as (-3, 4), and ordered triples, such as (0, -3, 5), in any dimension. An n-tuple is an ordered list of n numbers and can represent a point in n-dimensional space. [From. , as in quintuple or sextuple .].	tu·ple. n. A generalization of ordered pairs, such as (-3, 4), and ordered triples, such as (0, -3, 5), in any dimension. An n-tuple is an ordered list of n numbers and can represent a point in n-dimensional space. [From. , as in quintuple or sextuple .].
how tall should a night table lamp be	A bedside table lamp should not be too large or too small, but a happy medium. The size of your lamp should be based upon the size of the bedside table it sits upon. According to William Miller Design, if your nightstand is 24 inches to 30 inches tall, the ideal height for a lamp is 27 inches to 32 inches tall.	Base the height of your lamp on the height and size of your bedside tables and bed. For 24- to 30-inch nightstands, opt for a lamp that is 27 to 32 inches tall.	Nightstand or Table Relation. The height of the ideal bedside lamp for your room depends upon the nightstand or table upon which the lamp sits. If the nightstand is tall, such as 25 to 30 inches, the lamp should be in the 30-inch range in order to look proportional against a headboard or the room in general.	According to the professionals at Shades of Light, The correct height of the table lamp is determined by the seating piece and the height of the table beside it. The table lamp should be tall enough for the bottom of the lampshade to come to the eye level of the person seated	Lamps on bedside tables for example can have a scale and size that is proportionate to the height of the ceiling and the headboard or treatment on the bed wall. If your nightstand is 24” to 30” tall, Lamps should be at least 27” – 32” tall. Shorter nightstands, such as a low profile modern style that is only 18” TO 20” off the floor, call for a taller lamp to equal the visual proportion if the headboard is higher than 36” above the nightstand top.
what does a coding auditor do	Job Description for Medical Coding Auditor. Read More... A medical coding auditor usually works in the administrative department of a medical institution, or for an agency that has been hired by a medical institution to perform coding audits. The job is usually carried out within an office environment, though many positions allow the auditor to work from home. Medical Coding Auditor Tasks. 1 Contribute to the development of codes for patient billing. 2 Conduct analyses to evaluate the accuracy and efficiency of coding practices. 3 Review the work of coding clerks to verify accuracy of coding and that patients are billed correctly.	It would be wise to err on the side of caution since medical credentials (RN, LPN, MD) do not automatically mean the person is a qualified coding auditor. If your facility does not have a staff member qualified to perform internal audits, consider engaging a consultant and/or company with expertise in ASC auditing. Facilities should adopt a standardized method to measure coding quality performance. A coding audit will serve as a baseline indicator of coding accuracy, first by identifying root causes for coding errors, which should decrease variance and increase reliability.	A clinical coder – also known as clinical coding officer, diagnostic coder, medical coder or medical records technician – is a health care professional whose main duties are to analyse clinical statements and assign standard codes using a classification system.	To help medical professional maximize coding and billing efficiency and quality of care through auditing, AAPC has the Certified Professional Medical Auditor (CPMA®) credential. The CPMA® will help you determine key areas of weakness in your practice, so you can provide detailed recommendations to resolve them. As a medical auditor, you’ll focus on practice areas such as: 1 Compliance and regulatory guidelines. 2 Coding concepts. 3 Scope and statistical sampling methodologies. 4 Medical record auditing skills and abstraction ability.	Medical auditing entails conducting internal or external reviews of coding accuracy, policies, and procedures to ensure you are running an efficient and hopefully liability-free operation. As a medical auditor, you’ll focus on practice areas such as: 1 Compliance and regulatory guidelines. 2 Coding concepts. 3 Scope and statistical sampling methodologies. 4 Medical record auditing skills and abstraction ability.
which type of neuroglia surrounds axons in peripheral nerves	Schwann cells, in the peripheral nervous system, and oligodendrocytes, in the central nervous system, wrap around the axons of neurons to form myelin sheaths. Myelin sheaths are electrical insulators and prevent current from leaving axons. Nerve fibers are found in the peripheral nervous system and central nervous system. In the peripheral nervous system, Schwann cells form the sheath around axons, and each Schwann cell forms the sheath for just one neuron.	An axon (from Greek ἄξων axōn, áxōn), axis is a, long slender projection of a nerve, cell or, neuron that typically conducts electrical impulses away from the'neuron s cell. body Axon dysfunction causes many inherited and acquired neurological disorders which can affect both the peripheral and central neurons. An axon is one of two types of protoplasmic protrusions that extrude from the cell body of a neuron, the other type being dendrites.	1 Node of Ranvier-regions of the axon that lie between the Schwann cells where the plasma membrane of a myelinated axon is close to the extracellular fluid. 2 Neuroglia-cells in the central nervous system that help to support, protect, nourish, and maintain the neurons (Fig. 1 Oligodendrocytes-neuroglial cells of ectodermal origin that myelinate axons in the central nervous system and forms the white matter of the central nervous system (unmyelinated axons are grey matter. 2 Astrocytes-star-shaped nutritive and supportive glia cells of the central nervous system.	Ganglion-group of neuron cell bodies that lie peripheral to the central nervous system in vertebrates. Neuroglia-cells in the central nervous system that help to support, protect and maintain the neurons. Microglia-small neuroglial cells of mesodermal origin, some of which are phagocytic. 1 Oligodendrocytes-neuroglial cells of ectodermal origin that myelinate axons in the central nervous system and forms the white matter of the central nervous system (unmyelinated axons are grey matter. 2 Astrocytes-star-shaped nutritive and supportive glia cells of the central nervous system.	Similar in function to oligodendrocytes, Schwann cells provide myelination to axons in the peripheral nervous system (PNS). They also have phagocytotic activity and clear cellular debris that allows for regrowth of PNS neurons. In the central nervous system (CNS), glia suppress repair. Glial cells known as astrocytes enlarge and proliferate to form a scar and produce inhibitory molecules that inhibit regrowth of a damaged or severed axon. In the peripheral nervous system (PNS), glial cells known as Schwann cells promote repair.
what does lortab treat	Home » Lortab. Lortab ® is a narcotic pain reliever (opiate type) used in treatment of moderate to severe pain. Lortab ® is a combination of Hydrocodone and acetaminophen. Hydrocodone works on opiate receptors in the brain to provide pain relief while acetaminophen increases the effects of Hydrocodone. Do not increase your dosage or take more often as this medication may become habit forming. Lortab is a narcotic pain reliever that is used to treat moderate to moderately severe pain. It is also marketed under other brand names, including Vicodin, Norco, Lorcet, Anexsia, Maxidone and Zydone.	Physicians often prescribe Vicodin, a combination of hydrocodone-an opiate-and acetaminophen, for the relief of moderate to severe pain. It works by blocking pain receptors in the brain, but it also induces a sense of euphoria, making it extremely effective but also highly addictive.	Hydrocodone and acetaminophen combination is used to relieve moderate to moderately severe pain. Acetaminophen is used to relieve pain and reduce fever in patients. It does not become habit-forming when taken for a long time. But acetaminophen may cause other unwanted effects when taken in large doses, including liver damage. Hydrocodone belongs to the group of medicines called narcotic analgesics (pain medicines).	Vicodin. Home » Vicodin. Vicodin ® is a combination of Hydrocodone and Acetaminophen. Hydrocodone belongs to a group of drugs called narcotic pain relievers. Vicodin ® is used in the treatment of moderate to severe pain. Acetaminophen enhances the pain relieving qualities of the Hydrocodone. Vicodin is a commonly prescribed opiate painkiller made up of hydrocodone and paracetamol, which is acetaminophen. Vicodin is the trademark name for the drug, which is also marketed under the names Vicodin ES and Vicodin HP. 1 Vicodin contains 500 mg of paracetamol and 5 mg of h	Lortab ® is used as a PRN, or as needed for pain. Do not increase your dosage or take more often as this medication may become habit forming. Lortab is a narcotic pain reliever that is used to treat moderate to moderately severe pain. It is also marketed under other brand names, including Vicodin, Norco, Lorcet, Anexsia, Maxidone and Zydone.
what causes excessive thirst	1 diabetes: Excessive thirst can be caused by high blood sugar (hyperglycemia), and is often one of the first noticeable symptoms of diabetes. 2 diabetes insipidus: With this form of diabetes, your kidneys are unable to conserve water, leading to excessive thirst. Causes of Excessive Thirst. It is normal to feel thirsty after eating salty or spicy foods, or after engaging in strenuous exercise or sporting events, especially when it is hot. You may also feel thirsty when you suffer from diarrhea, vomiting, burns, or a significant loss of blood.	Excessive thirst, known as polydipsia, along with excessive urination, known as polyuria, may be an indication of diabetes mellitus or diabetes insipidus. There are receptors and other systems in the body that detect a decreased volume or an increased osmolite concentration. Thirst is the craving for fluids, resulting in the basic instinct of animals to drink. It is an essential mechanism involved in fluid balance. It arises from a lack of fluids or an increase in the concentration of certain osmolites, such as salt.	Excessive thirst may be a symptom of high blood sugar (hyperglycemia). It can be an important clue in detecting diabetes. Excessive thirst is a common symptom. It is often the reaction to fluid loss during exercise or to eating salty foods.	1 Dry Mouth Anxiety does have a tendency to cause dry mouth, and dry mouth can feel like thirst. 2 Anxiety may cause dry mouth by taking water away from your mouth and sending it to the areas of your body that need it, or by increasing acids in your stomach that may contribute to a loss of saliva. Thirst may not seem like something related to your anxiety, but it's something that millions of anxiety sufferers deal with regularly. There is often this feeling of needing to drink a glass of water or two during and after anxiety attacks, and some people feel as though they need to drink more water each and every day.	Your body maintains a certain level of fluids, and your level of thirst is your body’s way of telling you it needs more or less fluid. Thirst can increase normally if you lose a lot of fluid, such as during a workout, and can decrease normally if you have enough fluid, such as after drinking a lot of water. An absence of thirst or excessive thirst can be caused by a number of conditions and diseases. The thirst can be a symptom associated with too much or too little water in your body, or it can be a change in your perception of thirst, even though fluid levels in your body are normal
what is a good salary in california	$ 54000 average good salaries for job postings in california are 7 % higher than average good salaries for job postings nationwide	When you choose a career with the State of California, you receive a comprehensive benefits package in addition to your salary. Search for salary by job description-Once you have a job you're interested in, find the salary range by entering the job title. Civil Service pay scales-The official salaries for all State jobs.	Two months ago, The New York Times ran a piece on working at Amazon that went on to become its most commented-on story so far, with 6,600 comments by ...	For more information regarding statewide average salary fiscal information, contact the Office of Financial Accountability and Information Services by phone at 916-322-1770 or by e-mail at [email protected]. Questions concerning program information should be directed to the Policy and Evaluation Division by phone at 916-319-0875 or by e-mail at [email protected]. Additional information is also available on the California Department of Education SARC Web page.	Your salary depends on what job you do and whether your position is full-time, part-time, or intermittent. Job bulletins show the salary range for various job descriptions. To see the salary for various job descriptions, and what jobs you might qualify for, check out these links. To read some of these, you’ll need Adobe Reader – get a free download. 1 I have a bachelor's degree-Check out jobs you might qualify for based on your major. 2 Check here for high school graduates. Search for salary by job description-Once you have a job you're interested in, find the salary range by entering the job title. Civil Service pay scales-The official salaries for all State jobs.
what is a good salary in california	California ranks No. 5 in the country for average salary for workers across all employee… more. The average salary is about $51,910, or an average hourly pay of $24.96. That covers 14,038,950 workers. Although not a state, the District of Columbia has the highest average annual salary at $74,540. The typical worker earns 36 percent more in the district than in any of the 50 states. Massachusetts was No. 2 with average pay of $54,740, followed by Connecticut ($52,830) and New York ($51,910). Enlarge. California ranks No. 5 in the country for average salary for workers across all employee… more. Despite what you’d think, California does not have the highest average salary in the country.	I really think that you must earn $70-80k plus to live better than average in SD. And if you're thinking of buying a house or condo, you better have a significant other that earns enough so that your combined income is over $100K. Where I live right now (South America) salaries are much lower but the life cost is much lower too. I am married but have no kids yet. I think my wife won't be able to work because she won't get a green card.	This content is part of California Department of Education's information and media guide about education in the State of California. For similar information on other topics, visit the full CalEdFacts. Questions concerning program information should be directed to the Policy and Evaluation Division by phone at 916-319-0875 or by e-mail at [email protected]. Additional information is also available on the California Department of Education SARC Web page.	Your salary depends on what job you do and whether your position is full-time, part-time, or intermittent. Job bulletins show the salary range for various job descriptions. To see the salary for various job descriptions, and what jobs you might qualify for, check out these links. To read some of these, you’ll need Adobe Reader – get a free download. 1 I have a bachelor's degree-Check out jobs you might qualify for based on your major. 2 Check here for high school graduates. Search for salary by job description-Once you have a job you're interested in, find the salary range by entering the job title. Civil Service pay scales-The official salaries for all State jobs.	Two months ago, The New York Times ran a piece on working at Amazon that went on to become its most commented-on story so far, with 6,600 comments by ...
what does the name isabel mean	Hebrew Meaning: The name Isabella is a Hebrew baby name. In Hebrew the meaning of the name Isabella is: Devoted to God. American Meaning: The name Isabella is an American baby name. In American the meaning of the name Isabella is: Devoted to God. Italian Meaning: The name Isabella is an Italian baby name. In Italian the meaning of the name Isabella is: consecrated to God. Shakespearean Meaning: The name Isabella is a Shakespearean baby name.	Isabel is generally used as a girl's name. It consists of 6 letters and 3 syllables and is pronounced I-sa-bel. In the U.S. in 2014, it ranked 144 in baby name popularity for girls with 2313 occurrences. What does Isabel mean, popularity, numerology and more. The name Isabel is of Spanish origin. The meaning of Isabel is my G-d is an oath, pledged to G-d.	Isabel means Beuty in Italian!!! my name comes from italy and it means beatiful so everyone thats name is isabel like mine is beatiful. The name 'Isabel' means Consecrated to God. Isabel. my name is isabel and my name meaning means GOD's PROMISE that is so cool. 72: vote up - 9: vote down.	Latin Meaning: The name Isabel is a Latin baby name. In Latin the meaning of the name Isabel is: My God is bountiful;God of plenty. SoulUrge Number: 6. Expression Number: 3. People with this name have a deep inner desire for a stable, loving family or community, and a need to work with others and to be appreciated.	Meaning of Isabel. Hebrew name. In Hebrew, the name Isabel means-Devoted to God.. Other origins for the name Isabel include-Hebrew, Spanish, English, Spanish.The name Isabel is most often used as a girl name or female name. Hebrew Name Meaning-Devoted to God.
salary of a criminologist in california	In California, as a criminologist, you can expect to earn a salary of anywhere from less than $54,821 per year to more than $102,235 per year. But the median salary for criminologists earn $75,179 per year, in California. There are 9 criminology schools in California if you are interested in pursuing credentials in the field of criminology. Yearly tuition at criminology schools in California for a degree in criminology is $17,399 per year.	California Criminologist Salary Information. The average yearly salary for Criminologist in California is $49,831. If you are just beginning to work a new job as a Criminologist in California, you could earn a starting pay rate of $41,038 annually. As is true for most jobs and careers, you can expect your hourly pay rate or salary to increase as you gain experience and the longer you are employed with the same employer. In California you could potentially make an average income of around $58,625 after several years on the job with increased wages.	The average Criminologist age in California is 37 years old. As it pertains to men vs women, 50% of Criminologist are male in California, and 50% of the Criminologist are female in California. As is true for most jobs and careers, you can expect your hourly pay rate or salary to increase as you gain experience and the longer you are employed with the same employer. In California you could potentially make an average income of around $58,625 after several years on the job with increased wages.	Criminology Salaries and Career Outlook in California. A majority of those with an education in criminology pursue a career as a criminologist. The job outlook for criminologists in California is good. In California, there are currently about 12,900 criminologists. And the government projects that this number will increase by 17%, or to 15,100 criminologists by the year 2018. There are 9 criminology schools in California if you are interested in pursuing credentials in the field of criminology. Yearly tuition at criminology schools in California for a degree in criminology is $17,399 per year.	Obviously, the best paying area in California for criminal investigators is San Francisco. In San Francisco, the median salary surpasses the statewide median by 23% and the top 25% salary by about 21%. The table below provides further salary information regarding criminal investigators in California: Detectives in the top 25% have been reported to average $110,614 per year, which is about $53.18 per hour. Here is a look at how much detectives and criminal investigators are earning by location:
what are mung beans good for	One cup of mung bean sprouts contains 26 calories. Sprouted mung beans are baby mung bean plants. Because mung bean sprouts are so small, they contain a concentrated amount of key vitamins and minerals such as iron, potassium, folate and vitamin C. They are also a good source of protein. Sprouted mung beans don't contain as much protein as animal sources such as meat, fish, eggs, milk and cheese, but they do supply a small amount. One cup of sprouted and cooked mung beans provides 2.5 grams of protein toward your daily goal of 8 grams for every 20 pounds that you weigh.	One cup of mung bean sprouts offers 14 mg of vitamin C, an antioxidant that supports healthy vision. Good for diabetics, mung beans also reduce cholesterol levels, support healthy liver functions, help the skin slow down the aging process and strengthen hair and nails. Conduct your sprouting activities away from direct sunlight. Soak the beans in cool water for 8 to 12 hours. Drain the soak water and place the beans into a sprouter. Rinse and drain the sprouts 2 or 3 times a day. Your initial crop of short, sweet mung sprouts are ready to eat in 2 or 3 days. Within 4 to 6 days the roots of your sprouts turn out thicker and longer	Bean sprouts, which are often served with pho. Mung beans in the process of sprouting. Stir-fries that contain mung beans or other legumes can be served over nutritious brown rice. Bean sprouts can make a good addition to a nutritious salad. Mung beans are small green legumes. Legumes are seeds from the pods of plants in the Leguminosae family and also the Fabaceae family. When sprouted, they are usually just called bean sprouts. Like many other legumes, this bean can be eaten raw when sprouted, or else eaten cooked with the skin on or off	Mung Beans and Rice is good for the kidneys, colon and digestive organs. It is also beneficial in cases of constipation, or when food is not being digested thoroughly by the intestines. Mung beans are a very easily assimilated form of protein. For thirty days, eat only mung beans and rice at mealtimes, with lots of fresh vegetables cooked into the same dish. Fruit may be eaten between meals as a snack, and you can drink yogi tea. As a variation, you can eat mung beans and rice with yogurt. In the winter, you can grind chiles into it to make it hot spicy.	The mung bean (Vigna radiata), alternatively known as the moong bean, green gram, but not mungo or mingo, is a plant species in the legume family. Whole beans and mung bean paste [edit]. Whole cooked mung beans are generally prepared from dried beans by boiling until they are soft. Mung beans are light yellow in colour when their skins are removed. Mung bean paste can be made by dehulling, cooking, and pulverizing the beans to a dry paste.
how much do veneers usually cost	The cost of veneers will vary depending on the difficulty of your individual case, the amount of veneers needed, and the city and state you are located in. Only your individual dentist can tell you what the final cost will be. Typically, veneers can cost on average $1000 per tooth. between $800 and $2,000 per tooth.	Although the cost of veneers varies significantly, there are national averages serving as a price indicator. Composite veneers cost per tooth ranges between $250 and $1,500. Porcelain veneers cost per tooth ranges between $925 and $2,500. Compare with the cost of mini implants, the cost of dentures and the cost of tooth bridges. The cost of dental veneers varies significantly on a case-by-case basis, the most important factor of which is perhaps the number of veneers. It goes without saying that the more veneers required for smile makeover, the higher the cost the treatment will be.	per tooth and require two or more visits one to two weeks apart. Veneers made of porcelain provide a greater longevity than plastic, typically ten years to fifteen years or more. Composite Veneers cost significantly less, around $250 per tooth or more, but only last from five to seven years typically. Lumineer Porcelain Veneers typically cost between $700. - $1,000. per tooth and also require just two visits. Lumineers are expected to last as long as traditional porcelain veneers. Generally speaking, the price of tooth veneers and whitening increases with the number of in-office treatments required by the patien	Veneers can cost from as little as $500 each to over $2000. Good oral hygiene is expected with porcelain veneers just as you would normal healthy teeth. As durable as they are a little extra care will need to be taken when it comes to eating tough foods and be sure to avoid grinding of your teeth.	1 At 0.2mm-0.3mm thick, the Lumineers brand of veneers are thin like a contact lens, and cost $700-$1,300 per tooth, or total costs of $2,800-$5,500 on four upper front teeth. 2 Veneers are considered purely cosmetic and are rarely covered by dental insurance. 1 If teeth are unsightly after being shaved, temporary veneers can be installed for an extra fee; if interested in temporaries, let the dentist know and ask for a quote in advance. 2 There might be additional charges for an initial office visit ($50-$350) or initial office visit.
when does a baby start to roll over	Back-to-belly rolling comes later, usually by 5 to 6 months, or a month after he learned to roll over initially. Your baby's first roll-over usually occurs during a tummy-time session. When placed flat on his belly, your baby instinctively uses his arms to raise his head and shoulders off the floor.	When do babies roll over? Your baby may be able to kick himself over, from his tummy to his back, as early as age 4 months. It may take him until he's about 5 or 6 months to flip from back to front, though, because he needs stronger neck and arm muscles for that maneuver.	What to do if your baby doesn't roll over. If your baby hasn't figured out how to flip one way or the other by the time he's about 6 months old, and hasn't moved on to sit and try to scoot and crawl instead, bring it up the next time you talk to his doctor.	Some babies can flip themselves from their front to their back as early as three months. But it's more likely that your baby will be six months or seven months old by the time she's strong enough to roll both ways. Her neck and arm muscles need time to strengthen first.	Your baby will probably be able to roll over when he's about six months or seven months, when his neck and arm muscles are strong enough. Some babies manage to roll over as early as three months, but other babies take longer than seven months.
why are archaea in a different domain from bacteria	In the past Archaea were classified as an unusual group of bacteria and named archaebacteria, but since the Archaea have an independent evolutionary history and manifest numerous differences in their biochemistry from other forms of life, they are now classified as a separate domain in the three-domain system.	These microbes are prokaryotes, meaning that they have no cell nucleus or any other membrane-bound organelles in their cells. Archaea were initially classified as bacteria, receiving the name archaebacteria (in the Archaebacteria kingdom), but this classification is outdated. Although Archaea are prokaryotic, they are more closely related to Eukarya and thus cannot be placed within either the Bacteria or Eukarya domains. One property unique to Archaea is the abundant use of ether-linked lipids in their cell membranes.	Archaea and bacteria are both single-celled microorganisms known as prokaryotes but this is one of the few things they have in common. Even though they both look vaguely similar when viewed through a microscope, each represents a completely different group of creatures. Inside archaea, protein-synthesizing molecules called ribosomes are different from those found in bacteria, and are closer to the ribosomes present in eukaryotic cells. Eukaryotic cells are found in humans, animals, plants, fungi and protozoa.	Here is more information on the differences between these two microorganisms. Both bacteria and archaea have different Ribosomal RNAs (rRNA). Archea have three RNA polymerases like eukaryotes, but bacteria have only one. Archaea have cell walls that lack peptidoglycan and have membranes that enclose lipids with hydrocarbons rather than fatty acids (not a bilayer).	Introduction (from Wikipedia). The Archaea constitute a domain or kingdom of single-celled microorganisms. These microbes are prokaryotes, meaning that they have no cell nucleus or any other membrane-bound organelles in their cells. Bacteria constitute a large domain of prokaryotic microorganisms
what are dungarees	Dungaree is a type of cloth woven from cotton. It is a thick, durable twill that is almost always dyed blue. Another word for dungaree is blue denim. In its plural form, dungarees refer to clothing made from blue denim, i.e. blue jeans. Significance. Dungarees can be considered a universal garment, because they are worn by millions of people all over the world. Dungarees are especially associated with the United States, however, perhaps because their popularization is so closely tied to the youth culture revolutions of the 1950s and 1960s.	dun·ga·ree. n. 1. A sturdy, often blue denim fabric. 2. dungarees Pants or overalls made of sturdy denim fabric.	Dungaree fabric (used in English since 1605–15, from the Hindi dungrī) is a kind of coarse thick 2/2 twill-weave cotton cloth, often coloured blue. The word is possibly derived from Dongri, a dockside village near Mumbai. In US English the term is used for hard-wearing work trousers made from such fabric, and in British English for bib overalls in various fabrics, either for casual or work use. By 1891 Kipling was using the word to refer to a kind of garment (in the plural) as well as a fabric. As a fabric, it is used largely the same way as jeans cloth, to make sturdy trousers. In many non-Anglophone countries, the two words are interchangeable (British vs. US English).	Definition of DUNGAREE. 1. : a heavy coarse durable cotton twill woven from colored yarns; specifically: blue denim. 2. plural: clothes made usually of blue denim. — dun·ga·reed \-ˈrēd, -ˌrēd\ adjective. See dungaree defined for kids. ADVERTISEMENT.	Whether you choose traditional, relaxed, loose or dungaree fit, Carhartt Jeans are built to last. All feature premium fabric for durability, are designed for a comfortable fit and provide ample room for movement. Carhartt Jeans for Men. Whether you choose traditional, relaxed, loose or dungaree fit, Carhartt Jeans are built to last. All feature premium fabric for durability, are designed for a comfortable fit and provide ample room for movement. Carhartt Denim Relaxed Fit Jean (Carhartt B17).
what is a fakir	The word 'fakir' refers to the one who is self-sufficient and only possesses the spiritual need for God. Faqirs are Muslim ascetics and Sufis who have taken vows of poverty and worship, renounce all relations and possessions. Explaining the attributes of a fakir, he says, faqir is not who can not do anything and is nothing in his self-being. But faqir has all the commanding powers (gifted from Allah) and his orders can not be revoked.. Then, Ibn Arabi explained Sufism, including faqr, in more details.	Born in 1930 on what was then an Indian Reservation, Fakir is a depression baby from Aberdeen, South Dakota. He studied electrical engineering and has a B.S.E. degree from Northern State University (South Dakota) plus an M.A. degree in Creative Writing from San Francisco State University. Fakir is also a photographic fine artist who has recorded his own rituals, adornments, and modifications and those of others for over 50 years. His images are a beautiful and powerful record of contemporary history; they capture the spirit and beauty of the human body in transition.	fakir. n. 1. (Islam) a Muslim ascetic who rejects wordly possessions. 2. (Hinduism) a Hindu ascetic mendicant or holy man. [C17: from Arabic faqīr poor].	A Muslim (or, loosely, a Hindu) religious ascetic who lives solely on alms. Example sentences. 1 Giving details, the Chairman has asserted that Guru Granth Sahib revered by the Sikhs as a living God, contained verses of 15 Hindu saints and Muslim fakirs.	Historically, the terms tasawwuf, Sufism, faqr, and faqer (noun of faqr) were first used (with full definition) by Husayn ibn Ali, who was the grandson of Muhammad. He wrote a book, Mirat ul Arfeen, on this topic, which is said to be the first book on Sufism and tasawwuf. Explaining the attributes of a fakir, he says, faqir is not who can not do anything and is nothing in his self-being. But faqir has all the commanding powers (gifted from Allah) and his orders can not be revoked.. Then, Ibn Arabi explained Sufism, including faqr, in more details.
what is avalanche	Technically, an avalanche is any amount of snow sliding down a mountainside. It can be compared to a landslide, only with snow instead of earth. The other common avalanche is known as a Full-Depth Avalanche which, as it s name would lead you to believe, occurs when an entire snow cover, from the earth to the surface, slides over the ground. An avalanche can be composed of many different kinds of snow depending on the region, temperature and weather.	There are two common types of avalanches, a Surface Avalanche that occurs when a layer of snow with different properties slides over another layer of snow. For example, when a layer of dry loosely packed snow slides over a dense layer of wet snow. The other common avalanche is known as a Full-Depth Avalanche which, as it s name would lead you to believe, occurs when an entire snow cover, from the earth to the surface, slides over the ground. An avalanche can be composed of many different kinds of snow depending on the region, temperature and weather.	An avalanche has three main parts. The starting zone is the most volatile area of a slope, where unstable snow can fracture from the surrounding snow cover and begin to slide. Typical starting zones are higher up on slopes. However, given the right conditions, snow can fracture at any point on the slope. Snow Avalanches. Avalanches can be caused by a variety of factors, including terrain, slope steepness, weather, temperature, and snowpack conditions. (Larger image not available). —Credit: Copyright Richard Armstrong, NSIDC. An avalanche is a rapid flow of snow down a hill or mountainside. Although avalanches can occur on any slope given the right conditions, certain times of the year and certain locations are naturally more dangerous than others	Seismic activity may also trigger the failure in the snowpack and avalanches. A popular myth is that avalanches can be triggered by loud noise or shouting, but the pressure from sound is orders of magnitude too small to trigger an avalanche. If the avalanche moves fast enough some of the snow may mix with the air forming a powder snow avalanche, which is a type of gravity current. Slides of rocks or debris, behaving in a similar way to snow, are also referred to as avalanches (see rockslide)	An avalanche of snow sweeps down the slopes of Mount Timpanogos in Utah. Greg L. Wright. An avalanche is a large amount of snow that quickly moves down a slope. An avalanche can be deadly because it will bury or sweep away anything in its path. Large amounts of sliding rocks, earth, or other materials may also be called avalanches. But these are often known as landslides.
what is a brulee	Creme brulee with fresh blueberries. Nicole S. Young / Getty Images. Creme Brulee (pronounced krem broo-LAY) is a classic French dessert consisting of a custard topped with caramelized sugar. The custard for creme brulee is traditionally made with cream, egg yolks and sugar, and flavored with vanilla.	Creme crème (/brulee brûlée/ ; [ˌkrɛm bruːˈleɪ.kʁɛm]), bʁy le also known as, burnt cream, crema Catalana or trinity cream is a dessert consisting of a rich custard base topped with a contrasting layer of. Hard caramel it is normally served at. room temperature	Place the cream, vanilla bean and its pulp into a medium saucepan set over medium-high heat and bring to a boil. Remove from the heat, cover and allow to sit for 15 minutes. Remove the vanilla bean and reserve for another use.	Refers to foods that are sprinkled with sugar and placed under a broiler to caramelize the sugar, forming a hard brittle top. One of the most popular dishes served this way is creme brulee which is a custard topped with the caramelized sugar.	Caramelizing the sugar on top of the creme brulee is usually done with a small butane torch. Creme brulee means burnt cream in French, as the caramelized sugar on top of the custard is characteristic of creme brulee. Here's a recipe for
how much is a replacement retainer	1 If not included, replacement retainers can cost $70-$250 for one or $140-$500 or more for a set. 2 Most dental insurance does not cover replacement retainers. 3 Removable Essix retainers made of vacuum-formed clear plastic typically cost $100-$250 for one or $200-$500 for a set. 1 Most dental insurance does not cover replacement retainers. 2 Removable Essix retainers made of vacuum-formed clear plastic typically cost $100-$250 for one or $200-$500 for a set. 3 They are prone to warping or breaking, so they may need replacing to be replaced relatively frequently.	Replacement. In the event that a dental retainer is lost or broken, the patient must pay an additional fee to replace the item. Depending on the orthodontic practice, the replacement may range from $75 to $250, says CostHelper.com. Many orthodontists will provide you with an itemized list that will show how the cost is broken down. Retainer prices can vary from $500 to $1,000 as of November 2010, depending on the length and complexity of the treatment, according to figures from CostHelper.com.	1 Removable Hawley retainers (made of hard acrylic molded to fit the patient's mouth plus a visible wire to hold the teeth in position) can cost $150-$300 or more for one, or $300-$600 or more for a set (upper and lower). 1 Most dental insurance does not cover replacement retainers. 2 Removable Essix retainers made of vacuum-formed clear plastic typically cost $100-$250 for one or $200-$500 for a set. 3 They are prone to warping or breaking, so they may need replacing to be replaced relatively frequently.	1 However, a retainer is usually included in the overall braces fee, so there is no additional charge for the first set of retainers -- and some orthodontists include one or two replacements in their standard braces package. 2 If not included, replacement retainers can cost $70-$250 for one or $140-$500 or more for a set. 1 Most dental insurance does not cover replacement retainers. 2 Removable Essix retainers made of vacuum-formed clear plastic typically cost $100-$250 for one or $200-$500 for a set. 3 They are prone to warping or breaking, so they may need replacing to be replaced relatively frequently.	One Hawley Retainer cost $175.00 – $325.00. 1 Permanent fixed retainer-This is a wire that is bonded on the lingual side of the teeth permanently to prevent the teeth from shifting. 2 This is typically done on the lower teeth, but can also be done on the upper. 3 This process has to be done by a dentist. The price of a replacement retainer can vary on where the retainers are purchased from and the type of retainer. There is 3 different types of retainers available.
what is mosfet transistor	Mosfet Transistor. A MOSFET transistor is a semiconductor device which is widely used to switch the amplification signals in the electronic devices. MOSFET can be expanded metal-oxide-semiconductor field-effect transistor that is used to influence the flow of electric charges by influencing the flow of the charges to greater extent. The major advantage of the MOSFET transistor is that it uses low power for accomplishing its purpose and the dissipation of power in terms of loss is very llittle, which makes it a major component in the modern computers and electronic devices like the cell phones, digital watches, small robotic toys and calculators.	A transistor is used to amplify and switch electronic signals and electrical power. They are used in a variety of circuits and they come in many different shapes. You can use a transistor as a switch or you can use a transistor as an amplifier. Metal-oxide-semiconductor field-effect transistor is a type of transistor commonly found in digital and analog circuits to amplify or switch electronic signals.	An insulated-gate field-effect transistor or IGFET is a related term almost synonymous with MOSFET. The term may be more inclusive, since many MOSFETs use a gate that is not metal, and a gate insulator that is not oxide. Another synonym is MISFET for metal–insulator–semiconductor FET. The metal in the name MOSFET is now often a misnomer because the previously metal gate material is now often a layer of polysilicon (polycrystalline silicon). Aluminium had been the gate material until the mid-1970s, when polysilicon became dominant, due to its capability to form self-aligned gates.	Two power MOSFETs in the surface-mount package D2PAK. Each of these components can sustain a blocking voltage of 120 volts and a continuous current of 30 amperes. A power MOSFET is a specific type of metal oxide semiconductor field-effect transistor (MOSFET) designed to handle significant power levels. The power MOSFET is the most widely used low-voltage (that is, less than 200 V) switch. It can be found in most power supplies, DC to DC converters, and low voltage motor controllers.	The IGFET or MOSFET is a voltage controlled field effect transistor that differs from a JFET in that it has a “Metal Oxide” Gate electrode which is electrically insulated from the main semiconductor n-channel or p-channel by a very thin layer of insulating material usually silicon dioxide, commonly known as glass. The MOSFET – Metal Oxide FET. As well as the Junction Field Effect Transistor (JFET), there is another type of Field Effect Transistor available whose Gate input is electrically insulated from the main current carrying channel and is therefore called an Insulated Gate Field Effect Transistor or IGFET.
signs symptoms of confusion	1 Confusion occurs with other signs of a stroke, such as sudden weakness, numbness, inability to move, changes in vision, or slurred speech. 2 Confusion and memory loss develop quickly, over a few hours or days. 3 This is called delirium. 1 A person is unconscious for more than a few seconds. 2 Confusion occurs with other signs of a stroke, such as sudden weakness, numbness, inability to move, changes in vision, or slurred speech. 3 Confusion and memory loss develop quickly, over a few hours or days. 4	Noticing the symptoms of confusion when they first appear will help you or your loved one get prompt treatment. Some signs of confusion are: 1 slurring words or having long pauses during speech. 2 lack of awareness of location or time. 3 forgetting what a task is while it is being performed. If you or someone you know starts showing signs of confusion, call a doctor. People suffering from confusion can sometimes act aggressively, harming themselves or other people. Call a doctor if you notice: 1 dizziness. 2 rapid heart beat. 3 clammy skin. 4 fever. 5 headache. 6 shivering. 7 irregular breathing	The signs and symptoms of a concussion can be subtle and may not be immediately apparent. Symptoms can last for days, weeks or even longer. Common symptoms after a concussive traumatic brain injury are headache, loss of memory (amnesia) and confusion. Signs and symptoms of a concussion may include: 1 Headache or a feeling of pressure in the head. 2 Temporary loss of consciousness. 3 Confusion or feeling as if in a fog. 4 Amnesia surrounding the traumatic event. 5 Dizziness or seeing stars. 6 Ringing in the ears. 7 Nausea	If you're a healthy adult, you can usually treat mild to moderate dehydration by drinking more fluids, such as water or a sports drink (Gatorade, Powerade, others). Get immediate medical care if you develop severe signs and symptoms such as extreme thirst, a lack of urination, shriveled skin, dizziness and confusion. Treat children and older adults with greater caution.	Confusion is a change in mental status in which a person is not able to think with his or her usual level of clarity. Frequently, confusion leads to the loss of ability to recognize people and or places, or tell time and the date. Feelings of disorientation are common in confusion, and decision-making ability is impaired. Confusion may arise suddenly or develop gradually over time.
signs symptoms of confusion	Call 911 if: 1 A person is unconscious for more than a few seconds. 2 Confusion occurs with other signs of a stroke, such as sudden weakness, numbness, inability to move, changes in vision, or slurred speech. 3 Confusion and memory loss develop quickly, over a few hours or days. 4 This is called delirium. 1 A person is unconscious for more than a few seconds. 2 Confusion occurs with other signs of a stroke, such as sudden weakness, numbness, inability to move, changes in vision, or slurred speech.	The signs and symptoms of a concussion can be subtle and may not be immediately apparent. Symptoms can last for days, weeks or even longer. Common symptoms after a concussive traumatic brain injury are headache, loss of memory (amnesia) and confusion. Signs and symptoms of a concussion may include: 1 Headache or a feeling of pressure in the head. 2 Temporary loss of consciousness. 3 Confusion or feeling as if in a fog. 4 Amnesia surrounding the traumatic event. 5 Dizziness or seeing stars. 6 Ringing in the ears. 7 Nausea	The main signs are sudden changes in consciousness or state of arousal, such as feeling drowsy or agitated. A person with delirium may experience confusion, disorientation, an inability to focus, memory problems, or changes in perception.	If you're a healthy adult, you can usually treat mild to moderate dehydration by drinking more fluids, such as water or a sports drink (Gatorade, Powerade, others). Get immediate medical care if you develop severe signs and symptoms such as extreme thirst, a lack of urination, shriveled skin, dizziness and confusion. Treat children and older adults with greater caution.	Noticing the symptoms of confusion when they first appear will help you or your loved one get prompt treatment. Some signs of confusion are: 1 slurring words or having long pauses during speech. 2 lack of awareness of location or time. 3 forgetting what a task is while it is being performed. If you or someone you know starts showing signs of confusion, call a doctor. People suffering from confusion can sometimes act aggressively, harming themselves or other people. Call a doctor if you notice: 1 dizziness. 2 rapid heart beat. 3 clammy skin. 4 fever. 5 headache. 6 shivering. 7 irregular breathing
tax refund accepted how long to receive	We know how important your tax refund is to you. Good news, the IRS started processing tax returns on January 30th. Returns will be processed in the order they were submitted and as soon as your tax return is accepted, we will notify you by email. This notification could take up to 48 hours. The IRS estimates that you should receive your tax refund within 21 days of your return being accepted. The IRS issued more than 9 out of 10 refunds in less than 21 days last year and expects the same results this year	When the IRS processes your tax return and approves your refund, you can see your actual personalized refund date. Even though the IRS issues most refunds in less than 21 days after we receive your tax return, it’s possible your tax return may require additional review and take longer.	Many different factors can affect the timing of your refund after we receive it for processing. Even though we issue most refunds in less than 21 days, it’s possible your tax return may require additional review and take longer. Also, if you are anticipating a refund, take into consideration the time it takes for your financial institution to post the refund to your account, or for mail delivery. You can start checking on the status of your return within 24 hours after we have received your electronically filed tax return or 4 weeks after you mail a paper tax return. Q7: How often does Where’s My Refund? update? Where’s My Refund? updates are made no more than once per day, usually at night.	Once you are accepted, you are on the IRS payment timetable. The IRS issued more than 9 out of 10 refunds to taxpayers in less than 21 days last year. The same results are expected for 2014. Once you have e-filed your tax return, there are a few ways to check the status of your refund:	1 You should receive your amended refund within 6 months from the date filed. 2 If it has been more than five months since you filed your amended return, please call 1-877-252-3052 for assistance. 3 Select individual income tax then listen for the refund option to speak with an agent.
how are metalloids different from metals	Elements in the periodic table are grouped as metals, metalloids or semimetals, and nonmetals. The metalloids separate the metals and nonmetals on a periodic table. Also, many periodic table have a stair-step line on the table identifying the element groups.	Nonmetals, on the right side of the periodic table, are very different from metals. Their surface is dull and they don t conduct heat and electricity. As compared to metals, they have low density and will melt at low temperatures.	The periodic table on the left separates elements into three groups: the metals (green in the table), nonmetals (orange), and metalloids (blue). Most elements are metals. They are usually shiny, very dense, and only melt at high temperatures. Their shape can be easily changed into thin wires or sheets without breaking.	The elements of the periodic table can be broken into three different groups: metals, metalloids (or semi-metals) and nonmetals. This periodic table shows the three different groups of elements. The metalloid group separates the metals from the nonmetals. Elements to the left are metals and nonmetals are to the right.	Metal elements are usually good conductors of both electricity and heat. The dividing line between metals and non-metals is not hard and fast, thus the distinction between Post-transition metals and Metalloids is represented differently on different versions of the Periodic Table.
average radon levels	The national average of outside radon levels is 0.4 pCi/L and it is estimated by the National Academy of Sciences that outdoor radon levels cause approximately 800 of the 21,000 radon induced lung cancer deaths in the US each year. Your risk of lung cancer increases substantially with exposure to higher radon levels.	A safe level of radon gas is no radon gas. Radon gas is a carcinogen which causes lung cancer. The US EPA has put it plainly, stating, Any radon exposure has some risk of causing lung cancer. The lower the radon level in your home, the lower your family's risk of lung cancer.. The average person receives a higher dose of radiation from the radon levels in their home than from their combined exposure to all other radiation sources, natural or man-made.	Colorado specific radon and radon level information can be found throughout this site. You will be able to find information about certified radon inspectors in Colorado, as well as detailed radon level information for every county in Colorado. Radon-You can't see it.	While short-term tests do not measure the annual average of level of radon, they do offer a quick and inexpensive way to screen for radon in a home. Long-term tests determine the average concentration for a minimum of 90 days.	The risk to the average person of dying of radon-caused lung cancer due to a lifetime exposure to 4 pCi/L radon level at home is 2.3 percent. If there are five people in your family, the chances that someone becomes a victim of radon over 10 percent.
how is aspartame made	Aspartame is one of the most common artificial sweeteners in use today. It is sold under the brand names NutraSweet ® and Equal ® . Aspartame is made by joining together the amino acids aspartic acid and phenylalanine. Amino acids are the building blocks of proteins and are found naturally in many foods.	Aspartame can be made by various synthetic chemical pathways. In general, phenylalanine is modified by a reaction with methanol and then combined with a slightly modified aspartic acid which eventually forms aspartame. 1 5 The amino acids derived from the fermentation process are initially modified to produce aspartame. Aspartame is primarily derived from compounds called amino acids. These are chemicals which are used by plants and animals to create proteins that are essential for life. Of the 20 naturally occurring amino acids, two of them, aspartic acid and phenylalanine, are used in the manufacture of aspartame.	Aspartame (APM; /ˈaespərteɪm/ ˈæspərteɪm /or/) əˈspɑrteɪm is an, artificial-non saccharide sweetener used as a sugar substitute in some foods and. Beverages in The European, union it is codified As. e951 In the European Union, it is codified as E951. Aspartame is a methyl ester of the aspartic acid / phenylalanine dipeptide. It was first sold under the brand name NutraSweet. It was first synthesized in 1965, and the patent expired in 1992.	Aspartame (APM; /ˈaespərteɪm/ ˈæspərteɪm /or/) əˈspɑrteɪm is an, artificial-non saccharide sweetener used as a sugar substitute in some foods and. beverages In the European Union, it is codified as E951. Aspartame is a methyl ester of the aspartic acid / phenylalanine dipeptide. It was first sold under the brand name NutraSweet. It was first synthesized in 1965, and the patent expired in 1992.	Aspartame (APM; /ˈaespərteɪm/ ˈæspərteɪm /or/) əˈspɑrteɪm is an, artificial-non saccharide sweetener used as a sugar substitute in some foods and. Beverages in The European, union it is codified As. E951 aspartame is a methyl ester of the aspartic / acid phenylalanine. dipeptide In the European Union, it is codified as E951. Aspartame is a methyl ester of the aspartic acid / phenylalanine dipeptide. It was first sold under the brand name NutraSweet. It was first synthesized in 1965, and the patent expired in 1992.
gmo definition food good or bad	Genetically modified (GM) foods are foods derived from organisms whose genetic material (DNA) has been modified in a way that does not occur naturally, e.g. through the introduction of a gene from a different organism.	Share on Facebook Tweet on Twitter. Genetically modified organisms, or GMOs, are created when a gene from one species is transferred to another, creating something that would not be found in nature. This is why: 1 The health consequences of eating genetically modified organisms are largely unknown. 2 Food items that contain GMOs are unlabeled in America. 3 Genetic engineering reduces genetic diversity. 4 Once the mutant genes are out of the bag, there is no going back. 5 GMOs are not the answer for global food security. 6 Genetically engineered foods ...	A 2013 poll in The New York Times found that three-quarters of Americans have concerns about genetically modified organisms (GMOs) in their food; most are worried about health effects. Thirty-seven percent of those with worries fear that GM foods cause cancer or allergies. The subject of the craggy debate was whether foods that contain GMOs should be labeled as such. The head of Monsanto said absolutely not. Since there was nothing unsafe about genetically modified food, there was no reason to label.	There is a growing amount of information about GMOs in recent years that, (genetically modified organisms), appear to confirm serious health and environmental implications due to these ‘novel’ foods. According to Pusztai, when he expressed his concerns about GMO foods, he was fired and threatened with a lawsuit if he discussed his research. His 20-member research team was disbanded; the testing protocols were dropped, and a campaign was begun by pro-GM forces to discredit the study.	Modifying the genetic structure of food is not a new concept. For centuries, farmers have improved our food supply by cross-breeding different types of plants or animals to come up with new organisms that would taste better, yield more, and grow in more difficult conditions. Not to mention, they also had a very small control group (fed non-GMO food) of 20 rats that also developed tumors. Despite the results of the contested study, more research needs to be done on the long-term effects of genetically modified foods on humans. Until that happens, many European countries, like Russia and the UK, have already banned certain types of GMOs for human consumption
gmo definition food good or bad	GMOs are bad for your body, bad for the community, bad for farmers and bad for the environment. This is why: 1 The health consequences of eating genetically modified organisms are largely unknown. 2 Genetically engineered foods have not been shown to be safe to eat and may have unpredictable consequences. This is why: 1 The health consequences of eating genetically modified organisms are largely unknown. 2 Food items that contain GMOs are unlabeled in America. 3 Genetic engineering reduces genetic diversity. 4 Once the mutant genes are out of the bag, there is no going back. 5 GMOs are not the answer for global food security. 6 Genetically engineered foods ...	How to Go Non-GMO. 1 Organic foods are not allowed to contain GM ingredients. 2 Even the small percentage of non-organic ingredients allowed in foods labeled organic is not allowed to contain GMOs. 3 If you are traveling to Europe, no worries, GMOs are banned in EU foods. According to Pusztai, when he expressed his concerns about GMO foods, he was fired and threatened with a lawsuit if he discussed his research. His 20-member research team was disbanded; the testing protocols were dropped, and a campaign was begun by pro-GM forces to discredit the study.	There is a growing amount of information about GMOs in recent years that, (genetically modified organisms), appear to confirm serious health and environmental implications due to these ‘novel’ foods. According to Pusztai, when he expressed his concerns about GMO foods, he was fired and threatened with a lawsuit if he discussed his research. His 20-member research team was disbanded; the testing protocols were dropped, and a campaign was begun by pro-GM forces to discredit the study.	Share on Facebook Tweet on Twitter. Genetically modified organisms, or GMOs, are created when a gene from one species is transferred to another, creating something that would not be found in nature. This is why: 1 The health consequences of eating genetically modified organisms are largely unknown. 2 Food items that contain GMOs are unlabeled in America. 3 Genetic engineering reduces genetic diversity. 4 Once the mutant genes are out of the bag, there is no going back. 5 GMOs are not the answer for global food security. 6 Genetically engineered foods ...	Modifying the genetic structure of food is not a new concept. For centuries, farmers have improved our food supply by cross-breeding different types of plants or animals to come up with new organisms that would taste better, yield more, and grow in more difficult conditions. Not to mention, they also had a very small control group (fed non-GMO food) of 20 rats that also developed tumors. Despite the results of the contested study, more research needs to be done on the long-term effects of genetically modified foods on humans. Until that happens, many European countries, like Russia and the UK, have already banned certain types of GMOs for human consumption
what is crown-of-thorns starfish affecting the great barrier reef	Crown-of-thorns starfish. Crown-of-thorns starfish are one of the most damaging creatures of tropical coral reefs, particularly Australia's Great Barrier Reef. They are voracious predators that release the contents of their stomach on to the coral. Digestive juices then liquify the coral ready for consumption.	Map: Cairns 4870. More than 250,000 crown-of-thorns starfish have been removed from the Great Barrier Reef off Queensland in the past two years, Federal Environment Minister Greg Hunt says. The pest is considered to be one of the biggest threats to the reef and has traditionally been hard to destroy.	In the past 40 years, three waves of crown-of-thorns starfish outbreaks have had a major impact on the many reefs that make up the Great Barrier Reef. Crown-of-thorns starfish (also known as COTS) are marine invertebrates that feed on coral.	Cyclic outbreaks of the crown-of-thorns starfish occur approximately every 17 years. There have been four documented outbreaks on the Great Barrier Reef since the 1960s, with the latest starting in 2010.	The crown-of-thorns starfish (Acanthaster planci) is native to coral reefs in the Indo-Pacific region.
are proteins transcribed from dna	Proteins can be manufactured in large quantities because a single DNA sequence can be transcribed by many RNA polymerase molecules at once. DNA transcription is a process that involves transcribing genetic information from DNA to RNA. The transcribed DNA message, or RNA transcript, is used to produce proteins. DNA is housed within the nucleus of our cells. It controls cellular activity by coding for the production of proteins.	Ribosomes translate RNA into a protein with a specific amino acid sequence. The tRNA binds and brings to the ribosome the amino acid encoded by the mRNA. Ribosomes are made of rRNA and proteins. This summary of how genes are expressed shows that DNA is transcribed into RNA, which is translated in turn to protein. This chart shows the genetic code used by all organisms.	In the simplest sense, expressing a gene means manufacturing its corresponding protein, and this multilayered process has two major steps. In the first step, the information in DNA is transferred to a messenger RNA (mRNA) molecule by way of a process called transcription.	During transcription, the enzyme RNA polymerase (green) uses DNA as a template to produce a pre-mRNA transcript (pink). The pre-mRNA is processed to form a mature mRNA molecule that can be translated to build the protein molecule (polypeptide) encoded by the original gene.	Transcription is the process by which DNA is copied (transcribed) to mRNA, which carries the information needed for protein synthesis. Transcription takes place in two broad steps. First, pre-messenger RNA is formed, with the involvement of RNA polymerase enzymes.
what is seltzer	While seltzer is plain carbonated water and nothing but, club soda usually has a few mineral-y ingredients mixed in for added flavor (see the carbonated water, potassium bicarbonate, potassium sulfate listed on the label directly above vs. the simple carbonated water pictured above that on the seltzer bottle).	Seltzer water and club soda are very similar, but there is a notable difference between the two. Unlike seltzer, mineral-like ingredients are added to club soda to enhance the flavor. If you look on the list of ingredients, you'll likely see potassium bicarbonate and potassium sulfate listed. Unlike the other carbonated options, tonic water has a distinct flavor and it certainly can't be swapped out (or in) for carbonated water. Tonic water is a bitter drink (a result of the addition of quinine) which pairs particularly well with gin.	Seltzer water is any sort of man-made carbonated water that is sold as a beverage or mixer. It is very similar to naturally occurring mineral water, except its carbonation has been introduced artificially, and most of the time it does not contain any added minerals, either.	For the music venue in Montreal, see Club Soda (Montreal) . A glass of sparkling water. Carbonated water (also known as club soda, soda water, sparkling water, seltzer water, or fizzy water) is water into which carbon dioxide gas under pressure has been dissolved. Some of these have additives such as sodium (seltzer water is almost always composed of water and carbon dioxide with no other additives). This process, known as carbonation, is a process that causes the water to become effervescent.	Club soda. Club soda is carbonated water that has added minerals like potassium bicarbonate and potassium citrate to enhance the flavor. It can also have added sodium, but not all club sodas contain sodium. Seltzer water. Seltzer water is also carbonated water, but it doesn’t have any additives, including sodium. You can purchase flavored seltzers, usually in a citrus flavor, but plain seltzer is simply water that is carbonated.
what drives blood filtration within renal corpuscle	Together, the glomerulus and Bowman's capsule make up the renal corpuscle of the nephron. These parts of the nephron filter blood and are vital to our body's survival. The glomerulus is a network of renal capillaries responsible for the filtration of blood. The glomerulus is supplied with blood by a small artery carrying unfiltered blood called the afferent arteriole.	The nephron is the functional unit of the kidney. Each nephron consists of one renal corpuscle and its associated tubule. The kidney as a whole consists of many nephrons (millions) with their associated blood vessels. The renal corpuscles are the sites where the process of urine formation begins with a filtrate of blood plasma. 1 Each renal corpuscle consists of an epithelial cup called Bowman's capsule enclosing a knot of capillaries and other elements called the glomerulus.	for Teachers for Schools for Companies. Together, the glomerulus and Bowman's capsule make up the renal corpuscle of the nephron. These parts of the nephron filter blood and are vital to our body's survival. In this lesson, you'll explore the major corpuscular structures and their functions. The glomerulus is a network of renal capillaries responsible for the filtration of blood. The glomerulus is supplied with blood by a small artery carrying unfiltered blood called the afferent arteriole.	The Renal Corpuscle. Together, the glomerulus and its surrounding Bowman's capsule are called a renal corpuscle. This structure is located in the renal cortex. You should also be aware that the nephron is composed of two main parts: the renal tubule and the renal corpuscle. The glomerulus is a network of renal capillaries responsible for the filtration of blood. The glomerulus is supplied with blood by a small artery carrying unfiltered blood called the afferent arteriole.	The glomerular filtrate passes from the renal corpuscle to the renal tubule : Only about 1% of the glomerular fitrate actually leaves the body because the rest (the other 99%) is reabsorbed into the blood while it passes through the renal tubules and ducts. The pressure of the blood inside the glomerulus is increased due to the difference in diameter of the incoming and out-going arterioles. This increased blood pressure helps to force. of the blood out of the glomerular capillaries: 1 Most of the water; 2 Most/all of the salts;
what drives blood filtration within renal corpuscle	In the kidney, a renal corpuscle is the initial blood-filtering component of a nephron. It consists of two structures: a glomerulus and a Bowman's capsule. A renal corpuscle is also known as a Malpighian corpuscle, named after Marcello Malpighi (1628–1694), an Italian physician and biologist. This name is not used widely anymore, probably to avoid confusion with a Malpighian corpuscle in the spleen.	Together, the renal corpuscle and its associated tubule is called a nephron. In this cartoon, orange color represents renal corpuscles, blue color indicates tubules of each nephron, whose function is analogous to that of striated ducts, and lavendar color indicates collecting ducts, whose function is more passive. The renal corpuscles are the sites where the process of urine formation begins with a filtrate of blood plasma. 1 Each renal corpuscle consists of an epithelial cup called Bowman's capsule enclosing a knot of capillaries and other elements called the glomerulus.	The glomerular filtrate passes from the renal corpuscle to the renal tubule : Only about 1% of the glomerular fitrate actually leaves the body because the rest (the other 99%) is reabsorbed into the blood while it passes through the renal tubules and ducts. The pressure of the blood inside the glomerulus is increased due to the difference in diameter of the incoming and out-going arterioles. This increased blood pressure helps to force. of the blood out of the glomerular capillaries: 1 Most of the water; 2 Most/all of the salts;	The nephron is the functional unit of the kidney. Each nephron consists of one renal corpuscle and its associated tubule. The kidney as a whole consists of many nephrons (millions) with their associated blood vessels. The renal corpuscles are the sites where the process of urine formation begins with a filtrate of blood plasma. 1 Each renal corpuscle consists of an epithelial cup called Bowman's capsule enclosing a knot of capillaries and other elements called the glomerulus.	The parietal layer of Bowman’s capsule is continuous with the visceral layer overlying the glomerular capillaries. Electron Micrograph of a renal corpuscle 1. Afferent arteriole 2. Efferent arteriole 3. Glomerular capillaries 4. Glomerular filtration membrane 5. Urinary space of Bowman's capsule 6. Nuclei of parietal cells of Bowman's capsule 7. Nuclei of podocytes 8.
what is mrad	MRAD is the abbreviation used for “milliradians”. Milliradians are units of measurement that pertain to 1/1000 of a radian. The radian is a measure of angular distance or the ratio involving one length of the radius and a similar length of the circle arc. The angle produced with these two items provides the radian. When this particular angle is divided into 1000 mini components then each unit may be labelled as one (1) MRAD or one (1) milliradian. The concept of measuring angles using units such as radians or “mrads” is attributed to a man named Roger Cotes.	The MRAD’s lower uses a double-stacked detachable magazine. To fit it with an ambidextrous magazine release, Barrett followed the Ruskies, deploying the same magazine catch design found on the AK series rifles. Unlike the AK series, the MRAD’s magazine release is very small and not well-positioned.	Sam, a mil (or mRad) is 1/1000th of the distance. So whatever units you are using, whether meters, yards, fathoms, light years, etc. that is always the case. At 100 yards, a mil is .10 yards (3.6) and at 100 meters, 10 cm.	This is a discussion on 0.1 mrad within the Optics forums, part of the Gun Forum category; not sure the difference in 0.1 MRAD turret adjustments versus .25 MOA clicks, etc. Seems wih 0.1 it would take a whole lotta clicks to ...	0.1 mrad. This is a discussion on 0.1 mrad within the Optics forums, part of the Gun Forum category; not sure the difference in 0.1 MRAD turret adjustments versus .25 MOA clicks, etc. Seems wih 0.1 it would take a whole lotta clicks to ...
name for the inside of your elbow	Definition. Golfer's elbow is a condition that causes pain where the tendons of your forearm muscles attach to the bony bump on the inside of your elbow. The pain might spread into your forearm and wrist. Golfer's elbow is similar to tennis elbow, which occurs on the outside of the elbow. It's not limited to golfers.	The elbow is a synovial hinge joint located between the upper arm and forearm. It is formed by the meeting of three bones: the humerus in the upper arm and the ulna and radius in the lower arm.	An inside look at the structure of the elbow. #. Advertisement. Advertisement. The elbow is where the two bones of the forearm – the radius on the thumb side of the arm and the ulna on the pinky finger side – meet the bone of the upper arm -- the humerus. The lower end of the humerus flares out into two rounded protrusions called epicondyles, where muscles attach.	An inside look at the structure of the elbow. #. Advertisement. Advertisement. The elbow is where the two bones of the forearm – the radius on the thumb side of the arm and the ulna on the pinky finger side – meet the bone of the upper arm -- the humerus. The lower end of the humerus flares out into two rounded protrusions called epicondyles, where muscles attach.	The elbow is a synovial hinge joint located between the upper arm and forearm. It is formed by the meeting of three bones: the humerus in the upper arm and the ulna and radius in the lower arm.
what causes finger cramps	The most common causes of hand or finger cramps or spasms are muscle spasm, diabetes, and carpal tunnel syndrome. Other possible causes, such as multiple sclerosis, are more rare. Within all the people who go to their doctor with hand or finger cramps or spasms, 47% report having hand or finger pain, 34% report having foot or toe cramps or spasms, and 34% report having leg cramps or spasms. 1 Hand or finger pain 47. 2 Foot or toe cramps or spasms strong predictor 34. 3 Headache 34.	Acute causes of hand cramps. Hand cramps can also be caused by acute problems that affect the muscles and nerves of the hand including: Anxiety or panic due to hyperventilation. Damage to a single nerve or nerve group (mononeuropathy) or to multiple nerves (polyneuropathy) that are connected to muscles in the hand.	Photo Credit Photodisc/Photodisc/Getty Images. Cramps that occur in the fingers have a variety of causes. For example, overusing the fingers during activities such as writing, playing instruments or typing, can cause muscle fatigue and unwanted spasms that interfere with normal motor performance. Step 2. Stretch your fingers to relieve cramping and increase muscle flexibility in the hands. For example, hold your hand parallel to the floor and use the index finger on your other hand to gently lift each finger upward for five seconds before releasing.	Cramps are more likely the result of a mineral deficiency of the body. Try to add a couple of mineral tablets to your diet. On the other hand thyroid problems can also lead to … this and you may need to talk with your doctor. 13 people found this useful.	In some situations, hand cramps can occur as a result of chronic medical conditions that affect your entire body, such as thyroid disorders, dystonia (abnormal prolonged muscle contractions), or diabetes. Health Stories: Read how this real patient found the right care. I was in excruciating pain…and you rescued me. Cramps in your hand can arise from a number of different causes. Hand cramps develop as a result of conditions affecting muscles and nerves in your hand. Trauma or injury to a nerve in your hand can also cause hand cramps. Even breathing too fast (hyperventilation) can result in hand cramps, as carbon dioxide levels in the blood become too low. Everyday, simple reasons, such as fatigue from overuse, can lead to temporary, acute cramps in the hand
how long does solicitor searches take for leasehold	How Long Does House Conveyancing Take. The average time it takes for the conveyancing work to be carried out on a property purchase is around 6 to 8 weeks. This can change a lot depending on the circumstance of the transaction. For leasehold property it generally takes longer than a freehold property. 6. A property can be on the market for a number of months and in some cases years. This is why a large percentage of sellers do not start looking for a new property until theirs is under offer. This process can take a long time and if they need to arrange for mortgage finance can delay it even further.	Buying a home is an exciting time but it can be confusing, especially if you're a first-time buyer. Conveyancing describes the legal transfer of property (from seller to buyer). How long it takes depends on several things, such as how many buyers and sellers are involved in the process, but it can take weeks or months.	We say this is a general guide as on a purchase, you are generally in the hands of when the searches will be provided; when your mortgage offer lands and also how long it takes to obtain satisfactory replies to enquiries from the sellers solicitors. If the property is leasehold you should speak to your managing agent and try to obtain a leasehold sale pack as soon as possible. Purchase. 1. Make sure that you sign your client care letters and make your payment on account of costs as soon as possible so we can commission your searches; 2.	Leasehold information is obtained from a landlord or managing agent and how long it takes to obtain will depend on how efficient the landlord or managing agent is. A large national company will typically take 2 - 3 weeks. They will often offer an expedited service for an additional fee and this will take perhaps a week. Although the additional fee can make the information quite expensive, in terms of the conveyancing it can reduce how long it takes. If so it may be necessary to pay a further fee. Dealing With Defects in the Lease. Another issue that affects, in regards to leasehold conveyancing how long the transaction will take, is if there is a defect in the lease, or if it needs to be extended.	Lorraine's profile. In most cases the conveyancing for the purchase of a home will take between six and eight weeks. But it can be much less, or a lot longer, depending on many circumstances. In many cases a fee will be payable, so the seller’s Solicitors will have to find out how much the fee is, get payment from their client and then send payment to the organisation concerned before the document or information can be obtained – all of which cause delays.
What is the average salary for a police officer?	The salaries of police officers often depend on the state and town where they serve. Location is the largest factor to a police officer’s salary in states like Missouri. The average salary for a police officer is $28,000 a year in Missouri, according to Indeed.com. This rate matches the national average. Median pay for police officers varies widely throughout the state, with St. Louis police officer earning an average of about $51,000 a year and those in Springfield earning $47,000 a year, according to Salary.com. The lowest hourly pay rate for a police officer is in Hillsdale, which an hour of work pays only $11.18, according NBC News. That average hourly pay eventually adds up to an annual salary of $23,251.	Police or Sheriff's Patrol Officer Salary. (United States). The average salary for a Police or Sheriff's Patrol Officer is $44,913 per year. Experience has a moderate effect on pay for this job. Most people with this job move on to other positions after 20 years in this career. $29,591 - $76,611.	1 Academy pay is $33.26 an hour, until sworn in as a police officer. 2 Police officer, starting step 1 salary $80,600. 3 Police officer, top step salary $107,931 (one step increase annually for seven years). 4 Lateral police officer salary determined by experience, training and education. SALARY: 1	The New York Police Department is the largest municipal police force in the United States. Rookie cops in the NYPD receive a base salary of $41,975 per year. Total compensation, comprised of base pay and payments covering uniform costs and other considerations, amounts to $44,744. Wages increase at regular intervals during a rookie's first five-and-a-half years on the job. After two-and-a-half years on the job, a police officer receives a base salary of $48,779 and a total compensation package of $53,819. Base salaries increase on an annual basis by $3,000 to $5,000 over the next few years.	The median salary for Michigan police and sheriff’s patrol officers is $53,760, LawEnforcementEDU.net reported, citing 2012-13 Bureau of Labor Statistics data. That is approximately $3,000 lower than the national median pay, according to the BLS. Police supervisors receive $70,270, and detectives and criminal investigators earn $71,290. According to Indeed, the average salary for a police officer in Michigan is $29,000. Michigan state police have a starting salary of $41,000, Criminal Justice Degree Schools reported. After 20 years of service, they are granted the maximum salary for an officer of $62,000. Pay is a large concern for Michigan police officers, especially those in Detroit. Officers working for Wayne State University make $43,000 a year, WJBK-TV reported in March 2014
what does camphor smell like	, CINNAMOMUM CAMPHORA. The camphor tree produces a white crystalline substance, camphor, which has been much used as insect repellant. If you have ever smelled a moth ball-that’s camphor. It comes from the wood of the evergreen tree which can grow up to 100 feet and can have a canopy of 6 or 7 feet in diameter.	It is used for its scent, as an ingredient in cooking (mainly in India), as an embalming fluid, for medicinal purposes, and in religious ceremonies. A major source of camphor in Asia is camphor basil (the parent of African blue basil). In biosynthesis, camphor is produced from geranyl pyrophosphate, via cyclisation of linaloyl pyrophosphate to bornyl pyrophosphate, followed by hydrolysis to borneol and oxidation to camphor.	---Description--- Camphor is a white crystalline substance, obtained from the tree Cinnamonum camphora, but the name has been given to various concrete odorous volatile products, found in different aromatic plants. The commercial Camphor comes only from C. camphora and Dryobalanops camphora (fam. Dipterocarpacaea).	Camphor (/ˈkaemfər/) ˈkæmfər is a, waxy, flammable white or transparent solid with a strong aromatic. odor In biosynthesis, camphor is produced from geranyl pyrophosphate, via cyclisation of linaloyl pyrophosphate to bornyl pyrophosphate, followed by hydrolysis to borneol and oxidation to camphor.	It is found in the wood of the camphor laurel (Cinnamomum camphora), a large evergreen tree found in Asia (particularly in Sumatra, Indonesia and Borneo) and also of the unrelated kapur tree, a tall timber tree from the same region. In biosynthesis, camphor is produced from geranyl pyrophosphate, via cyclisation of linaloyl pyrophosphate to bornyl pyrophosphate, followed by hydrolysis to borneol and oxidation to camphor.
what is a normal total cholesterol level	A normal total cholesterol level should be under 200 mg/dL. It's best to consider total cholesterol to be a good overview number, not the number that you use to decide whether or not you have an ideal cholesterol reading. In fact, total cholesterol levels can be misleading. For example, a person can have a normal total cholesterol level but have a low HDL level and high LDL level. Both low HDL levels and high LDL levels increase a person's risk for heart disease.	In the United States, cholesterol levels are calculated in milligrams of cholesterol for each deciliter of blood. A result of under 200 mg per dL (5.2 mmol/L) is ideal. A level somewhere between 200 to 239 mg per dL (5.2 and 6.2 mmol/L) is within the edge line of high-risk class. In that case, your doctor might advise you to develop a preventing low cholesterol diet plan.	Your total cholesterol level is Borderline High. Your level of bad LDL cholesterol is Borderline High, too. Working to bring down your total cholesterol decreases your LDL cholesterol level. You can do this by exercising more and eating less food with saturated fats. Your total cholesterol level is High, and your level of bad LDL cholesterol is Very High	LDL levels are therefore the very best gauge of risk of cardiac arrest. A low LDL cholesterol is much better. Lower than 100 mg per dL (2.6 mmol/L) is the ideal. Between 100 and 129 mg per dL (2.6 and 3.3 mmol/L) is close to ideal, while between 130 and 159 mg per dL (3.4 and 4.1 mmol/L) is borderline elevated. A result of under 200 mg per dL (5.2 mmol/L) is ideal. A level somewhere between 200 to 239 mg per dL (5.2 and 6.2 mmol/L) is within the edge line of high-risk class. In that case, your doctor might advise you to develop a preventing low cholesterol diet plan.	Total blood (or serum) cholesterol. Your total cholesterol score is calculated using the following equation: HDL + LDL + 20 percent of your triglyceride level. HDL (good) cholesterol. With HDL cholesterol, higher levels are better. Low HDL cholesterol puts you at higher risk for heart disease
what did the egyptians use for plaster	The ancient Egyptians did not know the hard setting lime plaster invented by the Greeks, but used instead a mixture of gypsum and quartz with small amounts of lime [5] when working with stone. This was not as disastrous in the dry climate of Egypt as it would have been under wetter conditions. Most of the ancient Egyptian buildings have disappeared leaving no trace. Built of sun baked bricks made of Nile mud and straw, houses, palaces and city walls crumbled when they stopped being looked after.	Specifiers of plaster work are sometimes wary of using gypsum not only because it was seen to be harmful, but also because the material was used in the 19th century for the production of fibrous plaster, a form of plasterwork which was reinforced with hessian and laths. 18th century hand modelling at Prior Park executed in marble dust, lime and gypsum. Gypsum plaster is viewed by many people in the conservation world as a modern material which is inappropriate for use in historic buildings, yet it has been used in this country for hundreds of years.	Early 19th Century plasterer at work-painting by John Cranch (1751 - 1821). Plasterwork is one of the most ancient of handicrafts employed in connection with building operations, the earliest evidence showing that the dwellings of primitive man were erected in a simple fashion with sticks and plastered with mud.	History of Egyptian Masks. In ancient Egypt, masks were primarily used for two purposes: as death masks and as ritual masks. Ancient Egyptians believed that it is very important to preserve a body of the dead because the soul has to have a place where to dwell after the death. After that Egyptians used, so called, cartonnage, a material made from papyrus or linen and soaked in plaster and then molded on a wooden mold. That was, of course, a cheap variant intended for lower class. Royal death masks were made from precious metals, first of all-gold or gold leaves on bronze.	Many people interested in Egypt are familiar with funerary masks, used to cover the face of a mummy. An example, of course, is the famous funerary mask of Tutankhamun now in the Egyptian Antiquities Museum in Cairo, though certainly most funerary masks were not made of solid gold. Funerary masks and other facial coverings for mummies emphasized the ancient Egyptian belief in the fragile state of transition that the dead would have to successfully transcend in their physical and spiritual journey from this world to their divine transformation in the next.
what did the egyptians use for plaster	They learned the art of fusing copper with tin to make bronze. Ancient Egypt Manufacturers made brick, cement and plaster of Paris; they glazed pottery, blew glass, and glorified both with color. They were masters Manufacturers in the carving of wood; they made everything from boats and carriages, chairs and beds, to handsome coffins that almost invited men to di	Building in ancient Egypt. Most of the ancient Egyptian buildings have disappeared leaving no trace. Built of sun baked bricks made of Nile mud and straw, houses, palaces and city walls crumbled when they stopped being looked after.	Mud and straw brick. In Ancient Egypt people used mud and straw to make bricks for their houses. The straw was added to the mud to make the brick stronger. They were placed in a mould to give them an oblong shape, which is easier to build with. This material helps to keep the houses cool when it is hot and warm when it is cool. Wall plaster The painted wall plaster in photograph 1 came from the walls of a tomb. We can't be sure what was actually painted on it because it is a very small piece. The richer and more important the person had been during their life, the larger and more decorative the paintings would be.	Embalmers used salts from the Wadi Natrun for mummification, which also provided the gypsum needed to make plaster. Ore-bearing rock formations were found in distant, inhospitable wadis in the eastern desert and the Sinai, requiring large, state-controlled expeditions to obtain natural resources found there. The Egyptians worked deposits of the lead ore galena at Gebel Rosas to make net sinkers, plumb bobs, and small figurines. Copper was the most important metal for toolmaking in ancient Egypt and was smelted in furnaces from malachite ore mined in the Sinai.	Many people interested in Egypt are familiar with funerary masks, used to cover the face of a mummy. An example, of course, is the famous funerary mask of Tutankhamun now in the Egyptian Antiquities Museum in Cairo, though certainly most funerary masks were not made of solid gold. Funerary masks and other facial coverings for mummies emphasized the ancient Egyptian belief in the fragile state of transition that the dead would have to successfully transcend in their physical and spiritual journey from this world to their divine transformation in the next.
what process must occur before mitosis and meiosis	Report Abuse. DNA synthesis must first occur before a cell can undergo mitosis (the cell doesn't necessarily grow to twice is original size, but during the gap phases of the cell cycle, the cell does grow in size and organelles are also synthesized). Interphase is a phase of mitosis. The alignment of replicated chromosomes and their separation into two groups is a process that can be observed in virtually all eukaryotic cells. Interfase must happen before mitosis can begin. Interfase is when the parent cell stores energy and becomes bigger so it can make the two daughter cells.	Cells divide and reproduce in two ways: mitosis and meiosis. Mitosis is a process of cell division that results in two genetically identical daughter cells developing from a single parent cell. Meiosis 1 has prophase 1, metaphase 1, anaphase 1, and telophase 1, while meiosis 2 has prophase 2, metaphase 2, anaphase 2, and telophase 2. Cytokinesis plays a role in meiosis, too; however, as in mitosis, it is a separate process from meiosis itself, and cytokinesis shows up at a different point in the division.	In meiosis, DNA replication is followed by two rounds of cell division to produce four daughter cells each with half the number of chromosomes as the original parent cell. Meiosis produces haploid gametes with one set of 23 chromosomes. When two gametes (an egg and a sperm) fuse, the resulting zygote is once again diploid, with the mother and father each contributing	Meiosis /maɪˈoʊsɨs/ is a specialized type of cell division which reduces the chromosome number by half. This process occurs in all sexually reproducing single-celled and multi-celled eukaryotes, including animals, plants, and fungi. Meiosis produces haploid gametes with one set of 23 chromosomes. When two gametes (an egg and a sperm) fuse, the resulting zygote is once again diploid, with the mother and father each contributing	In meiosis, the chromosomes duplicate (during interphase) and homologous chromosomes exchange genetic information (chromosomal crossover) before a first division, called meiosis I. The daughter cells divide again in meiosis II, splitting up sister chromatids to form haploid gametes. Meiosis produces haploid gametes with one set of 23 chromosomes. When two gametes (an egg and a sperm) fuse, the resulting zygote is once again diploid, with the mother and father each contributing
what process must occur before mitosis and meiosis	User: Which process MUST occur before mitosis and meiosis, produces two identical DNA strands from one original template, and uses DNA polymerase enzyme to produce the copy?Weegy: The process you are referring to is DNA replication. However, meiosis must always occur before mitosis. So the correct process is DNA replication, meiosis and then mitosis. Expert answered\|AshleyRose\|Points 0\|User: Immature bone cells, or osteoblasts, manufacture a protein called osteoid as well as several hormones.	Meiosis /maɪˈoʊsɨs/ is a specialized type of cell division which reduces the chromosome number by half. This process occurs in all sexually reproducing single-celled and multi-celled eukaryotes, including animals, plants, and fungi. Meiosis produces haploid gametes with one set of 23 chromosomes. When two gametes (an egg and a sperm) fuse, the resulting zygote is once again diploid, with the mother and father each contributing	There are two kinds of cell division: mitosis and meiosis. Mitosis is essentially a duplication process: It produces two genetically identical daughter cells from a single parent cell. You grew from a single embryonic cell to the person you are now through mitosis.	In meiosis, the chromosomes duplicate (during interphase) and homologous chromosomes exchange genetic information (chromosomal crossover) before a first division, called meiosis I. The daughter cells divide again in meiosis II, splitting up sister chromatids to form haploid gametes. Meiosis produces haploid gametes with one set of 23 chromosomes. When two gametes (an egg and a sperm) fuse, the resulting zygote is once again diploid, with the mother and father each contributing	Mitosis. Mitosis is a form of eukaryotic cell division that produces two daughter cells with the same genetic component as the parent cell. Chromosomes replicated during the S phase are divided in such a way as to ensure that each daughter cell receives a copy of every chromosome. Meiosis. Meiosis is the form of eukaryotic cell division that produces haploid sex cells or gametes (which contain a single copy of each chromosome) from diploid cells (which contain two copies of each chromosome).
the average anesthesiologist salary	The average salary for anesthesiologist jobs is $168,000. Average anesthesiologist salaries can vary greatly due to company, location, industry, experience and benefits. This salary was calculated using the average salary for all jobs with the term anesthesiologist anywhere in the job listing.	Average anesthesiologist salary. The annual salary for an Anesthesiologist is about $166,400 while the median salary for an anesthesiologist based in US is $335,078. As you can see average anesthesiologist salary is one of the highest salary in medical sector.	An Anesthesiologist salary can be affected by many different factors such as geographical location of your job, the type of facility you work in, specialty and experience. In the United States, an anesthesiologist can expect to earn on average about $343,000 each year and this can go up to about $425,000. The salary also depends on the industry you work in. You may work in healthcare, pharmaceutical, biotechnology, education, government and non-profit organizations.	There are no specific reports about anesthesiologist nurse’s salary. However, nurse anesthetists, professionals with a relevant profession, earned an average of $158,900 per year in 2014, according to the BLS. According to PayScale, nurse anesthetists earned between $90,924 and $186,905 per year.	Conclusion about anesthesiologist salary. Anesthesiologist’s salary varies by assignment and an average pay rate is around $1,200 per day which may go up to $1,350 for pediatric or cardiac cases. In fact, anesthesiologists receive about $6,000 to $6,750 per week through the assignments.
how long until geese eggs hatch	Infertile eggs should be discarded and fertile eggs should be returned to the nest. 5. Wait until the eggs hatch. Incubation can take 28 to 35 days, and hatching can take as long as three days. 1 Keep the conditions of the nest clean throughout this entire period and continue turning the eggs each day during the entire process.	How long do waterfowl eggs take to hatch? That depends on the type of eggs one is incubating. Bantam duck eggs usually hatch in 27-28 days for me. The eggs of large ducks and most geese take approximately 28-30 days with Chinas often hatching a day or so earlier.	I'm hatching my first set of goose eggs and was just wondering how long they are supposed to take to hatch. They are Toulouse breed and I was told it should take 28 days.	You get a male and female goose. You put them in a safe place outdoors with food and plenty of water. In the spring, the female will lay about 20 eggs which she will set … on both day and night until the eggs hatch about 28 days later.	Most goose eggs take from 28 to 32 days to hatch. However, it is not uncommon for them to hatch anywhere from day 26 to day 35. Goose eggs take the same temperature as chickens---99.5 forced air and 101.5 still air. They also need a much higher humidity--at least 65% from days 1-26, then 85% or more until they hatch.
what is a nunchuck	Search : Home Weapons Nunchuck (Nunchakus). Nunchuck is an abbreviation of the Japanese word nunchuku (a.k.a. nunchakus, numchuks, numchuck, nunchuk or chaku sticks.) Nunchuku is usually translated as flail and is traditionally considered a karate weapon. Some Chinese call it by the Mandarin term erjie gun (two-section stick.).	The simple answer to how nunchuck controllers are used in games is that they are secondary game interfaces, alongside the Wiimote. A more elaborate answer addresses how nunchucks work, why a player might wish to buy one, and what types of nunchuck controllers are available. Most Wii games require the nunchuck controller in some capacity. The exception is the Wii Sports group of games that come with the Wii. They are designed primarily as an introduction to the system and as a way to learn to use the Wiimote. Of the Wii Sports, only boxing actually requires the nunchuck.	The nunchaku is most widely used in martial arts such as Okinawan kobudō and karate, and is used as a training weapon, since it allows the development of quicker hand movements and improves posture. Possession of nunchaku is illegal, or the nunchaku is defined as weapon in a number of countries, including Norway, Canada, Russia, Poland, Chile, and Spain.	This is the only minigame on Wii Sports that requires the Nunchuk. You need to connect the Nunchuk to the bottom of the Wii-mote and hold the Wii-mote in your right hand (if you are right handed) and the Nunchuk in the other-then just punch like you were actually boxing. The Wii-mote is the main controller and everyone who wants to play at the same time needs one of these. It should have come with a regular and a nunchuck controller. The latter is the controller that plugs in to the bottom of the main controller. You don't need it for most games. You only need a second controller to play against each other in multi-player games. In that case, you'll want a second standard controller	You are here: Weapons Nunchaku. Also known as nunchaku, nunchucks, chucks or chain sticks, originally a farm tool used to harvest rice, it developed into a traditional Okinawan weapon and consists of two sticks connected at their ends with a short chain or rope. Today, the sticks are tied with rope or chain. Because of is innocent appearance, nunchucks could easily be mistaken for a toy or harmless bundle of sticks. In a defensive situation, however, it could be used to strike, block, hit, twist and pinch.
what is a nunchuck	a nunchuck is an extension controller that plugs in to the bottom to the Wii-mote. It has a control stick, which was on all nintendo systems starting at Nintendo 64. Most games like Adventure games use the control stick to move your player. It should have come with a regular and a nunchuck controller. The latter is the controller that plugs in to the bottom of the main controller. You don't need it for most games. You only need a second controller to play against each other in multi-player games. In that case, you'll want a second standard controll	This is the only minigame on Wii Sports that requires the Nunchuk. You need to connect the Nunchuk to the bottom of the Wii-mote and hold the Wii-mote in your right hand (if you are right handed) and the Nunchuk in the other-then just punch like you were actually boxing. The Wii-mote is the main controller and everyone who wants to play at the same time needs one of these. It should have come with a regular and a nunchuck controller. The latter is the controller that plugs in to the bottom of the main controller. You don't need it for most games. You only need a second controller to play against each other in multi-player games. In that case, you'll want a second standard controller	You are here: Weapons Nunchaku. Also known as nunchaku, nunchucks, chucks or chain sticks, originally a farm tool used to harvest rice, it developed into a traditional Okinawan weapon and consists of two sticks connected at their ends with a short chain or rope. Today, the sticks are tied with rope or chain. Because of is innocent appearance, nunchucks could easily be mistaken for a toy or harmless bundle of sticks. In a defensive situation, however, it could be used to strike, block, hit, twist and pinch.	The simple answer to how nunchuck controllers are used in games is that they are secondary game interfaces, alongside the Wiimote. A more elaborate answer addresses how nunchucks work, why a player might wish to buy one, and what types of nunchuck controllers are available. Most Wii games require the nunchuck controller in some capacity. The exception is the Wii Sports group of games that come with the Wii. They are designed primarily as an introduction to the system and as a way to learn to use the Wiimote. Of the Wii Sports, only boxing actually requires the nunchuck.	The nunchaku is most widely used in martial arts such as Okinawan kobudō and karate, and is used as a training weapon, since it allows the development of quicker hand movements and improves posture. Possession of nunchaku is illegal, or the nunchaku is defined as weapon in a number of countries, including Norway, Canada, Russia, Poland, Chile, and Spain.
what is a nunchuck	In modern times, nunchaku (Tabak-Toyok) were popularized by actor and martial artist Bruce Lee and his student, actor and martial arts instructor Dan Inosanto, in their respective movies. Possession of nunchaku is illegal, or the nunchaku is defined as weapon in a number of countries, including Norway, Canada, Russia, Poland, Chile, and Spain.	This is the only minigame on Wii Sports that requires the Nunchuk. You need to connect the Nunchuk to the bottom of the Wii-mote and hold the Wii-mote in your right hand (if you are right handed) and the Nunchuk in the other-then just punch like you were actually boxing. The Wii-mote is the main controller and everyone who wants to play at the same time needs one of these. It should have come with a regular and a nunchuck controller. The latter is the controller that plugs in to the bottom of the main controller. You don't need it for most games. You only need a second controller to play against each other in multi-player games. In that case, you'll want a second standard controller	Nunchucks and the Law. Download article as a PDF. Nunchuck martial arts fighting sticks are a traditional martial arts weapon that originates from Okinawa, Japan. A pair of nunchucks, also called nunchaku, consists of two short sticks connected by a rope or chain. Used as a single martial arts weapon, or in pairs, nunchucks are illegal in a number of states and countries. Nunchucks frequently appear in mass media. Nunchucks can cause broken bones, cuts, concussions, and eye and nose injuries. A nunchuck is engineered so that it can be used as a fulcrum: the assailant holds one stick while attacking with the other stick that is attached to the first one.	You are here: Weapons Nunchaku. Also known as nunchaku, nunchucks, chucks or chain sticks, originally a farm tool used to harvest rice, it developed into a traditional Okinawan weapon and consists of two sticks connected at their ends with a short chain or rope. Today, the sticks are tied with rope or chain. Because of is innocent appearance, nunchucks could easily be mistaken for a toy or harmless bundle of sticks. In a defensive situation, however, it could be used to strike, block, hit, twist and pinch.	The nunchaku is most widely used in martial arts such as Okinawan kobudō and karate, and is used as a training weapon, since it allows the development of quicker hand movements and improves posture. Possession of nunchaku is illegal, or the nunchaku is defined as weapon in a number of countries, including Norway, Canada, Russia, Poland, Chile, and Spain.
causes of epigastric pain	Epigastric pain is pain that is localized to the region of the upper abdomen immediately below the ribs. Often, those who experience this type of pain feel it during or right after eating or if they lie down too soon after eating. It is a common symptom of gastroesophageal reflux disease (GERD) or heartburn. It may be associated with the gastric contents moving upward into the back of the throat, causing inflammation and a burning pain. Epigastric pain may also occur with conditions that cause inflammation of the digestive organs, such as gastritis and pancreatitis. Pregnant women may experience epigastric pain due to increased abdominal pressure and hormonal changes that slow the digestive process	Epigastric pain-Location, Causes, Symptoms, Diagnosis and Treatment. The epigastrium is one of the quadrants of the abdomen. It is the region lying between the subcostal plane and the costal margins. To understand this, it is the region that is located in the middle of the upper part of the abdomen. There are many causes of the epigastric pain. Many disorders and diseases can lead to the uncomfortable feeling in this area. Therefore, it becomes difficult to diagnose the exact condition causing this pain. Here, we have presented all the possible aetiologies behind this pai	Epigastric pain can be due to common causes including: Dyspepsia (indigestion). Gastritis (inflammation of the stomach lining). Gastroesophageal reflux disease (GERD), a condition in which acidic stomach contents flow back into the esophagus. Heartburn. Lactose intolerance. Pregnancy. Other causes of epigastric pain. Epigastric pain may have other causes including: Barrett’s esophagus (cellular changes in the esophagus that may lead to esophageal cancer). Esophagitis (inflammation of the esophagus). Gallstones or gallbladder disease.	The following medical conditions are some of the possible causes of Epigastric pain. There are likely to be other possible causes, so ask your doctor about your symptoms. List of 93 causes of Epigastric pain. This section shows a full list of all the diseases and conditions listed as a possible cause of Epigastric pain in our database from various sources. 1 Abdominal hernia. 2 Angina. 3 Ankylostomiasis-epigastric pain. 4 Biliary pain. 5 Callistin shellfish poisoning	Shares & Saves. Save. Epigastric pain is an ache or soreness in the upper and middle portions of the abdomen, just below the sternum. There are a variety of causes for abdominal pain, and it is often difficult to pinpoint the exact cause without extensive testing. Gastroesophageal reflux disease, lactose intolerance, gallstones and pancreatitis are a few of the most common causes of epigastric pain.
what does pre approval for a mortgage mean	You would supply the lender with data such as your income, assets and debts and the lender would give you an idea of how much you can borrow, what type of mortgage options there are, etc. A lot of people make the mistake of thinking that pre-qualified means pre-approved, but this is not the case. What It Means. To be pre-approved for a mortgage means that a bank or lender has investigated your credit history and determined that you would be a suitable candidate for a mortgage.	The literal meaning is at a stage before approval.. Thus, pre-approved creates no obligation whatsoever on the lender and no rights whatsoever to the potential borrower. Pre-approved is thus a popular advertising catch phrase to induce people to apply for a loan. The second meaning relates to mortgage lending. This pre approval can then help a buyer find a home that is within their loan amount range. Buyers can ask for a letter of pre approval from the lender, and when shopping for a home can have possibly an advantage over others because they can show the seller that they are more likely to be able to buy the house.	You would supply the lender with data such as your income, assets and debts and the lender would give you an idea of how much you can borrow, what type of mortgage options there are, etc. A lot of people make the mistake of thinking that pre-qualified means pre-approved, but this is not the case. What It Involves. Getting pre-approved is a somewhat lengthy process. But at the end of it all you’ll know whether you can buy a home or not. The process starts before you even find a home. First, you’ll need to go to a lender and complete a mortgage application and provide documents related to your financial history.	A pre-approval is generally a written statement from a lender stating the lender’s preliminary determination that a borrower would qualify for a particular loan amount under that lender’s guidelines. The determination and loan amount are based on income and credit information. Pre-approval letters are subject to modification or cancellation if your financial situation or other conditions change. A pre-approval letter is not an offer to lend, a commitment to make a loan, or a guarantee of specific rates or terms. This online questionnaire is not an application for credit.	Best Answer: If you have been pre-approved for a FHA or Conforming loan, that that is normally more accurate than being pre-qualified. The person you are working with will run your loan application and credit, thru DU or LP (Fannie Mae or Freddie Mac) automatic systems.
what does pre approval for a mortgage mean	What It Involves. Getting pre-approved is a somewhat lengthy process. But at the end of it all you’ll know whether you can buy a home or not. The process starts before you even find a home. First, you’ll need to go to a lender and complete a mortgage application and provide documents related to your financial history. What It Means. To be pre-approved for a mortgage means that a bank or lender has investigated your credit history and determined that you would be a suitable candidate for a mortgage.	DEFINITION of 'Pre-Approval'. An evaluation of a potential borrower by a lender that determines whether the borrower qualifies for a loan from the lender, or the maximum amount that the lender would be willing to lend. BREAKING DOWN 'Pre-Approval'. The pre-approval process involves a confirmation of income and a credit check on the borrower. As long as no major income or credit changes occur between the time of pre-approval and the actual purchase of a home, the dollar amount of pre-approval can be expected to remain the same.	The literal meaning is at a stage before approval.. Thus, pre-approved creates no obligation whatsoever on the lender and no rights whatsoever to the potential borrower. Pre-approved is thus a popular advertising catch phrase to induce people to apply for a loan. The second meaning relates to mortgage lending. This pre approval can then help a buyer find a home that is within their loan amount range. Buyers can ask for a letter of pre approval from the lender, and when shopping for a home can have possibly an advantage over others because they can show the seller that they are more likely to be able to buy the house.	You would supply the lender with data such as your income, assets and debts and the lender would give you an idea of how much you can borrow, what type of mortgage options there are, etc. A lot of people make the mistake of thinking that pre-qualified means pre-approved, but this is not the case. What It Involves. Getting pre-approved is a somewhat lengthy process. But at the end of it all you’ll know whether you can buy a home or not. The process starts before you even find a home. First, you’ll need to go to a lender and complete a mortgage application and provide documents related to your financial history.	There’s not a lot of difference between a prequalification letter and a preapproval letter. While there are some legal distinctions, in practice both terms refer to a letter from a lender that says the lender is generally willing to lend to you, up to a certain amount and based on certain assumptions. Don’t worry about which word lenders use. Some lenders may use the word “prequalification,” while other lenders may call the letter a “preapproval.” In reality, lenders’ processes vary widely, and the words they use don’t tell you much about a particular lender’s process.
where is cloudbreak	Cloudbreak is just about three miles straight south of Namotu Island. A world class left reef pass that is regularly voted one of the 10 Best/Most challenging waves in the world. Like many tropical reef-pass breaks, Cloudbreak tends to get faster, shallower and more critical as it goes. Make no mistake about it, Cloudbreak is a difficult wave to surf. At its most difficult, you'll need a jet-ski and a tow board just to get in. Cloudbreak is a left reef break with waves that can be when they are as small as 2 feet, or as large as 20 feet.	Location. Cloudbreak is located on a sheltered reef, just three miles south of Namotu Island Resort. One thing you'll notice even from afar is just how perfect Cloudbreak looks, with consistent white breaks visible from up to two miles away. Make no mistake about it, Cloudbreak is a difficult wave to surf. At its most difficult, you'll need a jet-ski and a tow board just to get in. Cloudbreak is a left reef break with waves that can be when they are as small as 2 feet, or as large as 20 feet.	Tavarua is a heart shaped island resort in Fiji. It has an area of 29 acres (120,000 m 2). The island is close to the main Fijian island, Viti Levu, and is surrounded by a coral reef. Activities on Tavarua include surfing, sport fishing, scuba diving, snorkeling and kayaking to name a few. There is also a pool, spa, workout facility and tennis court along with a restaurant facility and two bars.	We offer surf tours to Cloudbreak Fiji and other famous Fiji surf spots. Castaway can cater to your secret surf addiction…while keeping the non-surfers in your party happy and indulged on-island, all day. Sneak away for a bit of ‘me-time’ and surf at some of the best surf spots in Fiji. Cloudbreak in particular is loved by surfers worldwide due to its power, hollowness and the fact that it is very long, consistent and holds big swells. (That’s surf-speak for AWESOME!). Here’s a surfer’s own description of Cloudbreak from www.wannasurf.com…. “Cloudbreak is	Cloudbreak’s reputation precedes it. Routinely ranking among the ten most challenging waves in the world, this renowned Fiji surf spot boasts fast, barrelling lefts over a shallow reef. It’s one of those breaks you just have to see to believe. It is awe-inspiring. Make no mistake about it, Cloudbreak is a difficult wave to surf. At its most difficult, you'll need a jet-ski and a tow board just to get in. Cloudbreak is a left reef break with waves that can be when they are as small as 2 feet, or as large as 20 feet.
nonmetal definition chemistry	General Chemistry Dictionary. (metal,metalloid) A nonmetal is a substance that conducts heat and electricity poorly, is brittle or waxy or gaseous, and cannot be hammered into sheets or drawn into wire. Nonmetals gain electrons easily to form anions. About 20% of the known chemical elements are nonmetals. Define: (metal,metalloid) A nonmetal is a substance that conducts heat and electricity poorly, is brittle or waxy or gaseous, and cannot be hammered into sheets or drawn into wire. Nonmetals gain electrons easily to form anion	Definition of NONMETAL. : a chemical element (as boron, carbon, or nitrogen) that lacks the characteristics of a metal. See nonmetal defined for kids. ADVERTISEMENT.	Medical Definition of NONMETAL. : a chemical element (as boron, carbon, or nitrogen) that lacks the characteristics of a metal and that is able to form anions, acidic oxides, acids, and stable compounds with hydrogen. : a chemical element (as boron, carbon, or nitrogen) that lacks the characteristics of a metal. See nonmetal defined for kids. ADVERTISEMENT.	189 pages on this wiki. Nonmetal is a term used in chemistry when classifying the chemical elements. On the basis of their general physical and chemical properties, every element in the periodic table can be termed either a metal or a nonmetal. (A few elements with intermediate properties are referred to as metalloids .). The elements generally regarded as nonmetals are: 1 hydrogen (H). 2 In Group 14: carbon (C).	Non-metals are the elements in groups 14-16 of the periodic table. Non-metals are not able to conduct electricity or heat very well. As opposed to metals, non-metallic elements are very brittle, and cannot be rolled into wires or pounded into sheets.
what functions do organelles in a plant cell perform	Generally speaking, organelles means little organs and they perform the functions for cells that multicellular organs provide for the body. A few specific functions: 1 Lysosome: immune system-protects the body against invaders and destroys (autolysis) cells that have been damaged internally. Below are some major organelles and what they do. Nucleus-Controls the cell. Is like the brain. Directs the activities of the … cell. Endoplasmic reticulum-Transports things throughout the cell. Mitochondria-Produces ATP (a chemical energy store) for the cell. Is often called the powerhouse of the cell.	Organelles in plant cells that function in photosynthesis or storage are called chloroplasts. Chloroplasts allow plants to capture the energy of the sun. Vacuoles are invo … lved in storage of soluble carbohydrates or proteins. in plants and algae, the cell wall is made of cellulose, a polysaccharide. Because molecules cannot easily diffuse across cellulose cell wall of plants and algae have openings … , or channels. water and other molecules small enough to fit through the channels and can freely pass through the cell wallet.	Organelles in a plant cell and function: cytosol: water based solution that surrounds organelles. cell membrane: controls movement in and out of cell. cell wall: cellulose structure. chloroplast: contains chlorophyll for photosynthesis. in plants and algae, the cell wall is made of cellulose, a polysaccharide. Because molecules cannot easily diffuse across cellulose cell wall of plants and algae have openings … , or channels. water and other molecules small enough to fit through the channels and can freely pass through the cell wallet.	The digestive organelles of a cell are-peroxisomes, vesicles/vacuoles and lysosomes. Peroxisomes are single membrane sacs that contain digestive enzymes that break … down toxic materials in a cell. in plants and algae, the cell wall is made of cellulose, a polysaccharide. Because molecules cannot easily diffuse across cellulose cell wall of plants and algae have openings … , or channels. water and other molecules small enough to fit through the channels and can freely pass through the cell wallet.	Some of these include a cell wall, a large vacuole, and plastids. Plastids, such as chloroplasts, assist in storing and harvesting needed substances for the plant. Animal cells also contain structures such as centrioles, lysosomes, and cilia and flagella that are not typically found in plant cells. 1 Mitochondria-this organelle generates energy for the cell. 2 Nucleus-membrane bound structure that contains the cell's hereditary information. 3 Nucleolus-structure within the nucleus that helps in the synthesis of ribosomes.
what functions do organelles in a plant cell perform	All eukaryotic cells have within them a variety of different structures called organelles. Organelles are small and function much like organs function in a large organism. Some organelles are responsible for gathering cell energy, others for controlling cell activities. Plant cells have different organelles than animal cells but also share many also. They all have a large variety of sizes and functions and make life as we know if possible. The nucleus is one of the most important organelles in a cell. It is often the largest organelle in animal cells, but this is not always the case. Nuclei contain the genetic material called DNA that is responsible for controlling and directing all	The digestive organelles of a cell are-peroxisomes, vesicles/vacuoles and lysosomes. Peroxisomes are single membrane sacs that contain digestive enzymes that break … down toxic materials in a cell. in plants and algae, the cell wall is made of cellulose, a polysaccharide. Because molecules cannot easily diffuse across cellulose cell wall of plants and algae have openings … , or channels. water and other molecules small enough to fit through the channels and can freely pass through the cell wallet.	Organelles in a plant cell and function: cytosol: water based solution that surrounds organelles. cell membrane: controls movement in and out of cell. cell wall: cellulose structure. chloroplast: contains chlorophyll for photosynthesis. in plants and algae, the cell wall is made of cellulose, a polysaccharide. Because molecules cannot easily diffuse across cellulose cell wall of plants and algae have openings … , or channels. water and other molecules small enough to fit through the channels and can freely pass through the cell wallet.	Some of these include a cell wall, a large vacuole, and plastids. Plastids, such as chloroplasts, assist in storing and harvesting needed substances for the plant. Animal cells also contain structures such as centrioles, lysosomes, and cilia and flagella that are not typically found in plant cells. 1 Mitochondria-this organelle generates energy for the cell. 2 Nucleus-membrane bound structure that contains the cell's hereditary information. 3 Nucleolus-structure within the nucleus that helps in the synthesis of ribosomes.	Organelles in plant cells that function in photosynthesis or storage are called chloroplasts. Chloroplasts allow plants to capture the energy of the sun. Vacuoles are invo … lved in storage of soluble carbohydrates or proteins. in plants and algae, the cell wall is made of cellulose, a polysaccharide. Because molecules cannot easily diffuse across cellulose cell wall of plants and algae have openings … , or channels. water and other molecules small enough to fit through the channels and can freely pass through the cell wallet.
how to tell if the sprinkler system is working	Installing a sprinkler or irrigation system for your lawn &/or garden is perhaps one of the few home improvement projects that actually makes your life much easier. Hand watering gardens, flower beds, or lawns-moving a lawn sprinkler attached to the hose every 20 minutes-is not most homeowners' idea of fun. We'll start with the controller. This is an electronic, computerized unit that is the brains behind the sprinkler system. The controller utilizes a timer that tells your system which set of sprinkler heads need to turn on when, and for how long. It is connected to a set of valves that regulate the flow of water into a specific zone in your sprinkler system	A. If it rained at your house every three days -- the same exact amount each time -- you probably would not need a sprinkler system. But nature doesn't work that way, and the only way to ensure healthy, lush yard is to make certain that your lawn and plants receive a regularly timed and evenly measured amount of water.	Sprinkler systems have valve controls for an area, or zone. Sprinkler valves have an electrical solenoid on top that receives a signal from the controller as to the time and duration of an irrigation schedule. Systems require annual maintenance before the first use to flush any debris or sand in the water pipes. 9. Mark each valve with a white paint marker to indicate a zone number that it operates. For future use, make a diagram of your sprinkler system on paper, showing the location of each valve box, each valve and the area it irrigates.	Publisert 13. aug. 2012. I demonstrate a diagnostic algorithm for workup of a defective solenoid as a cause of failure to water a sprinkler zone in a home irrigation system. This algorithm would be a reasonable approach if you have a single zone of sprinklers that delivers inadequate water.	Check the valves. Check the valves on the backflow device to make sure they're open. Turn the valve on the horizontal pipe first, then the vertical pipe valve. Low water pressure will result in the sprinkler heads barely shooting water. In extreme cases, many of the heads won't even pop up. Start with the easiest solution. Make sure the valves at the backflow device are fully open.
who was john tyler vice president	John Tyler (March 29, 1790 – January 18, 1862) was the tenth President of the United States (1841–1845). He was elected vice president on the 1840 Whig ticket with William Henry Harrison, and became president after his running mate 's death in April 1841.	Synopsis. John Tyler was born on March 29, 1790, in Charles City County, Virginia. Like his father, Tyler served as governor of Virginia. Representing the Whig Party, he was the first vice president to become president due the death of his predecessor (President William Henry Harrison). Tyler was sworn in as the 10th president of the United States in 1841. He died after suffering a stroke on January 18, 1862, in Richmond, Virginia. In 1840, the Whig Party nominated Tyler as vice president to presidential candidate William Henry Harrison. Promoting themselves as Tippecanoe and Tyler Too (Harrison fought in the Battle of Tippercanoe), Harrison and Tyler won the election, and were inaugurated in March 1841.	John Tyler was the Vice President under President William Henry Harrison from March 4, 1841 to April 4, 1841. President William Henry Harrison died 32 days into his term, and John Tyler Succeeded Harrison to become the The 10th President of the United States. President Tyler finished the term without a Vice President from April 4, 1841 March 4, 1845. John Tyler became the 10th President of the United States whe … n Harrison died 32 days into his term. John Tyler was in office from April 4, 1841 to March 4, 1845, and did not have a Vice President.	John Tyler. John Tyler became the tenth President of the United States (1841-1845) when President William Henry Harrison died in April 1841. He was the first Vice President to succeed to the Presidency after the death of his predecessor. Dubbed His Accidency by his detractors, John Tyler was the first Vice President to be elevated to the office of President by the death of his predecessor. Born in Virginia in 1790, he was raised believing that the Constitution must be strictly construed. He never wavered from this conviction	Becoming President: John Tyler was the Vice President under William Henry Harrison in the election of 1840. He was chosen to balance the ticket since he was from the South. He took over upon Harrison's quick demise after only one month in office.
when was bruce lee born	Bruce Lee was born in San Francisco on November 27, 1940 in the year of the Dragon while his father was on tour with the Chinese Opera. Lee was raised, however, in Hong Kong where he began his first formal training in martial arts with Wing Chung Master, Yip Man when he was 13.	Bruce Lee (Chinese: 李小龍; born Lee Jun-fan, Chinese: 李振藩; November 27, 1940 – July 20, 1973) was a Hong Kong American martial artist, Hong Kong action film actor, martial arts instructor, philosopher, filmmaker, and the founder of Jeet Kune Do. Lee was the son of Cantonese opera star Lee Hoi-Chuen.	Iconic actor, director and martial-arts expert Bruce Lee was born Lee Jun Fan on November 27, 1940, in San Francisco, California, in both the hour and year of the Dragon.	The biography and story of Bruce Lee began on November 27, 1940 in San Francisco, California. He was born Lee Jun Fan, the fourth child of a Chinese father named Lee Hoi-Chuen and a mother of Chinese and German ancestry named Grace.	A+E Networks. On this day in 1940, the actor and martial-arts expert Bruce Lee is born in San Francisco, California. In his all-too-brief career, Lee became a film star in Asia, and a pop-culture icon, posthumously, in America. Lee was born while his father, a Chinese opera star, was on tour
what was the significance of the treaty of brest-litovsk quizlet	Treaty of Brest-Litovsk. The Treaty of Brest-Litovsk was a peace treaty signed on March 3, 1918, at Brest-Litovsk (now Brest, Belarus) between the Russian SFSR and the Central Powers, marking Russia's exit from World War I.	The Treaty of Brest Litovsk. The signing of the Treaty of Brest-Litovsk on March 3, 1918 officially ended Russia’s involvement in World War I. The treaty was signed in time for the Germans to devote all of their resources to a spring offensive on the Western Front.	The Treaty of Brest-Litovsk brought about the end of the war between Russia and Germany in 1918.	Template:Infobox Treaty. The Treaty of Brest-Litovsk was a peace treaty on March 3, 1918, between the new Bolshevik government of Russia (the Russian Soviet Federated Socialist Republic) and the Central Powers (Germany, Austria-Hungary, Bulgaria, and Turkey), which ended Russia's participation in World War I. Borders drawn up in Brest-Litovsk. The Treaty of Brest-Litovsk was signed on 3 March 1918. The signatories were Bolshevik Russia on the one side and the German Empire, Austria-Hungary, Bulgaria, and Turkey on the other.	On March 3, 1918, in the city of Brest-Litovsk, located in modern-day Belarus near the Polish border, Russia signed a treaty with the Central Powers (Germany, Austria-Hungary, Ottoman Empire, Bulgaria) ending its participation in World War I (1914-18). Treaty of Brest-Litovsk: March 3, 1918. An armistice was reached in early December 1917 and a formal cease-fire was declared December 15, but determining the terms of peace between Russia and the Central Powers proved to be far more complicated.

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