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examples of covalent molecule | A molecule is a collection of atoms held together by covalent bonds. For example, below, two hydrogen atoms, each with a single electron, can share their electrons to form a covalent bond and create the diatomic hydrogen molecule. | Non-metal atoms share the valence electrons and form molecules. These shared pairs of electrons contributed by each of the atoms involved in bonding are located between the nuclei of atoms. Covalent bonds arise from the sharing of electrons between two atoms. Simple examples are found in water and carbon dioxide. Each single covalent bond by definition consists of two shared electrons. | Nonpolar covalent bonds, with equal sharing of the bond electrons, arise when the electronegativities of the two atoms are equal. The greater the electronegativity difference, the more ionic the bond is. Bonds that are partly ionic are called polar covalent bonds. Nonpolar covalent bonds. 1 A bond between 2 nonmetal atoms that have the same electronegativity and therefore have equal sharing of the bonding electron pair. | Any bond between two atoms of the same element is a nonpolar covalent bond in which electrons are shared equally and electron clouds have an even density. The hydrogen molecule and the chlorine molecule are two examples. Two oxygen atoms will come together to form a double nonpolar covalent bond. | These are examples of covalent bonds and covalent compounds. Covalent compo unds also are known as molecular compounds. Organic compounds, such as carbohydrates, lipids, proteins and nucleic acids, are all examples of |
what four muscles are commonly used for intramuscular injections | IM into the leg. Intramuscular (also IM or im) injection is the injection of a substance directly into a muscle. In medicine, it is one of several alternative methods for the administration of medications (see route of administration). It is used for particular forms of medication that are administered in small volumes. Intramuscular injections are often given in the deltoid muscle of the arm, the vastus lateralis muscle of the leg, and the ventrogluteal and dorsogluteal muscles of the buttocks. The ventrogluteal site is recommended for medications known to be irritating, viscous or oily and, along with the deltoid site, for adults. | Intramuscular injections are the most common type used in horses and are the focus of this publication. Although a few horses are needle shy and object to injections, most horses quietly accept a properly given IM injection. 1. Insert the needle perpendicular to the skin (do not slant the needle upward or downward) and sink the needle into the muscle all the way to the hub (the place where it attaches to the syringe). This ensures that the needle will not shift during the injection and that it is deep into the muscle mass (see figure 4). | Ouch! We use 22-gauge needles for IM injections. Althoug … h I agree that there are few instances where an 18-guage needle is necessary and ouch comes to mind to me as well, there are some injections where the serum is more viscous and a 22-guage needle is not recommended. One example is injectable Haldol. | Four major sites on the body are commonly used as intramuscular injection sites. The first is the deltoid muscle in the upper arm. This injection site is popular because it is easy to access and patients can expose it without very much trouble by rolling up a sleeve. You won't believe these 10 facts about people. Intramuscular injection sites are sites on the body which have been identified as suitable for intramuscular injections. These types of injections involve the administration of medication into the middle of a muscle. | Intramuscular (IM) injections deposit medication deeply into vascular muscle tissue, thus allowing rapid absorption. The deltoid, vastus lateralis, and ventrogluteal muscles are acceptable sites for IM injections. For preschoolers and older children, use a ⅝-inch needle for giving an IM injection in the deltoid. For the vastus lateralis muscle in an average adult or adolescent, give up to 3 mL of medication with a 18- to 25- gauge, 1- to 1½-inch needle for oil based or viscous solutions. |
what type of drugs does AGP bind | AGP, also called orosomucoid, is a major binding protein for basic drugs and a diversity array of ligands. Because AGP has only one drug-binding site, its binding to each molecule differs from albumin. The drug-binding properties of AGP are saturable and displaceable. Human AGP is present in the plasma of healthy subjects at concentrations between 0.6 and 1.2 mg/mL, accounting for approximately 1% to 3% of the total protein. | All of these proteins can simultaneously bind to a drug, and the overall plasma protein binding is the sum of each binding. It is known that HSA accounts for 60% of plasma protein, while the amount of AGP is only 3% of plasma protein. | Protein binding of drugs. 1 1. Protein Binding of Drugs Many drugs interact with plasma or tissue proteins or with other macromolecules, such as melanin and DNA, to form a drug– macromolecule complex. | What are the diseasestates/drugs that affect the extent and/or affinityof binding of this protein to drugs like tolbuta-mide?2. How is the binding of a weakly basic or neutraldrug different from that of tolbutamide?3. How would you characterize tolbutamide interms of its extent of Cl and V?4. | Forexample, the degree of plasma protein binding of pheny-toin in adults is 90% or 0.90 (the percent or fractionunbound is 10% or 0.10). So, if the total plasma concen-tration of phenytoin is 20 mg/L, the free concentration is2 mg/L, and the bound concentration is 18 mg/L. |
how to count weeks of pregnancy when you know the conception date | Best Answer: Well they always calculate due date based on your period. Even the doctor will. If you know your exact date of conception you either add 2 weeks to that date or just count 38 weeks from that date. 40 weeks gestation is based on your last period. So technically speaking a women is never actually pregnant for her first 2 weeks. | Pregnancy normally lasts from 37 weeks to 42 weeks from the first day of your last period. To find your due date, use the drop down menus below to enter the date of the first day of your last period, and click 'calculate date' - the calculator will do the rest. | It depends on how you count it. Most people determine their due date by counting 40 weeks from the first day of their LMP. 40 weeks adds up to about: Each of our weekly fetal development pages has information about your unborn baby's size and weight. The first day of your LMP counts as day one of your pregnancy. You can find out your estimated due date using our handy due date calculator. Some women prefer to count their pregnancy from the day that they were likely to be ovulating during the month in which they became pregnant. | As a result, most people, including health professionals, will date your pregnancy based on your LMP (last menstrual period) instead (NHS 2013a) . To work out how many weeks pregnant you are by this measure, try to remember when your last period started. The first day of your LMP counts as day one of your pregnancy. You can find out your estimated due date using our handy due date calculator. Some women prefer to count their pregnancy from the day that they were likely to be ovulating during the month in which they became pregnant. This will give you an estimated date of conception, which will usually be about two weeks after the first day of your LMP. So you will be two weeks further along in your pregnancy if it's calculated according to your LMP rather than your estimated date of conception. | You can work out the date your baby is likely to be born by counting from the first day of your last menstrual period (LMP). This is how most health professionals will work out your due date. Pregnancy is estimated to last nine calendar months and seven days, or 40 weeks. |
what is gangrene | A. A. Gangrene is a condition that occurs when body tissue dies. It is caused by a loss of blood supply due to an underlying illness, injury, and/or infection. Fingers, toes, and limbs are most often affected, but gangrene can also occur inside the body, damaging organs and muscles. | Gangrene is the term used to describe when part of your body tissue dies, usually because it is not getting enough blood from your circulatory system. Gangrene usually affects your extremities—the areas farthest from your heart—such as your toes and fingers. However, it can affect other parts of our body as well. | Gangrene refers to the death of body tissue due to a lack of blood flow or a bacterial infection. Gangrene most commonly affects the extremities, including your toes, fingers and limbs, but it can also occur in your muscles and internal organs. | Introduction. Gangrene is a serious condition in which a loss of blood supply causes body tissue to die. It can affect any part of the body but typically starts in the toes, feet, fingers and hands. | Gangrene is a medical term used to describe the death of an area of the body. It develops when the blood supply is cut off to the affected part as a result of various processes, such as infection, vascular (pertaining to blood vessels) disease, or trauma. |
what elements are produced by supernova explosions | The elements formed in these stages range from oxygen through to iron. During a supernova, the star releases very large amounts of energy as well as neutrons, which allows elements heavier than iron, such as uranium and gold, to be produced. In the supernova explosion, all of these elements are expelled out into space. | A supernova is a nova (Latin new) explosion of a very large star, creating a nebula of illuminated gas that is one of the most visible of all celestial phenomena. Rem … ember that a star is a nuclear fusion engine that is powered by the fusion of lighter elements to create heavier ones (up through iron). In a supernova explosion, neutron capture reactions take place, leading to the formation of heavy elements. | It is the elements heavier than iron that are formed in a supernova. All the heavier elements up through uranium appear when a star of sufficient mass collapses in a supernova event. These heavier elements, sometimes referred to as the trans-iron elements, appear in the collapse of a massive star. | These other elements were produced inside stars and during supernova explosions, and were disbursed into the interstellar medium by supernova remnants. Eventually, the remnants cool and collapse to form interstellar clouds from which new stars and planets can be formed. Solution: Hydrogen and helium. | It is the elements heavier than iron that are formed in a supernova. All the heavier elements up through uranium appear when a star of sufficient mass collapses in a supernova … event. These heavier elements, sometimes referred to as the trans-iron elements, appear in the collapse of a massive star. In a supernova explosion, neutron capture reactions take place, leading to the formation of heavy elements. |
how long cook roast beef | 4 Cook the roast initially at 375°F (190°C) for half an hour, to brown it. Then lower the heat to 225°F (107°C). The roast should take somewhere from 1 1/2 to 2 1/2 hours additionally to cook. The shape of the roast will affect the cooking time. If your roast is long and narrow, rather than a more round shape, it may take less time to cook, so keep an eye on it. When juices start to drip from the roast, and it is browned on the outside, check the roast's internal temperature with a meat thermometer. | 1 Cooking temperatures vary depending on the weight of your roast. 2 For every pound of meat you’re roasting, it will take approximately 12 minutes for rare, 14 minutes for medium, and 16 minutes for well-done. A great roast beef should be beautifully browned on the outside and tender pink when it’s cut open. Every thin slice should be so moist that it almost melts in your mouth when you bite. There’s a lot of conflicting information out there about how to make the perfect roast beef. | 3) Sprinkle salt, pepper and onion powder on all sides of the beef. 4) Place the beef in a roasting pan, and put it in the oven, uncovered. Timing is Everything. 1) Cook the roast for 15 minutes at 500 degrees F. 2) After 15 minutes, turn the temperature down to 375 degrees F. 3) Continue cooking for 16 minutes per pound (ex: If your roast is 3 pounds, that would be 48 minutes). 4) Remove from oven, and place pan on a cooling rack. | 3. Cooking Temperature. There are varying opinions about what the perfect temperature to cook a roast beef but in my experience starting the beef in a very hot oven 425F/220C/Gas 7 for the first 30 mins then lower the temperature to 375F/190C/Gas5 for the remaining cooking time then .... | 3. Place the tray in the oven and roast for 1/2 hour. For the first half hour, the beef will cook at a higher temperature, which will give the outside of the beef a good sear. Make sure you remember to come back to the oven after 1/2 hour. 1 A note about your meat: make sure you get rump roast, round roast, or sirloin-one of the cheaper cuts. 2 Using the slow roasting method for prime cuts of beef doesn't work as well, since prime cuts are more tender. 3 If you want to cook a prime cut of beef, see How to Cook a Prime Rib Roast. |
types of convenience food | Convenience foods can include products such as candy; beverages such as soft drinks, juices and milk; fast food; nuts, fruits and vegetables in fresh or preserved states; processed meats and cheeses; and canned products such as soups and pasta dishes. Convenience foods include ready-to-eat dry goods, frozen foods such as TV dinners, shelf-stable foods, prepared mixes such as cake mix, and snack foods. Bread, cheese, salted food and other prepared foods have been sold for thousands of years. Other kinds were developed with improvements in food technology. Types of convenience foods can vary by country and geographic region. Some convenience foods have received criticism due to concerns about nutritional content and how their packaging may increase solid waste in landfill | Convenience foods are foods that require little preparation. With some convenience foods, you only have to heat them, and they are ready to eat in less than five minutes! The majority of convenience foods are processed foods. However, precut, prewashed, frozen, and canned fruits and vegetables also can be classified as convenience foods. Paul Goyette, http://bit.ly/GDgK62. On the other hand, processed convenience foods generally have a low nutritional quality compared to other foods. This is because of the sodium, fat, and/or added sugars they contain, along with low amounts of essential nutrients. | Posted 07 Dec 2010 19:27. First, the definition of convenience foods: Refers to the rice, flour, cereals and other processed food as the main raw material, can be simply prepared food as a staple food with simple, easy to carry, easy storage features such as food manufacturing. Second, the type of convenience food: Many different types of convenience foods can be broadly divided into the following four: 1: Instant Food: Such as various pastries, bread, bread, cake, fried dough twist, glutinous rice balls, dumplings, wonton, etc., these are usually bought after the edible food, and unique. | Pasta Sauce. Jarred pasta sauce, both white and red, is a fabulous convenience food. You can find it in umpteen flavors, including mushroom, onion and garlic, and even four cheese. I always have several jars of different types of pasta sauce in my pantry. | Apples are an example of a convenience food that has a high nutritional value. Convenience foods, such as frozen dinners, became popular with consumers during the 20th century. Frozen meals that can be reheated in minutes are incredibly convenient. Convenience foods can also include canning foods. Canned foods like Hormel foods like chili and corn beef hash are also examples of 100 best convenience foods. A can of chili for example, offers a lot of fiber and protein and makes a hearty meal especially in the winter. |
where is bromsgrove | Welcome to the Bromsgrove google satellite map! This place is situated in Worcestershire County, West Midlands, England, United Kingdom, its geographical coordinates are 52° 20' 0 North, 2° 4' 0 West and its original name (with diacritics) is Bromsgrove. | Bromsgrove is first documented in the early 9th century as Bremesgraf. Later in the Anglo-Saxon Chronicle of 909 AD Bromsgrove is mentioned as Bremesburh. Then in the Domesday Book Bromsgrove is referenced as Bremesgrave. | all events in Bromsgrove. Bromsgrove is a tiny town that’s big on cultural appreciation. Scroll through the descriptions on our website of events to learn when the town will host its annual classical musical festival, an internationally acclaimed event that draws in visitors from around the world. | According to the 2001 census the population of Bromsgrove is 29,237 and the population for the larger Bromsgrove District is 87,837. In Bromsgrove, White British is by far the largest race, at 96% of the district population (87,837) with 4% (3,734) from an ethnic minority. | 310 Bromsgrove Drive, Hampton VA. This 3 bedroom, 2 bathroom home has 1270 square feet and was built in 1986. 301 Bromsgrove Drive, Hampton VA. This 3 bedroom, 2 bathroom home has 1269 square feet and was built in 1985. |
theresa name meaning | Greek Meaning: The name Theresa is a Greek baby name. In Greek the meaning of the name Theresa is: Reaper; from Therasia. American Meaning: The name Theresa is an American baby name. In American | Etymology & Historical Origin-Teresa. Teresa is the Spanish, Portuguese and Italian form of Theresa, a name of uncertain etymology. It is thought to come from the Greek “therizein” meaning “to harvest, harvester” or from the Greek “theros” meaning “summer”. Therasia is also the name of a Greek island. | The name Theresa is a Greek baby name. In Greek the meaning of the name Theresa is: Reaper; from Therasia. American Meaning: The name Theresa is an American baby name. In American | Teresa is the Spanish, Portuguese and Italian form of Theresa, a name of uncertain etymology. It is thought to come from the Greek “therizein” meaning “to harvest, harvester” or from the Greek “theros” meaning “summer”. | Theresa. Theresa /the-re-sa/ [3 sylls.] as a girls' name is pronounced the-REE-sah, ter-REE-sah. It is of Greek origin, and the meaning of Theresa is late summer. Possibly a Greek place name: the first bearers of this name might have been from the Greek island of Therasia. Name of two popular Catholic saints. |
where is haskell texas | Haskell is a city in central Haskell County, Texas, in the United States. As of the 2010 census, the city population was 3,322. It is the county seat of Haskell County. | HASKELL, TEXAS. Haskell, the county seat of Haskell County, is at the junction of U.S. Highways 277 and 380 in the central part of the county. It was once on the Fort Worth and Denver Railway. The townsite was at one time known as Willow Pond Springs, a watering place for Indians, explorers, and buffalo hunters. | HASKELL, TX. HASKELL, TEXAS. Haskell, the county seat of Haskell County, is at the junction of U.S. Highways 277 and 380 in the central part of the county. It was once on the Fort Worth and Denver Railway. The townsite was at one time known as Willow Pond Springs, a watering place for Indians, explorers, and buffalo hunters. | Haskell, Texas is located in Haskell County. Haskell is a suburban community with a population of 3,027. The median household income is $37,892. In Haskell, 68% of residents are married, and families with children reside in 29% of the households. | Latest news from Haskell, TX collected exclusively by city-data.com from local newspapers, TV, and radio stations. Ancestries: German (16.2%), Irish (11.4%), United States (7.6%), English (4.2%), Scotch-Irish (1.7%). Current Local Time: CST time zone. Elevation: 1585 feet. Land area: 3.40 square miles. |
how to know if you are bipolar | 1. Mood Swings. Type: Manic and Depressive. Mood swings are the most common symptom of bipolar disorder and are a combination of the manic and depressive symptoms. A mood swing is characterized by high levels of positivity followed by high levels of negativity and depression or vice versa. The most common symptom associated with bipolar disorder is mood swings. Individuals who are bipolar will experience heightened euphoria and happiness, followed by drastic depression and guilt. While mood swings are the most common symptom, they are not the only symptom. | 1 If you're concerned that you or a loved one has bipolar disorder, reach out to a therapist or psychiatrist for diagnosis. 2 If you or a loved one is having suicidal thoughts, immediately contact a trusted loved one or friend. 3 Call the the National Suicide Prevention Lifeline at 800-273-8255 for more advice. They may also use drugs to try to achieve a high when they're in a depressive episode. 1 Substances like alcohol have their own effects on mood and behavior. 2 People who abuse drugs and alcohol are at greater risk of suicide. 3 Substance abuse may also instigate a cycle of manic depression. | Report Abuse. Another name for Bipolar disorder is Manic Depression. If one day you are happy, friendly and energetic and then all of a sudden you are depressed, and dont want to be bothered, and yelling at everyone then chances are you are bipolar. Which is taken care of through medication. | Symptoms of bipolar disorder, like symptoms of depression, can be different for different people. It’s important to tell your doctor all of the symptoms you are having, or have experienced in the past, in order for your doctor to make an accurate diagnosis. If you think someone you know has symptoms of depression or bipolar disorder: 1 Encourage them to seek help from their doctor, a school counselor, or another type of counselor or social worker. 2 You might want to offer to go with them to their first appointment. 3 Learn all you can about depression and bipolar disorder. | Instructions: The items below refer to how you have felt and behaved over much of your life. If you have usually been one way, and have recently changed, your responses should reflect how you have usually been. In order for the results of this quiz to be most accurate, you should be 18 or older and have had at least one episode of depression. |
how long can i keep raw beef in the fridge | Meats are kept better in the freezer. Meats can be kept in the refrigerator for 3 to 4 days if raw and 1 to 2 days longer if cooked. Always place cooked meats in an airt … ight container. 8 people found this useful. 1 5 Considerations Before Downsizing Your Home There are several reasons people downsize to a smaller home. Meats do not last long in the refrigerator. Only about 3 to 4 days if it is raw. Then 1 to 2 days longer if cooked and placed in an airt | Raw poultry lasts just a day or two in the fridge (at a temperature of 40 degrees Fahrenheit or colder), but up to a year in the freezer. Cooked poultry can be refrigerated a few days longer and should be frozen no longer than 2-6 months. In the freezer they’ll last 1-2 months. Bacon is safe to eat for up to a week in the fridge—but raw sausage should be eaten within two days. Both can be frozen for a month, and some sausage will freeze for twice as long. Eggs can be refrigerated for up to a month raw but no more than a week hard-boiled | 1 How long does raw ground beef last at room temperature? 2 Bacteria grow rapidly at temperatures between 40 °F and 140 °F; ground beef should be discarded if left for more than 2 hours at room temperature. 1 How long does ground beef last in the freezer for safety purposes? 2 The freezer time shown is for best quality only — foods kept constantly frozen at 0° F will keep safe indefinitely. | Meats can be kept in the refrigerator for 3 to 4 days if raw and 1 to 2 days longer if cooked. Always place cooked meats in an airt … ight container. 4 people found this useful. Answered. Whether this food is cooked or raw it will only last a few days in the refrigerator.This food will keep for about 5 days in the refrigerator. Place the food in an air tight co … ntainer for best results. It can later be transferred to the freezer for longer storage. | Red meat and pork can remain in the refrigerator up to 5 days and can be frozen for 4-12 months. Leftover cooked meat will last 3-4 days in the refrigerator and 2-6 months in the freezer. Ground meats (beef, veal, pork, or poultry) can be refrigerated for 1-2 days and frozen for 3-4 months. Lunchmeats and hot dogs will last two weeks in the refrigerator unopened and should be eaten within 3-5 days of opening (hot dogs can go a couple of days longer). In the freezer they’ll last 1-2 months. Bacon is safe to eat for up to a week in the fridge—but raw sausage should be eaten within two days. Both can be frozen for a month, and some sausage will freeze for twice as long. Eggs can be refrigerated for up to a month raw but no more than a week hard-boiled |
at what age does a child get a tetanus shot | TD or TDaP is a tetanus booster teenagers and adult are given to protect their health. lisafx/iStock/Getty Images. Time Frame. The DTaP or DT tetanus vaccine is given to a child at two months of age, then four months, six months and when the child is 1 1/2. It is followed by a booster shot between the ages of 4 and 6. The TD or TDaP vaccine is given at the age of 11 to 12, followed by a vaccine every 10 years to keep the person totally immunized. | In this article. DTaP is a vaccine that helps children younger than age 7 develop immunity to three deadly diseases caused by bacteria: diphtheria, tetanus, and whooping cough (pertussis). Tdap is a booster immunization given at age 11 that offers continued protection from those diseases for adolescents and adults. | Diphtheria, Tetanus, and Pertussis Vaccines. There are four combination vaccines used to prevent diphtheria, tetanus and pertussis: DTaP, Tdap, DT, and Td. Two of these (DTaP and DT) are given to children younger than 7 years of age, and two (Tdap and Td) are given to older children and adults. Tetanus (lockjaw) is a serious disease that causes painful tightening of the muscles, usually all over the body. It can lead to locking of the jaw so the victim cannot open his mouth or swallow. Tetanus leads to death in about 1 in 10 cases. | Vaccination is the most effective step you can take to be protected from this serious disease. Tetanus Vaccine Schedule. All children should get 5 doses of DTaP (diphtheria-tetanus-pertussis) vaccine, beginning when they're 2 months old. If your child misses a dose or gets behind schedule, make sure they get the next dose as soon as possible. | 1 Children should get 5 doses of the DTaP vaccine before age 7. 2 These are usually given at 2, 4, 6, and 15-18 months of age and 4 - 6 years of age. 3 The 4th dose may be given as early as 12 months of age. 4 Tdap should be given to children at 11-12 years of age. 1 The 4th dose may be given as early as 12 months of age. 2 Tdap should be given to children at 11-12 years of age. 3 Adults should get a booster every 10 years. 4 The next booster should be Tdap. 5 All non-pregnant women of childbearing age should receive Tdap vaccine if they are not already immune. |
pre puberty age | Puberty is the time in life when a young person starts to become sexually mature. In girls, puberty usually starts around 11 years of age, but it may start as early as 6 or 7 years of age. In boys, puberty begins around 12 years as age, but may start as early as 9 years of age. Puberty is a process that goes on for several years. Most girls are physically mature by about 14 | Starting at around age 9, girls begin to gain about 17% to 18% of their adult height. If someone has commented that you are all hands and feet, it's true! Your limbs grow first, then your trunk. Most girls grow fastest about six months before they start their first period (menarche). | Breast development is an early sign of puberty in girls. This can happen before age 9 in some girls, but later in others. If you are self-conscious, you might want to start wearing a training bra, which is a soft bra with no real support. Talk to your mom, older sister, or an aunt about buying a training bra. | Girls who show significant signs of puberty and its progression before age 7 and boys before age 9 are considered precocious. About 1 out of 5,000 children are affected. There are two types of precocious puberty, central and peripheral. 1 Central precocious puberty is the more common type. | As a guide, puberty usually begins around 10-11 years for girls and around 11-13 years for boys. But it’s normal for the start of puberty to range from 8-13 years in girls and 9-14 years in boys. Every child is different. |
social work salary in usa | Social worker salary. Social worker’s salary in the United States is around $48,302 per annum according to the BLS salary reports. The annual salary for the upper 10 percent social workers is around more than $70,390 per year, while the lower 10 percent of them earn less than $26,710 per year. The yearly profit sharing is around $5,575 per year. Therefore, the total annual salary for a social worker ranges from between $28,503 – $60,885 per annum. Based on the BLS percentiles, the median hourly wage and yearly salary for 90th percentile social workers has been around $38.62per hour and $80,32 | Social Work Salaries. The following is a breakdown of the average social worker salaries in all 50 states and for several different specializations, courtesy of the Bureau of Labor Statistics. Social worker salaries can vary widely depending on several factors, including your specialization, state and qualifications. | Social work salary. Social work’s salary is around $41,000 in the United States, but this significantly gets higher as he acquires more experience. In fact, a social work working for more than 5 years collects an annual income ranging from $30,416 to $58,679. PhD master Social work salary by years of experience is as follows: Phd Social work with less than one year of experience gets around $50,000; those with 1 to 4 years of experience earn around $52,032. | Masters in social work salary. Master Social work salary ranges from $33,608 to $101,806 per year. Master Social work salary by years of experience is as follows: master Social work with less than one year of experience gets around $45,781; those with 1 to 4 years of experience earn around $41,055. PhD master Social work salary by years of experience is as follows: Phd Social work with less than one year of experience gets around $50,000; those with 1 to 4 years of experience earn around $52,032. | With an average salary of $46,060 per year, child and family social workers earn slightly more than mental health counselors ($43,700) and substance abuse and behavioral disorder counselors ($41,090). However, they earn less than other professionals. Social workers who specialize in children and family welfare made a median salary of $42,120 in 2013, according to the BLS. |
how much does a franchise cost | How much is the franchise fee? The franchise fee for single restaurant domestic development is $50,000. The franchise fee for multi-restaurants domestic and international franchise development is $40,000 per restaurant. The royalty fee for domestic restaurants is 4.5% of gross sales. The royalty fee for international restaurants is 5.5% of gross sales. | The estimated initial investment required per franchise location ranges from approximately $265,000 to $681,500 for a standard Little Caesars carryout location. Stores in the higher end of the range are typically free-standing buildings, not strip center locations. Little Caesars requires candidates desiring to open one store to have a net worth of $250,000 with a minimum of $100,000 in liquid, unencumbered assets (like cash). You must also be able to obtain financing to cover the total costs of opening a franchised location. | 1 7‑Eleven obtains and bears the ongoing cost of the land, building and store equipment. 2 When we build a new site, we may invest as much as $1 million to $2 million. 3 You and 7‑Eleven share in the store’s gross profit. 4 7‑Eleven pays for the water, sewer, gas and electric utilities. Most franchise systems require royalty payments based on a percentage of base sales. With the 7‑Eleven system, we share gross profits with our franchise owners, which is sales receipts less the cost of the merchandise sold. | The initial term of the IHOP Franchise Agreement is typically 20 years, but could vary depending on lease. The franchise fee for single restaurant domestic development is $50,000. The franchise fee for multi-restaurants domestic and international franchise development is $40,000 per restaurant. The royalty fee for domestic restaurants is 4.5% of gross sales. The royalty fee for international restaurants is 5.5% of gross sales. | $300K – $350K. * Average. Qualified franchisees will have good credit and approximately $100,000 in liquid assets and possess a net worth of approximately $450,000 in order to qualify for a Small Business Administration (SBA) commercial loan. According to Item 7 of our 2014 FDD, here is a more detailed breakdown of our startup costs. |
what is ratatouille in french language | Ratatouille is a vegetable stew, usually made with eggplant, tomatoes, zucchini, peppers, and onions, seasoned with herbs and garlic. . 12 people found this useful. Edit. | noun. A vegetable dish consisting of onions, courgettes, tomatoes, aubergines, and peppers, fried and stewed in oil and sometimes served cold. Example sentences. 1 I've also seen tartines served with a side of cold ratatouille (this dish of zucchini, eggplant, tomato and pepper from Provence). 2 One of its typical dishes is a vegetable stew called ratatouille. | 1 Add about ¼ cup more oil to the pan and saute sauté the onions and peppers together for about 6. 2 Minutes add them to the. 3 Casserole add the, tomatoes, garlic, water, salt and pepper to the casserole and bring to a boil over medium. heat | It is a stew of various vegetables. The word ratatouille comes from the Occitan ratatolha. It is also used in all languages, including English, ratatouille is also said Valentine in the south of France and piperade in the Basque country. | ‘Ratatouille’ is a provencal provençal vegetable, stew which contains, tomatoes, aubergines, onions, courgettes, peppers and, garlic cooked with olive. Oil it can be eaten by, itself or as a-side. dish ratat ouille/rah/tah/too. ee |
house electrical inspection cost | 1 On the website of the company AAAElectricalServicesINC.com, they state that the lowest cost for a home electrical inspection would start around $199 and go up from there depending on the size of the home. 2 On average, plan on budgeting around $125 to as much as $400 for an electrical inspection. 1 This means that the larger your house, the higher the potential costs would be for the inspection. 2 The difficulty of the wires and cables that needs to be checked will also play a major factor that affects the price and cost of the home | 1 A typical home inspection averages $260-$280 in the Midwest and Southwest and $320-$360 elsewhere nationwide. 2 The average home inspection will take 2-4 hours, but an extremely detailed evaluation can take 5-8 hours or more -- and will usually be billed at the higher end of the $200-$900 price range. 1 With the recent housing market slump, some inspectors may offer a home inspection for a flat rate of $100-$200. | 1 This varies by inspector and how they compile reports. 2 The average rate for home inspection is around $200-$600 based on where you live. 3 Some inspectors can charge up to $800 or more. 4 As with most things, paying the lowest cost for a home inspection isn't always in your best interest. 1 However it does come at a hefty cost. 2 On average, you should expect to spend $400-$800 for a 1,500 square foot house including lab fees, and then another $200-$400 for a re-inspection after the project is complete. | The average national home inspection cost is $314, with most homeowners spending $266 and $369. This data is based on actual project costs as reported by HomeAdvisor members. Buying a home is exciting, but it can also be stressful and time-consuming. 1 However it does come at a hefty cost. 2 On average, you should expect to spend $400-$800 for a 1,500 square foot house including lab fees, and then another $200-$400 for a re-inspection after the project is complete. | An electrical home inspection is important for the safety of your home, offering peace of mind by: 1 Ensuring the safe operation of electrical components in your home. 2 Identifying common electrical mistakes made by contractors and previous DIY homeowners. 3 Recognizing outdated wiring such as aluminum or knob and tube. The Electrical Safety Foundation recommends electrical home inspections: 1 When purchasing a home. 2 When a home is 40 years or older. 3 When adding an appliance. 4 When a home has had a major renovation. |
sociology education market definition | The sociology of education is the study of how public institutions and individual experiences affect education and its outcomes. It is mostly concerned with the public schooling systems of modern industrial societies, including the expansion of higher, further, adult, and continuing education. It is also perceived as one of the best means of achieving greater social equality. Many would say that the purpose of education should be to develop every individual to their full potential, and give them a chance to achieve as much in life as their natural abilities allow (meritocracy). | Definition of EDUCATIONAL SOCIOLOGY. : the sociology of education: study of educational objectives and organization in the light of an analysis of the group life as a whole. ADVERTISEMENT. This word doesn't usually appear in our free dictionary, but the definition from our premium Unabridged Dictionary is offered here on a limited basis | A field of finance that proposes psychology-based theories to explain stock market anomalies. Within behavioral finance, it is assumed that the information structure and the characteristics of market participants systematically influence individuals' investment decisions as well as market outcomes. | Sociology of education is a field that focuses on two separate levels of analysis. At a macro-level, sociologists work to identify how various social forces, such as politics, economics, culture, etc., creates variation in schools. By Ashley Crossman. Education is a social institution that sociologists are very interested in studying. This includes teaching formal knowledge such as reading, writing, and arithmetic, as well as teaching other things such as morals, values, and ethics. | Tweet. The sociology of education is the study of how public institutions and individual experiences affect education and its outcomes. It is most concerned with the public schooling systems of modern industrial societies, including the expansion of higher, further, adult, and continuing education. Political Arithmetic. The Political Arithmetic tradition within the sociology of education began with Hogben (1938) and denotes a tradition of politically critical quantitative research dealing with social inequalities, especially those generated by social stratification (Heath 2000). |
what is noun clause and examples | Noun Clause. A noun clause is any clause that replaces, and functions as, a noun. It's another type of dependent clause. 1 For example, in the sentence, 'You really do not want to know the ingredients in Aunt Nancy's stew,' the noun is ingredients. An independent clause, also called a main clause, is a clause that can stand on its own. It contains all the information necessary to be a complete sentence. An independent clause has a subject that tells you what the sentence is about and a verb that tells you what the subject is doing. | This is a noun clause definition: A group of words (which do what a noun does) with a subject and a verb that can be a subject, an object, or an object of a preposition. Here are 4 common types of noun clauses (NC): 1 Subject NC. 2 Direct Object NC. 3 Object of Preposition NC. 4 Subject as Complement NC. | By Richard Nordquist. Definition: A dependent clause that functions as a noun (that is, as a subject, object, or complement) within a sentence. Also known as a nominal clause. Two common types of noun clause in English are that-clauses and wh-clauses: 1 that-clause: I believe that everything happens for a reason. | NOUN CLAUSES. A noun clause is a group of words that conta i ns a subject and a verb; however, it cannot stand alone as a sentence. e.g. What you think does not matter. A noun clause can be used as the subject or the object in the following forms : e.g. What you think does not matter. In this example, the noun clause is the subject of the sentence. e.g. I don t know what she thinks. In this example, the noun clause is the object of the sentence. | Subject of a Verb. A noun clause can act as a subject of a verb, and we will break down what that means after a couple of examples. This clause is acting as the subject of a verb is present in: 1 What Alicia said made her friends cry. |
what is bisphenol | Bisphenol A (BPA) is an organic synthetic compound with the chemical formula (CH 3) 2 C(C 6 H 4 OH) 2 belonging to the group of diphenylmethane derivatives and bisphenols, with two hydroxyphenyl groups. It is a colorless solid that is soluble in organic solvents, but poorly soluble in water. Bisphenol A is used primarily to make plastics, and products using bisphenol A-based plastics have been in commercial use since 1957. At least 3.6 million tonnes (8 billion pounds) of BPA are used by manufacturers yearly. | Bisphenol A (BPA) is an industrial chemical used to make polycarbonate plastic resins, epoxy resins, and other products. Bisphenol A (BPA) is a chemical building block that is used primarily to make polycarbonate plastic and epoxy resins. Polycarbonate plastic is a lightweight, high-performance plastic that possesses a unique balance of toughness, optical clarity, high heat resistance, and excellent electrical resistance. Safety assessments of bisphenol A (BPA) conclude that the potential human exposure to BPA from polycarbonate plastics and epoxy resins is more than 400 times lower than the safe level of BPA set by the U.S. Environmental Protection Agency. | BPA stands for bisphenol A. BPA is an industrial chemical that has been used to make certain plastics and resins since the 1960s. BPA is found in polycarbonate plastics and epoxy resins. | Bisphenol A (BPA) is an organic compound which has two phenol functional groups. It is used to make polycarbonate plastic, epoxy resins, and other things. | Bisphenol A (BPA) is a chemical compound used to create polycarbonate plastic and epoxy resins. BPA-derived plastics, commercially produced since the 1950s, have become ubiquitous because of their shatter resistance, visual clarity, high heat resistance, and electrical resistance. |
what is a lap band | A laparoscopic adjustable gastric band, commonly called a lap-band, A band, or LAGB, is an inflatable silicone device placed around the top portion of the stomach to treat obesity, intended to slow consumption of food and thus reduce the amount of food consumed. | The LAP BAND® is a specific device brand name and is made by Allergan Inc. The term is often used in the lay community interchangeable with gastric banding (similar to the way we interchange the brand name Kleenex for facial tissue). There are different sizes and models of the LAP BAND. | Lap Band® vs. Gastric Bypass. The Lap Band® procedure and gastric bypass are the two most commonly performed types of bariatric surgery (weight loss surgery), and both can lead to a significant reduction in body mass index (BMI). The Lap Band® procedure also creates a small pouch at the top of the stomach but does so with the use of an adjustable band. Unlike with gastric bypass surgery, in the Lap Band® procedure, the small pouch is not completely sealed off from the rest of the stomach below and food can pass through. | Costs can vary based on your location. Do not let the price of Lap Band surgery affect your decision to choose a qualified surgeon. In fact, choosing a good surgeon is one of the most important choices you have prior to surgery. 1 $8,700 to $29,000 is the pricing range across the country. | It's Important to go to a LAP-BAND ® System Specialist. Remember, this is your health—and your body—that we’re talking about. You only get one. And since not all weight loss centers are the same, it's very important that you go to a LAP-BAND ® System Specialist for your surgery. The band is placed around your stomach using long, thin instruments. The LAP-BAND ® System procedure is usually done on an outpatient basis 2 and the surgery itself typically takes less than an hour. 1 When the procedure is performed in an inpatient setting, the hospital stay is generally less than one day. |
gestation period for miniature donkeys | Miniature Mediterranean Donkeys, as with all breeds of donkey, have a gestation period of between 11-13 months and almost without exception have a single offspring. Jenny (female) miniature donkeys should not be mated until they are three years old, (3 1/2 yrs is better). Before 3 years they are still growing and developing themselves and can be physically and mentally immature. This can give rise to a weak and weedy foal and the jenny could make a very poor mother. | NOTES. The normal gestation period for a full size horse is 335 to 360 days (342 average.). The average gestation period for a miniature horse is approximately 320 days, but they should be closely watched after 300 days, or sooner depending upon any physical changes you see. The normal gestation period for donkeys is 360 to 375 days (368 average.). For goats, the average is 150 days. The average gestation period for cows is 283 days. For sheep, it's 145 days. | Territorial boundaries appear to be announced acoustically and in some instances marked with fecal piles. Miniature donkeys have a gestation period of 11 to 13 months and are sexually mature from the age of around one year. They give birth to a single foal each year. Having no natural predator, competitor or common diseases, most young E. asinus reach maturity and may live as long as 25 years in the wild. | *Uses an average 365 day gestation period for a Donkey. Donkey gestation periods can generally be anywhere from 345-375 days. A donkey can conceive after one breeding. The Donkey Gestation Period Calculator above attempts to generalize the estimation of the due date without any additional factors using a 365 day gestation period for Donkey. | For example, the gestation period of jennies is 12 months, which is about a month longer than in horses (11 months). Some researchers have claimed that the difference is about 36 to 37 days longer to be exact (Fielding, 1987). |
what does doctor say about separation anxiety that babies have | One consistent companion you have when dealing with your child and baby separation anxiety, is your parental instinct, or in other words, your gut feeling. Use it! Trust it! I simply can't stress this enough! If you sense something is not right with your choice of day care institution or sitter, don't ignore it. The Good News about Baby Separation Anxiety. This need to closely bond with you lasts all through childhood but changes in character as your child grows older-see attachment behaviour throughout the ages and stages of child development. 1 Your baby is getting smart: Your baby's brain is really on the fast track now | Here's how to ease separation anxiety: 1 Don't sneak out when she's with the babysitter. 2 If you don't tell her that you're going, she'll worry that you could disappear at any time. 3 Don’t add to her worry by making your exit emotional. Month 6, Week 4 Tips. 1 If she's able, let your baby crawl into the next (babyproofed) room by herself for a moment or two, so she gets used to a little separation. 2 Having your baby spend scheduled time with a trusted, caring babysitter can help ease separation anxiety. | Month 6, Week 4. Soon, your baby will become visibly -- and audibly -- upset whenever you leave her sight. It's separation anxiety. It happens because she understands that you still exist when she can't see you, and her poor concept of time means that she can't wait for your return. Month 6, Week 4 Tips. 1 If she's able, let your baby crawl into the next (babyproofed) room by herself for a moment or two, so she gets used to a little separation. 2 Having your baby spend scheduled time with a trusted, caring babysitter can help ease | Here's how to ease separation anxiety: 1 Don't sneak out when she's with the babysitter. 2 Don’t add to her worry by making your exit emotional. 3 Remind your baby that when you leave, you always come back. 4 If you need to leave, try to do so when your baby has just eaten and napped. Month 6, Week 4 Tips. 1 If she's able, let your baby crawl into the next (babyproofed) room by herself for a moment or two, so she gets used to a little separation. 2 Having your baby spend scheduled time with a trusted, caring babysitter can help ease separation anxiety. | Your doctor will do as much as he or she can to make your baby comfortable. If your baby has a comforting toy or blanket that helps them, bring it to the doctor’s office and let them hold onto it. { MORE: Adult Separation Anxiety Disorder }. To sum it all up – most babies have some stranger anxiety, which is the most prominent between around 8 months and 18 months of age. It has nothing to do with your parenting skills, or anything being wrong with the baby. Handle the situation as calmly as you can |
what does doctor say about separation anxiety that babies have | If you recognize some of the following typical signs of separation anxiety in babies, then yes, your parental instinct may be correct: 1 Your baby is very clingy and wants to be in your proximity all the time (preferably in your arms). The Good News about Baby Separation Anxiety. This need to closely bond with you lasts all through childhood but changes in character as your child grows older-see attachment behaviour throughout the ages and stages of child development. 1 Your baby is getting smart: Your baby's brain is really on the fast track now | Here's how to ease separation anxiety: 1 Don't sneak out when she's with the babysitter. 2 Don’t add to her worry by making your exit emotional. 3 Remind your baby that when you leave, you always come back. 4 If you need to leave, try to do so when your baby has just eaten and napped. Month 6, Week 4 Tips. 1 If she's able, let your baby crawl into the next (babyproofed) room by herself for a moment or two, so she gets used to a little separation. 2 Having your baby spend scheduled time with a trusted, caring babysitter can help ease separation anxiety. | Your doctor will do as much as he or she can to make your baby comfortable. If your baby has a comforting toy or blanket that helps them, bring it to the doctor’s office and let them hold onto it. { MORE: Adult Separation Anxiety Disorder }. To sum it all up – most babies have some stranger anxiety, which is the most prominent between around 8 months and 18 months of age. It has nothing to do with your parenting skills, or anything being wrong with the baby. Handle the situation as calmly as you can | Separation anxiety starts in the infant stage — somewhere between 6-10 months, for most babies. You may start to notice that your baby clings to you and cries before you leave her with a babysitter, or at naptime and/or bedtime. Often, separation anxiety appears out of the blue — your baby is fine one day and is a clinging, sobbing, terrified mess the next. And this makes sense; a baby who’s deep in the throes of separation anxiety certainly won’t want to be left alone to nap, or to sleep all night. In fact, separation anxiety can be one of the major factors involved in the 8/9/10 month sleep regression. | Here's how to ease separation anxiety: 1 Don't sneak out when she's with the babysitter. 2 If you don't tell her that you're going, she'll worry that you could disappear at any time. 3 Don’t add to her worry by making your exit emotional. Month 6, Week 4 Tips. 1 If she's able, let your baby crawl into the next (babyproofed) room by herself for a moment or two, so she gets used to a little separation. 2 Having your baby spend scheduled time with a trusted, caring babysitter can help ease separation anxiety. |
what does doctor say about separation anxiety that babies have | Separation anxiety in babies is tough on all involved, your baby needs you desperately, your partner may feel overlooked or useless and you may just crave two minutes by yourself. But like everything else with kids, it's a phase, it will slowly lessen, change character, and pass. The Good News about Baby Separation Anxiety. This need to closely bond with you lasts all through childhood but changes in character as your child grows older-see attachment behaviour throughout the ages and stages of child development. 1 Your baby is getting smart: Your baby's brain is really on the fast track now | Your doctor will do as much as he or she can to make your baby comfortable. If your baby has a comforting toy or blanket that helps them, bring it to the doctor’s office and let them hold onto it. { MORE: Adult Separation Anxiety Disorder }. To sum it all up – most babies have some stranger anxiety, which is the most prominent between around 8 months and 18 months of age. It has nothing to do with your parenting skills, or anything being wrong with the baby. Handle the situation as calmly as you can | Here's how to ease separation anxiety: 1 Don't sneak out when she's with the babysitter. 2 Don’t add to her worry by making your exit emotional. 3 Remind your baby that when you leave, you always come back. 4 If you need to leave, try to do so when your baby has just eaten and napped. Month 6, Week 4 Tips. 1 If she's able, let your baby crawl into the next (babyproofed) room by herself for a moment or two, so she gets used to a little separation. 2 Having your baby spend scheduled time with a trusted, caring babysitter can help ease separation anxiety. | Month 6, Week 4. Soon, your baby will become visibly -- and audibly -- upset whenever you leave her sight. It's separation anxiety. It happens because she understands that you still exist when she can't see you, and her poor concept of time means that she can't wait for your return. Month 6, Week 4 Tips. 1 If she's able, let your baby crawl into the next (babyproofed) room by herself for a moment or two, so she gets used to a little separation. 2 Having your baby spend scheduled time with a trusted, caring babysitter can help ease | Here's how to ease separation anxiety: 1 Don't sneak out when she's with the babysitter. 2 If you don't tell her that you're going, she'll worry that you could disappear at any time. 3 Don’t add to her worry by making your exit emotional. Month 6, Week 4 Tips. 1 If she's able, let your baby crawl into the next (babyproofed) room by herself for a moment or two, so she gets used to a little separation. 2 Having your baby spend scheduled time with a trusted, caring babysitter can help ease separation anxiety. |
how long is implantation cramping supposed to last | Becoming worried about how long does implantation cramping very last is but evident for pregnant women struggling from implantation cramps. Basically, implantation cramping takes place about 8-ten days following ovulation when the fertilized egg attaches alone to the lining of the uterus wall. It is regarded as as one of the very first indicators of pregnancy. Some pregnant women could complain of discomfort on 1 side of the uterus, based on the location of the uterus the egg implants. A lot more often than not, the soreness occurs for a day or two. In specific circumstances, implantation cramping can very last for up to a week. | Light pricking, pulling sensations or lower abdominal aches, not too intense. Often they remind premenstrual pains, which are usually passed unnoticed as a trivial thing. Implantation cramping can’t last for a long time, since it takes only 1-3 days for an embryo to attach itself to the new place. Certainly, you can’t jump to any conclusions, basing only on these sensations. | when i was pregnant with my son, i had implantation bleeding, and cramps a little before i was supposed to getmy period and mistook this for my period coming. I didn't think I was pregnant until about 6 weeks and had horrible cramping that landed me in the er, where i learned that i was just dehydrated. | It is possible to have cramping and implantation bleeding when you are supposed to have your period. This is why women usually mistake these signs with the signs of menstruation. If these last only for a day or two and the symptoms aren’t as severe as a period, most probably you are pregnant. Cramping and bleeding. As it has been mentioned before regarding cramps during implantation, not all women experience it. Keep in mind that fertilization usually takes place 6-8 days after intercourse, so this is the time to keep an eye out for the cramps. | The normal time frame for implantation to occur after fertilization is approximately 9 to 12 days. The period of implantation may vary in a few cases. Some women may experience cramping earlier than the mentioned time, whereas some may experience it at a later date. The duration is normally brief. |
how many hours are in one month | That will depend on the month. In a month with 31 days, there are 744 hours. In a month with 30 days, there are 720 hours. In a leap year February, with … 29 days, there are 696 hours. In a normal year February, with 28 days, there are 672 hours. | Based on a 30 hour work week how many hours per month? Ignoring statutory holidays and the variation of days in a month, you could work it out this way:- there are 52 weeks in a year-thus 30*52 = 1560 hours a year. … there are 12 months in a year-thus 1560/12 = 130 hours a month. | 168 hours available because, we know that we have 24 hours in each day and we know that a week is 7 days. Okay let's multiply 24 x 7 = 168. however a typical work day is 8 h … ours (not counting for lunch) and a typical work week is 5 days = 40 hours how many work hours is normal for you would depend on your job. | Depends on if you're taking a month to mean 28 days, or alternating 30/31 days. However, here's the method, so you can work out what answer you want, depending on what … you decide a month is: Divide 450 by 24, since there are 24 hours in a day. This gives you how many days 450 hours is. | There are between 160 and 184 work hours in a month, depending on how many work days occur within the month. |
how many votes does it take to remove a president from office | Making the world better, one answer at a time. First of all, in your question I'm sure you meant from not form.. Second of all, it takes two thirds of the Senate (67 votes) to remove the president from office. Presidents Andrew Johnson and Bill Clinton were impeached (had charges filed against them) by the US House of Representatives, but both were acquitted at their Senate tr … ials. The Senate came up only one vote short of the 2/3 required to convict Andrew Johnson. In Clinton's case, 55 senators voted to acquit. | Standards for Impeachment. The President, Vice President and all civil Officers of the United States, shall be removed from Office on Impeachment for, and Conviction of, Treason, Bribery, or other high Crimes and Misdemeanors. The word impeachment is popularly used to indicate both the bringing of charges in the House and the Senate vote on removal from office. In the Constitution, however, the term refers only to the former. At the Convention, the delegates experimented with differing impeachment proceedings. | If all the Republicans voted for removing Clinton it would take 12 Democrats to agree. And that just ain't gonna happen. The Republicans will never get 67 votes in the Senate. Therefore President Clinton will not be removed from office. It still takes 67 votes in the Senate to remove him from office and that isn't going to happen. And even if it did happen, Al Gore will become President and the Republicans gain nothing. So there is no possible scenario that makes the Republicans a winner. What amazes me is that they are too stupid to figure that out. | “Our members just wish this thing would be over,” said a senior House Republican who met with Bush recently. “People are tired of him.”. A fast-shrinking gaggle of Big Bloggers is using the same argument to oppose impeachment: we don't have 67 votes in the Senate to convict and remove. (Kos has been saying this for a year. | The Constitution grants the House the power to impeach The President, the Vice President, and all civil Officers of the United States.. It has been suggested that members of Congress are not officers of the United States. Others, however, believe that members are civil officers and are subject to impeachment. The House of Representatives impeached Senator William Blount in 1798, resulting in his expulsion. |
shingles treatment | The most common treatments for shingles include: 1 Antiviral medicines, such as acyclovir, famciclovir, or valacyclovir, to reduce the pain and the duration of shingles. 2 Over-the-counter pain medicines, such as acetaminophen or ibuprofen, to help reduce pain during an attack of shingles. 3 Be safe with medicines. | Treatment. Several antiviral medicines—acyclovir, valacyclovir, and famciclovir—are available to treat shingles. These medicines will help shorten the length and severity of the illness. But to be effective, they must be started as soon as possible after the rash appears. | There's no cure for shingles, but prompt treatment with prescription antiviral drugs can speed healing and reduce your risk of complications. These medications include: 1 Acyclovir (Zovirax). 2 Valacyclovir (Valtrex). 3 Famciclovir (Famvir). | Shingles is a viral infection that causes a painful rash on the body. This rash can occur anywhere on the body, but it’s most commonly found on the torso. Shingles is caused by the varicella-zoster virus, the same virus that causes chicken pox. Once you have chicken pox, the virus remains dormant in your body. | 1 Antiviral medicines, such as acyclovir, famciclovir, or valacyclovir, to reduce the pain and the duration of shingles. 2 Over-the-counter pain medicines, such as acetaminophen or ibuprofen, to help reduce pain during an attack of shingles. 3 Be safe with medicines. |
what food can cause pancreatitis | With pancreatitis, avoid breads or grains with a high fat content. Croissants, doughnuts, high-fat crackers, biscuits and waffles can all have added fat that may be difficult for your body to digest. Instead, select whole-grain starches such as brown rice and pasta, tortillas, lower-fat crackers and hot cereals. Because this organ secretes enzymes to help digest your food, you may experience extreme pain when trying to eat. Other common side-effects are fatty diarrhea, weight loss, nausea and vomiting. Typical causes of pancreatitis are gallbladder stones and alcohol abuse, but other diseases can trigger this condition. Once your symptoms improve and you are able to eat, small dietary changes can help your body digest food normally | The pancreas is located in the upper abdomen, behind the stomach. When the pancreas is inflamed, the body is not able to absorb the nutrients it needs. Pancreatitis may be either acute (sudden and severe) or chronic. Both types of pancreatitis can cause bleeding and tissue death in or around the pancreas. Mild attacks of acute pancreatitis can improve on their own, or with dietary changes. In the case of recurring pancreatitis, however, long-term damage to the pancreas is common, sometimes leading to malnutrition and diabetes. | This causes the enzymes to irritate the cells of your pancreas, causing inflammation and the signs and symptoms associated with pancreatitis. With repeated bouts of acute pancreatitis, damage to the pancreas can occur and lead to chronic pancreatitis. Scar tissue may form in the pancreas, causing loss of function. A poorly functioning pancreas can cause digestion problems and diabetes. | Chronic pancreatitis. Excessive alcohol use is the most common cause of ongoing pancreatitis (chronic pancreatitis). Other causes of chronic pancreatitis include cystic fibrosis or a blockage in the pancreas. Chronic pancreatitis may run in families. And smoking cigarettes seems to increase the risk for this disease. Excessive alcohol use is the most common cause of ongoing pancreatitis (chronic pancreatitis). Other causes of chronic pancreatitis include cystic fibrosis or a blockage in the pancrea | Pain management. Chronic pancreatitis can cause persistent abdominal pain. Your doctor may recommend medications to control your pain and may refer you to a pain specialist. Severe pain may be relieved with surgery to block nerves that send pain signals from the pancreas to the brain. 1 Enzymes to improve digestion. |
maximum dosage of naproxen | Dose of Naproxen Sodium for Acute Pain For acute pain relief or treatment of painful menstrual periods, the usual naproxen sodium dosing for an adult (over age 18) is 220 mg to 550 mg, twice a day. The maximum recommended daily dosage is 1100 mg per day. | You should take one tablet every 8 to 10 hours until symptoms abate, although for the first dose you may take two tablets. The maximum adult dose is two tablets within an 8 to 10 hour period and three tablets within a 24-hour period. Aleve should not be taken for longer than 10 days unless recommended by your doctor. You should only give Aleve to a child under 12 years old if recommended by a doctor. | 1 Adults—At first, 1000 milligrams (mg) (taken as two 500 mg tablets) once a day. 2 Some patients may need 1500 mg (taken as two 750 mg or three 500 mg tablets) per day, for a limited period. 3 However, the dose is usually not more than 1000 mg per day. 4 Children—Use and dose must be determined by your doctor. | For Adults, the minimum is 275.0 mg, maximum is 1650.0 mg, Pediatric Dosages are, minimum 5.0 mg/kg, maximum = 21.0 mg/kg The safety and efficacy of this drug has not been established in children 2 years or younger. The dosage for adults assumes this maximum will not be exceeded within 24 hours of the maximum dosage. | The maximum Naproxen dosage per day is 1500 mg. In order to avoid any stomach upset is better to take your daily dosage of Naproxen after meals or with a glass of milk. The best dosage for arthritis is the same as in case of osteoarthritis, and it ranges between 500 mg to 1000 mg daily. |
how far is split to krka waterfalls | A Visitors guide with nice photos from Krka and information about visiting the park you can find here The driving distance between Split and Krka, is between 80 and 90 km depending on the route. on the map below you can see the varius travelling routes. | National park Krka, is one of the most beautiful nature spots in Croatia, we can highly recommend visiting the park as a one day excursion from Split. | Depart Split by bus and head to the Sibenik region to the famous Krka river waterfalls, located in the Krka National Park. The park covers an area of 142 sq km (55 sq miles) and was established in 1985 to protect the middle and lower stretches of the Krka River, which flows in the bay of Sibenik. | NP Krka is usually visited on one day excursions. Krka Falls are close to reach from Split then National Park Plitvice, but if You are interesting we also have one day excursions. Our tour is starting from Split, in front of the Palace, or in front your hotel. | KRKA TOUR FROM SPLIT. Rivers and waterfalls are not the first image that comes to mind when Croatia is discussed. So maybe you will be surprised to know that one-hour drive from Split is one of the most beautiful National Parks in Croatia. It is located in the area of 109 square kilometers along the Krka river. We will start our adventure from Split driving in air-conditioned minivan to the beautiful little town Skradin where we will take a short boat ride down the River to attractive Skradinski buk waterfalls. |
what is urea made of | Urea or carbamide is an organic compound with the chemical formula C O (N H 2) 2. The molecule has two —NH 2 groups joined by a carbonyl (C=O) functional group. Urea is synthesized in the body of many organisms as part of the urea cycle, either from the oxidation of amino acids or from ammonia. In this cycle, amino groups donated by ammonia and L-aspartate are converted to urea, while L-ornithine, citrulline, L-argininosuccinate, and L-arginine act as intermediates. | Basics. Urea is made up of carbon, nitrogen and oxygen. It is found in urine, sweat, blood and milk in mammals. But the most concentrated form is in urine. It is a crystalline compound, and the nitrogen content is always at least 46 percent when dry. Urea is used in fertilizer because it is very high in nitrogen. When analyzed, it was the chemical compound urea. In today's processing, urea is made through a process of heating ammonium carbamate. The compound is placed in a sealed container and heated. The ammonium carbamate is a combination of ammonia and carbon dioxide. | UREA Also known as carbamide, is an organic compound of carbon, nitrogen, oxygen and hydrogen, with the formula CON2H4 or (NH2)2CO.Urea is produced commercially from two raw materials, ammonia and carbon dioxide. Large quantities of carbon dioxide are produced during the manufacture of ammonia from coal or from hydrocarbons such as natural gas and petroleum derived raw materials. This allows direct synthesis of urea from these raw materials. SHAPE OF UREA: It is generally supplied in prills or crystals/grains. Urea is produced commercially from synthetic ammonia and carbon dioxide. Urea can be produced as prills, granules, flakes, pellets, crystals and solutions. | Urea is made in the the liver and removed from the body via the kidneys in the urine flow as the microscopic solid by product (i.e., the insoluble waste that will not be leaving via the anus) created along with urine. It is an effective way of removing nitrogenous waste from the body in a relatively non toxic form. Relevance. Rating Newest Oldest. Best Answer: Urea, also called carbamide, is an organic chemical compound which essentially is the waste produced when the body metabolizes protein. It is a compound not only produced by humans but also by many other mammals, as well as amphibians and some fish. | Urea, also called carbamide, is an organic chemical compound, and is essentially the waste produced by the body after metabolizing protein. Naturally, the compound is produced when the liver breaks down protein or amino acids, and ammonia; the kidneys then transfer the urea from the blood to the urine. |
what is urea made of | Urea serves an important role in the metabolism of nitrogen-containing compounds by animals, and is the main nitrogen-containing substance in the urine of mammals. It is colorless, odorless solid, highly soluble in water, and practically non-toxic (LD50 is 15 g/kg for rats). Urea is synthesized in the body of many organisms as part of the urea cycle, either from the oxidation of amino acids or from ammonia. In this cycle, amino groups donated by ammonia and L-aspartate are converted to urea, while L-ornithine, citrulline, L-argininosuccinate, and L-arginine act as intermediates. | UREA Also known as carbamide, is an organic compound of carbon, nitrogen, oxygen and hydrogen, with the formula CON2H4 or (NH2)2CO.Urea is produced commercially from two raw materials, ammonia and carbon dioxide. Large quantities of carbon dioxide are produced during the manufacture of ammonia from coal or from hydrocarbons such as natural gas and petroleum derived raw materials. This allows direct synthesis of urea from these raw materials. SHAPE OF UREA: It is generally supplied in prills or crystals/grains. Urea is produced commercially from synthetic ammonia and carbon dioxide. Urea can be produced as prills, granules, flakes, pellets, crystals and solutions. | Basics. Urea is made up of carbon, nitrogen and oxygen. It is found in urine, sweat, blood and milk in mammals. But the most concentrated form is in urine. It is a crystalline compound, and the nitrogen content is always at least 46 percent when dry. Urea is used in fertilizer because it is very high in nitrogen. When analyzed, it was the chemical compound urea. In today's processing, urea is made through a process of heating ammonium carbamate. The compound is placed in a sealed container and heated. The ammonium carbamate is a combination of ammonia and carbon dioxide. | Urea, also called carbamide, is an organic chemical compound, and is essentially the waste produced by the body after metabolizing protein. Naturally, the compound is produced when the liver breaks down protein or amino acids, and ammonia; the kidneys then transfer the urea from the blood to the urine. | Urea is made in the the liver and removed from the body via the kidneys in the urine flow as the microscopic solid by product (i.e., the insoluble waste that will not be leaving via the anus) created along with urine. It is an effective way of removing nitrogenous waste from the body in a relatively non toxic form. Relevance. Rating Newest Oldest. Best Answer: Urea, also called carbamide, is an organic chemical compound which essentially is the waste produced when the body metabolizes protein. It is a compound not only produced by humans but also by many other mammals, as well as amphibians and some fish. |
what is urea made of | Urea is widely used in fertilizers as a source of nitrogen and is an important raw material for the chemical industry. Friedrich Woehler 'wöhler s discovery in 1828 that urea can be produced from inorganic starting materials was an important conceptual milestone in. chemistry Urea is synthesized in the body of many organisms as part of the urea cycle, either from the oxidation of amino acids or from ammonia. In this cycle, amino groups donated by ammonia and L-aspartate are converted to urea, while L-ornithine, citrulline, L-argininosuccinate, and L-arginine act as intermediates. | Urea, also called carbamide, is an organic chemical compound, and is essentially the waste produced by the body after metabolizing protein. Naturally, the compound is produced when the liver breaks down protein or amino acids, and ammonia; the kidneys then transfer the urea from the blood to the urine. | UREA Also known as carbamide, is an organic compound of carbon, nitrogen, oxygen and hydrogen, with the formula CON2H4 or (NH2)2CO.Urea is produced commercially from two raw materials, ammonia and carbon dioxide. Large quantities of carbon dioxide are produced during the manufacture of ammonia from coal or from hydrocarbons such as natural gas and petroleum derived raw materials. This allows direct synthesis of urea from these raw materials. SHAPE OF UREA: It is generally supplied in prills or crystals/grains. Urea is produced commercially from synthetic ammonia and carbon dioxide. Urea can be produced as prills, granules, flakes, pellets, crystals and solutions. | Basics. Urea is made up of carbon, nitrogen and oxygen. It is found in urine, sweat, blood and milk in mammals. But the most concentrated form is in urine. It is a crystalline compound, and the nitrogen content is always at least 46 percent when dry. Urea is used in fertilizer because it is very high in nitrogen. When analyzed, it was the chemical compound urea. In today's processing, urea is made through a process of heating ammonium carbamate. The compound is placed in a sealed container and heated. The ammonium carbamate is a combination of ammonia and carbon dioxide. | Urea is made in the the liver and removed from the body via the kidneys in the urine flow as the microscopic solid by product (i.e., the insoluble waste that will not be leaving via the anus) created along with urine. It is an effective way of removing nitrogenous waste from the body in a relatively non toxic form. Relevance. Rating Newest Oldest. Best Answer: Urea, also called carbamide, is an organic chemical compound which essentially is the waste produced when the body metabolizes protein. It is a compound not only produced by humans but also by many other mammals, as well as amphibians and some fish. |
what is a abacus | The abacus (plural abaci or abacuses), also called a counting frame, is a calculating tool that was in use centuries before the adoption of the written modern numeral system and is still widely used by merchants, traders and clerks in Asia, Africa, and elsewhere. | An abacus has beads that slide on rods. It can be used to count, add, subtract, multiply and more. The most common abacus is split into two basic rows: 1 the top row for the 5s, and. 2 the bottom row for the ones. Every column represents a different digit, such as Units, Tens, Hundreds, etc. The abacus has been around for thousands of years, and is still used in some parts of the world. Sometimes blind people will use an abacus, because they can feel the numbers easily. | History of Abacus: Abacus is a Latin word that has its origins in the Greek words abax or abakon (meaning “table” or “tablet”) which in turn, possibly originated from the Semitic word abq, meaning “sand” 1. Abacus or 算 盘 (suan4 pan2) in Chinese was a widely used computing machine before the invention of modern computers. | For example, in the picture to the right, the abacus is equal to 283 with nine beads moved towards the reckoning bar. The third column (100's column) has two beads counted for 200. The second column (10's column) has a Heavenly bead counted for 50, and three Earthly beads counted for 30 giving it a total of 80. | Modern Times: The Suan-pan, the Soroban and the Schoty are from the period c. 1200 A.D to the present. Abacus is a Latin word that has its origins in the Greek words abax or abakon (meaning “table” or “tablet”) which in turn, possibly originated from the Semitic word abq, meaning “sand”. The abacus is an instrument, a manual tool invented by the Chinese 2000 years ago. Abacus is a Latin word that has its origins in the Greek words abax or abakon (meaning “table” or “tablet”) which in turn, possibly originated from the Semitic word abq, meaning “sand” 1. |
what does sgpt alt mean in a blood test | Alanine Aminotransferase (ALT). Guide. An alanine aminotransferase (ALT) test measures the amount of this enzyme in the blood. ALT is found mainly in the liver, but also in smaller amounts in the kidneys, heart, muscles, and pancreas. ALT was formerly called serum glutamic pyruvic transaminase (SGPT). Low levels of ALT are normally found in the blood. But when the liver is damaged or diseased, it releases ALT into the bloodstream, which makes ALT levels go up. | This blood test measures an enzyme called alanine transaminase (ALT). Enzymes are chemicals that help the cells of your body work. ALT is an enzyme made in the liver. It is released into the blood when tissues are damaged. This enzyme is also called serum glutamic-pyruvic transaminase, or SGPT. The ALT test checks for and measures damage to the liver. It is also done to check medical treatments that may affect the liver. | The alanine aminotransferase (ALT) test is done to: 1 Identify liver disease, especially cirrhosis and hepatitis caused by alcohol, drugs, or viruses. 2 Help check for liver damage. 3 Find out whether jaundice was caused by a blood disorder or liver disease. 4 Keep track of the effects of medicines that can damage the liver. Low levels of ALT are normally found in the blood. But when the liver is damaged or diseased, it releases ALT into the bloodstream, which makes ALT levels go up. | Best Answer: It means you have low ALT levels. Most low ALT level results indicate a normal healthy liver, that may not always be the case. A low-functioning or non-functioning liver, lacking normal levels of ALT activity to begin with, would not release a lot of ALT into the blood when damaged. | The alanine aminotransferase (ALT) test is typically used to detect liver injury. It is often ordered in conjunction with aspartate aminotransferase (AST) or as part of a liver panel to screen for and/or help diagnose liver disease. Normally, levels of ALT in the blood are low. Very high levels of ALT (more than 10 times normal) are usually due to acute hepatitis, sometimes due to a viral infection. In acute hepatitis, ALT levels usually stay high for about 1-2 months but can take as long as 3-6 months to return to normal. |
what does sgpt alt mean in a blood test | 23 Followers. A. SGPT is an abbreviation for a serum blood test of an enzyme produced in the liver and in the heart. SGPT enzymes are released into the blood stream when damage to the heart or liver occur. Elevated SGPT levels are thus observed with heart and liver abnormalities. | The alanine aminotransferase (ALT) test is done to: 1 Identify liver disease, especially cirrhosis and hepatitis caused by alcohol, drugs, or viruses. 2 Help check for liver damage. 3 Find out whether jaundice was caused by a blood disorder or liver disease. 4 Keep track of the effects of medicines that can damage the liver. Low levels of ALT are normally found in the blood. But when the liver is damaged or diseased, it releases ALT into the bloodstream, which makes ALT levels go up. | The alanine aminotransferase (ALT) test is typically used to detect liver injury. It is often ordered in conjunction with aspartate aminotransferase (AST) or as part of a liver panel to screen for and/or help diagnose liver disease. Normally, levels of ALT in the blood are low. Very high levels of ALT (more than 10 times normal) are usually due to acute hepatitis, sometimes due to a viral infection. In acute hepatitis, ALT levels usually stay high for about 1-2 months but can take as long as 3-6 months to return to normal. | Best Answer: It means you have low ALT levels. Most low ALT level results indicate a normal healthy liver, that may not always be the case. A low-functioning or non-functioning liver, lacking normal levels of ALT activity to begin with, would not release a lot of ALT into the blood when damaged. | Individual suffering from increased levels of SGPT due to some liver or heart disease must also be on strict diet restrictions and proper rest. Initially the damage in the liver can be detected by simple blood test. It determines the presence of ALT which is related with SGPT in the blood. Usually under the normal circumstances this enzyme is concentrated within the cells of the liver. But when liver suffers from some injury this enzyme is spilled into the blood stream. The increase in the levels of SGPT in the blood indicates the disease related to liver. Normally ALT (SGPT) is found in the liver in large quantity. We can't say that this enzyme is located exclusively in the liver but it is concentrated in large quantity there |
are otters endangered species | There is one species of Otter on the low risk list which is the Oriental Small Clawed Otter. Several of the species though are listed as vulnerable and endangered. They include the Southern River Otter, Hairy Nosed Otter, Giant Otter, and the India Smooth Coated Otter. In the United States Otters are protected under the Endangered Species Act. This is due to the fact that the conditions they live under could be compromised easily and that could lead to a significant reduction in their numbers in very little time. Otters Conservation Status. Many of the different species of Otters have been heavily hunted in the past. As a result the numbers of them are quite low. This is why conservation efforts are in place to help them continue to survive. The main reason that these Otters were hunted though was for their fur. | AN ENDANGERED SPECIES. The giant otter is the South American cousin to the sea and river otters of North America, as well as those of Europe and Africa. The giant otter can grow to more than 6 feet (2 meters) long and 70 pounds (32 kg), nearly twice as large as its American counterparts. | Diet. Sea otters eat urchins, abalone, mussels, clams, crabs, snails and about 40 other marine species. Sea otters eat approximately 25% of their weight in food each day to support their high metabolism. | As mentioned previously, the river otter is an endangered species. River otters have been hunted for many years. Their fur is attractive and quite durable. In 1983-1984, 135 otters were taken with an average selling price of $1,871 per pelt. | Why are sea otters endangered. The sea otter is a marine mammal which lives on the coasts of the northern Pacific Ocean. Their primary form of insulation is their thick coat of fur, which is the densest fur known in the animal kingdom. Although sea otters have the ability to walk on land, they are capable of living exclusively in the ocean. These traits are what have made the otter such an endangered species |
average cost for wedding rings | to put it in perspective the average cost of an engagement ring in america is $ 5431 the cheapest ring on this list is $ 137200 and it belongs to a future queen the most expensive is worth $ 8 8 million | women who received expensive engagement rings also experienced higher rates of divorce women whose weddings cost $ 20000 or more were 3 5 times more likely to end up divorced than women who spent $ 5000 to $ 10000 according to the knot the average cost of a wedding in the u s is $ 30000 | the cost of a wedding band ranges from less than $ 100 to more than $ 2000 the price usually depends on the material used in a wedding ring low end wedding rings usually cost $ 100 or less these rings are made from sterling silver or narrow gold rings mid range wedding rings cost from $ 150 to $ 500 these are usually rings that are made from titanium or 14k or 18k gold upscale wedding rings cost from $ 1500 to $ 2000 these are rings that are made of platinum and diamond designer wedding rings belong to this class as well and can run for | couples who spend $ 20000 on their wedding excluding the cost of the ring are 46 % more likely than average to get divorced that risk falls to 29 % higher than average for those who spend $ 10000 to $ 20000 | rings are some of the biggest costs of the engagement and wedding process and the different amounts people are willing to pay may surprise you the average price paid for an engagement ring in california is a whopping $ 7991 while couples in south dakota average around $ 1251 here s the average cost of what people are spending on engagement rings by state alaska $ 5353 alabama $ 8062 arkansas $ 3176 arizona $ 6347 california $ 7991 |
average cost for wedding rings | the center stone constitutes the most expensive part of a classic solitaire ring accounting for as much as 85 percent of its price $ 6113 includes bride s ring and band in 2015 the average cost of a wedding ring is between $ 5968 $ 6258 this includes both the engagement ring and traditional wedding band $ 468 for the groom in 2013 the average cost of a groom s wedding ring is between $ 389 $ 547 | couples who spend $ 20000 on their wedding excluding the cost of the ring are 46 % more likely than average to get divorced that risk falls to 29 % higher than average for those who spend $ 10000 to $ 20000 | women who received expensive engagement rings also experienced higher rates of divorce women whose weddings cost $ 20000 or more were 3 5 times more likely to end up divorced than women who spent $ 5000 to $ 10000 according to the knot the average cost of a wedding in the u s is $ 30000 | the cost of a wedding band ranges from less than $ 100 to more than $ 2000 the price usually depends on the material used in a wedding ring low end wedding rings usually cost $ 100 or less these rings are made from sterling silver or narrow gold rings mid range wedding rings cost from $ 150 to $ 500 these are usually rings that are made from titanium or 14k or 18k gold upscale wedding rings cost from $ 1500 to $ 2000 these are rings that are made of platinum and diamond designer wedding rings belong to this class as well and can run for | rings are some of the biggest costs of the engagement and wedding process and the different amounts people are willing to pay may surprise you the average price paid for an engagement ring in california is a whopping $ 7991 while couples in south dakota average around $ 1251 here s the average cost of what people are spending on engagement rings by state alaska $ 5353 alabama $ 8062 arkansas $ 3176 arizona $ 6347 california $ 7991 |
healthy food definition | Health food is food considered beneficial to health in ways that go beyond a normal healthy diet required for human nutrition. Because there is no precise, authoritative definition from regulatory agencies such as the U.S. Food and Drug Administration, different dietary practices can be considered healthy depending on context. | Full Definition of HEALTH FOOD. : a food promoted as highly conducive to health. See health food defined for English-language learners. See health food defined for kids. : a food that is believed to be good for your health: a food that has no artificial ingredients. | Any food believed to be ‘good for you’, especially if high in fiber, natural vitamins, fructose, etc. Healthy foods may reduce cholesterol, reduce atherosclerosis and risk of stroke, help control glucose, halt progression of osteoporosis, and reduce the risk of infections, cancer. | My definition of healthy eating is: Eating food that is enjoyable to you in the quantity that is good for you.. For example, cookies may be enjoyable to you but only a small quantity is good for you, as opposed to broccoli that may also be enjoyable to you while a large quantity is good for you. | Foods considered healthy may be natural foods, organic foods, whole foods, and sometimes vegetarian or dietary supplements. Such products are sold in health food stores or in the health/organic sections of supermarkets. Because there is no precise, authoritative definition from regulatory agencies such as the U.S. Food and Drug Administration, different dietary practices can be considered healthy depending on context. |
healthy food definition | Save as Favorite. Healthy eating means eating a variety of foods that give you the nutrients you need to maintain your health, feel good, and have energy. These nutrients include protein, carbohydrates, fat, water, vitamins, and minerals. Nutrition is important for everyone. | The crucial part of healthy eating is a balanced diet. A balanced diet-or a good diet-means consuming from all the different good groups in the right quantities. Nutritionists say there are five main food groups-whole grains, fruit and vegetables, protein, diary, and fat & sugar. Diet is often referred to as some dietary regimen for losing weight. However, diet simply means what food we eat in the course of a 24-hour, one week, or one month, etc. period. | Knowledge center. Healthy eating means consuming the right quantities of foods from all food groups in order to lead a healthy life. Diet is often referred to as some dietary regimen for losing weight. However, diet simply means what food we eat in the course of a 24-hour, one week, or one month, etc. period. | Any food believed to be ‘good for you’, especially if high in fiber, natural vitamins, fructose, etc. Healthy foods may reduce cholesterol, reduce atherosclerosis and risk of stroke, help control glucose, halt progression of osteoporosis, and reduce the risk of infections, cancer. | While there is no precise definition for health food, the United States Food and Drug Administration has warned food manufacturers against labeling foods as being healthy when they have a high sugar, salt, or fat content. Because there is no precise, authoritative definition from regulatory agencies such as the U.S. Food and Drug Administration, different dietary practices can be considered healthy depending on context. |
why is carbon is considered tetravalent | best response you ve already chosen the best response carbon is considered tetravalent because it has four valence electrons the valence electrons are in the outermost shell of the atom and allows carbon to form four bonds to other atoms | carbon is normally tetravalent meaning it makes four bonds to other atoms in the picture below different types of carbon molecules are shown the lines represent two electron bonds the dots represent electrons and the balloons represent orbitals | the carbon atom is called tetravalent because it forms 4 covalent bonds a carbon atom has a total of six electrons occupying the first two shells i e the k shell has two e lectrons and the l shell has four electrons | carbon is a non metal because metals give electrons and form electrovalent bond they are highly electropositive in all metals they loose electrons easily in carbon it is not possible carbon mostly forms covalent bonds carbon form long chain therefore it is studied separately in organic chemistry | user why is carbon is considered tetravalent select one of the options below as your answer a since it has four electrons in its outermost orbital it needs four more electrons to complete its octet |
how early does implantation occur | Implantation typically occurs 6 to 10 days after ovulation, or day 20 to 24 of a menstrual cycle. However, it can happen a few days earlier or later. In an average 28-day cycle, ovulation occurs on day 14 with the first day of a woman's period being considered day 1 in a cycle. | If conception occurred, implantation (when the fertilized egg attaches to the uterine wall) typically happens seven to ten days after ovulation, but it can happen a few days earlier or later as well. | Implantation bleeding or spotting are among the top signs of early pregnancy. Take the Implantation/Spotting Quiz and find out what it could be. Implantation bleeding can be seen about a day or so after implantation, which happens about 9 days after ovulation/fertilization (range: 6-12 days). | Implantation happens when the fertilized egg arrives in the uterus and attaches to the uterine lining. Implantation occurs on average 9 days after ovulation and fertilization, it can happen as early as 6 days after ovulation until 12 days after ovulation. The timing of implantation spotting is within a day or so after implantation, about 9-10 days after ovulation and fertilization. Implantation happens between 6 and 12 days after ovulation, so about 9-10 days after ovulation would be the right time for implantation bleeding and spotting. | Implantation occurs after fertilization and is the attachment of a fertilized egg to the lining of the uterus. This occurs shortly after the fertilized egg travels through the fallopian tube and enters the uterus. Implantation happens about 6-12 days after ovulation and fertilization. |
why ethernet standards exist | The Ethernet standards comprise several wiring and signaling variants of the OSI physical layer in use with Ethernet. The original 10BASE5 Ethernet uses coaxial cable as a shared medium, while the newer Ethernet variants use twisted pair and fiber optic links in conjunction with hubs or switches. Ethernet /ˈiːθərnɛt/ is a family of computer networking technologies for local area networks (LANs) and metropolitan area networks (MANs). It was commercially introduced in 1980 and first standardized in 1983 as IEEE 802.3, and has since been refined to support higher bit rates and longer link distances. | Ethernet cable Color-coded wiring sequences exist as a cabling industry standard. It allows cabling technicians to reliably predict how Ethernet cable is terminated on both ends so they can follow other technicians' work without having to guess or spend time deciphering the function and connections of each wire pair. | As a result of this the IEEE standards committee for Ethernet has introduced new standards to define higher performance variants. Each of the Ethernet IEEE 802.3 standards is given a different reference so that it can be uniquely identified. In addition to this the different IEEE 802.3 standards may be known by other references that reflect the different levels of performance. These are also defined below. | Ethernet Interface Standards. There are certainly a number of different interface standards that exist for Ethernet; Table 1 shows the common standards that are deployed and where they are defined within the standard. Ethernet Devices. There are a number of different Ethernet devices that exists on modern networks, the most common being switches and routers. However, there are also a number of different Ethernet devices that can exist on older networks; being familiar with these is also important. | Fast Ethernet (100BASE-T or 802.3u) is a communications protocol for sharing data at rates of 100 million bits per second instead of the standard 10 million bps. Fast Ethernet works over Category 5 twisted-pair wiring. There are two available 100BASE-T standards. The first standard known as 100BASE-T utilizes CSMA/CD. The second standard, known as 100VG-AnyLAN or 802.12, is similar to the other standard; however, it utilizes a different Ethernet frame to send its data. An Ethernet adapter or Ethernet controller is a term used to describe an Ethernet network card used to connect a desktop computer to a network. If you are looking for network adapter drivers, you can find them through our network drivers page. |
how long do you keep ducklings under a heat lamp | The temperature should be warm at floor level under the lamps and cooler 2 to 3 feet away from the point directly under the bulb. If it is comfortable for your hand (for 3 to 5 minutes) directly under the lamp, it will probably be comfortable for the ducklings. A corral will help the ducklings locate the heat. It can be removed in 5 to 7 days. As the ducklings begin to feather, they will need less and less heat | Report Abuse. Heat Ducklings need heat for the first few weeks. heat lamp bulb) will provide heat for ducklings. Two lamps are a good idea as one may go out. A 100- or 150-watt incandescent bulb will provide enough heat for only a few ducklings. If it is comfortable for your hand (for 3 to 5 minutes) directly under the lamp, it will probably be comfortable for the ducklings. A corral will help the ducklings locate the heat. It can be removed in 5 to 7 days. | It was a 75watt bulb from the petstore. You can find them at petstores or Wal-mart. I would switch to a 75watt and have it 2ft in the air in one corner. If the brooder is 3+ ft long and they stay on the far end, you can just stop using the heat. Now the light is so weak I can barely feel heat. 6 days just seems to early to remove them lamp, but they arnt tollerating it. It has been 60 outside with sun, and that has heated the house to 73ish. | After the twelve hours in the incubator, move ducklings to a brooder. The brooding box/ pen needs a heat lamp. An ordinary 100 watt bulb in a metal brooding lamp was enough for our ducklings. We raised it higher as they got too hot under it and then reduced it to a 60 watt one the next week. | We keep our duck babies in a large black plastic deep tub for at least 10 days. When they leave that cage they go into another cage with a heat lamp on a timer for night only to let them acclamate. It depends on the tempereature where you are. If it is still 40* to 50* at night, it's too cold. Then I took them out and let them dry off in the sun. They'd end up back in their brooder with the heat lamp the rest of the time. I never allowed them to get sopping wet. 2 dogs, Luna and Ziggy, 8 hens and one rooster, and one husband, but no more guineas. |
bacteria that causes dysentery | Dysentery is an inflammation of the intestine causing diarrhea with blood. Other symptoms may include fever, abdominal pain, and rectal tenesmus (a feeling of incomplete defecation). It is caused by a number of types of infection such as bacteria, viruses, parasitic worms, or protozoa. Dysentery may also be caused by shigellosis, an infection by bacteria of the genus Shigella, and is then known as bacillary dysentery (or Marlow Syndrome). Enteroinvasive Escherichia coli may also cause a dysentery syndrome | Introduction. Dysentery is an infection of the intestines that causes diarrhoea containing blood or mucus. Other symptoms of dysentery can include: 1 painful stomach cramps. 2 nausea or vomiting. 3 a high temperature (fever) of 38C (100.4F) or above, or 37.5C (99.5F) or above in children under five | Shigella are a group of germs (bacteria) that can cause gastroenteritis with dysentery. Gastroenteritis is an infection of the bowels (intestines). Dysentery caused by shigella is also known as bacillary dysentery. Shigella are a group of germs (bacteria) that can cause gastroenteritis with dysentery. Gastroenteritis is an infection of the bowels (intestines). Diarrhoea is one of the symptoms of gastroenteritis. If the diarrhoea contains blood and mucus, this is known as | 1 The shigella bacillus, a bacterium that invades the lining of the colon, is one of several infections that can cause dysentery. 2 Other causes of dysentery include the parasite amoeba and the bacteria E. coli, Yersinia, and others. Bacillary dysentery, also known as shigellosis, is a potentially dangerous and extremely contagious bacterial infection of the colon. Symptoms develop after an incubation period of one to four days and generally subside within 10 days. | Find a Gastroenterologist Near You. Common bacterial causes of dysentery in the United States include infections with the bacteria Shigella and some types of Escherichia coli (E coli). Other less common bacterial causes of bloody diarrhea include Salmonella and Campylobacter infections. |
what is the function of your cecum in digestive system | As part of the large intestine, the cecum creates a space for liquids to empty into from the small intestine. During digestion, the small intestine absorbs nutrients from solid foods, and passes the solid waste products and liquid into the large intestine for absorption into the body. It is the first part of the large intestine that digesting food enters after leaving the small intestine, and is shaped like a sac. Separating the cecum from the small intestine is the ileocecal valve, also called Bauhin's valve, and the appendix protrudes from the lower part of the cecum. | Structure of the large intestine. The large intestine is made up of the colon and the rectum. The colon is a tubular structure that is around 1.5 m, about one quarter of the length of the small bowel. Its largest diameter is at the cecum (7.5 cm) and narrowest in the sigmoid (2.5 cm). The large intestine comprises of the second part of the alimentary canal. The large intestine consists of the cecum and colon. It begins at the right iliac region of the pelvis (the region just at or below the right waist) where is continues from the small intestine and continues up the abdomen. | Liver. The liver has multiple functions, but its main function within the digestive system is to process the nutrients absorbed from the small intestine. Bile from the liver secreted into the small intestine also plays an important role in digesting fat. In addition, the liver is the body's chemical factory.. | The cecum is part of the digestive tract. It is the first part of the large intestine that digesting food enters after leaving the small intestine, and is shaped like a sac. Separating the cecum from the small intestine is the ileocecal valve, also called Bauhin's valve, and the appendix protrudes from the lower part of the cecum. | The cecum is a pouchlike structure located in the lower right abdomen that absorbs water from the waste, returning fluid to the body and consolidating the waste for its journey through the end stage of digestion. The rhythmic contractions of PERISTALSIS move the remaining solid waste into the remainder of the colon. Cecum-the first segment of the COLON (large intestine) into which the ILEUM, the final segment of the SMALL INTESTINE, empties digestive matter. |
does ground source heating work | Ground source heat pumps explained How ground source heat pumps work. A ground source heat pump system harnesses natural heat from underground by pumping water through it. The heat pump then increases the temperature, and the heat is used to provide home heating or hot water. The pump needs electricity to run, but the idea is that it uses less electrical energy than the heat it produces. Ground source heat pump systems are made up of a ground loop (a network of water pipes buried underground) and a heat pump at ground level. You'll need sufficient space for installation of the system, generally with a garden that's accessible for digging machinery. | How do ground source heat pumps work? Ground source heat pumps can be categorized as having closed or open loops, and those loops can be installed in three ways: horizontally, vertically, or in a pond/lake. The type chosen depends on the available land areas and the soil and rock type at the installation site. | A geothermal heat pump or ground source heat pump (GSHP) is a central heating and/or cooling system that transfers heat to or from the ground. It uses the earth as a heat source (in the winter) or a heat sink (in the summer). A ground source heat pump extracts ground heat in the winter (for heating) and transfers heat back into the ground in the summer (for cooling). | A traditional air source heat pump must work hard to force the heat from your home into the already heat saturated air. In contrast, a geothermal heat pump consumes less energy as it easily rejects heat into the cool earth, making geothermal cooling significantly more energy efficient. In contrast, a geothermal heat pump system consumes less energy as it easily absorbs ground heat from the abundant supply stored below your home, making geothermal heat | Geothermal Heating. During the winter, ClimateMaster geothermal heating and cooling systems absorb heat stored in the ground through the water that circulates in its underground loop. This heat is carried to the ground source heat pumps where it’s concentrated and then sent as warm, comfortable air throughout your home. In contrast, a geothermal heat pump system consumes less energy as it easily absorbs ground heat from the abundant supply stored below your home, making geothermal heating significantly more energy efficient. |
what gases were involved when the earth formed | Evolution of the atmosphere. Scientists believe that the Earth was formed about 4.5 billion years ago. Its early atmosphere was probably formed from the gases given out by volcanoes. It is believed that there was intense volcanic activity for the first billion years of the Earth's existence. The early atmosphere was probably mostly carbon dioxide, with little or no oxygen. There were small quantities of water vapour, ammonia and methane. As the Earth cooled down, most of the water vapour condensed and formed the oceans | Over time this gather of gases gains more mass and with it stronger gravity. This is a process that can take millions of years. In time the gravity causes the gases, mainly hydrogen to fuse in a nuclear reaction and a star is formed. The formation of the Earth occurred after this intial phase happened for our Sun. After the Sun was formed we know from observations and other indirect evidence that there were left over gases and heavier elements | Gradually cracks formed in the crust. Water that formed under the earth's crust escaped from the cracks in the earth and soon water vapor formed above the earth. This lead to cloud formation. Larger droplets formed in the clouds and as they were pulled to the earth by gravity came the first rainfalls. At one time the earth was all water on its surface. Later pressure and heat in its center pushed up solid portions of the earth that became land forms. Sometimes the land would sink back down and other portions arise. | When you are done, take the Earth Quiz: The earth was formed in the same way as the sun, planets, stars. At first the earth was a hot glowing ball of white hot gases with a temperature that was millions of degrees Fahrenheit. This was caused by particles of gases being drawn together and compressed, giving off a lot of heat. At one time the earth was all water on its surface. Later pressure and heat in its center pushed up solid portions of the earth that became land forms. Sometimes the land would sink back down and other portions arise. | Some scientists describe three stages in the evolution of Earth’s atmosphere as it is today. Just formed Earth: Like Earth, the hydrogen (H 2) and helium (He) were very warm. These molecules of gas moved so fast they escaped Earth's gravity and eventually all drifted off into space. Note that this pie does not account for any water in the air. As you can see, air is mostly nitrogen (78%), with oxygen a distant runner up (21%). Argon and some other gases make up another small amount (about 1%). And carbon dioxide is only a very tiny slice (.0385% or only about 385 parts per million parts of air). |
what does kimberly clark make | In 2001, Kimberly-Clark bought Italian diaper maker, Linostar, and announced it was closing four Latin American manufacturing plants. Kimberly-Clark Sub-Saharan Africa's vision is ambitious – nothing less than turning the $250 million business into a $1 billion business by 2015. Kimberly & Clark joined with The New York Times Company in 1926 to build a newsprint mill in Kapuskasing, Ontario, Canada. Two years later, the company went public as Kimberly-Clark. The firm expanded internationally during the 1950s, opening plants in Mexico, Germany and the United Kingdom. | Kimberly-Clark UK holds Royal Warrants from Queen Elizabeth II and from the Prince of Wales in the United Kingdom. Kimberly Clark is also listed among the Fortune 500. Subsidiaries under Kimberly-Clark include Kimberly-Clark Health Care and Kimberly-Clark Professional. Kimberly & Clark joined with The New York Times Company in 1926 to build a newsprint mill in Kapuskasing, Ontario, Canada. Two years later, the company went public as Kimberly-Clark. The firm expanded internationally during the 1950s, opening plants in Mexico, Germany and the United Kingdom. | J.A. Kimberly, Charles Clark, Havilah Babcock, and Frank Shattuck established Kimberly-Clark on October 22, 1872. The first mill, Globe Mill, was built on the banks of Wisconsin’s Fox River as a production facility for newsprint on this date. Consolidation benefits Kimberly-Clark in the sense that global retailers want to unite with the company, so that they can provide them with superior products in the consumer industry. Everyone wants to sell No.1 and No. 2 brand products! | Brands. For more than a century, Kimberly-Clark has transformed ideas into innovative products. We lead the world in providing essentials for a better life, and our global brands are a trusted part of the lives of nearly one-quarter of the world's population in more than 175 countries. | Leading the world in essentials for a better life. We place consumers at the center of everything we do. Billions worldwide choose our products to make a positive difference in their lives. 1 Kleenex: The world's first facial tissue. 2 Today, it's more than a $1 billion business. 3 Scott: Global sales of more than $2 billion annually. 4 Kotex: Trusted by millions of women in more than 100 countries and more than |
what is a connective or conjunction | connective. A connective is a word or phrase that links clauses or sentences. Connectives can be conjunctions (eg but, when, because) or connecting adverbs (eg however, then, therefore). Connecting adverbs (and adverbial phrases and clauses) maintain the cohesion of a text in several basic ways, including: addition: also, furthermore, moreover | Conjunctions and Connectives are two words used in English grammar that show differences between them when it comes to their application. As a matter of fact, conjunctions are used to join two sentences. On the other hand, connectives are used within a short or a long sentence. This is the main difference between conjunctions and connectives. A conjunction normally connects two sentences. Some of the examples of conjunctions are ‘but’, ‘because’, and ‘however’ as in the examples: 1. He secured low marks in the examinations because he did not prepare well. | Quick Refresher. Conjunctions are words that join two or more words, phrases, or clauses. List of Coordinating Conjunctions. Coordinating conjunctions join sentence elements that are the same. They can join words, phrases, and clauses. There are only seven of these, and they are easy to memorize if you use the acronym FANBOYS | Conjunctions. A conjunction (also called a connective) is a word such as and, because, but, for, if, or, and when. Conjunctions are used to connect phrases, clauses, and sentences. There are two main kinds of conjunction. | 1 a less common word for conjunction (sense 3. 2 any word that connects phrases, clauses, or individual words. 3 a symbol used in a formal language in the construction of compound sentences from simpler sentences, corresponding to terms such as or, and, not, etc, in ordinary speech. |
what college courses should i take to work with animals | So getting a good education is vitally important. According to the ASPCA, students interested in working with animals should take pre-med courses in animal biology, animal nutrition and zoology. One of the reasons that becoming a veterinarian can be harder than becoming a doctor is that there are many species of animals. You may need to take separate classes on animals with backbones and without, as well as individual classes on mammals, reptiles, insects and other forms of animal life. | Best Answer: I'm not a zookeeper, but in my opinion you should get as high of a animal related degree and as much hands on experience as you can. Go talk to a counselor at your school for advise on becoming a zookeeper, college, and volunteer opportunities in your area. Start researching colleges you might like to go to and look at their course catalogs to see what classes you'll need to take to get a degree. In high school start taking classes related to what you'll be taking in college. The classes will be easier in High School and you'll start learning the info sooner and also get an idea of what areas you have a hard time studying. Education– While you’re in school, learn as much as you can in your science classes. In college, choose a degree program in animal-related fields like biology, zoology, botany, ecology, conservation science, or animal behavior. | To become a marine mammal trainer, you should take as many of the science courses as possible in high school and in the first year of university. The basic requirement to be a trainer at the Vancouver Aquarium is a Bachelor of Science degree – which will take a minimum of four years to obtain. | Many jobs working with animals do not require a college degree. Examples would be training dogs for security and detective work or to guide the blind, breeding dogs or cats for sale, or grooming dogs and cats. I hope this gives you some ideas. Marine biology if you are interested in the ocean. | You could always get into Zoology or Animal science? By major classification, Animal Science doesn't fall into science. Check out http://www.a2zcolleges.com/Majors/ and you might even be able to find a school. Also if you're not looking into college, http://www.employmentspot.com/employment... has a list of jobs working with animals!!! Source(s): http://www.bls.gov/oco/ocos076.htm. |
what is a hunter horse | The Irish Hunter, or Irish Horse, originated in Ireland, and is the result of a cross between the English thoroughbred and Irish Draft horse s. Technically, the Irish Hunger is not really a breed, but a half-bred, being half Thoroughbred and half-Irish Draft. The show hunter is a type of show horse in the that is judged on its movement, manners, and way of going, particularly while jumping fences. - Irish Hunter -. | Hunter's bump in the horse is a term used to describe a condition in which the tuber sacrale of the pelvis, located at the highest point of the horse's rump, are abnormally prominent. | Hunt seat is a popular form of riding in the United States, recognized by the USHJA (United States Hunter/Jumper Association) and the United States Equestrian Federation, and in Canada. Hunt seat is a style of forward seat riding commonly found in North American horse shows. Along with dressage, it is one of the two classic forms of English riding. The hunt seat is based on the tradition of fox hunting | hunter is a type of show class it is judged on the horses movement and form if your horse is a hunter it means he is a good mover and has good form. katey · 7 years ago. Thumbs up. 1. A Hunter could mean a horse that you can take hunting and can shoot off it's back or a horse that you can Fox Hunt off of, but I'd tend to think the prior because you clarified that he's NOT a hunter/jumper. Source(s): Over 40 years of training horses, riders and making/repairing saddles and tack. HPTS!!! | The term hunter was used for any horse that was used to ride at hunt-this meant a horse that had endurance and could jump and was sure footed enough to travel over rough terrain. A Hunter could mean a horse that you can take hunting and can shoot off it's back or a horse that you can Fox Hunt off of, but I'd tend to think the prior because you clarified that he's NOT a hunter/jumper. Source(s): Over 40 years of training horses, riders and making/repairing saddles and tack. HPTS!!! |
ventricular tachycardia rate range | The remaining 31 included infants who had a median age at presentation of 1 day, with a range from 1 to 255 days, and a mean ventricular tachycardia rate of 213 beats per minute, with a range from 171 to 280, at presentation. | Ventricular tachycardia is a pulse rate of more than 100 beats per minute, with at least three irregular heartbeats in a row. The condition can develop as an early or late complication of a heart attack. It may also occur in people with: 1 Cardiomyopathy. | Causes. Ventricular tachycardia is a pulse rate of more than 100 beats per minute, with at least three irregular heartbeats in a row. The condition can develop as an early or late complication of a heart attack. It may also occur in people with: 1 Cardiomyopathy. | Tachycardia is a heart rate of greater than 100 beats per minute. A normal heart rate is 60 to 100 beats per minute at rest. Ventricular tachycardia is a regular, faster-than-normal heart rate that begins in the heart's lower chambers. In most patients with ventricular tachycardia the rate is in the range of 170 beats per minute or more. | Causes. Ventricular tachycardia is a pulse rate of more than 100 beats per minute, with at least three irregular heartbeats in a row. The condition can develop as an early or late complication of a heart attack. |
what is the name of the sugar in the mrna nucleotides | Ribose is the sugar component of nucleotides. One of the main chemical differences between DNA and RNA is that in RNA, the sugar is ribose, but in DNA, the sugar is deoxy ribose, in which an oxygen has been removed. 1 The connection that forms between nucleotides is between the sugar of the first nucleotide and the phosphate group of the second. 2 Each connection between nucleotides is a covalent bond, so the nucleic acids have a covalently attached sugar-phosphate backbone. | In DNA, the four bases are: adenine, guanine, thymine, and cytosine. Each base is attached is attached to a sugar (deoxyribose) to form a nucleoside. Respectively, t … hese are: adenosine, guanosine, thymidine, and cytidine. The complete nucleotide consists of the nucleoside attached to a phosphate group. The names of the nucleotides are: adenylic acid, guanylic acid, thymidylic acid, and cytidylic acid. | A codon is a series of three nucleotides on an mRNA molecule which codes for an amino acid. 7. What is the role of transfer RNA (tRNA) in protein synthesis? tRNA carries the anti-codon to the mRNA codons and brings the corresponding amino acid to the ribosome to make a protein/polypeptide chain [translation]. 8. Compare and contrast the final product of DNA replication to the final product of transcription. | In a nucleotide the 5-carbon sugar is bonded to the phosphate group, which is bonded to the nitrogenous base. In a chain of nucleotides (a strand of DNA), the nucleotides are … connected by covalent bonds between the sugar of one nucleotide, and the phosphate group of the next nucleotide. 2 people found this useful. | Messenger RNA (mRNA) serves as the primary transcript, and its nucleotide sequence determines the amino acid sequence of proteins. A codon in mRNA comprises of three nucle … otides that encode a specific amino acid. In a chain of nucleotides (a strand of DNA), the nucleotides are … connected by covalent bonds between the sugar of one nucleotide, and the phosphate group of the next nucleotide. 2 people found this useful. |
how long does it take to roast a pig? | How long does it take to cook the pig?We slow roast the pig for maximum flavor and tenderness. With the Oinkmaster, a 100lb pig takes about 8-9 hours to cook. For bigger pigs, an additional 30 minutes should be added for each 10lbs of pig. 5. What kind of time commitment is there to put on a pig roast?Day Before: Roughly 3 hours of our staff’s time are spent prepping for the job. | Go Slow and Easy. 1 A whole pig roast takes a long time, you cannot, and should not, rush it. 2 Whole hogs can take from 4 to 24 hours to cook completely depending on their size and the cooking temperature. 3 When you think the roast is nearing doneness, test the doneness with a meat thermometer. 1 Therefore, whole hogs are generally significantly larger than that. 2 While many that you'll see roasted are 30 to 60 lb., larger adult hogs can easily weight from 100 to 200 lb. 3 For this reason, you need a very heavy-duty and sturdy rotisserie, as seen above, to slowly and safely turn your pig roast over your fire. | The average time to cook a pig is 6 hours. It can vary from 3.5 hours to 8 hours depending on the size of the pig. For every 10 kilos of pig you need a clear hours cooking time. This can also vary slightly due to time of the year location etc. In the summer on a hot sunny day the cooking time can be reduced by a good hour as the sun beats down and helps to reduce heat loss from the machine. | If it's cooked at around 250 degrees or so, allow for at least 75 minutes of cooking time for every 10 pounds. So, for a 50 pound pig, you should plan for 6.5 hours. Remember, low and slow is always the best. Make sure the pig is turned every 30 minutes. Folks used to say that all internal temperatures of the deepest meat should be at about 165. | Roasting a 150 lb pig should take at least 6 hours(maybe as long as 7 or 8 hours). Its not likely that the outside will be overcooked since pork is such a fatty meat. Check th … e internal temperature of the thickest part of the pig with a thermometer. And the time also depends on the cooking temperature and cooking technique. sample: a barrel BBQ at a temperature of 275 degrees with a 25lb. pig might take approx. 10 to 12 hours. |
what is noun | Definition. A noun is traditionally defined as the part of speech (or word class) that names or identifies a person, place, thing, quality, or activity. Adjective: nominal. Most nouns have both a singular and plural form, can be preceded by an article and/or one or more adjectives, and can serve as the head of a noun phrase. | A noun phrase is a phrase based on a noun, pronoun, or other noun-like word (nominal) optionally accompanied by modifiers such as determiners and adjectives. A noun phrase functions within a clause or sentence in a role such as that of subject, object, or complement of a verb or preposition. noun can co-occur with an article or an attributive adjective. Verbs and adjectives can't. In the following, an asterisk (*) in front of an example means that this example is ungrammatical. | 1 A noun is a part of speech used to name a person, place, thing, animals, activities, event, idea and emotions. 2 Nouns are one of the main elements of sentences. 3 Nouns usually function as subjects or objects within sentences, although they can also act as adjectives and adverbs. | noun. noun \ˈnau̇n\. : a word or phrase that is the name of something (as a person, place, or thing) and that is used in a sentence especially as subject or object of a verb or as object of a preposition. Spanish Central: Spanish translation of noun.weet. : a word that is the name of something (such as a person, animal, place, thing, quality, idea, or action) and is typically | A noun is a word for a person, place, or thing. Everything we can see or talk about is represented by a word which names it. That naming word is called a noun. A noun is a word for a person, place, or thing. (You might like to think of nouns as naming words.) |
do porcupines throw their quills | Confidence votes 129. Porcupines can not shoot their quills or even throw them at will. Although it is commonly believed that when a porcupine feels under threat, they will fire their quills, puncturing the approaching animal, it is in fact a fallacy. | Porcupines are not able to deliberately throw their quills at will and can defiantly not aim and fire. It is thought that the idea of Porcupines fire quill at enemies comes from the way in which they defend them selves. When a porcupine is threatened they will shake their quills rapidly and run backwards. | The porcupine is the prickliest of rodents, though its Latin name means quill pig.. There are about two dozen porcupine species, and all boast a coat of needle-like quills to give predators a sharp reminder that this animal is no easy meal. | Porcupine (Erethizon dorsatum) Quick Facts Porcupines can NOT throw their quills. Porcupine vision is poor, but they have an excellent sense of smell. Porcupines make shrill screeches, whines, and low grunts. Porcupines are vegetarians, and they eat a large variety of plants, shrubs and trees. | Origins: That a porcupine can throw its quills at an attacker is a widely-believed bit of animal misinformation. Porcupines bristle up when alarmed, and a small muscle attached to each quill pulls it upright in the fur. |
how heparin be monitored? | Laboratory monitoring is widely recommended to measure the anticoagulant effect of unfractionated heparin and to adjust the dose to maintain levels in the target therapeutic range. The most widely used laboratory assay for monitoring unfractionated heparin therapy is the activated partial thromboplastin time (aPTT). Unfractionated heparin dose appears to be more important than the aPTT in predicting clinical efficacy. Despite serious limitations, the reliance on the aPTT is likely to continue because of its ready availability and familiarity of clinicians with the test. | Unfractionated heparin as a pharmaceutical is heparin that has not been fractionated to sequester the fraction of molecules with low molecular weight. In contrast, low-molecular-weight heparin has undergone fractionation for the purpose of making its pharmacodynamics more predictable. | Abstract. Background: Both the activated partial thromboplastin time (aPTT) and anti-Xa assay can be used to monitor unfractionated heparin (UFH). Following implementation of an anti-Xa method for heparin dosing protocols in our hospital, we became aware of many patients with discordant aPTT and anti-Xa values. | Patients at extremes of weight should have the dose of enoxaparin adjusted and anticoagulation should be monitored using the low molecular weight heparin assay. In clinical trials using enoxaparin for the treatment of DVT or PE, the 1 mg/kg Q 12 h dose was given to patients up to weights of approximately 150 kg. The maximum dose of enoxaparin should be 150 mg SC Q 12 h. For a patient receiving a dose of enoxaparin of 130 mg to 150 mg (i.e., patient weight 130 kg to 150 kg or greater), the low molecular weight heparin assay may be a useful monitoring tool. | Heparin anti-Xa may be ordered to monitor some people who have heparin resistance who do not respond as expected to UFH or who have an underlying condition or interfering factor(s) such as lupus anticoagulant (LAC) that affects the PTT test result. The heparin anti-Xa test is not routinely ordered but may be performed whenever a doctor wants to evaluate UFH or LMWH concentrations in the blood. It may be ordered periodically to monitor UFH therapy, especially when a doctor feels that a person is not responding as expected to UFH or when the PTT is not useful |
where is the potomac river located | The Potomac River /pəˈtoʊmək/ is located along the mid-Atlantic coast of the United States and flows into the Chesapeake Bay. The river (main stem and North Branch) is approximately 405 miles (652 km) long, with a drainage area of about 14,700 square miles (38,000 km²). In terms of area, this makes the Potomac River the fourth largest river along the Atlantic coast of the United States and the 21st largest in the United States. Over 5 million people live within the Potomac watershed. | The source of the North Branch Potomac River is at the Fairfax Stone located at the junction of Grant, Tucker and Preston counties in West Virginia. From the Fairfax Stone, the North Branch Potomac River flows to the man-made Jennings Randolph Lake, an impoundment designed for flood control. The South Fork South Branch Potomac River forms just north of U.S. Route 250 in Highland County, Virginia near Head Waters and flows 55 miles (89 km) north-northeastward to the South Branch Potomac River at Moorefield in Hardy County, | Major Tributaries of the Potomac River. The Potomac's major tributaries include: the Anacostia River, Antietam Creek, the Cacapon River, Catoctin Creek, Conocoheague Creek, the Monocacy River, the North Branch, the South Branch, the Occoquan River, the Savage River, the Senaca Creek, and the Shenandoah River. | Potomac River – Map & Details. print this map. Located along the mid-Atlantic coast of the United States, and flowing into the Chesapeake Bay, the Potomac River flows through Washington DC, Virginia, Maryland, Pennsylvania and West Virginia. The Potomac River is 405 miles (652 km) in length, and forms part of the border between Washington DC and Virginia on the left bank, as well as Maryland and Virginia on the right. | The Potomac River, which flows through West Virginia, Maryland, Virginia, and Washington, DC The Delaware River constitutes in part the boundary between Pennsylvani … a and New York, the entire boundary between New Jersey and Pennsylvania, and most of the boundary between Delaware and New Jersey. Fairfax Stone Historical Monument State Park is a West Virginia state park commemorating the Fairfax Stone a surveyor's marker and boundary stone at the source of the North Br … anch Potomac River in West Virginia. |
what are the four kinds of bases found in dna | DNA and RNA Bases. In DNA, there are four different bases: adenine (A) and guanine (G) are the larger purines. Cytosine (C) and thymine (T) are the smaller pyrimidines. RNA also contains four different bases. Three of these are the same as in DNA: adenine, guanine, and cytosine. | The four bases of RNA are adenine guanine cytosine and uracil. (Uracil is only found in RNA) The four bases of DNA are adenine, guanine, cytosine and thyamine (thyamine replac … es uracil in DNA). | there are four kinds of nitrogenous bases in dna. two of the nitrogenous ba … ses, adenine and guanine,belong to a group of compounds known as purines. the remaining two bases, cytosine and thymine, are know as pyrimidines. Adenine pairs up with thymine, and cytosine pairs up with guanine. | there are four kinds of nitrogenous bases in dna. two of the nitrogenous ba … ses, adenine and guanine,belong to a group of compounds known as purines. the remaining two bases, cytosine and thymine, are know as pyrimidines. Adenine pairs up with thymine, and cytosine pairs up with guanine. | Bases. There are four types of bases in DNA. They are called: * Adenine (A). * Cytosine (C). * Guanine (G). * Thymine (T). Courtesy of the National Human Genome Research Institution. Bases are the part of DNA that stores information and gives DNA the ability to encode phenotype, a person’s visible traits. |
average temperature in nassau bahamas in june | On a typical June day, during the early morning hours you will probably find the temperature will be around 80.0 degrees. Temperatures in The Bahamas typically rise during the day, to an average of 85.2 degrees in the early afternoon. The temperature in The Bahamas will typically decline by early evening, to approximately 80.9 degrees. Overall, temperatures in The Bahamas during June average around | The sun's rays reach the ground at Nassau during 56 percent of daylight hours on average in June, for a total of 231 hours in the month. Daylight in June at Nassau averages 13 hours and 40 minutes a day. The longest days of the year, from around June 18th to 23rd, last 13 hours and 42 minutes from sunrise to sunset. | Still, there are a few things that visitors can always expect out of weather in the Bahamas: cooler temperatures than many other Caribbean islands, and an average of 310 bright and sunny days a year. Below, you will find a chart that lists the average high and low temperatues of each month of the year. | These measures of temperature and precipitation are historical averages based on data collected at weather stations from 1971 to 2000. There's a 2 percent probability that a named tropical storm or hurricane will approach within 100 miles (165 km) of The Bahamas during June. | This report describes the typical weather at the Nassau Lynden Pindling International Airport (Nassau, The Bahamas) weather station over the course of an average year. It is based on the historical records from 1974 to 2012. |
how long does it take for cholesterol to reduce | High-density lipoprotein (HDL), also called “good” cholesterol, takes cholesterol from the tissues and blood vessels back to your liver where it is removed from the body. HDL helps protect you from heart disease, so if your levels are low, your risk is higher. Diet and Exercise. Doctors say that you can lower your cholesterol levels by as much as 20 percent in three to six months, through simple dietary changes and exercise. | The time it takes to lower your cholesterol depends on a number of factors, all of which vary for every person. Most important is your understanding of the changes you must make, the guidelines in place to make them and why these guidelines are in place. The Next Six Weeks. Follow up with your doctor and undergo a cholesterol blood test to check your LDL levels after the first six weeks. At this point your doctor may implement more changes while continuing with the changes you have already made. | Diet. In order to lower LDL cholesterol, reduce saturated fat in your diet and increase dietary fiber. Saturated fats increase the body’s production of LDL cholesterol. Dr. Gianos says to cut saturated fat to less than 10 grams per day, and to eat 30 grams of fiber per day, 10 grams of which should be insoluble fiber. HDL helps protect you from heart disease, so if your levels are low, your risk is higher. Diet and Exercise. Doctors say that you can lower your cholesterol levels by as much as 20 percent in three to six months, through simple dietary changes and exercise. | Saturated fats such as red meat, whole-fat dairy products, egg yolks and butter should not comprise more than 7 percent of your total daily calories, and your cholesterol intake should be less than 200mg per day. These changes combined can reduce your LDL between 11 and 15 percent, according to the NHLBI. If you are overweight, losing 10 lbs. can decrease your LDL up to 8 percent. Do this by adding fiber-rich foods such as oats, fruits, vegetables and legumes; these fill you faster and help restrict calories. The Next Six Weeks. Follow up with your doctor and undergo a cholesterol blood test to check your LDL levels after the first six weeks. At this point your doctor may implement more changes while continuing with the changes you have already made. | Identify Healthy Cholesterol Levels. According to the American Heart Association a healthy total cholesterol level is less then 200 mg/dl. You are considered to have borderline high cholesterol if your level is between 200 to 239 mg/dl. You will be diagnosed with high cholesterol if your level is is 240 mg/dl and over. Cholesterol level can be checked with a simple blood test performed by a doctor. You may or may not have to fast depending on the type of test your physician orders. |
why does my temperature fluctuate | When basal body temperatures fluctuate a great deal, it is usually due to inconsistencies in temperature taking methods. Make sure you are taking your temperature at the same time every day, when you first wake up, after a solid block of sleep, and with a BBT thermometer. If you are doing all this and are still getting rocky temperatures, you can try taking your temperature vaginally. Some women notice more stable temperatures when taking their temperature vaginally. Temperatures can also fluctuate a great deal when you are not ovulating, or when you have cycles with delayed ovulation | When the German physician, Carl Wunderlich, first reported 37 degrees Celsius (or 98.6 degrees Fahrenheit) as the average human body temperature in 1861, he claimed to have drawn his conclusion from more than a million armpit measurements of 25,000 patients. However, not all fluctuations of our body temperature fall under the control of blood vessels. For example, you are likely to have a higher temperature right after a 100-meter sprint than when you are fast asleep. | Body temperature fluctuates (2 replies): I will sometimes check my body temperature in the mornin... [more]. Low tempiture (1 replies): I have a temp of 97 and I don't feel well, does anyone k... My body temperature is constantly fluctuating. Constantly. :(I noticed when I turned up the AC, my temp of 99 went down. So When Its cold my temp is low. I see my body is reacting to the temperature around me and its trying to regulate itself. | If you measure your own temperature at different parts of the body, say in your mouth and under your arms, you’ll notice that the temperatures are different. The general rule is that the thinner a body part is, the less contact it has with the outside environment, and therefore the higher temperature you’ll observe. However, not all fluctuations of our body temperature fall under the control of blood vessels. For example, you are likely to have a higher temperature right after a 100-meter sprint than when you are fast asleep. | The normal body temperature of 98.6°F (37°C) is actually an average of temperatures. A person's normal temperature can fluctuate 1°F (0.6°C) or more or below 98.6; additionally, the body temperature fluctuates the same amount throughout the day-lower in the morning and evening while higher at mid-day. |
glutamate is found in what foods | Monosodium glutamate (MSG, also known as sodium glutamate) is the sodium salt of glutamic acid, one of the most abundant naturally occurring non-essential amino acids. Glutamate is found in tomatoes, Parmesan cheese, potatoes, mushrooms, and other vegetables and fruits. MSG is used in the food industry as a flavor enhancer with an umami taste that intensifies the meaty, savory flavor of food, as naturally occurring glutamate does in foods such as stews and meat soups. | Nutrition. Healthy Eating. MSG (monosodium glutamate) is a form of the naturally occurring amino acid glutamate, and is used as a food additive to intensify the taste of food. This flavor enhancer, originally extracted from seaweeds and used in Asian cuisines, has now become a common find in many food products. | What is more shocking is that it’s found in three types of foods most people are not even aware of. The part of MSG that negatively affects the human body is the “glutamate”, not the sodium. The breakdown of MSG typically consists of 78% glutamate, 12% sodium, and about 10% water. “Naturally occurring” does not mean that a food additive is being used in its natural state. “Naturally occurring” only means that the food additive began with something found in nature. By FDA definition, the ingredient “monosodium glutamate” is natural. So is hydrochloric acid. | A sack of pure MSG. Photo © Danilo Alfaro. Monosodium glutamate, or MSG, is a flavor-enhancing food additive used in Asian cooking and also commonly found in fast foods as well as commercially packaged food products such as chips, crackers, soups and soup mixes, lunch meats, salad dressings and many others. | A typical human contains 4.4 pounds of glutamate or Glutamic acid. It is a main component of proteins and peptides, and present in most tissue. Virtually every food contains glutamate. It's a major component of protein rich food like meat, eggs, poultry, milk, cheese, and fish. Glutamate or Glutamic acid is also ubiquitous in grain, beans, vegetables, mushrooms, fruits, nuts, sea vegetables such as kombu, and even mother's milk. |
what is a mush client | Publisher's Description. From Gammon Software Solutions: This MUD/MUSH/MUCK/MOO client for Windows is written in C++ for high speed and a compact size. It has a large scroll back buffer, command history, aliases, triggers, timers, keypad-navigation, speed-walking, and auto-say. It supports scripting in VBscript, Jscript, PerlScript, and Pyth | Welcome! Supporting all the features you’d expect from a MU* client, like the ability to save, customise and connect to many different worlds, ANSI colours and telnet support, Potato is one of the most actively maintained MUSH Clients available. | 1 If you are upgrading from a version prior to 3.21 then you will need to download an interim version, for example: http://www.gammon.com.au/files/mushclient/mushclient384.exe (1.82 Mb). 2 Use that to open your world files, and then re-save in XML format. 3 That is, just open each world file, and save it. 1 You are strongly advised to backup (make a copy of) your existing MUSHclient world files before upgrading to version 3.21 or higher. 2 Version 4.12 onwards allow for localization (that is, translating resources such as menus, and various messages, into different languages). | A typical MUD client. A MUD client is a computer application used to connect to a MUD, a type of multiplayer online game. Generally, a MUD client is a very basic telnet client that lacks VT100 terminal emulation and the capability to perform telnet negotiations. On the other hand, MUD clients are enhanced with various features designed to enhance the gameplay of MUDs. Standard features seen in most MUD clients include ANSI color support, aliases, triggers and scripting. The client can often be extended almost indefinitely with its built-in scripting language. In September 1990 TinyFugue which was based on TinyWar 1.2.3 and TT 1.1 was released by Greg Hudson and featured more advanced trigger support. Development of TinyFugue was taken over by Ken Keys in 1991. TinyFugue has continued to evolve and remains a popular client today for Unix-like systems. | MUSHclient supports connecting via Socks 4 and 5 proxy servers. Chat system. MUSHclient has a built-in chat system that is compatible with both MudMaster and zChat protocols. You can use it to both make and receive chat calls to other compatible clients (including MUSHclient of course!). Basically MUDs are text-based multi-player role-playing games. Most are free to play. MUSHclient itself is free and asks for no personal details before downloading it. A list of MUDs you can play is at The MUD Connector (there are over 1,000 of them!). |
airborne mission systems salary | $ 71000 average airborne mission system operator salaries for job postings in united states are the same as average airborne mission system operator salaries for job postings nationwide | Perform in-flight duties to ensure the successful completion of combat, reconnaissance, transport, and search and rescue missions. | I can still recall the nervous feeling in my stomach when I made the call and then popped the question: I'm putting in for a new position, will you b... Going Back to an Old Job Isn't the Worst. Unless you've really burned some bridges, it's possible that you'll eventually return to an old job one day. There are a lot of reasons why this could... How to Network Your Way to a New Job. If you are a job seeker, it pays to look for more than one route to land your job. | Join LinkedIn. Join LinkedIn to see more Airborne Mission Systems Operator profiles, jobs, and more. | The Airborne Mission Systems Operator is a vital member of the aircrew team, serving as the go-to source of critical information. In the Air Guard, you’ll receive a regular paycheck, tuition assistance, and more. Career Codes. You could be sitting in your command unit stationed in the United States or flying over enemy territory in a Lockheed E-130. As an Airborne Mission Systems Operator, you’ll have a career that can take you anywhe |
how much does a worker at the customer service center make | Call Center Representative Job Description. On average, call center workers make between $9 and $14 an hour. Most call center workers work in customer service, and many call center jobs offer flexible schedules. Most call center jobs fall into one of three categories. The most popular is customer service: for example, the people you speak with when you have a problem with your cable. You might also work in inbound sales, where you take calls from people who want to make a purchase. | For call center employees who work in customer service, the average pay is $14.36 - but they don't get commission and on occasion may have to deal with extremely difficult callers. If you're bilingual, you can usually earn more. Most call center jobs fall into one of three categories. The most popular is customer service: for example, the people you speak with when you have a problem with your cable. You might also work in inbound sales, where you take calls from people who want to make a purchase. | Call center representatives are the people you speak with when you call your bank, order a new sweater from a catalog or make airline reservations. They do everything from assisting people with customer service complaints to making telemarketing calls. Most call center jobs fall into one of three categories. The most popular is customer service: for example, the people you speak with when you have a problem with your cable. You might also work in inbound sales, where you take calls from people who want to make a purchase. | (India). A Call Center and Customer Service Executive earns an average salary of Rs 189,943 per year. People in this job generally don't have more than 10 years' experience. Experience strongly influences income for this job. | Home to some of the best pay for Call Center Representatives, Seattle offers exceptional salaries, 36 percent above the national average. Call Center Representatives will also find cushy salaries in New York (+19 percent), Los Angeles (+13 percent), Chicago (+12 percent), and Charlotte (+10 percent). While some workers in this profession — about one in four — do not have any health coverage, a fair number do receive medical benefits and a majority have dental insurance. Female Call Center Representatives make up most of the survey respondents at 74 percent. |
what is proliferative vitreoretinopathy stages | PVR occurs in about 8–10% of patients undergoing primary retinal detachment surgery and prevents the successful surgical repair of rhegmatogenous retinal detachment. PVR can be treated with surgery to reattach the detached retina but the visual outcome of the surgery is very poor. PVR was originally referred to as massive vitreous retraction and then as massive periretinal proliferation. The name Proliferative vitreo retinopathy was provided in 1989 by the Silicone Oil Study group. A number of cytokines such as tumor necrosis factor alpha (TNFα), transforming growth factor beta 2 (TGFβ 2), platelet derived growth factor (PDGF) and interleukins have been shown to play a role in PVR progression. | One of the commonest causes of Proliferative Vitreoretinopathy (PVR) is failed repair of retinal detachment. When there is a hole in the retina, cells that normally reside under the retina enter the eyeball and settle on the inner layer of the eye on top of the retina. Risk factors for Proliferative vitreoretinopathy PVR include large retina tears or retinal detachment that is not treated early. Bleeding within the eye, increased inflammation from trauma and previous retinal detachment operations also increase the risk. | Proliferative vitreoretinopathy. Proliferative vitreoretinopathy (PVR) is the most common complication of a retinal detachment (RD), and occurs in approximately 8-10% of patients who develop an RD. Proliferative vitreoretinopathy, despite the long name, is simply scar tissue formation within the eye. | Proliferative Vitreoretinopathy (PVR) occurs when a scar forms under or on the retina after retinal detachment, preventing the retina from healing and falling back into place. Risk factors for Proliferative vitreoretinopathy PVR include large retina tears or retinal detachment that is not treated early. Bleeding within the eye, increased inflammation from trauma and previous retinal detachment operations also increase the risk. | Norman D. Radtke, MD. Proliferative vitreo-retinopathy (PVR) is the most common cause of failed repair of a retinal detachment and occurs when scar tissue creates traction on the retina. PVR is characterized by proliferation of retinal pigment epithelial cells, glial cells, and inflammatory cells on the surface of the retina and within the vitreous gel. Traction is the key feature in the pathogenesis of PVR. The location, extent and severity of traction vary substantially. |
what is proliferative vitreoretinopathy stages | Proliferative vitreoretinopathy (PVR) is a disease that develops as a complication of rhegmatogenous retinal detachment. A number of cytokines such as tumor necrosis factor alpha (TNFα), transforming growth factor beta 2 (TGFβ 2), platelet derived growth factor (PDGF) and interleukins have been shown to play a role in PVR progression. | One of the commonest causes of Proliferative Vitreoretinopathy (PVR) is failed repair of retinal detachment. When there is a hole in the retina, cells that normally reside under the retina enter the eyeball and settle on the inner layer of the eye on top of the retina. Risk factors for Proliferative vitreoretinopathy PVR include large retina tears or retinal detachment that is not treated early. Bleeding within the eye, increased inflammation from trauma and previous retinal detachment operations also increase the risk. | Proliferative vitreoretinopathy. Proliferative vitreoretinopathy (PVR) is the most common complication of a retinal detachment (RD), and occurs in approximately 8-10% of patients who develop an RD. Proliferative vitreoretinopathy, despite the long name, is simply scar tissue formation within the eye. | PVR is strictly defined as a complication of rhegmatogenous retinal detachment that is characterized by the formation of membranes on both surfaces of the detached retina and on the posterior surface of the detached vitreous gel. It is manifest by the formation of fibrocellular membranes on the retinal and posterior hyaloid surfaces. Most cells in PVR membranes originate from adjacent retina and the displaced cells synthesize much of the membrane matrix. The membranes have some features in common with healing wounds. | Introduction. In 1983, the Retina Society Terminology Committee published a landmark paper in which the term proliferative vitreoretinopathy (PVR) was proposed for a condition that had been recognized as the major cause of failure of retinal detachment surgery. It is manifest by the formation of fibrocellular membranes on the retinal and posterior hyaloid surfaces. Most cells in PVR membranes originate from adjacent retina and the displaced cells synthesize much of the membrane matrix. The membranes have some features in common with healing wounds. |
is alliteration figurative language | Alliteration is a figure of speech that is related to onomatopoeia in that it involves the sense of sound. For an author, representing sounds with words can be quite difficult to do effectively. Alliteration refers to a group of words that start with the same consonant sound. An example of alliteration is “Charlie carefully counted coins,” where the “C” sound is repeated throughout the phrase. Figurative language and figures of speech are used to evoke emotion and to imply meanings in writing by means of making comparisons and allusions to familiar objects and ideas that can help a reader to relate to what the author is trying to say. | Whenever you describe something by comparing it with something else, you are using figurative language. A simile uses the words like or as to compare one object or idea with another to suggest they are alike. Alliteration. The repetition of the same initial letter, sound, or group of sounds in a series of words. Alliteration includes tongue twisters. Example: She sells seashells by the seashore. | FCAT Vocabulary. [em]Figurative & Descriptive language is used in fiction, nonfiction, drama, and poetry.[/em] [b]Figurative language[/b]— Language that involves the use of words and/or phrases that describe one thing in terms of another and that is not meant to be understood on a literal level. [h1]{PAGETITLE}[/h1]. Figurative & Descriptive language is used in fiction, nonfiction, drama, and poetry. Figurative language — Language that involves the use of words and/or phrases that describe one thing in terms of another and that is not meant to be understood on a literal level. Figurative language always involves some sort of imaginative comparison between seemingly unlike things | Alliteration is a literary device that uses the repetition of the sounds, usually the beginning sounds, of words. Tongue twisters use alliteration, as does a phrase like “wide and wonderful world.” Alliteration creates a mood and shows how an author wants to emphasize certain words and concepts. | Figurative Language Examples. The definition of figurative language is when you describe something by comparing it with something else. There are few different ways to use figurative language. See below for more information and examples of figurative language and how to use it. Remove these ads. |
differences between arteries and veins gcse | Veins. Veins carry blood back to the heart. They carry deoxygenated blood away from the body. The blood returning from the body is at a much lower pressure than that being pumped from the heart. Therefore veins do not have to be as strong as arteries. Veins are wider than arteries and have much thinner walls. Look at the image below to see the main difference between arteries and veins. | There are two types of blood vessels in the circulatory system of the body: arteries that carry oxygenated blood from the heart to various parts of the body and veins that carry blood towards the heart for purification. Types of arteries and veins. There are two types of arteries in the body: Pulmonary and systemic. The pulmonary artery carries deoxygenated blood from the heart, to the lungs, for purification while the systemic arteries form a network of arteries that carry oxygenated blood from the heart to other parts of the body. | Arteries. All blood vessels leading from the heart are called arteries or the blood vessels which carry blood from the heart to various body organs are called arteries. All arteries carry oxygenated blood (pure blood) except pulmonary artery, which carries deoxygenated blood. In closed circulatory system blood is circulated through closed vessels such as arteries, veins and capillaries. 1. Vessels which carry blood from the heart to various body parts. 2. Arteries carry oxygenated blood from the heart except pulmonary artery. | Veins and arteries are both types of blood vessels but arteries carry blood away from the heart to the rest of the body while veins carry blood to the heart from the rest of the body. All arteries except the pulmonary and umbilical arteries carry oxygenated blood while all veins carry deoxygenated blood. Arteries, on the other hand, are classified as systemic (part of the cardiovascular system), pulmonary (carry blood to the lungs), aorta and arterioles. Arteries carry bright red blood as it is oxygenated while veins have the dark red blood. Arteries progressively divide into smaller tubes unlike veins. | The structural differences between arteries and veins are all based in their relationship to the heart. Since arteries receive blood from the heart, the blood they receive is under a lot of pressure. I intend to explore the structure and function of arteries, veins and capillaries. When an artery branches into smaller and smaller vessels, eventually the blood vessel is too small to see with the naked eye. At that point, it is called an arteriole. Likewise, a venule is a microscopic vein. |
at what age should cats get spayed | Spaying Ages. While spaying is traditionally recommended for kitties between 4 and 6 months of age, spaying as young as 8 weeks old is considered safe, according to Cat Channel. Many animal shelters actually spay kitties prior to adopting them out at this age. | Although there are always variations, cats can have their first heat as early as 4 months old, and dogs can have their first heat as early as 5 to 6 months old; and if they can come into heat, they can get pregnant! With 50% of litters being accidents, you can see how unwanted litters can add up quickly. | For many years, veterinarians were taught that cats and dogs had to be a year old to be spayed or neutered. Later, they were taught that six months was appropriate. Today we know that kittens and pups can be spayed or neutered at the age of two months (or two pounds). | However a cat can be safely spayed or neutered at any age, so even older adopted cats should have this procedure. Some rescue organizations participate in a “catch and release” program where homeless cats are captured, neutered or spayed and released. | Today some vets will spay/neuter at eight weeks of age, while other adhere to the old practice of six months of age. The average age at which pets are spayed or neutered is four months. Adolescent cats and dogs as young as five months can get pregnant. |
where are cucumbers grown | You can grow cucumbers in the ground, pots or in growing bags. And home-grown cucumbers taste fabulous. Choose the type that’s right for you – some can be grown outside, some indoors. Outdoor cucumbers can be sown directly into the soil in late May and early June – or you can buy small plants from the garden centre. | Cucumber (Cucumis sativus) is a widely cultivated plant in the gourd family, Cucurbitaceae. It is a creeping vine that bears cylindrical fruits that are used as culinary vegetables. There are three main varieties of cucumber: slicing, pickling, and burpless. Burpless cucumbers are sweeter and have a thinner skin than other varieties of cucumber, and are reputed to be easy to digest and to have a pleasant taste. They can grow as long as 2 feet (0.61 m). | How to grow cucumbers. Savour the taste of summer with your own home grown cucumbers. Cucumbers are an essential ingredient for adding to sandwiches, delicious salads, and those long, cool summer drinks on the patio. You don’t need a greenhouse to grow them as there are indoor types and outdoor varieties available. But it’s worth checking that you have the right type for your garden before you start sowing. You can grow cucumbers in the ground, in growbags and even in containers. View all of our cucumber seed varieties | Cucumber is a tender, warm-season vegetable that produces well when given proper care and protection. The vines of standard varieties grow rapidly and require substantial space. Vertical training methods and new dwarf varieties now allow cucumbers to be grown for slicing, salads and pickling, even in small garden plots. | Growing Cucumbers-advice on how to grow Cucumbers. Cucumbers are straight forward to grow and grow up they will as they are a climbing vine. They are a member of the cucurbitaceae family which includes melons and squashes and as such like a warm well drained soil. Cucumbers can be eaten fresh or they can be pickled. |
where are cucumbers grown | You can successfully grow cucumbers in containers but you may need to water 2-3 times a day. Cucumbers are mostly water and the fruits will wither and the plants will die if the soil dries out for very long. If you put 3-4 inch layer of mulch over the soil, you can water a little less, but still twice a day is best. My cucumbers are growing to about 2-3 inches in length then curling up like a coma and then either begin turning yellow from the top or the bottom. The fruits were normal to begin the season. They are grown in earthboxes and the leaves have very little insect damage. | Cucumber is a tender, warm-season vegetable that produces well when given proper care and protection. The vines of standard varieties grow rapidly and require substantial space. Vertical training methods and new dwarf varieties now allow cucumbers to be grown for slicing, salads and pickling, even in small garden plots. | 1 Apple cucumbers are short, round cucumbers grown in New Zealand and parts of Europe, known for their light yellow-green color and mildly sweet flavor. 2 When mature, the fruit may grow tiny spines, and contains numerous edible green seeds. 3 The fruit is usually eaten raw, with skin. Burpless cucumbers are sweeter and have a thinner skin than other varieties of cucumber, and are reputed to be easy to digest and to have a pleasant taste. They can grow as long as 2 feet (0.61 m). | The crunch of fresh cucumbers (Cucumis sativus) has helped cool down summers for more than 3,000 years, and cucumbers were likely one of the first vegetables to be preserved by pickling. Growing cucumbers is easy in fertile, organically enriched soil. Cucumber Types to Try. The size, shape, color and flavor of cucumber fruits differ by variety, but all grow best under warm conditions. Growing more than one type each year is the best way to extend your cucumber season and ensure more diverse uses in the kitchen. | Growing Cucumbers-advice on how to grow Cucumbers. Cucumbers are straight forward to grow and grow up they will as they are a climbing vine. They are a member of the cucurbitaceae family which includes melons and squashes and as such like a warm well drained soil. Cucumbers can be eaten fresh or they can be pickled. |
where are cucumbers grown | Cucumbers (Cucumis sativus) are grown in home gardens in all regions of Minnesota. They are typically eaten raw in salads or pickled. Like other vine crops such as squash, melons, and pumpkins, cucumbers grow most vigorously and produce the most fruit in warm weather. | Cucumber is a tender, warm-season vegetable that produces well when given proper care and protection. The vines of standard varieties grow rapidly and require substantial space. Vertical training methods and new dwarf varieties now allow cucumbers to be grown for slicing, salads and pickling, even in small garden plots. | Cucumber (Cucumis sativus) is a widely cultivated plant in the gourd family, Cucurbitaceae. It is a creeping vine that bears cylindrical fruits that are used as culinary vegetables. There are three main varieties of cucumber: slicing, pickling, and burpless. Burpless cucumbers are sweeter and have a thinner skin than other varieties of cucumber, and are reputed to be easy to digest and to have a pleasant taste. They can grow as long as 2 feet (0.61 m). | How to grow cucumbers. Savour the taste of summer with your own home grown cucumbers. Cucumbers are an essential ingredient for adding to sandwiches, delicious salads, and those long, cool summer drinks on the patio. You don’t need a greenhouse to grow them as there are indoor types and outdoor varieties available. But it’s worth checking that you have the right type for your garden before you start sowing. You can grow cucumbers in the ground, in growbags and even in containers. View all of our cucumber seed varieties | 1 Apple cucumbers are short, round cucumbers grown in New Zealand and parts of Europe, known for their light yellow-green color and mildly sweet flavor. 2 When mature, the fruit may grow tiny spines, and contains numerous edible green seeds. 3 The fruit is usually eaten raw, with skin. Burpless cucumbers are sweeter and have a thinner skin than other varieties of cucumber, and are reputed to be easy to digest and to have a pleasant taste. They can grow as long as 2 feet (0.61 m). |
how much does it cost to have a contractor remove walls | 1 Some contractors have a minimum fee of $1,500-$3,000, no matter how small the job is. 2 And a complete removal in a 1,500 square foot home with asbestos everywhere--walls, floors, ceilings, attic, roof, pipes--could be as high as $20,000-$30,000. | A contractor will charge $306 to remove two layers of wallpaper from a 10-by-12-foot room or about 320 sqare feet if you allow for a window and door. This includes the labor and material. | 1 Many contractors will want to remove a small test area before submitting a quote. 2 Whatever the pricing method, the if-all-goes-well cost for hiring someone to remove the wallpaper from a 12-by-15-foot room runs around $250-$450 but can go $500-$1,000 or more if there are complications. | Poured retaining walls with elaborate curves require complex formwork and will drive up cost for a wall. The total cost to have a concrete retaining wall installed will be a combination of material and labor prices. For a basic wall you can expect to pay between $30 and $40 per square foot. If you add a decorative finish, curves, steps, lighting or other upgrades, the cost will rise. | 1 Walls/Wallpapering. Cost to Remove a Wall. Find the average cost to remove a wall yourself compared with hiring a contractor. Use your ZIP Code to adjust the cost to where you live so you can decide to do it yourself or hire a pro to do the job. Learn what to consider and the steps involved. |
what does the immune system do | The immune system protects the body against illness and infection caused by bacteria, viruses, fungi or parasites. It is really a collection of reactions and responses that the body makes to damaged cells or infection. The bone marrow makes blood cells that help to fight infection. Weakening of the immune system happens most often in leukaemia or lymphoma. But it can happen with other cancers too. The cancer in the bone marrow stops the bone marrow making so many blood cells. | Zinc. Zinc is a trace element essential for cells of the immune system, and zinc deficiency affects the ability of T cells and other immune cells to function as they should. Caution: While it's important to have sufficient zinc in your diet (15–25 mg per day), too much zinc can inhibit the function of the immune system. The idea of boosting your immunity is enticing, but the ability to do so has proved elusive for several reasons. The immune system is precisely that — a system, not a single entity. To function well, it requires balance and harmony. | Your immune system is the network of cells and tissues throughout your body that work together to defend you from invasion and infection. You can think of it as having two parts: the acquired and the innate immune systems. The acquired (or adaptive) immune system develops as a person grows. | What the immune system does. The immune system protects the body against illness and infection caused by bacteria, viruses, fungi or parasites. It is really a collection of reactions and responses that the body makes to damaged cells or infection. So it is sometimes called the immune response. The bone marrow makes blood cells that help to fight infection. Weakening of the immune system happens most often in leukaemia or lymphoma. But it can happen with other cancers too. The cancer in the bone marrow stops the bone marrow making so many blood cells. | Immune System The immune system is a network of cells, tissues, and organs that work together to protect the body from infection. Although scientists have learned much about the immune system, they continue to study how the body targets invading microbes, infected cells, and tumors while ignoring healthy tissues. |
dna definition | DNA. Definition. noun. A double-stranded nucleic acid that contains the genetic information for cell growth, division, and function. Supplement. Structure: DNA is composed of two strands that twist together to form a helix. | By Regina Bailey. Definition: DNA (deoxyribonucleic acid) is a type of macromolecule known as a nucleic acid. It is shaped like a twisted double helix and is composed of long strands of alternating sugars and phosphate groups, along with nitrogenous bases (adenine, thymine, guanine and cytosine). | DNA. deoxyribonucleic acid: an extremely long, double-stranded nucleic acid molecule arranged as a double helix that is the main constituent of the chromosome and that carries the genes as segments along its strands: found chiefly in the chromatin of cells and in many viruses. [1930–35]. | (The other is RNA. In humans DNA is the genetic material; RNA is transcribed from it. In some other organisms, RNA is the genetic material and, in reverse fashion, the DNA is transcribed from it.). DNA is a double-stranded molecule held together by weak hydrogen bonds between base pairs of nucleotides. | Deoxyribonucleic acid or DNA is a molecule that contains the instructions an organism needs to develop, live and reproduce. These instructions are found inside every cell, and are passed down from parents to their children. |
deposition meaning | deposition. noun de·po·si·tion \ˌde-pə-ˈzi-shən, ˌdē-pə-\. Tweet. law: a formal statement that someone who has promised to tell the truth makes so that the statement can be used in court; especially: a formal statement that is made before a trial by a witness who will not be present at the trial. | The sworn testimony of a witness taken before trial held out of court with no judge present. The witness is placed under oath to tell the truth and lawyers for each party may ask questions. The questions and answers are recorded. When a person is unavailable to testify at trial, the deposition of that person may be used. Part of the pre-trial discovery (fact-finding) process. The testimony of a witness reduced to writing in due form of law, taken by virtue of a commission or other authority of a competent tribunal. | noun. A deposition is given before a case goes to court. A deposition is given before a case goes to court. Deposition is defined as the removal from an office or the testimony of a witness under oath. | Deposition testimony is taken orally, with an attorney asking questions and the deponent (the individual being questioned) answering while a court reporter or tape recorder (or sometimes both) records the testimony. | deposition. DEPOSITION, evidence. The testimony of a witness reduced to writing, in due form of law, taken by virtue of a commission or other authority of a competent tribunal. 2. Before it is taken, the witness ought to be sworn or affirmed to declare the truth, the whole truth, and nothing but the truth. |
what is the function of the lacrimal gland | The lacrimal gland produces lacrimal fluid (tears), which moisten the surface of the eye, lubricate eyelids and wash away foreign bodies. Tears contain lysosomes, which are capable of breaking up bacteria and foreign bodies. | lacrimal apparatus, a network of structures of the eye that secrete tears and drain them from the surface of the eyeball. These parts include the lacrimal glands, lacrimal ducts, lacrimal canals, lacrimal sacs, and nasolacrimal ducts. lacrimal apparatus. a group of organs concerned with the production and drainage of tears; it is a nutritive and protective device that helps keep the eye moist and free of dust and other irritating particles. Includes lacrimal gland, accessory lacrimal glands, third eyelid glands and the nasolacrimal duct | The lacrimal glands are paired almond-shaped glands, one for each eye, that secrete the aqueous layer of the tear film. They are situated in the upper, outer portion of each orbit, in the lacrimal fossa of the orbit formed by the frontal bone. Inflammation of the lacrimal glands is called dacryoadenitis. The lacrimal gland produces tears which then flow into canals that lead to the lacrimal sac. From this sac, the tears drain through the lacrimal duct into the nose. Anatomists divide the gland into two section | Transport of IgA. Another major function of the lacrimal gland acinar cells is to move dimeric IgA from the interstitial fluid into the tear ducts and thus onto the ocular surface. IgA is produced by plasma cells resident in the lacrimal gland. The nature of tear fluid. The fluid secreted by the lacrimal glands is a complex solution of ions and proteins produced by two resident secretory cell populations: the plasma cells of the immune system and the acinar and duct cells of the secretory epithelium of the gland. | Structure. The lacrimal apparatus consists of the lacrimal gland, which secretes tears, and the series of drainage channels that carry the tears into the nose. The lacrimal gland is about the size of an almond and is nestled within a bony depression in the roof of the orbit at it outer edge. The gland has many lobes, each of which can be considered a small factory for producing tears. |
when did women get the vote in usa? | Introduction. Ratified on August 18, 1920, the 19th Amendment to the U.S. Constitution granted American women the right to vote—a right known as woman suffrage. At the time the U.S. was founded, its female citizens did not share all of the same rights as men, including the right to vote. Wyoming, the first state to grant voting rights to women, was also the first state to elect a female governor. Nellie Tayloe Ross (1876-1977) was elected governor of the Equality State (Wyoming's official nickname) in 1924. From 1933 to 1953, she served as the first female director of the U.S. Mint. | By Jone Johnson Lewis. Votes for women were first seriously proposed in the United States in July, 1848, at the Seneca Falls Woman's Rights Convention organized by Elizabeth Cady Stanton and Lucretia Mott. One woman who attended that convention was Charlotte Woodward. She was nineteen at the time. | Passed by Congress June 4, 1919, and ratified on August 18, 1920, the 19th amendment guarantees all American women the right to vote. Achieving this milestone required a lengthy and difficult struggle; victory took decades of agitation and protest. Joint Resolution of Congress proposing a constitutional amendment extending the right of suffrage to women, May 19, 1919; Ratified Amendments, 1795-1992; General Records of the United States Government; Record Group 11; National Archives. | Women's right to vote 19th Amendment gave women the right to vote in 1919, the states ratified it in 1920. Women received the right to vote in 1920. The 19th amendment was made into law especially for the right for women to vote. The 15th amendment is for other races to vote. 4 people found this useful. | In 1878 Senator Aaron A. Sargent, a friend of Susan B. Anthony, introduced into Congress a women's suffrage amendment. More than forty years later it would become the Nineteenth Amendment to the United States Constitution with no changes to its wording. In 1848, the Seneca Falls Convention, the first women's rights convention, passed a resolution in favor of women's suffrage despite opposition from some of its organizers, who believed the idea was too extreme. |
is there a pill that stops your period | 1 When you stop taking it, you will get your period within 2 to 3 days. 2 However, this is not 100% effective. 3 Women have reported bleeding or spotting while taking progestogen pills. 4 There are now contraceptive shots and even contraceptive implants that stop your period altogether for months in a row. 1 There are in fact contraceptive pills made specifically to stop your period. 2 They are called extended-cycle pills. 3 You would normally take these continuously for three to six months, and then take placebos for a week during which you would get | If you don't get a period for several months, you may have what's known as post-pill amenorrhea. The pill prevents your body from making hormones involved in ovulation and menstruation. When you stop taking the pill, it can take some time for your body to return to normal production of these hormones. But it's possible to prevent your period with continuous use of any birth control pill. This means skipping the placebo pills and starting right away on a new pack. Continuous use of your birth control pills works best if you're taking a monophasic pill — with the same hormone dose in the three weeks of active pills. | Report Abuse. I've never heard of any pills that stop your period once it has started, but the contraceptive pill or injection can regulate periods. I think most combined contraceptive pills now mean that you take them for 21 days, then have a 7 day break. This is when your period will start. If I can remember right, you take it a few days before your period is due and it stops your period. Although you have to carry on taking it for the duration of your hol. Once you're back from you're hol...stop...and your period will start. So there is an answer besides the pill. Try it. | How They Work. The drugs that suppress menstrual periods are birth control pills. One type known as extended-cycle makes the time between your periods longer. Another kind, continuous birth control, stops your period for a year without any breaks. Both contain pills with hormones that you take months at a time. These differ from a packet of 28-day birth control pills, which has 21 pills with hormones in them and seven pills with no hormones. | 1 Then there is the hormone progestogen, available in pill form under several brands. 2 You’ll have to take it thrice a day for as long as you want to not have your period. 3 When you stop taking it, you will get your period within 2 to 3 days. 4 However, this is not 100% effective. 1 There are in fact contraceptive pills made specifically to stop your period. 2 They are called extended-cycle pills. 3 You would normally take these continuously for three to six months, and then take placebos for a week during which you would get |
how much does a hostess make at fine dining | (United States). An average Restaurant Host or Hostess in the United States can expect to take home roughly $8.67 per hour. Compensation ranges from $7.28 per hour on the lower end to $11.76 on the higher end. While tenure and the specific company impact pay for this group, residence is the most influential factor. Restaurant Hosts and Hostesses who responded to the questionnaire are largely women, dominating at 85 percent. | Average Fine Dining Server Salaries. The average salary for fine dining server jobs is $38,000. Average fine dining server salaries can vary greatly due to company, location, industry, experience and benefits. | Income and Qualifications. Most waitresses are paid by the hour and earn tips on top of their hourly wages. Average tips for a waitress are 15 to 20 percent of the total bill, according to iTipping.com. Therefore, a waitress that rings up $400 during a four-hour shift should make $60 to $80 in tips. Average hourly rates for waitresses were $9.95 as of May 2012, according to the U.S Bureau of Labor Statistics -- or $20,710 per year. This equates to $1,725.83 per month. The top 10 percent made over $2,459.16 monthly. | Waitresses usally get paid less because of their tips. Hostesses usually get paid more but no tips. I did hostess for a while at a mom and pop place at the time I was making $5.50 an hour. I also waitressed there and was making $2.13 an hour. As a waitress I averaged around $6-7 an hour over all. There were times though that I would have a crazy good night and make over $20 an hour. Each business will differ for what they pay hostesses. I had a job at a resturaunt where the hostess got paid an extra $3.00 an hour because they didn't get tips. They do not get to share the tips with the waiter/waitresses because they are suppose to report those at then end of their shift. | I host in fine dining and make over 3 times of minimum wage and don't receive a tip out. If we don't have someone doing coat check, we'll divide those tips between the hosts working that night. Fine dining hosts usually start at around $10 an hour. Each business will differ for what they pay hostesses. I had a job at a resturaunt where the hostess got paid an extra $3.00 an hour because they didn't get tips. They do not get to share the tips with the waiter/waitresses because they are suppose to report those at then end of their shift. |
how much does a hostess make at fine dining | How much do hosts and hostesses make? Since hosts and hostesses usually don't get any tips, they get paid more per hour than waiters or waitresses do. On average, hosts and hostesses make $8.42 an hour, but depending on the type of restaurant where you work, you could make upwards of $12 an hour. If you're really lucky, you'll also get a share of the tips waiters and waitresses make-typically between three and five percent-and an employee discount on your meals. | Waitresses usally get paid less because of their tips. Hostesses usually get paid more but no tips. I did hostess for a while at a mom and pop place at the time I was making $5.50 an hour. I also waitressed there and was making $2.13 an hour. As a waitress I averaged around $6-7 an hour over all. There were times though that I would have a crazy good night and make over $20 an hour. Each business will differ for what they pay hostesses. I had a job at a resturaunt where the hostess got paid an extra $3.00 an hour because they didn't get tips. They do not get to share the tips with the waiter/waitresses because they are suppose to report those at then end of their shift. | Income and Qualifications. Most waitresses are paid by the hour and earn tips on top of their hourly wages. Average tips for a waitress are 15 to 20 percent of the total bill, according to iTipping.com. Therefore, a waitress that rings up $400 during a four-hour shift should make $60 to $80 in tips. Average hourly rates for waitresses were $9.95 as of May 2012, according to the U.S Bureau of Labor Statistics -- or $20,710 per year. This equates to $1,725.83 per month. The top 10 percent made over $2,459.16 monthly. | How much do restaurant servers make a year? Answer Restaurant servers make anywhere from $1000-4500 a month depending on the type of restaurant (Bar-type, fancy restaurant, chain restaurants) They ty … pically earn about $90-250 per night in tips plus an additional $3-11 an hour in wages. Answer Depending on the class of the restaurant, the hostess can make anywhere from minimum wage to about $10.00 or more, and also depending on the length o … f time the person has been on the job. | Average Fine Dining Server Salaries. The average salary for fine dining server jobs is $38,000. Average fine dining server salaries can vary greatly due to company, location, industry, experience and benefits. |
is tiger a mammal | No, A tiger is a mammal because it produces milk and gives birth to live young. | Is a saber-toothed tiger a mammal? yes the saber toothed cat is a decendant of the miacid which was a small fury mammal that lived 60 million years ago. all mammals such as tigers, lions, dogs, even monkeys are … thought of all to come from the miacid. | A tiger's roar can be heard as far as 2 mi (3 km) away. Size relative to a 6-ft (2-m) man: Tigers are the largest members of the cat family and are renowned for their power and strength. There were eight tiger subspecies at one time, but three became extinct during the 20th century. | Living on land has nothing to do with being a mammal. Dolphins are mammals and they live in the water. Geckos live on land and are NOT mammal … s. Mammals are warm blooded, hairy, and give birth to live young, among other traits. And yes, White Tigers (as well as all other cats) are mammals. | Mammals that eat meat are called carnivores. Carnivores include lions, tigers, seals, and the largest carnivore mammal which is the polar bear. Mammals that eat only plants are called herbivores. Some herbivores are cows, elephants, and giraffes. Mammals that eat both meat and plants are called omnivores. |
singapore average temperature humidity | Singapore's close proximity to the equator means that its temperature and humidity remain relatively even throughout the year. Its average daytime temperatures are around 87 degrees Fahrenheit, varying only slightly between annual high temperatures of 90 degrees and low temperatures of 84 degrees. The hottest weather occurs in April. High humidity is a constant in Singapore, with an average relative humidity level of around 84 percent. On rainy days, the relative humidity remains at around 100 percent. | Daily rainfall, temperature, relative humidity and wind data at various locations across Singapore are available at http://www.weather.gov.sg/ climate-historical-daily/. For other types of data, NEA charges an administrative fee for the extraction, preparation and verification of data. | This report describes the typical weather at the Paya Lebar Air Base (RSAF) (Singapore) weather station over the course of an average year. It is based on the historical records from 1999 to 2012. Earlier records are either unavailable or unreliable. Singapore has a tropical rainforest climate with no dry season. The area within 25 mi of this station is covered by croplands (45%), oceans and seas (41%), built-up areas (6%), shrublands (3%), and grasslands (3%). | The annual averages for relative humidity in Singapore range throughout the day from a maximum of 96 percent to a minimum of 64 percent. Sunlight in Singapore averages 12 hours and 7 minutes a day. That amounts to 4423 hours of daylight in a year. The shortest days of the year in mid December have 12 hours and 3 minutes of daylight. The year's longest days in mid June last 12:12 from sunrise to sunset. | Singapore: Annual Weather Averages. February is the hottest month in Singapore with an average temperature of 27°C (81°F) and the coldest is January at 26°C (79°F) with the most daily sunshine hours at 9 in September. The wettest month is December with an average of 269mm of rain. |
what does pharmaceutical industry comprises of | The pharmaceutical industry develops, produces, and markets drugs or pharmaceuticals for use as medications. Pharmaceutical companies may deal in generic or brand medications and medical devices. IMS Health publishes an analysis of trends expected in the pharmaceutical industry in 2007, including increasing profits in most sectors despite loss of some patents, and new 'blockbuster' drugs on the horizon. | Specialty drugs, a recent classification of pharmaceuticals, are high-cost drugs that are often biologics. Gene-based and cellular biologics, for example, often are at the forefront of biomedical research, and may be used to treat a variety of medical conditions for which no other treatments are available. A biopharmaceutical, also known as a biologic medical product or biologic, is any medicinal product manufactured in, extracted from, or semisynthesized from biological sources. | In the UK, for example, there was widespread anger when the industry regulator predicted energy companies' profit margins would grow from 4% to 8% this year. Last year, five pharmaceutical companies made a profit margin of 20% or more-Pfizer, Hoffmann-La Roche, AbbVie, GlaxoSmithKline (GSK) and Eli Lilly. | The output of the pharmaceutical industry in 1965 was 2.8 times greater than in 1958. During the eighth five year plan (1966–70) industry output increased by a factor of 1.8, and more than 200 new drugs went into production. There was no pharmaceutical industry in the European socialist countries before World War II, other than small semicottage enterprises in Hungary and Czechoslovakia that manufactured alkaloids and packaged imported drugs. | The pharmaceutical industry's influence gets exerted in a number of ways. One, starting 10 years ago [with the Prescription Drug User Fee Act (PDUFA)], the influence was exerted by their directly funding, paying cash right up front, for FDA review. So the attitude by the leaders there [is], avoid conflict -- and avoiding conflict means doing what the industry wants. A third way in which the industry's influence has been allowed to grow considerably is the absence of congressional oversight. |
thin in french | wafer-thin slices of bread. [majority] infime. Translation English-French Collins Dictionary  . See also: thin out, thin down, think, thing. thin. thin. adj. mince; d'epaisseur. épaisseur | Small portions. As Mireille Guiliano famously noted in her best-selling book, French Women Don’t Get Fat, the French eat in small portions. They savor their food and eat slowly, using proper table manners. Food in France is also more of an event. | What struck me was how thin all of the French people were, and this was in contrast to the Tahitian population who is, let’s say, well built. In general, French people are thin. France has the lowest obesity rates in all of Europe — by a wide margin. The women are thin. | Over the last month I have seen an increase in views for these Thin and Crispy French Fries. So much so that I thought it must be time for a new Transformation Tuesday & a complete makeover of this post. While the recipe remains the same, I have updated the pictures & formatted the recipe to my newer format. The description is in the name of these french fries. They really are Thin and Crispy French Fries! | FRENCH WOMEN DON'T GET FAT. The grandmaman of the 'learn from the French' genre, this purports to unlock the key to how, despite eating mounds of cheese and foie gras, French women retain their figures. Author Mireille Guiliano claims that while they don’t forbid themselves anything, they eat it in moderation. |
what enzyme completes the digestion of sucrose | The digestion of the disaccharide lactose to the monosaccharides glucose and galactose occurs very very slowly unless there is an enzyme to speed up the process. The enzyme that speeds up the digestion of lactose is called lactase. Lactase and most other enzymes are proteins. Each enzyme has an active site where a substrate molecule binds. For example, the substrate lactose binds to the active site of the enzyme lactase. Notice that the name of the enzyme lactase was created by adding the suffix – ase to part of the name of the substrate lactose. An enzyme speeds up a chemical reaction which converts a substrate molecule or molecules to a. product molecule or molecules. The products are released from the enzyme and the enzyme returns to its original state, so the enzyme is ready to act on another substrate molecule. | 1 Amylase digests starch molecules from the ends of the chains in two-glucose units, forming the disaccharide maltose. 2 Glycogen is also digested here. 3 in the membrane of the ileum enzymes attached to the epithelial cells complete the digestion of disaccharides to monosaccharides. Chemistry of Digestion. 1. Digestion of Carbohydrates. The most abundant carbohydrate in the human diet is starch (in bread, potatoes, cereal, rice, pasta, biscuits, cake, etc), but there may also be a lot of sugar (mainly sucrose) and some glycogen (in meat). | Absorption. As separate monosaccharides, or one-molecule sugars, glucose and fructose are free for absorption. Both sugars cross the intestinal lining through distinct complex transporters into the bloodstream of the hepatic portal system. Sucrose, commonly known as table sugar, consists of one molecule of glucose and one molecule of fructose. Sugars like sucrose that consist of three or more molecules are called polysaccharides and are joined by a glycosidic bond, a special chemical link that binds carbohydrates together | Image: Action of sucrase on sucrose. Enzymes are globular proteins that control biological reactions. Digestive enzymes speed up the breakdown (hydrolysis) of food molecules into their ‘building block’ components. These reactions occur outside of the cells lining the gut. | Digestive enzymes all belong to the hydrolase class, and their action is one of splitting up large food molecules into their ‘building block’ components. Another unique property is that they are extracellular enzymes that mix with food as it passes through the gut. Digestive enzymes speed up the breakdown (hydrolysis) of food molecules into their ‘building block’ components. These reactions occur outside of the cells lining the gut. |
is the patriot act still necessary | The Patriot Act consists of a large number of provisions that enhance security at the expense of privacy and due process, many (but not all) of which are troubling from the standpoint of civil liberties. These provisions are no longer as necessary as they were in the immediate aftermath of the 9/11 attacks. | There’s Still a Need for the Patriot Act. Eric Posner, a professor at the University of Chicago Law School, is the co-author of Terror in the Balance: Security, Liberty and the Courts.. | The U.S. Senate quickly passed the USA PATRIOT ACT (Uniting and Strengthening America by Providing Appropriate Tools Required to Intercept and Obstruct Terrorism). Only one senator, Russell Feingold (D-Wis.), voted against it. The next day, the House of Representatives passed the bill 357-66. | If the USA PATRIOT ACT were necessary for the safety of America, then America would have been invaded years ago before the Act was ever enacted. Intelligence reports claim we are no safer now than before 9/11... Posted by Mangani 7 years ago. Report this Comment. 22 votes have been placed for this debate. | The Patriot Act consists of a large number of provisions that enhance security at the expense of privacy and due process, many (but not all) of which are troubling from the standpoint of civil liberties. These provisions are no longer as necessary as they were in the immediate aftermath of the 9/11 attacks. |
what was the first colony in america, virginia or massachusetts | Massachusetts was the first colony founded. The first English colony in North America was the Colony of Roanoke, founded in 1585 by Sir Walter Raleigh, in present-day North Carolina, under the blessing of Queen Elizabeth I. This was an unsuccessful settlement, also called the Lost Colony.. The first English settler born in the New World, Virginia Dare, was part of this community. The first successful English colony was Jamestown, Virginia, founded in 1607, sponsored by the Virginia Company of London and named after King James I of England. | 1607 Virginia becomes the first colony. Virginia is founded under a patent for the London Company and becomes the first British colony in North America. Jamestown, Virginia is the first permanent English settlement. 1620 Massachusetts is founded. | Jamestown, Virginia. The Jamestown settlement in the Colony of Virginia was the first permanent English settlement in the Americas. William Kelso says Jamestown is where the British Empire began ... | Jamestown: First English Colony in America. Explorers had been landing in America for some time before English settlers arrived in what is now Jamestown, Virginia, in 1607. But it was in that spot on the James River that English colonization began and with it, the history of America. On This Site. | The first English attempt to establish a colony in what is now the United States took place in 1585. Sir Walter Raleigh sent settlers to Roanoke Island, off the coast of North Carolina. But this attempt at colonization failed. In 1607, a small band of about 100 English colonists reached the coast near Chesapeake Bay. |
mechanisms of pathogenic harm fungi | Fungi are an important group of plant pathogens—most plant diseases are caused by fungi—but fewer than 10% of all known fungi can colonize living plants (Knogge, 1996). Plant pathogenic fungi represent a relatively small subset of those fungi that are associated with plants. | In contrast to most of the human pathogenic fungi described in this book, pathogenic species of the genus Candida do not normally exist in ecological niches such as soil or compost. Instead, these fungi have evolved in close association with warm-blooded animals, such as humans. | Many leaf-spotting fungi produce toxins that kill host cells and this often produces a lesion surrounded by a yellow halo (Fig. 10). If enough of the leaf surface is killed, or if the infected leaves drop prematurely, the plant's ability to produce photosynthates is severely impaired. | Protozoa. Protozoa are single-celled organisms. Food contaminated with protozoa can cause infections such as amoebic dysentery, of which severe diarrhoea is a symptom. Some protozoa are parasites. These organisms live on, or inside, another organism and cause it harm. Malaria is a disease caused by protozoa that live in the blood. | In the soil (22-25°C), these fungi grow as filamentous mold that produce infectious conidia. Following the disruption of soil by activities such as construction, aerosolized conidia and mold fragments are inhaled into the lungs of a host (37°C) and convert into pathogenic yeast. |
who sang bring it on home to me | Bring It on Home to Me is a song by American singer-songwriter Sam Cooke, released on May 8, 1962 by RCA Victor. Produced by Hugo & Luigi and arranged and conducted by Rene René, hall the song was The-b side . to 1 Lou Rawls, who sang background vocals on the original song, recorded his own charting version in 1970. 2 Smokey Robinson and Bryan Adams dueted on Bring It On Home To Me, live at the Apollo Theatre Hall of Fame, Harlem, Manhattan, New York City, in 1993. | Bring It On Home to Me is a 1961 12-bar blues written and recorded by R&B singer-songwriter Sam Cooke. The song, about infidelity, was a hit for Cooke and has become a pop standard covered by numerous artists of different genres. It is one of The Rock and Roll Hall of Fame's 500 Songs that Shaped Rock and Roll. Cooke's recorded version has Lou Rawls singing responses as an uncredited background singer. | Lyrics taken from http://www.lyricsmode.com/lyrics/s/sam_cooke/bring_it_on_home_to_me.html. | Bring It On Home to Me was recorded on April 26, 1962, at RCA Studio 1 in Hollywood, California. The engineer present was Al Schmitt, and the session was conducted and arranged by Rene René. Hall the musicians also . recorded 1 Lou Rawls, who sang background vocals on the original song, recorded his own charting version in 1970. 2 Smokey Robinson and Bryan Adams dueted on Bring It On Home To Me, live at the Apollo Theatre Hall of Fame, Harlem, Manhattan, New York City, in 1993. | Submit Corrections Cancel. If you ever change your mind. About leaving, leaving me behind. Oh, bring it to me, bring your sweet loving. Bring it on home to me, oh yeah. You know I laughed, when you left. But now I know, I've only hurt myself. Baby, bring it to me, bring your sweet loving. About leaving, leaving us behind. Come on, bring it girl, bring your sweet loving. Bring it on home to me, yeah, yeah, yeah. Come on bring it on home, bring it on home. Yeah, yeah, yeah. Bring it on home, bring it on home, bring it on home. Yeah, yeah, yeah, yeah, yeah, yeah, yeah. Bring your sweet love on home to me. |
what is the isle of mull famous for | Tobermory (/ˌtoʊbərˈmɔəri/ ; Scottish Gaelic: Tobar Mhoire) is the capital of, and the only burgh on, the Isle of Mull in the Scottish Inner Hebrides. It is located in the northeastern part of the island, near the northern entrance of the Sound of Mull. The burgh hosts the Mull Museum, the Tobermory whisky distillery, the Isle of Mull brewery, and An Tobar, an arts centre. The clock tower on the harbour wall is a noted landmark. | The Isle of Mull is the second largest island of the Inner Hebrides, off the west coast of Scotland in the council area of Argyll and Bute. Tobermory (meaning “Mary’s Well”) is the capital of the Isle of Mull. It is located in the northeastern part Mull, near the northern entrance of the Sound of Mull. Its population is approximately 700 people. | If you are looking for information about Tobermory click here Isle of Iona click here Oban click here. The Isle of Mull and the neighbouring Island of Iona lie just off the west coast of Scotland, in the United Kingdom. The Isle of Mull has become well known by all who view the BBC programmes Springwatch and Coast. The presenter Gordon Buchanan is from Mull and still has family and a house here. Mull is also now very well known as the home of the CBeebies programme Balamory, based around the coloured houses of Tobermory | For information about the rest of the Isle of Mull click here. For information about Iona click here. Tobermory was built as a fishing port in the late 18th century and is now the main town on Mull. After the initial success of these programmes in Britain, Balamory is now reaching a new audience in Australia. The Isle of Mull and Iona have become one of the premier destinations for wildlife watching in the United Kingdom in the last few years. | For information about the Isle of Mull click here For information about the Tobermory click here. Iona taken from a light aircraft. For the Gaels, Iona is I Chaluim Chille-the isle of Colm Cille, an Irish priest and prince who was to become revered as Saint Columba. A tiny island, of typically Hebridean beauty, it holds a unique place in the story of Scotland and kindles the imagination of thousands who journey there each year. |
what is the isle of mull famous for | The Isle of Mull is one of the most popular destinations of all the islands off the West coast of Scotland. There are many reasons to visit the Isle of Mull. This includes 300 miles of coastline and stunning beaches, the moorlands and mountains including Mull's highest peak Ben More (3169ft), the abundance of wildlife including otters, dolphin, porpoise, minke whales. Spectacular Wildlife and Scenery | The Isle of Mull is the second largest island of the Inner Hebrides, off the west coast of Scotland in the council area of Argyll and Bute. Tobermory (meaning “Mary’s Well”) is the capital of the Isle of Mull. It is located in the northeastern part Mull, near the northern entrance of the Sound of Mull. Its population is approximately 700 people. | If you are looking for information about Tobermory click here Isle of Iona click here Oban click here. The Isle of Mull and the neighbouring Island of Iona lie just off the west coast of Scotland, in the United Kingdom. The Isle of Mull has become well known by all who view the BBC programmes Springwatch and Coast. The presenter Gordon Buchanan is from Mull and still has family and a house here. Mull is also now very well known as the home of the CBeebies programme Balamory, based around the coloured houses of Tobermory | For information about the Isle of Mull click here For information about the Tobermory click here. Iona taken from a light aircraft. For the Gaels, Iona is I Chaluim Chille-the isle of Colm Cille, an Irish priest and prince who was to become revered as Saint Columba. A tiny island, of typically Hebridean beauty, it holds a unique place in the story of Scotland and kindles the imagination of thousands who journey there each year. | For information about the rest of the Isle of Mull click here. For information about Iona click here. Tobermory was built as a fishing port in the late 18th century and is now the main town on Mull. After the initial success of these programmes in Britain, Balamory is now reaching a new audience in Australia. The Isle of Mull and Iona have become one of the premier destinations for wildlife watching in the United Kingdom in the last few years. |
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