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what were the causes of cyclone george	<P> acquired March 10, 2007 download large image (4 MB, JPEG, 6672x7784). Tropical Cyclone George came ashore on the remote Pilbara coast of Western Australia on the evening of March 8, 2007, as a very powerful Category 4 storm, with wind speeds as high as 275 kilometers per hour (170 miles per hour). According to the online version of the. <P> Severe Tropical Cyclone (TC) George was both very intense and physically large. George was the most destructive cyclone to affect Port Hedland since TC Joan in 1975. TC George formed on 3 March in the Joseph Bonaparte Gulf. <P> Australian Government Reference Number 267. Tropical Cyclone George crossed the Western Australian coast near Port Hedland on 8 March 2007 as a Category 4 cyclone. Areas that were particularly affected included Port Hedland, the shires of Roebourne and Ashburton, and several mine sites. Cyclone George caused extensive damage to communities in the far north of Western Australia with three fatalities and 20 people injured. <P> George intensified to a Severe Tropical Cyclone (Category 3) on the evening of 7 March and reached Category 5 as it approached the coast. It was still at its maximum intensity when it crossed the coast 50 km northeast of Port Hedland at 10 pm Western Daylight Savings Time (WDT) on Thursday 8 March. <P> Summary. Severe Tropical Cyclone (TC) George was both very intense and physically large. George was the most destructive cyclone to affect Port Hedland since TC Joan in 1975. TC George formed on 3 March in the Joseph Bonaparte Gulf. <P> George, Jacob and Kara were all severe tropical cyclones, George reaching category 5 intensity, Jacob category 3, and Kara category 4. Although not causing a direct impact to land areas, the threat of Jacob and Kara did cause a significant economic impact by disrupting mining and offshore industry activities.	Cyclone George caused extensive damage to communities in the far north of Western Australia with three fatalities and 20 people injured.
what is loam	<P> Overview. Sandy loam soil is a type of soil used in plant beds and pots that require ample drainage for the plants to thrive. Soil types are based on the ratio of materials in the soil. Though soil type is most accurately determined through a soil test, observing the properties of soil can help render clues to determine its type. <P> Loam is soil composed mostly of sand and silt, and a smaller amount of clay (about 40%-40%-20% concentration, respectively). For food production, a loam soil containing a small amount of organic material is considered ideal. The mineral in a loam soil ideally is about 40% sand, 40% silt and 20% clay by weight. The soil's texture, especially its ability to retain nutrients and water are crucial <P> Basically loam is a soil comprised of almost equal amounts of sand and silt and a little less clay. Of the three components, sand particles are the largest. Sand does not hold onto moisture, but it provides good aeration. What Loam does for Plants. Loam is the ideal garden soil. Its texture is porous, allowing water to flow through slowly enough for the plants to access it, but fast enough to avoid water logged, soggy soil. <P> loam. 1. a rich, friable soil containing a relatively equal mixture of sand and silt and a somewhat smaller proportion of clay. 2. a mixture of clay, sand, straw, etc., used in making molds for founding and in plastering walls, stopping holes, etc. 3. earth or soil. <P> Loam. Loam is a classification given to soil that contains relatively balanced amounts of sand, silt and clay. Loam soils typically contain less than 52 percent sand, 28 to 50 percent silt, and between 7 and 20 percent clay. Classification as a loam soil has nothing to do with the organic material it contains or where it is found. A mixture that contains almost equal amounts of silt, sand and clay is referred to simply as loam. Topsoil is the upmost layer of soil, which may be up to 12 inches deep. The surface layer of soil from most landscapes is usually darker in color than the soil beneath it because of the buildup of organic matter within this layer. This organic matter comes from whatever vegetation has decomposed on the soil surface. <P> Identification. Sandy loam soil is a mixture that is generally well-balanced, but has sand as a dominant component. Perfect loamy soil is ideal for most growing, and contains an even mixture of sand, silt and clay in roughly even proportions. Sand, silt and clay are defined by different particle types in soil identification. Sandy loam soil is a type of soil used in plant beds and pots that require ample drainage for the plants to thrive. Soil types are based on the ratio of materials in the soil. Though soil type is most accurately determined through a soil test, observing the properties of soil can help render clues to determine its type. <P> How to Create Loam. Although loam is a combination of sand, silt and clay, adding sand to your clay soil, or vice versa, will not create loam. Doing so will result in something like cement. Creating a loose, loamy, fertile soil is an ongoing process that involves working organic matter into the soil, every year. What Loam does for Plants. Loam is the ideal garden soil. Its texture is porous, allowing water to flow through slowly enough for the plants to access it, but fast enough to avoid water logged, soggy soil. <P> These proportions can vary to a degree, however, and result in different types of loam soils: sandy loam, silty loam, clay loam, sandy clay loam, silty clay loam, and loam. In the USDA textural classification triangle, the only soil that is not predominantly sand, silt, nor clay is called loam. For food production, a loam soil containing a small amount of organic material is considered ideal. The mineral in a loam soil ideally is about 40% sand, 40% silt and 20% clay by weight. The soil's texture, especially its ability to retain nutrients and water are crucial	Loam is soil composed mostly of sand and silt, and a smaller amount of clay.
gene biology definition	<P> Gene. The term gene refers to a functional segment of DNA, which in eukaryotic cell s would be a part of a chromosome in the nucleus of the cell. Gene duplication occurs when an error in DNA replication leads to the duplication of a region of DNA containing a (generally functional) gene. Gene therapy. From Wikipedia, the free encyclopedia. Gene therapy is the use of DNA as a pharmaceutical agent to treat disease. It derives its name from the idea that DNA can be used to supplement or alter genes within an individual's cells as a therapy <P> Definition of Gene Expression. A gene is a small piece of genetic material written in a code and called DNA. Each gene has within it a set of instructions for making molecules that organisms need to survive. Genes themselves cannot be used by an organism. Instead they must be turned into a gene product. Gene expression is the process by which the information contained within a gene becomes a useful product. <P> Definition of GENE for Kids. : a unit of DNA that is usually located on a chromosome and that controls the development of one or more traits and is the basic unit by which genetic information is passed from parent to offspring. <P> gene. A segment of DNA, occupying a specific place on a chromosome, that is the basic unit of heredity. Genes act by directing the synthesis of proteins, which are the main components of cells and are the catalysts of all cellular processes. gene - (genetics) a segment of DNA that is involved in producing a polypeptide chain; it can include regions preceding and following the coding DNA as well as introns between the exons; it is considered a unit of heredity; genes were formerly called factors. cistron, factor. <P> Definition: Genes are segments of DNA located on chromosomes. Genes exist in alternative forms called alleles. Alleles determine distinct traits that can be passed on from parents to offspring. The process by which genes are transmitted was discovered by Gregor Mendel and formulated in what is known as Mendel's law of segregation. <P> Gene. Definition. noun, plural: genes. (cell and molecular biology). The fundamental, physical, and functional unit of heredity. Supplement. It is because a gene is a segment of DNA (on a specific site on a chromosome) that is responsible for the physical and inheritable characteristics or phenotype of an organism. It also specifies the structure of a protein, and an RNA molecule. A gene is formerly called a factor <P> Each gene is a specific segment of DNA, occupying a fixed place on a chromosome. Genes contain the chemical information needed to create different kinds of proteins. gene - (genetics) a segment of DNA that is involved in producing a polypeptide chain; it can include regions preceding and following the coding DNA as well as introns between the exons; it is considered a unit of heredity; genes were formerly called factors. cistron, factor. <P> The term gene refers to a functional segment of DNA, which in eukaryotic cell s would be a part of a chromosome. ~ : The process by which genes express themselves: in the cell, ge ne expression results in the manufacture of proteins that determine an organ ism's character istics. Gene expression is the process by which the inheritable information in a gene, such as the DNA sequence, is made into a functional gene product, such as protein or RNA. Gene expression is the process of taking genetic information in DNA and trans lating it into biological functions such as protein synthesis.	The fundamental, physical, and functional unit of heredity.
what did the voting rights act accomplish	<P> Lyndon Johnson, who became president following the assassination of John F. Kennedy, sailed to a landslide victory in the 1964 presidential election. After the election, Johnson moved to do something about voting rights. President Lyndon Johnson signs the Voting Rights Act of 1965. (Wikimedia Commons). Southern states had historically deprived the vote from millions of African-American citizens. Like the Civil Rights Act of 1964, this legislation came under swift legal attack. But the Supreme Court in 1966 in South Carolina v. Katzenbach rejected this challenge. It ruled that the act fell under Congress’s power to enforce the requirements of the 15th Amendment, which had been ratified in 1870. <P> The Voting Rights Act of 1965 was designed to protect the voting rights of disenfranchised citizens, particularly African-Americans in the South, as outlined in the 15th A … mendment. It is one of the most important pieces of legislation passed during the civil rights era. Joshua Polsky. The Voting Rights Act of 1965 eliminated literacy tests and stated that federal examiners could enroll voters who had been denied suffrage by local officials. It was a compan … ion bill to the Civil Rights Act of 1964. <P> The legislation that Johnson referred to was the Voting Rights Act of 1965, which was introduced in Congress two days later while civil rights leaders, now under the protection of federal troops, led a march of 25,000 people from Selma to Montgomery. The Voting Rights Act of 1965 was introduced in Congress on March 17, 1965 as S. 1564, and it was jointly sponsored by Senate Majority Leader Mike Mansfield (D-MT) and Senate Minority Leader Everett Dirksen (R-IL), both of whom had worked with Attorney General Katzenbach to draft the bill's language. <P> President Johnson’s support of the Voting Rights Act of 1965 reflected the pressures from the massive civil rights protests of the early and middle 1960s. As in the Civil Rights Act of 1964, Johnson’s political skills worked wonders. He was aided by highly publicized voting-rights demonstrations throughout the South. Like the Civil Rights Act of 1964, this legislation came under swift legal attack. But the Supreme Court in 1966 in South Carolina v. Katzenbach rejected this challenge. It ruled that the act fell under Congress’s power to enforce the requirements of the 15th Amendment, which had been ratified in 1870. <P> Although guaranteed by the 15th Amendment, the right to vote had been denied blacks through discriminatory legal strategies, economic intimidation, and physical threats. The civil rights movement had focused on voting rights, particularly during Freedom Summer in Mississippi in 1964. Like the Civil Rights Act of 1964, this legislation came under swift legal attack. But the Supreme Court in 1966 in South Carolina v. Katzenbach rejected this challenge. It ruled that the act fell under Congress’s power to enforce the requirements of the 15th Amendment, which had been ratified in 1870. <P> Introduction. The Voting Rights Act, signed into law by President Lyndon Johnson (1908-73) on August 6, 1965, aimed to overcome legal barriers at the state and local levels that prevented African Americans from exercising their right to vote under the 15th Amendment (1870) to the Constitution of the United States. In 1965, at the time of the passage of the Voting Rights Act, there were six African-American members of the U.S. House of Representativesandno blacks in the U.S. Senate. By 1971, there were 13 members of the House and one black member of the Senate <P> This act was signed into law on August 6, 1965, by President Lyndon Johnson. It outlawed the discriminatory voting practices adopted in many southern states after the Civil War, including literacy tests as a prerequisite to voting. Because the Voting Rights Act of 1965 was the most significant statutory change in the relationship between the Federal and state governments in the area of voting since the Reconstruction period following the Civil War, it was immediately challenged in the courts. <P> It was signed into law by President Lyndon B. Johnson during the height of the American Civil Rights Movement on August 6, 1965, and Congress later amended the Act five times to expand its protections. The Voting Rights Act of 1965 was introduced in Congress on March 17, 1965 as S. 1564, and it was jointly sponsored by Senate Majority Leader Mike Mansfield (D-MT) and Senate Minority Leader Everett Dirksen (R-IL), both of whom had worked with Attorney General Katzenbach to draft the bill's language. <P> The Voting Rights Act of 1965 was designed to protect the voting rights of disenfranchised citizens, particularly African-Americans in the South, as outlined in the 15th A … mendment. It is one of the most important pieces of legislation passed during the civil rights era. The Voting Rights Act of 1965 was a major step forward in Civil Right for African-American. Although the won the right to vote with the 14th Amendment, the VRA helped end … racial discrimination in voting.	It is signed into law by President Lyndon Johnson (1908-73) on August 6, 1965, aimed to overcome legal barriers at the state and local levels that prevented African Americans from exercising their right to vote under the 15th Amendment (1870) to the Constitution of the United States.
when can you give a baby almond milk	<P> Report Abuse. no i would not give her almond milk because 1- they aren't supposed to have regular cows milk until 1 year because thats when their digestive systems can handle it and 2- almond is a nut and with how severe nut allergies are, I wouldn't introduce any type of nut until the DR okay's it around 18 months. Report Abuse. I would wait until a year old to introduce any kind of milk. You should tlak to her pediatrician about this. Babies digestive tract is very sensitive at this point, and I'm not sure it would be wise. I don't know much about almond milk though, so don't quote me. <P> Other Mom’s prefer to give their child soy milk and soy products. Cow’s milk is the most readily available source of milk, but with a little investigation you can find other substitutes you are happy giving to your child. If you are worried about transitioning your baby to milk of any kind speak to a nutritionist. Before your child’s first birthday, the nutrients they receive from formula or breast milk is the exact kind and amount to remain healthy. 1 Wait until they are 2 years old. 2 Nuts are among the most common allergy causing foods. 3 Almond milk is not sufficient nourishment for a growing child. <P> So to give him almond milk means he's not getting breastmilk (which would be great for supplying the proper fats) or whole cows milk. You can allow him to taste it but do not rely on it, he needs fat until 2 years, almond milk does not supply what he needs so do no substitute it. Almond milk doesn't have the fat he needs for brain development, so make sure he is getting full fat dairy elsewhere-cheese, yogurt, etc. Almond breeze is my favorite-just give him the original kind, too much added sugar in the vanilla. <P> - I would not give him almond milk full time, only when he is not drinking enough fluids. He LOVES almond milk even more then juice! - He was breast fed until he was 9 months, he also drinks whole milk (maybe once a day) Apple juice once in a while, and mainly drinks Enfamil Stage 2 toddler formula. Almond milk doesn't have the fat he needs for brain development, so make sure he is getting full fat dairy elsewhere-cheese, yogurt, etc. Almond breeze is my favorite-just give him the original kind, too much added sugar in the vanilla. <P> I'd like to start giving my 9 months old baby a little bit of almond milk (in her oatmeal or as a little snack mixed with banana). I am still breastfeeding her. My mom drank cows milk when she got home from the hospital.Not suggesting this at all but just pointing out rules change. I recommend asking someone who already gives there child almond milk before the age of 2. If you have any inclination that your child might have a nut allergy, then I would not. <P> A lactose intolerance is where a person has a problem digesting lactose which is the sugar in milk. 1 An allergy to the protein in milk will have a child developing symptoms from even a small amount of milk. 2 An intolerance to the sugar in milk may mean a child can still comfortably consume small amounts. Before your child’s first birthday, the nutrients they receive from formula or breast milk is the exact kind and amount to remain healthy. 1 Wait until they are 2 years old. 2 Nuts are among the most common allergy causing foods. 3 Almond milk is not sufficient nourishment for a growing child. <P> He LOVES almond milk even more then juice! - He was breast fed until he was 9 months, he also drinks whole milk (maybe once a day) Apple juice once in a while, and mainly drinks... show more-He Just turned one-He is healthy-I would not give him almond milk full time, only when he is not drinking enough fluids. Almond milk doesn't have the fat he needs for brain development, so make sure he is getting full fat dairy elsewhere-cheese, yogurt, etc. Almond breeze is my favorite-just give him the original kind, too much added sugar in the vanilla. <P> Almond milk is easy to store and can be stored on the shelf until its opened, then it should be stored in the refrigerator. Almond Milk As A Regular Milk Substitute. If your child does not like the taste of milk, if they have a dairy allergy, or if your family is vegan, almond milk can be substituted for milk. You will need to be sure to have a diet plan which includes enough good fats, vitamins and nutrients which would otherwise come from traditional full fat milk. Before your child’s first birthday, the nutrients they receive from formula or breast milk is the exact kind and amount to remain healthy. 1 Wait until they are 2 years old. 2 Nuts are among the most common allergy causing foods. 3 Almond milk is not sufficient nourishment for a growing child.	After 2 years
how long does the hep a vaccine last for children	<P> Two doses of the hepatitis A vaccine are usually given to children when they are between 12 and 24 months old. All hepatitis A vaccines use in Australia are killed vaccines. To find out more, read our information on how vaccines are made. <P> Hepatitis A vaccination is recommended for all children at age 1 year, for persons who are at increased risk for infection, for persons who are at increased risk for complications from Hepatitis A, and for any person wishing to obtain immunity. Persons who have recently been exposed to HAV and who have not been vaccinated previously should be administered a single dose of single-antigen Hepatitis A vaccine or IG (0.02 mL/kg) as soon as possible, within 2 weeks after exposure. <P> A. I took the Hep A vaccine and then six months later took a booster and it supposedly lasts for life. But you have to get the booster. I read that Hep B vaccine is similar. Here's some more info that I pulled out of an article: Both the vaccines for hepatitis A and the vaccines for hepatitis B are highly effective. In studies of the four vaccines used for hepatitis A, nearly 100% of all adults who receive one develop protective levels of antibodies within one month of receiving a single dose. <P> How long does hepatitis A vaccine protect you? Estimates for long-term protection for fully vaccinat-ed people (i.e., full two-dose series) suggest that pro-tection from hepatitis A virus infection could last for at least 25 years in adults and at least 14–20 years in children. For people older than age 40 years, IG is preferred, but hepatitis A vaccine can be used if IG is unavailable. IG should be given to children younger than 12 months of age, immunocompro-mised people, people who have diagnosed chronic liver disease, and people for whom vaccine is con-traindicated. <P> In some people, symptoms of hepatitis A recur in 6–9 months; this condition is called relaps-ing hepatitis A. How long do symptoms last? Symptoms usually last less than 2 months; however, a few people are ill for as long as 6 months. How serious is hepatitis A? Hepatitis A can be quite serious. Among reported cases of hepatitis A (CDC, 2009) nearly 40% required hospitalization. For people older than age 40 years, IG is preferred, but hepatitis A vaccine can be used if IG is unavailable. IG should be given to children younger than 12 months of age, immunocompro-mised people, people who have diagnosed chronic liver disease, and people for whom vaccine is con-traindicated. <P> 1 All children living in the United States are recommended to get the hepatitis A vaccine. 2 All household contacts of international adoptees. 3 Those traveling to get the child should be immunized at least two weeks before departure. 4 Anyone who wants to avoid infection with hepatitis A. <P> Vaccination with the full, two-dose series of Hepatitis A vaccine is the best way to prevent HAV infection. Hepatitis A vaccine has been licensed in the United States for use in persons 12 months of age and older. Persons who have recently been exposed to HAV and who have not been vaccinated previously should be administered a single dose of single-antigen Hepatitis A vaccine or IG (0.02 mL/kg) as soon as possible, within 2 weeks after exposure. <P> The initial dose of the vaccine should be followed up by a booster six to twelve months later. Protection against hepatitis A begins approximately two to four weeks after the initial vaccination. Protection is proven to last at least 15 years and is estimated to last at least 25 years if the full course is administered. Hepatitis A vaccine is a vaccine against the hepatitis A virus. The first successful vaccine against it was invented by Maurice Hilleman at Merck. The vaccine protects against the virus in more than 95% of cases and provides protection from the virus for at least fifteen years. <P> All children at age 1 year (i.e., 12–23 months). Children who have not been vaccinated by age 2 can be vaccinated at subsequent visits. Children and adolescents ages 2–18 who live in states or communities where routine Hepatitis A vaccination has been implemented because of high disease incidence. Persons who have recently been exposed to HAV and who have not been vaccinated previously should be administered a single dose of single-antigen Hepatitis A vaccine or IG (0.02 mL/kg) as soon as possible, within 2 weeks after exposure.	Around 14-20 years.
quiz about the circumference of a circle	<P> 6. The area of a circle is 729 m 2. Find the radius and diameter of the circle. Round answers to the hundredths. radius = __________ diameter = __________ 7. Find the area of the sector (shaded region) if the radius is 25 cm and the angle is 315 °. Show work below.Final Answer is _______________________8. Then use your calculator to find the approximations to the hundredths. 1. The radius of the circle is 24 ft.Area = __________________________________Circumference = _________________________ 2. The diameter of the circle is 46 mm.Area = __________________________________Circumference = __________________________3. The circumference of a circle is 60 π m. Find the radius and diameter of the circle. radius = __________ diameter = __________4. The circumference of a circle is 592 mm. Find the radius and diameter of the circle. Round answers to the hundredths. radius = __________ diameter = __________5 <P> So we can write the formula for the circumference of a circle as: C = π d. However, the diameter is equal to 2 × radius, (2r), so we can also write this formula as: C = 2 π r. It does not matter which of these formulae you use. But you must be careful to use the correct length for the formula (the radius or diameter). <P> Leave your answers in terms of pi. 1. 2. 3. Area = Circumference = Area = Circumference = Area = Circumference = Directions: Find the Sector Area of the shaded part and Length of the Arc defined by the radii and the central angle given. Give your answer in terms of and a simplified fraction. <P> Diameter: Circumference: All about Circles-Tutorial. The distance all around a circle is called the Circumference and is referred to in formulas as C. The distance from one side of the circle to the other is referred to as the Diameter of a circle and is identified as a d in formulas. The Radius of a circle is the distance from the center of the circle to the outside edge. Thus the diameter of the circle is twice the size of the radius of a circle. The Area of a circle refers to the number of square units within the circle. If you know the area, diameter or the circumference, you will be able to use this tool to determine the missing value <P> Find the area of a circle with a radius of 3.25 in. 9. Round to the nearest tenth. Find the area of a circle with a diameter of 6.8 meters. D. 18.5. 2. Round to the nearest tenth. Find the circumference of a circle with a radius of 51.25 inches. 3. Round to the nearest tenth. Find the circumference of a circle with a radius of 30.9 centimeters. <P> Using the Equation with the Radius. Let's see the two ways we can use the equation of the circumference using the radius. The first way is if we are asked to find the circumference given the radius of the circle. For example, our problem has given us a radius of 6 inches. We will use the equation for the circumference using the radius. We will plug in our radius of 6 inches into the r variable. We will also replace the pi with 3.14. <P> Circumference Quiz. This quiz is all about circumference. Sometimes the radius is given and sometimes the diameter is given. See how well you do on this online quiz!	30.9 centimeters
obsession psychology definition	<P> Psychology of obsession. The definition of obsession is: the inability of a person to stop thinking about a particular topic or feeling a certain emotion without a high amount of anxiety. When obsessed, an individual continues the obsession in order to avoid the consequent anxiety. (1). There are different types of obsessions. <P> Obsession. In ' love ' terms, Obsession is when you are trying to control someone that you think you are in love with. You get them or try to get them, to do what you want them to do. If you break up with them you get all angry and want to destroy their lives and hurt them (inside). <P> An obsession is the inability of a person to stop thinking about a particular topic or feeling a certain emotion without a high amount of anxiety. <P> OBSESSION: Mark's obsession with checking that the door is locked several times over, the stove is off, the mail was checked, and so on, are all symptoms of a larger disorder-OCD.. No related posts.	The inability of a person to stop thinking about a particular topic or feeling a certain emotion without a high amount of anxiety.
whos the girl in terminator genisys	<P> Over the weekend, Terminator Genisys grossed $28.7 million to take the third spot at the box office, behind Jurassic World and Inside Out. FYI: Emilia is wearing Dior. 10+ pictures inside of Emilia Clarke and Arnold Schwarzenegger hitting the Terminator Genisys premiere in Japan…. Emilia Clarke is red hot while attending the premiere of her new film Terminator Genisys held at the Roppongi Hills Arena on Monday (July 6) in Tokyo, Japan. <P> Jai Courtney, who plays Sarah's protector Kyle Reese (and eventual father to Jason Clarke 's John Connor), revealed that this role was the first time a character he played has fallen in love on screen. I had never fallen in love on screen before. <P> When John Connor (Jason Clarke), leader of the human resistance, sends Sgt. Kyle Reese (Jai Courtney) back to 1984 to protect Sarah Connor (Emilia Clarke) and safeguard the future, an unexpected turn of events creates a fractured timeline. <P> On the run from the Terminator, Reese and Sarah share a night of intimacy, in which her future son and human leader John Connor is conceived. However, Reese's life is cut short when both he and Sarah are forced to confront the Terminator. <P> She was portrayed by Linda Hamilton in The Terminator and Terminator 2: Judgment Day, by Lena Headey in Terminator: The Sarah Connor Chronicles, and by Emilia Clarke in Terminator Genisys. <P> Sarah Jeanette Connor is a fictional character in the Terminator franchise. She appears as the protagonist of The Terminator, Terminator 2: Judgment Day and Terminator Genisys, as well as the television series Terminator: The Sarah Connor Chronicles.	Emilia Clarke
how to get music off of ipad onto computer	<P> 1 Download iExplorer from here (free for Mac OS X and Windows) and install it. 2 Connect the iPhone, iPad, or iPod to the computer by USB. 3 Launch iExplorer and click the arrow next to the iOS devices name, then click the arrow next to “Media” and then again next to “iTunes_Control”. Importing the Copied Music into iTunes. Assuming you want the music you just copied from the iPod or iPhone imported into iTunes, this is what you need to do: 1 Disconnect the iPhone, iPad, iPod from the computer and relaunch iTunes. 2 Open Preferences and click on “Advanced <P> 1 Reinstall your system or iTunes library; 2 Retrieve your music, videos and photos from your iPod and save them to your computer; 3 Share your iPod contents with friends and family; 4 Restore your songs, movies and photos to iTunes in the event your system crashes. iCopyBot is there when you need to: 1 <P> This process will copy all music from the device to a Mac or Windows PC: 1 Turn off automatic syncing in iTunes. 2 Download iExplorer from here (free for Mac OS X and Windows) and install it. 3 Connect the iPhone, iPad, or iPod to the computer by USB. Importing the Copied Music into iTunes. Assuming you want the music you just copied from the iPod or iPhone imported into iTunes, this is what you need to do: 1 Disconnect the iPhone, iPad, iPod from the computer and relaunch iTunes. 2 Open Preferences and click on “Advanced” <P> I don't know I should how to Get Music off iPad onto PC,This is a problem bothering me,Please give me some suggestion to Copy Music from iPad to PC,Hope you can help me to transfer music from iPad to PC and success,Thanks!Finally,Best Wish:Merry Christmas! iPad, iOS 7. Level 9 (66,520 points). You can use some simple tools to complete the problems about how to transfer music from iPad to computer. Then you will save a lot of unnecessary trouble! Some tools can help you transfer iPad data such as music,sms, contacts and more easily! There are many popular ones in the market! <P> 1 Turn off automatic syncing in iTunes. 2 Download iExplorer from here (free for Mac OS X and Windows) and install it. 3 Connect the iPhone, iPad, or iPod to the computer by USB. 4 Launch iExplorer and click the arrow next to the iOS devices name, then click the arrow next to “Media” and then again next to “iTunes_Control”. Importing the Copied Music into iTunes. Assuming you want the music you just copied from the iPod or iPhone imported into iTunes, this is what you need to do: 1 Disconnect the iPhone, iPad, iPod from the computer and relaunch iTunes. 2 Open Preferences and click on “Advanced <P> 1 Click the Music button on the Device Overview screen (or Media Library in the left panel). 2 Once your media loads, choose from the following: - 3 Select any in the main window (hold Control (PC) or Command (Mac) to select more than one) and use the Transfer from Device menu. Follow these steps to transfer music from an iPhone or iPad to your computer: 1 Connect your iPhone, iPod or iPad & open iExplorer. 2 Click the Music button on the Device Overview screen (or Media Library in the left panel). 3 <P> Need your help, thanks! Answer: To get music off iPad onto Computer, an iPod to Computer Transfer is needed here. iStonsoft iPad/iPhone/iPod to Computer Transfer does a good job. With it, you can get music off iPad to Computer and get photos, videos, books & more off iPad to PC with only 3 steps. Now check the steps to get music off iPad onto computer step by step. Step 1: Run Software. Run iStonsoft iPad/iPhone/iPod to Computer Transfer and connect your iPad to your PC with data cable. Step 2: Choose Pictures. <P> Get Music Off Your iPad to Computer. Tags: Copy music from iPad to computer, iPad to Mac, iPad to PC. Apple’s iTunes software makes it dead-simple to copy music onto your iPad, but when it comes to moving files in the opposite direction– from the iPad to your computer –there’s no obvious solution. <P> Guide: How to get Music off iPad mini onto Computer. Now check the steps to get music off iPad onto computer step by step. Step 1: Run Software. Run iStonsoft iPad/iPhone/iPod to Computer Transfer and connect your iPad to your PC with data cable. Step 2: Choose Pictures. Click the Music item on the left navigation bar and select the music files you want to get off iPad to computer. Step 3: Start Transf	Run Software. Run iPad/iPhone/iPod to Computer Transfer and connect your iPad to your PC with data cable.Step 2: Choose Pictures. Click the Music item on the left navigation bar and select the music files you want to get off iPad to computer.
how long for strep to test positive	<P> For instance, results from a rapid strep test are available within 10 to 15 minutes, and results from a throat culture may take 1 to 2 days. A throat culture is more accurate. 1 A negative rapid strep test result can mean there are no strep bacteria present. 2 If the rapid strep test result is positive, a throat culture isn't needed. Your doctor may confirm the results of the rapid strep test with a throat culture. Current treatment guidelines recommend that your doctor confirm strep throat with a lab test, such as a throat culture, and not diagnose strep throat just from your symptoms. <P> The difference between the rapid and regular strep test is that the regular test allows more of the bacteria to grow out of the reagent in a 24 hour or longer period. I can't remember how long the regular test takes. I know it is at least 18 hours tho. The rapid test is not very reliable in my opinion. <P> Normal. A normal or negative test means that strep bacteria may not be present. 1 Sometimes, negative results are wrong. 2 This means that you may have a negative rapid strep test result and still have strep throat. 3 A throat culture may be done if the rapid strep test result is negative. Rapid Strep Test for Strep Throat. Guide. For a rapid strep test, the throat and tonsils are swabbed to collect bacteria from the infected area for testing. The bacteria are analyzed to see whether Group A strep (streptococcal) bacteria are causing the sore throat. <P> It may help to discuss with your doctor the advantages and disadvantages of each test. For instance, results from a rapid strep test are available within 10 to 15 minutes, and results from a throat culture may take 1 to 2 days. A throat culture is more accurate. 1 A negative rapid strep test result can mean there are no strep bacteria present. <P> Since they naturally live in the gastrointestinal tract, the bacteria can come back after taking antibiotics. A woman may test positive at certain times and negative at others. This is why it is important for all pregnant women to be tested for group B strep between 35 to 37 weeks of every pregnancy. Group B streptococcus (GBS) is a type of bacterial infection that can be found in a pregnant woman’s vagina or rectum. This bacteria is normally found in the vagina and/or rectum of about 25% of all healthy, adult women. Women who test positive for GBS are said to be colonized. <P> 1 If the rapid strep test result is negative but strep throat is still suspected, your doctor may order a throat culture to verify the results. 2 If the rapid strep test result is positive, a throat culture isn't needed. 3 Antibiotic treatment can be started right away. Your doctor may confirm the results of the rapid strep test with a throat culture. Current treatment guidelines recommend that your doctor confirm strep throat with a lab test, such as a throat culture, and not diagnose strep throat just from your symptoms. <P> If the test is positive, your healthcare professional can prescribe antibiotics. If the strep test is negative, but your clinician still strongly suspects you have this infection, then they can take a throat culture swab to test for the bacteria. <P> A positive rapid strep test indicates the presence of group A streptococci, the bacteria that cause strep throat. A negative rapid test indicates that the affected person probably does not have strep throat, but a throat culture may be performed for confirmation, especially among children and adolescents. If the throat culture is positive for group A streptococci, then the person tested does have strep throat. A rapid strep test, also known as a rapid antigen detection test (RADT), can detect group A strep antigens. Results are available in 10-20 minutes. Recently, the U.S. Food and Drug Administration (FDA) approved molecular tests that can detect genetic material from group A strep bacteria in throat swab specimens in less than 8 minutes <P> About 25% of pregnant women carry group B strep in the rectum or vagina. Those women are considered group B strep positive. A woman may test positive at certain times and not at others. That’s why it’s important for all pregnant women to be tested for group B strep between 35 to 37 weeks of every pregnancy. A pregnant woman who tests positive for group B strep and gets antibiotics during labor can feel confident knowing that she has only a 1 in 4,000 chance of delivering a baby with group B strep disease.	10 to 15 minutes
what temperature should a freezer hold	<P> 1 Fridge: put the thermometer in a glass of water. 2 Check the temperature during the first door opening after not using the fridge for 8 hours or more (such as overnight). 3 Freezer: put thermometer between two bags of vegetables and as above check after 8 hours or more. <P> To measure the temperature: 1 Fridge: put the thermometer in a glass of water. 2 Check the temperature during the first door opening after not using the fridge for 8 hours or more (such as overnight). 3 Freezer: put thermometer between two bags of vegetables and as above check after 8 hours or more. <P> The temperature of a household freezer should be set at a steady -18/-19C, and industrial freezer should be set at around -21/-22C. 1 person found this useful. <P> 1 Keep the refrigerator temperature at or below 40° F (4° C). 2 The freezer temperature should be 0° F (-18° C). 3 Check temperatures periodically. 4 Appliance thermometers are the best way of knowing these temperatures and are generally inexpensive. <P> 1 Also, when putting food away, don't crowd the refrigerator or freezer so tightly that air can't circulate. 2 Keep your appliances at the proper temperatures. 3 Keep the refrigerator temperature at or below 40° F (4° C). 4 The freezer temperature should be 0° F (-18° C). 5 Check temperatures periodically. <P> The ideal freezer temperature is 0 Fahrenheit (-18 Celsius) for storing food. And -10 Fahrenheit (-23 Celsius) is recommended when freezing food. The faster food freezes the smaller the ice crystals. The smaller the ice crystals the smaller the change in texture and better quality when thawed.	Should be 0° F (-18° C).
what does condenser mean	<P> reflux condenser-condenser such that vapor over a boiling liquid is condensed and flows back into the vessel to prevent its contents from boiling dry. still-an apparatus used for the distillation of liquids; consists of a vessel in which a substance is vaporized by heat and a condenser where the vapor is condensed. <P> Air Condenser. A static condenser whose dielectric is air. The capacity of an air condenser in farads is equal to A / (4.452E12 * t) in which A is the area of one sheet or sum of the areas of one set of connected sheets in square inches and t is the thickness of the layer of air separating them. <P> Condenser Microphones. Condenser means capacitor, an electronic component which stores energy in the form of an electrostatic field. The term condenser is actually obsolete but has stuck as the name for this type of microphone, which uses a capacitor to convert acoustical energy into electrical energy. <P> Hyponyms (each of the following is a kind of condenser): Liebig condenser (a condenser: during distillation the vapor passes through a tube that is cooled by water). reflux condenser (condenser such that vapor over a boiling liquid is condensed and flows back into the vessel to prevent its contents from boiling dry). Holonyms (condenser is a part of...):	An electronic component which stores energy in the form of an electrostatic field.
how much should homeowners insurance cost	<P> The first step in determining how much insurance you need is to make an analysis of the value of your home (excluding the value of the land) and the personal property within it. In determining the value of your home, you must calculate how much it will cost to replace the home if it were completely destroyed. <P> A homeowners insurance policy provides homeowners with financial compensation should they suffer losses related to their home. It would pay for the structure and contents of your home if they were damaged or destroyed, as well as legal costs if someone is injured in your home or on your property. Make sure your homeowners policy has enough liability coverage to cover the total dollar amount of your financial assets, like your home, retirement accounts, investments, and anything else worth money. You may also need to add onto the policy. <P> Most homeowners pay about 1000 to 1200 dollers a year for homeowners insurance. Also it is a lot cheaper if you have all your insurance under one company because you will get a discount. For example, if you have your car ins., heath ins. Next. Whats a good estimate for how much my homeowners insurance would be if I'm a first time buyer, my home is around 300,000. and I have good credit, plus the home is in a brand new developement. <P> How Much Does It Cost? The average yearly premium cost for U.S. homeowners insurance in 2008 (as of 2010, the latest year for which data is available) was $791, according the National Association of Insurance Commissioners, but premiums vary widely and depend on multiple factors. 1 While policies start in the range of $100,000 coverage, experts recommend having at least $300,000 worth of coverage according to the Insurance Information Institute. 2 For extra protection, a few hundred dollars more in premium may buy you an extra $1 million or more through umbrella coverage. <P> Average Cost is Under $500 Annually. According to an article as CNNMoney, the average annual cost of homeowners insurance is $481. The website Mortgage Q and A claims a rough estimate for homeowner's insurance is .3 percent to 1 percent of the loan amount. <P> Estimates. According to the Federal Reserve Bureau, the average cost of an annual premium for homeowners insurance is between $300 and $1,000. For most homeowners, the annual costs for a homeowners insurance policy can be estimated by dividing the value of the home by 1,000, then multiplying the result by $3.50. One factor in the cost of homeowners insurance is what circumstances are covered under a particular policy. Some examples of typical disasters and incidents that are covered under a basic homeowners insurance policy are fire, vandalism and wind, says the Federal Reserve Board. <P> Insuring expensive items with floaters/endorsements. There may be limits on how much coverage you get for expensive items such as jewelry, silverware and furs. Generally, there is a limit on jewelry for $1,000 to $2,000. You should ask your agent or look it up in your policy. The cost of an umbrella policy depends on how much underlying insurance you have and the kind of risk you represent. The greater the underlying liability coverage, the cheaper the policy. This is becaue you would be the less likely to need the additional insurance.	Between $300 and $1,000.
average college basketball players scholarship tuition	<P> Scholarships. NCAA Divisions I and II schools provide more than $2.7 billion in athletics scholarships annually to more than 150,000 student-athletes. Division III schools do not offer athletics scholarships. Only about two-percent of high school athletes are awarded athletics scholarships to compete in college. <P> The NCAA closely regulates the number of scholarships that a Division I school can offer. Division I women’s basketball programs are limited to 13 full tuition scholarships, while the men’s programs are capped at 15 full ride scholarships. That means only 13 women and 15 men will receive Division I basketball scholarships in any given year. They also closely regulate the number of basketball scholarships any given school can offer. These restrictions add to the competitive nature of athletic scholarships, and only the very best players will make it to college on a full or partial scholarship. <P> There are 221 NJCAA Division I schools, offering 216 men’s basketball programs and 179 womens basketball programs. Each member school is limited to 15 full tuition scholarship for both its men’s and women’s teams. They also closely regulate the number of basketball scholarships any given school can offer. These restrictions add to the competitive nature of athletic scholarships, and only the very best players will make it to college on a full or partial scholarship. <P> For years, college basketball fans and March Madness enthusiasts have been saying that college basketball players should get paid for what they do. But yesterday, USA Today revealed that they already do. In fact, college basketball players are making roughly $120,000 a year. Grant-in-aid: $27,923 – Defined as scholarships players receive to help fund tuition, room and board, books, travel expenses, etc. Coaching: $70,000 – Determined by dividing a coach’s salary into fifteenths; a fifteenth for each player. <P> There are over 1 million men’s and women’s high school basketball players in the USA and thousands more internationally. On average, only 50,000 are able to receive basketball scholarships. Having a high quality skills and highlight videos is a prerequisite to having a coach interested in recruiting you. College basketball players currently on scholarship got started in the process very early. Basketball players begin the recruiting process by the time they are in the 9th grade, and are continually checking-in with coaches throughout high school so that coaches can watch their development. <P> That is because baseball scholarships are completely different than football and basketball. You see, all NCAA Division 1 football and basketball players that are on scholarship (there are a few walk-ons) receive a full scholarship. No questions asked. Full tuition paid, all fees paid, all books bought and free room and board. <P> The cost of college tuition is soaring, and the NCAA reports that the average college student graduates with $35,200 in debt. At ncaa.org, it says that the average value per year of a full scholarship is $15,000 for an in-state public school, $25,000 for an out-of-state public school and $35,000 at a private school. But many families decide it’s not worth the expense of club sports to chase a scholarship. The NCAA said that its Division I and II schools award approximately $2.7 billion in athletic scholarships each year and that 150,574 student-athletes (89,640 in Division I) received some kind of athletic-based financial aid. <P> There are 290 men’s programs, and 291 women’s programs, in Division II basketball. Each member college and university in Division II is restricted to 10 full ride scholarships for their men’s program, and 10 full ride scholarships for their women’s program. They also closely regulate the number of basketball scholarships any given school can offer. These restrictions add to the competitive nature of athletic scholarships, and only the very best players will make it to college on a full or partial scholarship.	Average value per year of a full scholarship is $15,000 for an in-state public school, $25,000 for an out-of-state public school and $35,000 at private school.
what frequency range is z-wave	<P> As of 2015, Z-Wave is supported by over 325 manufacturers worldwide and appears in a broad range of consumer and commercial products in the US, Europe and Asia. The lower layers, MAC and PHY, are described by ITU-T G.9959 and fully backwards compatible. Z-Wave works in the industrial, scientific, and medical (ISM) band on a single frequency using frequency-shift keying (FSK) radio. The throughput is up to 100 kbit/s (9600 bit/s using older series chips) and suitable for control and sensor applications. <P> Z-Wave is designed to provide reliable, low-latency transmission of small data packets at data rates up to 100kbit/s, unlike Wi-Fi and other IEEE 802.11 -based wireless LAN systems that are designed primarily for high data rates. Z-Wave operates in the sub-gigahertz frequency range, around 900 MHz. This band competes with some cordless telephones and other consumer electronics devices, but avoids interference with Wi-Fi, Bluetooth and other systems that operate on the crowded 2.4 GHz band. Z-Wave works in the industrial, scientific, and medical (ISM) band on a single frequency using frequency-shift keying (FSK) radio. The throughput is up to 100 kbit/s (9600 bit/s using older series chips) and suitable for control and sensor applications. <P> The ZigBee and Z-Wave short-range wireless technologies are used for remote monitoring and control. However, their specifications and applications are different. Summary. ZigBee and Z-Wave target the same general applications. Of the two, ZigBee is by far the more versatile since it can be configured for virtually any short-range wireless task. Profiles are readily available to minimize development time for common <P> The advantage of using a sub 1GHz frequency is that Z-Wave is less interference prone compared to ZigBee, although in a normal home environment, both should work just fine. The other thing that differs between ZigBee and Z-Wave is the transmission range. We’ve generally found ZigBee to offer better range than Z-Wave, regardless of the higher frequency which should technically mean shorter range. Z-Wave is in general rated at 30m/100 ft vs 100m/330 ft for ZigBee, both in an open space. Both technologies allow for range extenders to be used <P> Z-Wave. Compared to WiFi and ZigBee, Z-Wave is a new kid on the block, born in the late 2000s, thanks to work by several new tech companies creating a standard for an even more limited set of products. Even more recently, it was adopted as a new G.9959 standard by the International Telecommunications Union. <P> Because Z-Wave operates apart from the 2.4 GHz frequency of 802.11 based wireless systems, it is largely impervious to interference from common household wireless electronics, such as Wi-Fi routers, cordless telephones and Bluetooth devices that work in the same frequency range. <P> It also means that Z-Wave devices have a greater signal range. The range of a Z-Wave device is influenced by a number of factors, first being the presence of walls in the vicinity. (More: Locating Home Automation Devices). Typical reported ranges are around 30 meters (90 feet) indoors and 100 meters (300 feet) in the open air. Extending the normal range of these products is possible simply by adding more Z-Wave devices to the network. Z-Wave Operating Characteristics. Z-Wave devices don't use the same frequency as other home devices like wireless phones, which typically operate at 2.4 Ghz. The frequency used by Z-Wave varies based on country; however, in the United States Z-Wave operates at 908.42 Mhz. <P> For a given power level of 0 dBm, Z-Wave’s range is greater than ZigBee simply because the lower operating frequency supports it with pure physics (Friis formula). That also translates into a more reliable connection in some applications. Summary. ZigBee and Z-Wave target the same general applications. Of the two, ZigBee is by far the more versatile since it can be configured for virtually any short-range wireless task. Profiles are readily available to minimize development time for common	908.42 Mhz
how long can you keep leftovers in the fridge	<P> Your goal is to minimize the time a food is in the danger zone — between 40 and 140 F (4 and 60 C) — when bacteria can quickly multiply. When you're ready to eat leftovers, reheat them on the stove, in the oven or in the microwave until the internal temperature reaches 165 F (74 C). Because they may not get hot enough, slow cookers and chafing dishes aren't recommended for reheating leftovers. <P> You can refrigerate them for up to 5 days as long as they are stored properly — wrapped in a paper towel and then sealed inside a plastic bag. Fresh Beans/Peas: Depending on the variety, they can be kept, tightly wrapped, in the refrigerator for 3-5 days. These types of cheeses can be kept for 2-3 weeks in the refrigerator. (They don’t need to be in the coldest part of the refrigerator.). Poultry/Ground Meats/Stew Meats/Lamb or Pork Chops: These raw ingredients can be kept, wrapped well, in the refrigerator for 1-2 days. <P> First, within two hours after dinner has been served, make sure to pack up leftovers right away and store in the refrigerator. For every 20 minutes over two hours your food sits at room temperature, the level of bacteria doubles in quantity, so don’t procrastinate! Leftovers can safely keep for 3 to 4 days in the refrigerator, or 3 to 4 months in the freezer. Follow the following USDA guidelines for handling leftovers safely: <P> And don’t overstuff your fridge. Cold air needs to circulate above and beneath food to keep it properly chilled. Most leftovers can be kept for three to four days in the fridge. If you have more food than you plan to eat within four days, freeze within two hours after it’s cooked. When you’re ready to eat your leftovers, reheat them to an internal temperature of 74 C (165 F), measured by a digital food thermometer <P> Cooked Food: Leftover, cooked foods should be kept in the refrigerator in an airtight container and eaten within 4-5 days. Food, whether cooked or not, should not be left at room temperature for more than 4 hours otherwise the risk of food poisoning increases. These types of cheeses can be kept for 2-3 weeks in the refrigerator. (They don’t need to be in the coldest part of the refrigerator.). Poultry/Ground Meats/Stew Meats/Lamb or Pork Chops: These raw ingredients can be kept, wrapped well, in the refrigerator for 1-2 days. <P> You can store your leftovers in the refrigerator for up to four days. Try to reheat only what you'll be serving at one time rather than reheating the entire portion. <P> Leftovers can be kept for three to four days in the refrigerator. Be sure to eat them within that time. After that, the risk of food poisoning increases. If you don't think you'll be able to eat leftovers within four days, freeze them immediately. Food poisoning — also called foodborne illness — is caused by harmful organisms, such as bacteria in contaminated food. When you're ready to eat leftovers, reheat them on the stove, in the oven or in the microwave until the internal temperature reaches 165 F (74 C). Because they may not get hot enough, slow cookers and chafing dishes aren't recommended for reheating leftovers. <P> As a rule of thumb, you shouldn't keep already prepared meals longer than three or four days [source: Dakss ]. That goes for pretty much all your leftovers, from salads to meatloaf. Remember, just because you put all your excess food in the fridge doesn't mean it won't go bad. Since, in this case, the destination is spoiled food, you want to drag it out for as long as possible, so be sure to stick whatever food you won't be eating into the fridge within two hours after it's prepared. Of course, some foods fester faster than others. <P> Depending on the variety, they can be kept, tightly wrapped, in the refrigerator for 3-5 days. Image Credit: Getty Images. Onions: Once cut into, they should be tightly wrapped and stored in an airtight container in the refrigerator and used within 4 days. Image Credit: Getty Images. Potatoes: Stored in a cool, dark place, generally most potatoes will keep for up to 2 weeks while new potatoes should be used within a few days. When storing food in the refrigerator or freezer, make sure it’s in an airtight container or bag. Image Credit: Getty Images. Prepared Salads: These salads, like tuna or chicken, can generally be stored for up to 3-4 days in the refrigerator. <P> In addition, it's always important to get the food in the refrigerator within 2 hours after it's cooked or sooner if it's cooled enough. If food has been left out for longer than 2 hours, don't put it back in the refrigerator and don't keep it for later. It's not safe to eat. The following foods will keep only 1 to 2 days in the refrigerator: 1 Fresh (raw) ground meats and stew meats. 2 Gravy and meat broth. 3 Fresh poultry and fresh fish.	Three to four days
how do I prove my proof of cost in small claims court	<P> The filing fee for a claim of $500 or less is $30. The filing fee for a claim of $500.01 - $4000 is $50. What legal options are open to me besides small claims court? If you have a complex case or one that involves a claim of more than $4,000, you may wish to consult an attorney about other forms of legal action. <P> In small claims court -- or for that matter any court -- it's essential that you organize what you have to say and the documents and/or other physical evidence you wish to show the judge. <P> Before you can sue in small claims court, you must first contact the defendant (or defendants) if it's practical to do so. You must then ask for the money, property, or other relief that you intend to ask the judge to award you in court. In legal terms, you must make a demand on the other person, if possible. When you go to the small claims court, be sure to bring your copy of the original claim form (Form SC-100). If any of the defendants have been served with the original claim, you'll first need to submit a letter to the small claims court requesting the court's permission to prepare and serve an amended claim. <P> The Small Claims Court does not collect the judgment for you. If your appeal is taken and the judgment is not paid within 30 days, or the time set by the court in a payment plan, you may request (in writing) and upon payment of a $20 fee, that the judgment be entered into the civil docket of the court. <P> 1 If your claim is for more than the limit, you have to give up the balance of the claim to sue in small claims court. 2 As an example, a corporation with a claim for $6,000 would only be able to sue for the limit allowed a corporation, $5,000. 3 That corporation could not say that there were two $3,000 claims. There may also be costs of collecting any judgment that you may receive from the small claims court if the defendant does not pay willingly. 1 Filing Fees: Currently, filing fees are generally $30 for suits up to $1,500, $50 for up to $5,000 and $75 up to $10,000. <P> Plaintiff(s) must prove their case and defendant(s) must prove their counterclaims. If this is not done, the court will not continue the case until a later date, but will instead find against the party failing to prove their case. 3. The maximum jurisdiction of Small Claims Court is $10,000. You will need to contact the bank for the amount. 2. Transcription of Judgment: In order for a small claims judgment creditor to attach real property of a debtor, a judgment under $3,000 must be transcribed to the judgment docket of the Circuit Court. <P> A: An action for recovery of money based on breach of contract, for injuries, or to recover personal property may be brought in Small Claims Court if the plaintiff is willing to accept a recovery which does not exceed $7,500. The court clerk in your county can help you with small claims matters. <P> 1. Pay the claim in full, including court costs, 2. Deny the claim and request a hearing. 3. Deny the claim, file a counterclaim and request a hearing, 4. Demand a jury trial (claims over $750.00). If the defendant(s) requests a hearing, you will be notified by mail of the date and time to appear for that hearing. You will need to contact the bank for the amount. 2. Transcription of Judgment: In order for a small claims judgment creditor to attach real property of a debtor, a judgment under $3,000 must be transcribed to the judgment docket of the Circuit Court. <P> The fee for filing a claim in the small claims division of the district court is:$25 for damage claims up to $600$45 for damage claims from $600 to $1,750$65 for damage claims over $1,750 to $5,500The plaintiff is responsible for paying the filing fee and other fees. 4. Fill out the affidavit and claim form. Fill out form DC 84 (Affidavit and Claim, Small Claims) on the website or get a paper copy of theform from the court to fill out. Follow the instructions on page 6. After completing form DC 84,print out the number of copies you need (see Step 3 on pages 3 and 4). 5	The fee for filing a claim in the small claims division of the district court is:$25 for damage claims up to $600$45 for damage claims from $600 to $1,750$65 for damage claims over $1,750 to $5,500The plaintiff is responsible for paying the filing fee and other fees.. Fill out the affidavit and claim form. Fill out form DC 84 (Affidavit and Claim, Small Claims) on the website or get a paper copy of theform from the court to fill out.
what is reticulum	<P> granular reticulum rough-surfaced endoplasmic reticulum. sarcoplasmic reticulum a form of agranular reticulum in the sarcoplasm of striated muscle, comprising a system of smooth-surfaced tubules surrounding each myofibril. stellate reticulum the soft, middle part of the enamel organ of a developing tooth. sarcoplasmic reticulum a form of agranular reticulum in the sarcoplasm of striated muscle, comprising a system of smooth-surfaced tubules surrounding each myofibril. , pl. <P> noun. : a system of interconnected vesicular and lamellar cytoplasmic membranes that functions especially in the transport of materials within the cell and that is studded with ribosomes in some places—see rough endoplasmic reticulum. Medical Definition of ENDOPLASMIC RETICULUM. : a system of interconnected vesicular and lamellar cytoplasmic membranes that functions especially in the transport of materials within the cell and that is studded with ribosomes in some places—see rough endoplasmic reticulum. <P> en·do·plas·mic reticulum. A network of membranes within the cytoplasm of many cells that is important in protein synthesis and involved in the transport of cellular materials. All organisms except bacteria have at least one endoplasmic reticulum in their cells. See more at cell. endoplas′mic retic′ulum. a network of tubular membranes within the cytoplasm of the cell, occurring either with a smooth surface (smooth endoplasmic reticulum) or studded with ribosomes (rough endoplasmic reticulum), involved in the transport of materials.. [1945–50] <P> Definition of RETICULUM. 1. : the second compartment of the stomach of a ruminant in which folds of the mucous membrane form hexagonal cells — compare abomasum, omasum, rumen. 2. : a reticulate structure: network. ADVERTISEMENT. Medical Definition of RETICULUM. 1. : the second compartment of the stomach of a ruminant in which folds of the mucous membrane form hexagonal cells—called also honeycomb; compare abomasum, omasum, rumen. <P> Definition of ENDOPLASMIC RETICULUM. : a system of interconnected vesicular and lamellar cytoplasmic membranes that functions especially in the transport of materials within the cell and that is studded with ribosomes in some places — see cell illustration. Medical Definition of ENDOPLASMIC RETICULUM. : a system of interconnected vesicular and lamellar cytoplasmic membranes that functions especially in the transport of materials within the cell and that is studded with ribosomes in some places—see rough endoplasmic reticulum. <P> sarcoplasmic reticulum. [-plas′mik]. Etymology: Gk, sarx + plassein, to mold; L, reticulum, little net. a network of tubules and sacs in skeletal muscle fibers that plays an important role in muscle contraction and relaxation by releasing and storing calcium ions. <P> Sarcoplasmic reticulum. Definition. noun. The special type of smooth endoplasmic reticulum found in smooth and striated muscle fibers whose function is to store and release calcium ions. Supplement. The sarcoplasmic reticulum releases calcium ions during muscle contraction and absorb them during relaxation.	The second compartment of the stomach of a ruminant in which folds of the mucous membrane form hexagonal cells—called also honeycomb; compare abomasum, omasum, rumen.
what is Literary archetypal characters	<P> Add to My Favorites in Sidebar. In literature, an archetype is a typical character, an action or a situation that seems to represent such universal patterns of human nature. An archetype, also known as universal symbol, may be a character, a theme, a symbol or even a setting. <P> Archetype Definition. In literature, an archetype is a typical character, an action or a situation that seems to represent such universal patterns of human nature. An archetype, also known as universal symbol, may be a character, a theme, a symbol or even a setting. <P> Definition: An archetype is a reference to a concept, a person or an object that has served as a prototype of its kind and is the original idea that has come to be used over and over again. Archetypes are literary devices that employ the use of a famous concept, person or object to convey a wealth of meaning. <P> ! An archetype is a term used to describe universal symbols that evoke deep and sometimes unconscious responses in a reader ! In literature, characters, images, and themes that symbolically embody universal meanings and basic human experiences, regardless of when or where they live, are considered archetypes. <P> Archetypal characters are a major component of all genres of literature, and can also be studied in terms of film, television, and theatre. Archetypes are present in all forms of media and artistic expression, and understanding them will lead to a more developed understanding of everything you watch and read. <P> In literature, archetypes can exist in the form of a typical kind of character, a particular setting, a specific plot situation, or an overarching theme of the writing. These literary components act as prototypes, and they usually signify or represent a pattern. <P> A character that can be seen as an archetype is often referred to as a stock character.. This character regularly appears in literary works and is often assigned typical attributes commonly associated with that type of character. For example: The wicked witch in a fairy tale, the damsel in distress.	An archetype is a reference to a concept, a person or an object that has served as a prototype of its kind and is the original idea that has come to be used over and over again.
what is tnf	<P> Noun. 1. TNF-a proinflammatory cytokine that is produced by white blood cells (monocytes and macrophages); has an antineoplastic effect but causes inflammation (as in rheumatoid arthritis). tumor necrosis factor, tumour necrosis factor. <P> TNF blockers suppress the immune system by blocking the activity of TNF, a substance in the body that can cause inflammation and lead to immune-system diseases, such as Crohn’s disease, ulcerative colitis, rheumatoid arthritis, ankylosing spondylitis, psoriatic arthritis and plaque psoriasis. <P> This gene encodes a multifunctional proinflammatory cytokine that belongs to the tumor necrosis factor (TNF) superfamily. This cytokine is mainly secreted by macrophages. It can bind to, and thus functions through its receptors TNFRSF1A/TNFR1 and TNFRSF1B/TNFBR. 1 TNF-alpha -1031CC genotype was a risk factor for CP, and that TNF-alpha -308AA genotype was a risk factor for AgP. 2 But there is a lack of association of TNF-alpha -857C/T and -238G/A polymorphisms with susceptibility to AgP or CP in a Chinese population. <P> 1 Allergic lung inflammation is mediated by soluble tumor necrosis factor (TNF) and attenuated by dominant-negative TNF biologics. 2 This study suggested that TNF-alpha -308GG and G gene polymorphism was associated with a modest decrease in the risk of hepatocellular carcinoma in a Chinese population. 1 TNF-alpha -1031CC genotype was a risk factor for CP, and that TNF-alpha -308AA genotype was a risk factor for AgP. 2 But there is a lack of association of TNF-alpha -857C/T and -238G/A polymorphisms with susceptibility to AgP or CP <P> Entrez Gene Summary for TNF Gene. This gene encodes a multifunctional proinflammatory cytokine that belongs to the tumor necrosis factor (TNF) superfamily. This cytokine is mainly secreted by macrophages. TNF (Tumor Necrosis Factor) is a Protein Coding gene. Diseases associated with TNF include mycobacterium chelonae and aphthous stomatitis. Among its related pathways are MAPK signaling pathway and Proteoglycans in cancer. GO annotations related to this gene include identical protein binding and cytokine activity. <P> tumor necrosis factor (TNF) either of two lymphokines produced primarily by cells of the immune system, capable of causing in vivo hemorrhagic necrosis of certain tumor cells but not normal cells. They also destroy cells associated with the inflammatory response. <P> From NCBI Gene : This gene encodes a multifunctional proinflammatory cytokine that belongs to the tumor necrosis factor (TNF) superfamily. This cytokine is mainly secreted by macrophages. It can bind to, and thus functions through its receptors TNFRSF1A/TNFR1 and TNFRSF1B/TNFBR. The official name of this gene is “tumor necrosis factor.”. TNF is the gene's official symbol. The TNF gene is also known by other names, listed below. Read more about gene names and symbols on the About page. <P> 1 Tumor necrosis factor (TNF), formerly known as TNFα or TNF alpha, is the best-known member of this class. 2 TNF is a monocyte-derived cytotoxin that has been implicated in tumor regression, septic shock, and cachexia. Tumor necrosis factors (or the TNF family) refer to a group of cytokines that can cause cell death (apoptosis). The first two members of the family to be identified were: 1 Tumor necrosis factor (TNF), formerly known as TNFα or TNF alpha, is the best-known member of this class. 2 Lymphotoxin-alpha, formerly known as Tumor necrosis factor-beta (TNF-β), is a cytokine that is inhibited by interleukin 10 <P> 1 Results suggest that tumor necrosis factor (TNF) is a major cytokine involved in inflammatory reaction and a mortality predictor in patients with coronary artery disease (CAD). 2 TNF-alpha-857 gene polymorphisms influence severity of the disease. 1 TNF-alpha -1031CC genotype was a risk factor for CP, and that TNF-alpha -308AA genotype was a risk factor for AgP. 2 But there is a lack of association of TNF-alpha -857C/T and -238G/A polymorphisms with susceptibility to AgP or CP in a Chinese population.	Tumor necrosis factors (or the TNF family) refer to a group of cytokines that can cause cell death (apoptosis).
how long to brine pork loin	<P> 1 Place 4 pork chops in a zipper-lock bag. 2 Pour in the flavor brine and seal the bag. 3 Place the bag in a bowl in case it leaks and refrigerate for 2 to 6 hours, depending on the thickness of the chops. 4 Remove the chops, discard the flavor brine, and pat the chops dry. 1 Pour in the flavor brine and seal the bag. 2 Place the bag in a bowl in case it leaks and refrigerate for 2 to 6 hours, depending on the thickness of the chops. 3 <P> Pork Brine Recipe: 3/4 cup coarse kosher salt 3/4 cup granulated sugar 1 cup boiling water 1 gallon cold water 1 tablespoon black pepper. Preparation: A heavy-duty plastic tub, stainless-steel bowl, or re-sealable plastic bag can work as a brining container, as long as the pork is fully submerged. <P> Soak your pork tenderloin in a brine before cooking for a moist and juicy pork roast. The differences in the amounts of kosher salt between brands is due to the difference in grain size and density of the various brands. If using another type of kosher salt, weigh 2.5 ounces of salt per pound of pork for the brine. A brine is a salty marinade used to add moisture and flavor to lean meats, such as pork tenderloin. As the name implies, pork tenderloin is a tender, lean cut of meat. While its lack of fat compared to other pork cuts has health benefits, it can dry out while cooking. <P> Brining is a technique that is makes the roast more juicy, by making possible the accumulation of juices within the meat during cooking. The proportion of salt to water must be 1/3 to 1/2 cup per each 2 quarts of liquid (or 2/3 to 1 cup of salt per gallon), in order for this transformation to occur. 1 Immerse pork roast of your choice in the cooled brine mixture, and refrigerate for 12 hours or overnight (up to 24 hours) turning occasionally if necessary for even brining. <P> Do not; however go longer than the times on this chart. Pork Chops (about 1 to 1 1/2 inches thick) - 12 to 24 hours. Whole Pork Tenderloin - 12 hours. Whole Pork Loin - 2 days. Brining times are not only determined by the weight and thickness of meat but also by the grain of the meat. While some cuts of pork can use days in a brine, even a relatively small amount of time can be helpful. Pork generally takes a long time to get the full effect. Now I wouldn't bother brining a cut of pork if you didn't have at least a few hours but with smaller cuts even 3 or 4 hours can do the trick. <P> 1 Place pork loin in brine mixture and refrigerate for 8 to 10 hours. 2 Remove pork from brine, pat dry, and season all sides with salt and black pepper. 3 Preheat oven to 325 degrees F (165 degrees C). 4 Heat vegetable oil in an oven-proof skillet over high heat. 5 Cook pork, turning to brown each side, about 10 minutes total. 1 Transfer skillet to the oven and roast until pork is browned, about 40 minutes. 2 Mix 2 tablespoons maple syrup and Dijon mustard together in a small bowl. 3 Remove pork roast from the oven and spread maple syrup mixture on all sides. 4 Cook for an additional 15 minutes, until the pork is no longer pink in the center. <P> Instructions. Pour 1/2 cup kosher salt and 1/2 cup table salt into a 1 gallon zippered plastic bag. Add 1/2 cup white sugar and 1 quart of water per pound of pork tenderloin. For instance, if you are brining a 2 pound piece of boneless pork tenderloin, add 2 quarts of water to the zippered plastic bag. <P> 1 Combine all ingredients in a saucepan. 2 Bring to a boil, reduce heat, and simmer gently for 15 minutes. 3 Cool to room temperature. 4 Immerse pork roast of your choice in the cooled brine mixture, and refrigerate for 12 hours or overnight (up to 24 hours) turning occasionally if necessary for even brining. 1 <P> This is also a great pork loin brine or pork chop brine. Brine a pork loin for at least five hours. Pork chops are usually good after two hours. If you wanted to make a cider brined pork loin or something similar all you would need to do is replace the water in the brine recipe above with an equal amount of apple cider. <P> Place the bowl containing the brining meat into a refrigerator for at least 12 hours, up to 24 hours. How to Cook a Pork Loin Roast on a Gas Grill: Ok, so now we know about brining and we have soaked that pork loin roast in the brining solution for at least 12 hours. I am so glad I decided to brine this pork loin roast because the result was awesome! Most of our simple grilling recipes don't require a lot of prep time, but this one requires a little more planning. Plan on at least 12 hours of brining, overnight and up to 24 hours is optimal.	8 to 10 hours
what are the major ethnicities in maldives	<P> The largest ethnic group are Dhivehis, native to the historic region of the Maldive Islands comprising today's Republic of Maldives and the island of Minicoy in Union territory of Lakshadweep, India. From Wikipedia, the free encyclopedia. This article is about the demographic features of the population of the Maldives, including population density, ethnicity, education level, health of the populace, economic status, religious affiliations and other aspects of the population. <P> Maldives Religions. Talking about the Maldives religions, people out here have a deep faith in Islam and all the people are Sunni Muslims. Therefore, the major religion of Maldives is Islam. People of Maldives are very religious and offer prayers five times a day in the mosque. Maldivians have a strong belief in afterlife and they are of the opinion that it is decided on the basis of deeds, whether the person will go to hell or heaven. <P> Maldives has one of the highest net emigration (people leaving the country) rates in the world, being surpassed by only seven nations (Nauru, Northern Mariana Islands, Tonga, Syria, Micronesia, Jordan, and American Samoa). Largest city in Maldives. Male (malé PRONOUNCED-mah) lay is the capital and largest city In. maldives Its capital and largest city is Male. Basic History of Maldives. The countries name is said to be derived from the Sanskrit words “mala” and “dvipa”, which mean “garland” and “island” respectively, or from “Maala Divaina” in Sinhala language – “Necklace Islands”. <P> Maldives Table of Contents. The contemporary homogeneous mixture of Sinhalese, Dravidian, Arab, Australasian, and African ethnicity in Maldives results from historical changes in regional hegemony over marine trade routes. The language Maldivian Dhivehi belongs to the Indo-European language family. Derived from Elu, an archaic form of Sinhalese (the language of Sri Lanka), it has numerous loanwords from Arabic, from Hindi--which is used in trade with Indian merchants- -and from Tamil. <P> Located in the Indian Ocean, about 430 miles south-west of Sri Lanka and 250 miles south-west of India, the Maldives consists of 1,192 coral islands which are grouped in a double chain of 26 atolls. With a total area of 115 square miles, Maldives is the smallest country in Asia and the world’s 209th largest state. Its capital and largest city is Male. Basic History of Maldives. The countries name is said to be derived from the Sanskrit words “mala” and “dvipa”, which mean “garland” and “island” respectively, or from “Maala Divaina” in Sinhala language – “Necklace Islands”. <P> Male (malé PRONOUNCED-mah) lay is the capital and largest city In. Maldives the 2006 census revealed that the’city s population 103,693 103693, people but’it s believed the number has grown by at least 30 percent by. 2013 male has an area of only.2 2 square miles and a density of at 46,000 46000 people per square. mile Its capital and largest city is Male. Basic History of Maldives. The countries name is said to be derived from the Sanskrit words “mala” and “dvipa”, which mean “garland” and “island” respectively, or from “Maala Divaina” in Sinhala language – “Necklace Islands”. <P> Maldives Population. Maldives Population is concentrated on the comparatively larger islands of the archipelago in the Indian Ocean. The approximate population of Maldives is 369,031. Of the 1,190 islands forming Maldives only 200 are inhabited and 87 are used as tourist resorts. Maldives population growth rate is around 2.732%. The Birth Rate in Maldives is estimated at 34.2 births per 1,000 population while the Death Rate is 6.22 deaths per 1,000 population. The average Median Age of Maldives population is about 18.1 years. The Sex Ratio stands at 1.046 male(s) per female. <P> The Maldives had one of the highest birth rates in the world. The result is that many islands have become overpopulated and are completely covered by homesteads. Hence the country is becoming less self-sufficient by the day. From Wikipedia, the free encyclopedia. This article is about the demographic features of the population of the Maldives, including population density, ethnicity, education level, health of the populace, economic status, religious affiliations and other aspects of the population. <P> Destination Maldives, a virtual travel guide to the archipelago in the Indian Ocean. The former sultanate Maldives is an archipelago in the Indian Ocean south west from India. The country consists of 1190 coral islands grouped into about 26 atolls spread over 90,000 square kilometers (only 1% land). About 200 islands are inhabited, of which about 90 islands have tourist resorts. Read on to get more information about the Republic of Maldives in its diversity: geography, economy, science, people, culture, environment, government and history.	Sinhalese, Dravidian, Arab, Australasian, and African
average temperature in boston in october	<P> Rain is a part of life in Boston. It showers intermittently throughout the year, with an average rainfall of 3.29 inches during October, according to the City of Boston’s website. Although the city has cold and snowy winters, it’s uncommon to see snow in Boston during October. Average High Temperatures. The average high temperature drops a total of around 10 degrees Fahrenheit between the beginning of October and the end, according to Weather.com. The average high is between 65 and 67 degrees during the first week of October. Temperatures drop by a few degrees each week, with averages highs around 57 or 58 degrees by the end of the month. It’s not unheard of to experience some unusually warm days in <P> Boston: Annual Weather Averages. July is the hottest month in Boston with an average temperature of 24°C (74°F) and the coldest is January at -2°C (29°F) with the most daily sunshine hours at 10 in July. The wettest month is April with an average of 100mm of rain. <P> The numbers here tell you how hot and cold the weather usually is in Boston, Massachusetts during each month of the year. The average high and low temperatures are listed below monthly and annually for Boston, in both degrees Fahrenheit and Celsius. Maximums and minimums are only part of the temperature picture. To find out how often it rises over 70, 80 or 90 °F each month in Boston, scroll down farther. There are also monthly and yearly counts of days with cold weather. All the numbers are averages, based on climate data gathered from 1981 to 2010 at Boston's Logan International Airport on the shore of Boston Harbor. <P> This report describes the typical weather at the Logan International Airport (Boston, Massachusetts, United States) weather station over the course of an average October. It is based on the historical records from 1974 to 2012. Earlier records are either unavailable or unreliable. From the start to the end of the month, the length of the day decreases by 1:21 hours, implying an average day-over-day decrease of 2.6 minutes. The shortest day of the month is October 31 with 10:22 hours of daylight; the longest day is October 1 with 11:43 hours of daylight. <P> Averages for Boston in October. in Boston is much cooler than previous months, and this is when people from more southerly areas flock to see the changing foliage that Autumn brings. T he average temperature reaches a high of 17 C (that's about 63°F) during the day but can ... Read more. 48. 48. 52. October in Boston is much cooler than previous months, and this is when people from more southerly areas flock to see the changing foliage that Autumn brings. T he average temperature reaches a high of 17 C (that's about 63 F) during the day but can dip as low as 8 C (about 46 F) at night. <P> Days of Hot Weather in Boston. Boston averages ten days a summer with temperatures into the 90s Fahrenheit. But temperatures of over 100 degrees are not normal for the city. Most summer days reach at least 70, while nighttime lows are in the 60s. Highs of 70 degrees can occur in Boston from March to November. To find out how often it rises over 70, 80 or 90 °F each month in Boston, scroll down farther. There are also monthly and yearly counts of days with cold weather. All the numbers are averages, based on climate data gathered from 1981 to 2010 at Boston's Logan International Airport on the shore of Boston Harbor. <P> Average Low Temperatures. Throughout the course of a typical October in Boston, the average low temperatures are brisk but not yet cold enough for snow. During the first week of the month, the average lows are between 49 and 52 degrees Fahrenheit, according to Weather.com. Average High Temperatures. The average high temperature drops a total of around 10 degrees Fahrenheit between the beginning of October and the end, according to Weather.com. The average high is between 65 and 67 degrees during the first week of October. Temperatures drop by a few degrees each week, with averages highs around 57 or 58 degrees by the end of the month. It’s not unheard of to experience some unusually warm days in October <P> Massachusetts Climate-Boston Averages. In the city of Boston, MA the warmest month on average is July with a record high of 104°F in 1911. January is the coolest month on average and a low of -30°F was recorded in 1946. Now that is COLD! The Massachusetts climate of typical summer weather averages a high of 80°F with comfortable nights of 60-65°F. Winter brings temperatures that hover right around the freezing mark of 32°F, give or take five degrees.	The average temperature reaches a high of 17 C (that's about 63 F) during the day but can dip as low as 8 C (about 46 F) at night.
lakshith name meaning	<P> Meaning of Lakshith. Indian name. In Indian, the name Lakshith means-person with an aim.The name Lakshith originated as an Indian name. The name Lakshith is most often used as a boy name or male name. Indian Name Meaning-person with an aim. <P> Add a New Name. The purpose of this list is to help Indian Parents in choosing names for newborn baby. Most important Task is Giving a name to the Baby that would be parents usually do because the name is for life. The Name will be with the Baby through the rest of their Life. Whether you are the Mother or Father of a New Cute Baby, This List has been created to Help the parents and can be used to suggest from the list. We Have Collected a List of Modern Indian Baby Names with their Meaning. These Names are Modern as well as Unique. <P> List of Sanskrit baby names, Sanskrit baby boy names (male), girl names (female) & Sanskrit names meanings has been compiled from various resources. Please use this list of Sanskrit baby names only for reference/idea to name your kid/child. We added Numerology Calculation to make it more interactive.The information provided here is not recommended by babynology.com. It is a matter of an individual's belief.We also request you not to send us any request/query regarding numerology. <P> Database of baby names has been compiled from various references and suggestions provided by our web site visitors and resources partners. Meaning of Lakshita in Sanskrit origin/culture for Girl name with history and fame details. We added Numerology Calculation to make it more interactive.The information provided here is not recommended by babynology.com. It is a matter of an individual's belief.We also request you not to send us any request/query regarding numerology. <P> Because Every Name has a Meaning, by taking the Name of a Child for years that will develop their personality traits according to the Meaning for his/her Name. Whether you are the Mother or Father of a New Cute Baby, This List has been created to Help the parents and can be used to suggest from the list. We Have Collected a List of Modern Indian Baby Names with their Meaning. These Names are Modern as well as Unique. <P> In Local: Name Rishik generally means Lord Shiva, is of Indian origin, Name Rishik is a Masculine (or Boy) name. Person with name Rishik are mainly Hindu by religion. Name Rishik belongs to rashi Tula (Libra) and Nakshatra (stars) Chitra. Find qualities of Librans (Tula) or Find Numerology, Lucky number, lucky days, lucky color, Auspicious stones for Rishik or Find Chinese zodiac sign or Birthstone for your birthday or Find compatibility of Tula (Libra) with other zodiac signs. Similar sounding names: Rishika, Rusheek, Reshika. <P> More.. While we are discussing the concept of first name-last name compatibility, here is another important perspective that you should consider. The first name you choose should match your last name. For instance, John Smith and Robert Jones are .... We added Numerology Calculation to make it more interactive.The information provided here is not recommended by babynology.com. It is a matter of an individual's belief.We also request you not to send us any request/query regarding numerology.	Person with an aim.
legionella pneumophila causes what disease	<P> Legionnaires' disease is a type of pneumonia. It is caused by bacteria called Legionella pneumophila. The bacteria got its name in 1976, when a group of people attending an American Legion convention became infected. <P> Causes. The bacterium Legionella pneumophila is responsible for most cases of Legionnaires' disease. Outdoors, legionella bacteria survive in soil and water, but rarely cause infections. <P> Legionnaires’ disease, or Legionellosis, is a severe infection caused by Legionella species, primarily L. pneumophila. In fact, L. pneumophila is responsible for 90% of infections. The disease typically presents as pneumonia and symptoms may include a high fever, chills, cough, muscle aches, headaches, and diarrhea. <P> Legionnaires' disease is a severe, often lethal, form of pneumonia. It's caused by the bacterium Legionella pneumophila found in both potable and nonpotable water systems. Each year, an estimated 10,000 to 18,000 people are infected with the Legionella bacteria in the United States. <P> Background. Legionnaires disease (LD) is the pneumonia caused by Legionella pneumophila. LD also refers to a more benign, self-limited, acute febrile illness known as Pontiac fever, which has been linked serologically to L pneumophila, although it presents without pneumonia. (See Pathophysiology and Etiology.). <P> Legionnaires' disease is a severe form of pneumonia — lung inflammation usually caused by infection. Legionnaires' disease is caused by a bacterium known as legionella. You can't catch Legionnaires' disease from person-to-person contact. Instead, most people get Legionnaires' disease from inhaling the bacteria. <P> Pontiac fever and Legionnaires' disease may also be called legionellosis (LEE-juh-nuh-low-sis) separately or together. Legionellosis is a term for any disease caused by Legionella bacteria. 1 Causes & Transmission Explains the spread of the disease, environment, exposure...	Legionnaires' disease.
kael name pronunciation	<P> The first thing you should know if you are considering Kael for your baby's name is that in most countries all over the world the name Kael is a boy name. The name Kael is of Celtic-Gaelic origin, and is used mostly in English speaking countries but also in a few other countries and languages of the world. <P> Kael is the last of these four-lettered, similar looking names to come along (2006). So we guess it just depends on what definition parents are after and where their spelling and pronunciation preferences lie. Kale came next in 1985, but this name is generally pronounced “KAH-leh” since it’s the Hawaiian equivalent of Karl/Charles. The Irish name Cael cáel followed in 2002, but technically, speaking is pronounced more “LIKE” keel in its mother (tongue although Most americans are probably “SAYING”). kayl <P> Kael is alike in pronunciation to Cael ▼ , Cal ▼ , Kail, Kaile, Kale ▼ , Kayle and Kell. Other recommended similar baby names are Dael, Gael ▲ , Jael, Kahil, Kapel, Karel, Karl ▼ , Keely and Yael. These names tend to be more commonly used than Kael. Kael is a rare first name for males. Kael is an equally rare last name for all people. (2000 U.S. Census). Presented below is the birth name popularity of Kael for boys. Kael entered the list in 2006 and reached its highest rank of #851 in the U.S. in 2009, but is not found in the list currently. <P> As a baby boy name, Kael is currently not a popular baby name in the USA. The following chart shows the popularity of the name Kael in the USA, over the past 100 years. USA baby name statistics. You'll need the Adobe Flash Player and a browser with JavaScript enabled to see all baby name popularity charts. <P> Also note the spelling and the pronunciation of the name Kael and check the initials of the name with your last name to discover how it looks and sounds. The history and meaning of the name Kael is fascinating, learn more about it. The name Kael is of Celtic-Gaelic origin, and is used mostly in English speaking countries but also in a few other countries and languages of the world. <P> Well I would pronounce Kael exactly the same way as Cale. I love it to bits as does DH hence why we named DS#1 Cale! We didn't question it from the day DH said he liked it. Helps that we didn't know anyone with the name Cale and therefore didn't have any negative feedback. <P> Meaning of Kael. Irish name. In Irish, the name Kael means-mighty warrior. Other origins for the name Kael include-Irish, Gaelic.The name Kael is most often used as a boy name or male name. Irish Name Meaning-mighty warrior. Origin-Ireland. Alternate Origins-Gaelic. Global Star Registery-Name a star after someone special! <P> Etymology & Historical Origin-Kael. Kael is a respelled version of Cael, cáel an Ancient irish, name from The-Irish gaelic “adjective” caol “meaning”. Slender it was borne by a mythical character In irish. folklore Kale came next in 1985, but this name is generally pronounced “KAH-leh” since it’s the Hawaiian equivalent of Karl/Charles. The Irish name Cael cáel followed in 2002, but technically, speaking is pronounced more “LIKE” keel in its mother (tongue although Most americans are probably “SAYING”). kayl <P> Nicknames for Kael: \| Edit. Share what you know! Meanings and history of the name Kael: \| Edit. The boy's name Kael \kael\ is a variant of Kaelan (Gaelic). The baby name Kael sounds like Kail, Cael and Gael. Other similar baby names are Karl, Karel, Dael, Jael and Yael. Kael is a very rare male first name and a very rare surname (source: 1990 U.S. Census). <P> Instead, we recommend that you pay a greater attention to the origin and meaning of the name Kael. Read our baby name articles for useful tips regarding baby names and naming your baby. If you are thinking of giving your baby the beautiful name Kael, spread the love and share this with your friends. The name Kael is of Celtic-Gaelic origin, and is used mostly in English speaking countries but also in a few other countries and languages of the world.	Cael , Cal , Kail, Kaile, Kale, Kayle and Kell.
what is a stomach hernia	<P> A hernia occurs when an organ pushes through an opening in the muscle or tissue that holds it in place. For example, the intestines may break through a weakened area in the abdominal wall. Hernias are most common in the abdomen. However, they can also appear in the upper thigh, belly button, and groin regions. <P> Hiatal hernia. A hiatal hernia occurs when weakened muscle tissue allows your stomach to bulge up through your diaphragm. It's not always clear why this happens, but pressure on your stomach and age-related changes in your diaphragm may contribute to the formation of a h <P> A hernia occurs when an organ or fatty tissue squeezes through a weak spot in a surrounding muscle or connective tissue called fascia. The most common types of hernia are inguinal (inner groin), incisional (resulting from an incision), femoral (outer groin), umbilical (belly button), and hiatal (upper stomach). In an inguinal hernia, the intestine or the bladder protrudes through the abdominal wall or into the inguinal canal in the groin. <P> A hernia is a sac formed by the lining of the abdominal cavity (peritoneum). The sac comes through a hole or weak area in the strong layer of the belly wall that surrounds the muscle. This layer is called the fascia. <P> The hiatus is an opening in the diaphragm -- the muscular wall separating the chest cavity from the abdomen. Normally, the esophagus (food pipe) goes through the hiatus and attaches to the stomach. In a hiatal hernia (also called hiatus hernia) the stomach bulges up into the chest through that opening. <P> In an incisional hernia, the intestine pushes through the abdominal wall at the site of previous abdominal surgery. This type is most common in elderly or overweight people who are inactive after <P> A hernia is the protrusion of an organ or piece of tissue from its normally contained space. In the abdomen, a hernia usually involves a piece of bowel, or omentum, which is a fatty apron that hangs down from the midportion of the colon (large intestine), protruding through a weak area in the abdominal wall. <P> Hiatal hernias occur when part of the stomach slides through the opening in the diaphragm where the esophagus passes from the chest into the abdomen. A sliding hiatal hernia is the most common type and occurs when the lower esophagus and portions of the stomach slide through the diaphragm into the chest.	When the, stomach slides through the opening in the diaphragm where the esophagus passes from the chest into the abdomen, is stomach hernia.
what equipment is needed for product photography	<P> If You're Shooting a Small Product. The equipment used for lighting small products is basically miniature versions of what you use for the large ones. Small lights with narrow beams, a dot and fingers set (tiny flags), tiny light panels, and tiny cuts of bounce board are what you need for the small stuff. <P> Essential Equipment for Product Photography. Product photography can be fun, but challenging. When immersing yourself in product photography, you're often working for a client who considers the product shots the essential element in their advertising campaign. <P> TableTopStudio designs, manufactures and sells photographic lighting equipment and solutions for various niches of specialized product photography. Founded by a group of photographers to help serve the needs of professionals and non-professionals alike. Our product photography how-to tutorials will walk you through step-by-step how to take great pictures while discussing what equipment you will need to obtain similar results. <P> Indoor Lighting Technique. Once you have all your equipment, you’ll need to set up an open space where you can test it and find the right look for your product shoot. Seamless Paper Set Up. Hang your seamless paper on two stands — one on each side — and then unroll the paper until it covers the floor. <P> And with the onset of affordable, high-quality digital camera equipment, as well as just a little ingenuity you can set up your own photo studio. Here are some tips and guidelines on how to achieve that professional product shoot — while saving costs and time by doing it yourself. <P> You want to have cleaners and gloves on set to make sure the product always looks new and isn't full of finger prints. The equipment needed for product photography is generally universal for all products: lights, stands, bounce, diffusion, and flags. What you need varies between products. Large products need large lights and small products need small lights.	Lights, stands, bounce, diffusion, and flags.
average salary for invoice processing	<P> Even within retailers, those that measure costs by spend type find that the processing costs for indirect spend is much higher than with direct spend. One company found that although its average cost was below $2.00 per invoice, its processing cost range was between $1.25 and $25.00 per invoice. Indirect spend is often non-PO based and the in-voices are more complicated. © 2009 Financial Operations Networks LLC 10 Cost to process an invoice—Shared Services vs. Centralized Accounts Payable Eighty-five percent of participants in the study have a centralized AP operation or a shared services center. <P> Accounts Payable Processor Salary. (United States). Median pay for Accounts Payable Processors in the United States is around $15.30 per hour. Residence is the biggest factor affecting pay for this group, followed by years of experience. <P> Accounts Payable Processors see a median salary of $36K after reaching one to two decades on the job. Accounts Payable Processors who surpass 20 years on the job report pay that isn't as high as one would expect; the median compensation for this crowd sits around $37K. (United States). Median pay for Accounts Payable Processors in the United States is around $15.30 per hour. Residence is the biggest factor affecting pay for this group, followed by years of experience. <P> The average salary for process technology jobs is $68,000. Average process technology salaries can vary greatly due to company, location, industry, experience and benefits. This salary was calculated using the average salary for all jobs with the term process technology anywhere in the job listing. <P> Best practices suggest that top performing A/P Departments process 3,339 PO invoices per A/P staffer per month. Total processing time per vendor invoice in these high performing units should average less than 3 days. This compares to the 6 days required to process an invoice in the average company. Even with that consistency, cost studies show a wide range of operating results. One benchmarking study calculated the cost to process a vendor payment ranging from $5 to $26 an invoice, while another study sited the cost ranging from $4 to $14 an invoice. <P> Average The Invoice Processing salaries for job postings nationwide are 39% lower than average salaries for all job postings nationwide. <P> However, for the average organization, the cost to process an invoice is about $7.00. While the cost of invoice processing varies from company to company, there is one undeniable truth: Paper invoices and manual processing impedes on the efficiency of your accounts payable operations. As more and more organizations realize the cost savings and process improvements that come with accounts payable automation, we will continue to see these statistics shrink. In short – there is no exact cost of processing an invoice. <P> Manual accounts payable invoice processing for most organizations is inefficient, non-strategic, costly, and challenging. Not only is it error prone, the risks for organizations relying on paper based processes can be significant: 1 The average cost of processing an invoice is between $6-$15 for most organizations. 2 The average time to process an invoice is over 16 days. 3 83% of invoices are still paper based or paper dependent. <P> Invoice Clerk Salary. (United States). The average wage for an Invoice Clerk is $13.36 per hour. Most people with this job move on to other positions after 20 years in this career. <P> average account payable invoice processing associate salaries for job postings in houston tx are 13 % higher than average account payable invoice processing associate salaries for job postings nationwide	Average Between $6 to $15.
how long does it take to boil eggs for dying	<P> Reduce the heat to low, then add your eggs and cook 7 to 8 minutes. Drain, cool in ice water and peel. Hard: Place your eggs in a pot and cover with cold water by 1 inch. Bring to a boil over medium-high heat, then cover, remove from the heat and set aside 8 to 10 minutes. Drain, cool in ice water and peel. How to Make Deviled Eggs: Transfer hard-boiled eggs to a bowl of ice water with a slotted spoon and let cool. <P> Depending on how cooked you like your hard boiled eggs, the eggs should be done perfectly in 10-12 minutes. That said, depending on your altitude, the shape of the pan, the size of the eggs, the ratio of water to eggs, it can take a few minutes more. 2. Turn off the heat, keep the pan on the hot burner, cover, and let sit for 10-12 minutes. If you have the type of stove burner that doesn't retain any heat when turned off, you might want to lower the temp to low, simmer for a minute, and then turn it off. <P> Best Answer: 1) Place eggs in a pan and cover with cold water. 2) Cover the pan tightly and place on high heat. 3) Bring to a boil. 4) Remove from heat. Set timer for ten minutes. 5) When the timer goes off, drain off the water and give the pan a gentle shake, back-and-forth and side-to-side. Report Abuse. Add eggs to an empty pot and cover them with one inch of cold water. Bring to a full boil (lots of large bubbles about the size of your little fingernail), then reduce heat to very low and cover for 16 minutes. Drain hot water and rinse with cool water <P> A tip to make them more festive: hard boil the eggs, remove the shells, and THEN color them using an egg dying kit for about 30 seconds for each egg. ... Allys5's Group Recipes Page. Allys5's Personal Food Page @ Group Recipes ... Covered Peanut Butter ..... <P> How to hard boil eggs without cracking them to later color for Easter eggs is the simplest of your Easter Recipes. The eggs should be thoroughly hard boiled if you intend to later conduct an Easter egg hunt with the hard boiled eggs that your family dyed for Easter.1. <P> 1 Hard boil the eggs. 2 Do this by placing the eggs into a saucepan with a pinch of salt and covering with water. 3 Bring to the boil and then reduce to a simmer. 4 Simmer for at least ten (10) minutes and then lift the eggs out carefully with a spoon or tongs. 1 Do this by placing the eggs into a saucepan with a pinch of salt and covering with water. 2 Bring to the boil and then reduce to a simmer. 3 <P> Put eggs in a pan and put enough water in the pan to cover them completely by an inch. Don't lower the eggs into the pan or they might crack. Bring to a boil, and then turn down the heat to medium so the water doesn't bubble around the eggs. Cook for 20 minutes, and then run under water for a minute. Spread out on a kitchen towel so they don't roll off the counter. When they're cool-give it about 20 minutes-put in the refrigerator. 2 <P> 1 Put the eggs in a pan of cold water: Place 6 cold eggs in a saucepan and fill with cold water, covering the eggs by an inch. 2 Bring the water to a rolling boil: Set the pan over high heat and bring the water to a boil, uncovered. 3 The water should come to a full, rolling boil. 4 Turn off the heat and cover the pan. Instructions. 1 <P> As soon as the water reaches a rapid boil, remove pan from heat and cover egg pan tightly with a lid. Set timer for 17 minutes for large eggs or 20 minutes for jumbo eggs. After 17 or 20 minutes (depending on size of your eggs), remove lid and drain off water from the eggs.	About 20 minutes
how to make google my search engine	<P> To make Google the default search engine within Internet Explorer, click the gear icon in IE's window. Choose Manage Add-ons from the resulting drop-down menu and click Search Providers.. Click Google to highlight this search option, and then click Set As Default.. <P> Click Find more search providers in the Manage search providers window. Enter Google in the search box and click Install search provider.. Click the check box next to Make this my default search provider in the confirmation box that appears. <P> To do so, look for a search bar at the top of your browser-usually next to or on top of the address bar. The logo of your default search engine will be displayed on the left side. Click on it to open a drop-down list containing some options for search engines, such as Google, Yahoo, and Bing. 2. Change to Google. <P> Step 2: Change your search engine to Google — Click the Search Providers option on the left-hand side, select Google, and click the Set as default button in the bottom-right corner. <P> Google Search is installed but not set as your default search provider. To default to Google, here’s how you do it: 1 Click the Tools icon at the far right of the browser window. 2 Select Internet options. 3 In the General tab, find the Search section and click Settings. <P> Google is listed on the page, but you’ll also find other search engines like DuckDuckGo. Click the Add to Internet Explorer button on the page. When the Add Search Provider window appears, click the Make this my default search provider checkbox and click Add. <P> Click the Down arrow in the search box. This is located next to the magnifying glass icon. Select Manage Search Providers after you've clicked the down arrow. Select Google from the list of search providers and click Set as default.. Click OK to save your settings. <P> Google Search is installed but not set as your default search provider. To default to Google, here’s how you do it: 1 Click the Tools icon at the far right of the browser window. 2 Select Internet options. 3 In the General tab, find the Search section and click Settings. 4 Select Google. 5 Click Set as default and click Close. <P> Click on the arrow to the right of the Internet Explorer search box. Select Manage Search Providers and click on Google.. Click the Set as Default button to set Google as your default search engine, then close the search menu.	1 Click the Tools icon at the far right of the browser window. 2 Select Internet options. 3 In the General tab, find the Search section and click Settings. 4 Select Google. 5 Click Set as default and click Close.
what is an ach deposit	<P> Automated Clearing House (ACH) is an electronic network for financial transactions in the United States. ACH processes large volumes of credit and debit transactions in batches. ACH credit transfers include direct deposit, payroll and vendor payments. ACH is a computer-based clearing and settlement facility established to process the exchange of electronic transactions between participating depository institutions. Rules and regulations that govern the ACH network are established by NACHA and the Federal Reserve. <P> DEFINITION of 'Automated Clearing House-ACH'. An electronic funds-transfer system run by the National Automated Clearing House Association. This payment system deals with payroll, direct deposit, tax refunds, consumer bills, tax payments and many more payment services. <P> Automated Clearing House (also referred to as ACH) is the network that processes electronic financial transactions in the United States. This contains large volumes of credit and debit transactions in batches from a variety of different types of organizations and businesses. <P> ACH, or Automated Clearing House, is an electronic network that processes credit and debit transactions. These includes transactions in both the public and private sector. ACH facilitates the electronic transfer of funds, in the form of payments and deposits, from the account of one party to the other. Direct Deposit. A direct deposit occurs when an employer or other payer electronically deposits funds into a bank account using the ACH system. The deposit is for a specific sum of money. This is known as a credit to the account, as opposed to a debit, which is a removal of funds from the account. <P> ACH Payments. Handle your business payables efficiently with Automated Clearing House (ACH) payments services from Chase. It’s a secure, fast and convenient way to pay your vendors, schedule cash disbursements and even pay individuals through Direct Deposit. 1 Add payees one at a time or upload a list of payees. <P> An ACH is an electronic fund transfer made between banks and credit unions across what is called the Automated Clearing House network. ACH is used for all kinds of fund transfer transactions, including direct deposit of paychecks and monthly debits for routine payments. Merchants often enable consumers to pay bills via ACH by providing an account number and bank routing number. <P> These 10 facts about space will blow your mind. An Automated Clearing House (ACH) deposit is an electronic transfer of funds using the Automated Clearing House. The Automated Clearing House is a secure network in the United States through which banks and other financial institutions can transmit electronic transactions. An ACH deposit means that funds are electronically deposited into an account. This means there is no need for a person to write a check and no one has to visit a bank to complete the transaction. To understand how an ACH deposit works, it may help to consider an example. <P> The Payflow ACH (Automated Clearing House) Payment Service enables you to electronically collect payments from your customers for either single-entry or recurring payments by directly debiting your customer's checking or saving accounts. On the Internet, ACH is primarily used for person-to-person (P2P), business-to-customer (B2C), and business-to-business (B2B) payments. Following are the benefits of ACH Payments. Provide your customers with an alternative to credit cards and checks.	Automated Clearing House (ACH) is an electronic network for financial transactions in the United States.
ounces to calories	<P> Suppose we eat one ounce of celery filled with one ounce of peanut butter. That makes 2 ounces of food containing a total of 171.2 calories (4.5 + 166.7). Divide by 2 and we have a snack with 85.6 calories per ounce. The calorie density is way too high and will contribute to weight gain. Maybe we love peanut butter and we just have to have some with our celery. An ounce of celery contains 4.5 calories and an ounce of peanut butter has 166.7 calories. The calorie density of celery is 4.5 and the calorie density of peanut butter is 166.7. <P> Another way to calculate this is by using the calories in one cup of sugar, 770, and using that figure to calculate the number of calories in one ounce. There are eight ounces in one cup, and 770 divided by eight is 96.25. 96 calories in one ounce of sugar for the win. Note that this is one ounce by volume, not by weight. There are 6 teaspoons in one (dry) ounce. A teaspoon of sugar has 16 calories. Therefore, 6 x 16 = 96 calories per ounce of sugar. This is completely wrong. An ounce of sugar … (slightly more than ONE teapspoon) has around 19 calories. Sadly, no. According to the Exploratorium's chart of measurement equivalents (see link) a teaspoon is equivalent in volume to 5 grams. There are 28 grams in an ounce, so roughly 6 teaspoons in an ounce <P> The answer is 218.75. We assume you are converting between calorie [burned] and ounce. You can view more details on each measurement unit: calorie or ounces. The SI base unit for mass is the kilogram. 1 kilogram is equal to 7716.17917647 calorie, or 35.2739619496 ounces. Note that rounding errors may occur, so always check the results. Use this page to learn how to convert between calories and ounces. <P> We assume you are converting between ounce and calorie [burned] . You can view more details on each measurement unit: ounces or calorie. The SI base unit for mass is the kilogram. 1 kilogram is equal to 35.2739619496 ounces, or 7716.17917647 calorie. <P> 1 Divide total intake by 30 mL’s per ounce. 2 This gives you total ounces in. 3 Multiply total ounces in by number of calories per ounce. 4 Infant formulas are usually 20 kcal/oz, but these are often fortified to 22, 24, or 30 kcal/oz. 5 This gives you total calories per day. 6 Divide by weight in kg. 7 This gives you kcal/kg/day. 1 This gives you total mLs. 2 Divide total intake by 30 mL’s per ounce. 3 This gives you total ounces in. 4 Multiply total ounces in by number of calories per ounce. 5 Infant formulas are usually 20 kcal/oz, but these are often fortified to 22, 24, or 30 kcal/oz. 6 This gives you total calories per day. 7 Divide by weight in kg. <P> 1 This gives you total ounces in. 2 Multiply total ounces in by number of calories per ounce. 3 Infant formulas are usually 20 kcal/oz, but these are often fortified to 22, 24, or 30 kcal/oz. 4 This gives you total calories per day. 1 This gives you total mLs. 2 Divide total intake by 30 mL’s per ounce. 3 This gives you total ounces in. 4 Multiply total ounces in by number of calories per ounce. 5 Infant formulas are usually 20 kcal/oz, but these are often fortified to 22, 24, or 30 kcal/oz. 6 This gives you total calories per day. 7 Divide by weight in kg. <P> An ounce is one sixteenth of a pound and there are 3500 calories in a pound. Actually more like 230, which would be roughly 45 minutes of excercise. 1 gram of fat equals 9 calories. 1 gram of protein or carbs equals 4 calories. 1 pound is equal to 3500 calories. 388 grams of fat equals one pound. <P> 1 Multiply total ounces in by number of calories per ounce. 2 Infant formulas are usually 20 kcal/oz, but these are often fortified to 22, 24, or 30 kcal/oz. 3 This gives you total calories per day. 4 Divide by weight in kg. 1 This gives you total mLs. 2 Divide total intake by 30 mL’s per ounce. 3 This gives you total ounces in. 4 Multiply total ounces in by number of calories per ounce. 5 Infant formulas are usually 20 kcal/oz, but these are often fortified to 22, 24, or 30 kcal/oz. 6 This gives you total calories per day. 7 Divide by weight in kg.	1 Divide total intake by 30 mL’s per ounce. 2 This gives you total ounces in. 3 Multiply total ounces in by number of calories per ounce. 4 Infant formulas are usually 20 kcal/oz, but these are often fortified to 22, 24, or 30 kcal/oz. 5 This gives you total calories per day. 6 Divide by weight in kg. 7 This gives you kcal/kg/day.
what temperature to cover plants	<P> If the weather suddenly turns cold, early-flowering and tender plants may need special protection to avoid damage by freezing temperatures. There are several ways you can provide winter protection, including 1) mulching; 2) covering the plants; 3) moving them; or 4) taking advantage of a light snow covering. <P> For added protection when you protect plants in a freeze, you can place plastic over the sheets or blankets to help keep warmth in. Never cover a plant with just plastic, however, as the plastic will damage the plant. Make sure that a cloth barrier is between the plastic and the plant. <P> 1 Uncover crops as soon as milder temperature return. 2 Smaller plants can be covered with a thick layer of dry leaves or pine straw. 3 For larger shrubs such as figs, you can build a wire cage around individual plants or beds to help hold leaves in place and cover with an old sheet. <P> 1 You may also want to cover your bedding plants if the temperature is slightly above freezing levels in the event the temperature continues to drop overnight. 2 Place layers of horticultural fleece over your bedding plants. Freezing temperatures are below 32 degrees Fahrenheit (0 degrees Celsius). 1 <P> Knowing how to cover plants when cold outside depends upon the type of plant that you're dealing with. A fig tree in zone 6 has to be covered differently from a banana tree in zone 8. Knowing the plant and your own gardening zone helps you determine the best method to cover plants when cold outside. How to Cover Plants When Cold Outside. Depending on the plant and zone, here are two basic techniques for covering plants during winter. 1 Mulch: Use wood chips, shredded pine or other mulch suitable for plants. 2 Spread it around the plant from the crown out to the circumference of the leaves and a little beyond. <P> If the threat of frost is prolonged and temperatures remain low during the day, be sure to use a fabric covering. When there is a threat of frost, cover your plants before sunset. You can also purchase commercial coverings designed to protect plants from frost. Potted plants are particularly susceptible to frosts because the roots are less insulated. If you are unable to move your container plants indoors or under cover, remember to also wrap the pot in burlap or bubble wrap, or simply bury the pot in the ground, in addition to protecting the foliage. <P> Report Abuse. Depends on what temperature the plants will stand. New plants need to be covered sooner than mature plants. I cover my real tropical stuff at 45 or at least I used to. I'm tired of all the work. I've found plants can stand it pretty low before they have problems. I brought in my some of my newer potted plants last night and it was 39. <P> The faster the temperature drops, the lower the temperature, and the longer the temperature stays low, the greater the damage to plants. For example, a short 15 minutes at 15-degrees, may cause less plant damage. than an hour at 20-degrees. To protect your plants adequately, you need know what plants you have, and to understand: our desert cold weather; how plants respond to cold; some methods to prevent severe frost damage; and what to do if a plant is frost damaged. Understanding our Desert Cold Weather Humidity slows temperature chang <P> 5. Cover your bedding plants when the soil temperature is below freezing. Freezing temperatures are below 32 degrees Fahrenheit (0 degrees Celsius). 1 You may also want to cover your bedding plants if the temperature is slightly above freezing levels in the event the temperature continues to drop overnight. 2 Place layers of horticultural fleece over your bedding plants.	32 degrees Fahrenheit
how long to venus	<P> Venus revolves or orbits around the Sun once every 0.615 Earth years, or once every 224.7 Earth days. Venus travels at an average speed of 78,341 miles per hour or 126,077 kilometers per hour in its orbit around the Sun. 1 Javascript must be enabled to use Cool Cosmos. 2 Learn how. <P> A planet's day is the time it takes the planet to rotate or spin once on its axis. Venus rotates much more slowly than Earth does, so a day on Venus is much longer than a day on Earth. A day on Venus lasts for 243 Earth days or 5,832 hours! A day on Earth is 23.943 hours. Venus also rotates backwards compared to the Earth and most of the other planets. 1 Javascript must be enabled to use Cool Cosmo <P> Current space probes use various orbital paths to reach Venus, taking from 1 to 3 years. Manned missions such as the Apollo trip to the Moon would require 1 to 3 months at a minimum, to reach the planet's orbit. At the maximum velocity of any current spacecraft, a direct flight would require between 30 and 120 days, depending on Venus's position in its orbit. <P> by Fraser Cain on November 4, 2009. Venus orbits closer to the Sun than Earth, and so it takes less time to orbit the Sun. In fact, Venus takes only 224.7 days to orbit the Sun. Compare this with the Earth, which takes 365.25 days to orbit the Sun. This means that a year on Venus lasts only 62% the length of a year on Earth. Unlike most of the planets in the Solar System, Venus has almost no axial tilt. Furthermore, its orbit is one of the most circular in the Solar System. <P> Venus takes 224.7 Earth days to travel around the sun. It makes its closest approach to Earth about once every 584 days, when the planets catch up to one another. On average, it is 25 million miles (40 million km) away at this point, though it can reach as close as 24 million miles (38 million km). On average, the distance to Venus from the sun is 67 million miles (108 million km). At its closest (perihelion), it is only 66.7 million miles away (107 million km); at its farthest (aphelion), only 67.7 million miles (108.9 million km) separate the two. <P> The closest Venus comes to Earth in its orbit around the Sun is about 25 million miles. If you were traveling to Venus in a rocket ship at a speed of 25,000 mil … es per hour, it would take you 1000 hours to get there, or 41.66 days. Manned missions such as the Apollo trip to the Moon would require 1 to 3 months at a minimum, to reach the planet's orbit. At the maximum velocity of any current spacecraft, a direct flight would require between 30 and 120 days, depending on Venus's position in its orbit. <P> Venus orbits the sun in approximately 225 Earth days. (224.70069 days) Strange as it may seem, Venus rotates so slowly that a day on Venus is longer than its year. It take … s Venus about 243 Earth days to spin once on its axis. The slow rotation is also in a retrograde (clockwise) direction, from east to west. Manned missions such as the Apollo trip to the Moon would require 1 to 3 months at a minimum, to reach the planet's orbit. At the maximum velocity of any current spacecraft, a direct flight would require between 30 and 120 days, depending on Venus's position in its orbit. <P> Venus is the second planet from the Sun, orbiting it every 224.7 Earth days. It has no natural satellite. It is named after the Roman goddess of love and beauty. After the Moon, it is the brightest natural object in the night sky, reaching an apparent magnitude of −4.6, bright enough to cast shadows. <P> The first spacecraft ever launched towards Venus was the Soviet Venera 1 spacecraft. It was launched on February 12, 1961 on course to Venus. Unfortunately, scientists lost contact with the spacecraft on February 17th. So that calculates to 110 days from launch to arrival at Venus. The most recent spacecraft to fly to Venus was ESA’s Venus Express. It was launched on November 9th, 2005, and took 153 days to make the journey to Venus. <P> The distance between Venus and Earth varies considerably because of their respective orbits. - At its closest point, Venus is about 38 million kilometres (23.7 million miles) from Earth. - At its farthest point, it is 261 million kilometres (162 million miles) from Earth. (see the related link).	243 Earth days
what two mountain ranges are in india	<P> Himalayas. The Himalayas, a huge mountain range immediately at the north of the Indian subcontinent, is the world's highest mountain range, and home to the world's highest peaks, including Mount Everest at 8,848 m (29,029 ft), and K2 at 8,611 m (28,251 feet) above sea level. The Altay Mountains are a mountain range in East-Central Asia, where Russia, China, Mongolia and Kazakhstan come together, and where the rivers Irtysh and Ob have their sources. Belukha Mountain is the highest peak at 4,506 m, (14,784 ft). Ghats. <P> 1 Kanchenjunga, is the highest point in India on this mountain range. 2 The Himalayas are also world’s youngest mountains extending up to 2,500 km in length. 3 It stretches all the way from Jammu and Kashmir in the north to Arunachal Pradesh in the east. 4 Most of the peaks in this region are snowbound throughout the year. Himalayan Mountain Range. 1 The Himalayas are the world’s highest mountain range. 2 Mt. Everest standing at 29,929 ft, on the Nepal-China border, is the tallest mountain found in this region and also in the world. 3 This mountain range has a number of peaks that rise over 22,966 ft in height <P> India is home to some of the tallest and gallant mountain ranges in the world. These ranges come with some of the most attractive sceneries and ecosystems in the world. The diversified altitudes and ranges feature a wide range of flora and fauna. Mountains of India can be broadly categorized into the following: The Great Himalayas. Stretching for more than 2,500 km from the East to West, and 250 km to 400 km from South to North, the Himalayan Mountain Ranges are one of the natural wonders of <P> 1 This mountain range has a number of peaks that rise over 22,966 ft in height. 2 Kanchenjunga, is the highest point in India on this mountain range. 3 The Himalayas are also world’s youngest mountains extending up to 2,500 km in length. Himalayan Mountain Range. 1 The Himalayas are the world’s highest mountain range. 2 Mt. Everest standing at 29,929 ft, on the Nepal-China border, is the tallest mountain found in this region and also in the world. 3 This mountain range has a number of peaks that rise over 22,966 ft in height <P> 1. Himalayas. One of the natural wonders of the world, the Great Himalayan Mountain is the highest mountain range in India. This huge mountain covers nearly five countries including Nepal, Bhutan, Pakistan, India, and People’s Republic of China. This famous mountain derived its name from Sanskrit language which means Abode of Snow. Stretched across the Indian states of Rajasthan, Gujarat, Delhi, and Haryana, the Aravalli Ranges are considered to be the oldest mountains in India. Aravalli means line of peaks and you can see a range of mountains that is spread across 800 km in northeastern direction. <P> The Himalayas. The Himalayas, the highest mountain range in the world, extend along the northern frontiers of Pakistan, India, Nepal, Bhutan, and Burma. They were formed geologically as a result of the collision of the Indian subcontinent with Asia <P> The Himalayas, the most majestic and highest mountain range in the world, lie principally in China. Also the longest mountain range in China, they stretch fro 2,400 kilometers from west to east and 200-300 kilometers from north to south in China's Tibet, Pakistan, India, Nepal, Sikkim and Bhutan. <P> 1 The Himalayas are the world’s highest mountain range. 2 Mt. Everest standing at 29,929 ft, on the Nepal-China border, is the tallest mountain found in this region and also in the world. 3 This mountain range has a number of peaks that rise over 22,966 ft in height. Himalayan Mountain Range. 1 The Himalayas are the world’s highest mountain range. 2 Mt. Everest standing at 29,929 ft, on the Nepal-China border, is the tallest mountain found in this region and also in the world.	Himalayas and Kanchenjunga.
how do floods affect people's lives	<P> Flooding affects people in a multitude of ways. People suffer stress on multiple fronts, not just as flooding occurs, but also in the anticipatory period preceding a flood and during the cleanup and recovery phase. Flooding can damage properties, destroy homes, create financial burden and cause emotional hardship. <P> Floods can have momentarily have an affect on peoples lives. They can all have a knock on affect to a change in quality of life. They can also have an affect on peoples life's environmentally, health and economically. Floods have wiped out cities in the past and left the people that survived the flood homeless and where the city was is usually left barren forever. <P> They can all have a knock on affect to a change in quality of life. They can also have an affect on peoples life's … environmentally, health and economically. Floods have wiped out cities in the past and left the people that survived the flood homeless and where the city was is usually left barren forever. <P> Enter Title. When we have a drought, it can affect our communities and our environment in many different ways. Everything in the environment is connected, just like everything in our communities is connected. Each different way that drought affects us is what we call an impact of drought. <P> Confidence votes 71. Floods can have momentarily have an affect on peoples lives. They can all have a knock on affect to a change in quality of life. They can also have an affect on peoples life's environmentally, health and economically. Floods have wiped out cities in the past and left the people that survived the flood homeless and where the city was is usually left barren forever. <P> Drought affects our lives in many different ways because water is such an important part of so many of our activities. We need water to live, and animals and plants do too. We need water to grow the food we eat. <P> Floods can affect every area of life and property: Floods can damage homes and kill people and animals. Floods destroy growing crops and wash away the rich topsoil that is so … necessary for growing crops.	By damaging properties, destroy homes, create financial burden and cause emotional hardship.
name of cell membrane	<P> The cell membrane, or plasma membrane, surrounds and protects the internal environment of a cell; however, this is not its only function. A cell membrane also determines what materials enter or leave the cell. This ensures that the cells will be able to get rid of wastes and take up important nutrients and gases. <P> Confidence votes 1.9K. A cell membrane is also known as a plasma membrane or cytoplasmic membrane. The cell membrane separates the interior of a cell from its outside environment. The main function of a cell membrane is to protect the cell from its surroundings. <P> The cell membrane is a structure that forms the outer boundary of the cell and allows only certain materials to move into and out of the cell. Food, oxygen and water move into the cell through the membrane. <P> Phospholipids form the basic structure of a cell membrane, called the lipid bilayer. Scattered in the lipid bilayer are cholesterol molecules, which help to keep the membrane fluid consistent. Membrane proteins are important for transporting substances across the cell membrane. <P> The cell membrane (or plasma membrane or plasmalemma) surrounds the cytoplasm of living cells, physically separating the intracellular components from the extracellular environment. <P> The cell membrane (also known as the plasma membrane or cytoplasmic membrane) is a biological membrane that separates the interior of all cells from the outside environment. The cell membrane is selectively permeable to ions and organic molecules and controls the movement of substances in and out of cells. The basic function of the cell membrane is to protect the cell from its surroundings. It consists of the phospholipid bilayer with embedded proteins. <P> Share. By Regina Bailey. Definition: The cell membrane is a thin semi-permeable membrane that surrounds the cytoplasm of a cell, enclosing its contents. Its function is to protect the integrity of the interior of the cell by allowing certain substances into the cell, while keeping other substances out.	Plasma membrane or cytoplasmic membrane
brine pork loin roast	<P> Directions. In a small dry skillet over medium heat toast the coriander, mustard seeds, juniper berries, and peppercorns until fragrant, about 1 minute. Put them on a plate to cool. In a bowl mix the sugar and salt with 2 cups of water until dissolved. Put the pork roast into a deep bowl or a large plastic bag. Remove the pork roast from the brine about 1/2 hour before you will be ready to cook it to allow it to come up to room temperature. When ready to cook, heat a grill to high heat. Dry the pork, rub it with olive oil, and season it with pepper. <P> Directions. 1 Bring water, salt and sugar to boil. 2 Add bay leaves, cloves, cinnamon stick, peppercorns and garlic. 3 Simmer 5 minutes. 4 Remove from heat and let cool to room temp. 5 Pour over pork roast and marinate a minimum of 8 hours or overnight. 6 Drain. 7 Pre-heat oven to 250 degrees. 1 Add bay leaves, cloves, cinnamon stick, peppercorns and garlic. 2 Simmer 5 minutes. 3 Remove from heat and let cool to room temp. 4 Pour over pork roast and marinate a minimum of 8 hours or overnight. 5 Drain. 6 Pre-heat oven to 250 degrees. 7 Season meat with salt and pepper. 8 Place in a roasting pan with meat side down <P> Let it sit in the brine in the refrigerator for 2 to 6 hours. Remove the pork roast from the brine about 1/2 hour before you will be ready to cook it to allow it to come up to room temperature. When ready to cook, heat a grill to high heat. Dry the pork, rub it with olive oil, and season it with pepper. Sear the pork on all sides to get grill mark <P> 1 Bring water, salt and sugar to boil. 2 Add bay leaves, cloves, cinnamon stick, peppercorns and garlic. 3 Simmer 5 minutes. 4 Remove from heat and let cool to room temp. 5 Pour over pork roast and marinate a minimum of 8 hours or overnight. 6 Drain. 7 Pre-heat oven to 250 degrees. 8 Season meat with salt and pepper. 1 Add bay leaves, cloves, cinnamon stick, peppercorns and garlic. 2 Simmer 5 minutes. 3 Remove from heat and let cool to room temp. 4 Pour over pork roast and marinate a minimum of 8 hours or overnight. 5 Drain. 6 Pre-heat oven to 250 degrees. 7 Season meat with salt and pepper. 8 Place in a roasting pan with meat side down <P> Bring brown sugar, 1 cup salt, 2 bay leaves, 1 tablespoon coriander seeds, 1 teaspoon peppercorns, and 2 cups water to a boil in a medium saucepan. Reduce heat and simmer, stirring occasionally, until sugar and salt dissolve, about 4 minutes. Transfer brine to a large bowl and add cider and 2 cups ice. Let cool. Place pork and brine in a large (2-gallon) resealable plastic bag. Seal bag and chill at least 8 hours. <P> 1 Place pork roast into a large nonreactive bowl, pour brine over pork, and cover; marinate in refrigerator for 12 to 24 hours. 2 Heat olive oil in a skillet over medium heat; cook and stir apple and shallots into hot oil until shallots are soft, about 5 minutes. 1 Let brine cool to room temperature. 2 <P> 1 Mix water, salt, 1/3 cup maple syrup, garlic, ginger, rosemary, black pepper, and red pepper flakes in a large bowl. 2 Place pork loin in brine mixture and refrigerate for 8 to 10 hours. 3 Remove pork from brine, pat dry, and season all sides with salt and black pepper. 4 Preheat oven to 325 degrees F (165 degrees C). 1 Place pork loin in brine mixture and refrigerate for 8 to 10 hours. 2 Remove pork from brine, pat dry, and season all sides with salt and black pepper. 3 Preheat oven to 325 degrees F (165 degrees C). 4 Heat vegetable oil in an oven-proof skillet over high heat. 5 Cook pork, turning to brown each side, about 10 minutes total <P> 1 Remove roast from brine, rinse, and pat dry with paper towels, and roast (on a rack or grill pan) according to your favorite recipe until a thermometer, inserted in the center of the roast, reads 155 degrees. 2 Allow the roast to rest for 20 minutes before carving. Brining is a technique that is makes the roast more juicy, by making possible the accumulation of juices within the meat during cooking. The proportion of salt to water must be 1/3 to 1/2 cup per each 2 quarts of liquid (or 2/3 to 1 cup of salt per gallon), in order for this transformation to occur.	1 Place pork loin in brine mixture and refrigerate for 8 to 10 hours. 2 Remove pork from brine, pat dry, and season all sides with salt and black pepper. 3 Preheat oven to 325 degrees F (165 degrees C).4 Heat vegetable oil in an oven-proof skillet over high heat.5 Cook pork, turning to brown each side, about 10 minutes total.
tuition fees deduction limit	<P> 80C for tuition/school fees paid for education of children Who is Eligible: Deduction for tuition fees u/s. 80c of the Income Tax Act 1961 is available to Individual Assessee and is not available to HUF. Maximum Child: Deduction under this section is available for tuition fees paid on two children’s education. <P> You do not have to itemize to take the tuition and fees deduction. You claim the deduction as an adjustment to income on Form 1040 (PDF) or Form 1040A (PDF), U.S. Individual Income Tax Return. For more information regarding this deduction, the credits or education business expenses, refer to Publication 970. <P> Effect of the Amount of Your Income on the Amount of Your Deduction. If your MAGI is not more than $65,000 ($130,000 if you are married filing jointly), your maximum tuition and fees deduction is $4,000. <P> The Tuition and Fees Deduction allows taxpayers to deduct up to $4,000 in tuition expenses as an above-the-line exclusion from income. This tax benefit is also known as the Limited Deduction for Tuition Expenses or as the Torricelli Deduction. <P> Limits and Income Ranges for the Tuition and Fees Deduction. The maximum amount of the tuition and fees deduction you can claim is $4,000 per year. The deduction is further limited by the following income ranges: 1 $4,000 maximum for income up to $65,000 ($130,000 for joint filers); 2 $2,000 maximum for income over $65,000 and up to $80,000 ($16 <P> You may be able to deduct qualified tuition and related expenses that you pay for yourself, your spouse or a dependent as a tuition and fees deduction. To determine whether your expenses qualify, refer to Publication 970, Tax Benefits for Education. <P> 80C for tuition / school fees paid for education of children. Who is Eligible: Deduction for tuition fees u/s. 80C of the Income Tax Act 1961 is available to Individual Assessee and is not available to HUF. Maximum Child: Deduction under this section is available for tuition fees paid on two children’s education. If Assessee have more then two children then he can claim tuition fees paid of only two children’s.	$4,000 per year.
why did the earthquake happen in ecuador	<P> 05.29 Here is more detail on the tsunami advisory for Hawaii from Reuters: A tsunami advisory has been issued for Hawaii due to a magnitude 8.2 earthquake that struck on Tuesday off the coast of Chile, but no major damage is expected. Based on all available data, a major tsunami is not expected to strike the state of Hawaii, the Pacific Tsunami Warning Centre said in a statement. <P> From Lander and Lockridge, 1989, Tsunami in Hawaii A magnitude 8.2 earthquake off the coast of Ecuador produced a 5-m local tsunami that destroyed 49 houses and killed 500 people in Colombia. It was recorded at San Diego and San Francisco.. Share this page: 1 Facebook. Then a sudden flood tide reached a considerable height.. A magnitude 8.2 earthquake off the coast of Ecuador produced a 5-m local tsunami that destroyed 49 houses and killed 500 people in Colombia. <P> Along Faults. Earthquakes can also occur far from the edges of plates, along faults. Faults are cracks in the earth where sections of a plate (or two plates) are moving in different directions. Faults are caused by all that bumping and sliding the plates do. They are more common near the edges of the plates. <P> A catastrophic magnitude 8.2 earthquake off the coast of Ecuador and Colombia generated a strong tsunami that killed 500 to 1500 there. It was observed all along the coast of Central America and as far north as San Francisco and west to Japan.....The wave arrived in Hilo at about 12.5 hours after the earthquake. Then a sudden flood tide reached a considerable height.. A magnitude 8.2 earthquake off the coast of Ecuador produced a 5-m local tsunami that destroyed 49 houses and killed 500 people in Colombia. It was recorded at San Diego and San Francisco.. Share this page: 1 Facebook <P> Up-and-down motions in earthquakes occur over so-called dip-slip faults, where the ground above the fault zone either drops (a normal fault) or is pushed up (a reverse fault). A normal fault occurs where the deeper part of the crust is pulling away from an overlying part. <P> The 1906 Ecuador–Colombia earthquake occurred at 15:36 UTC on January 31, off the coast of Ecuador, near Esmeraldas. The earthquake had a moment magnitude of 8.8 and triggered a destructive tsunami that caused at least 500 casualties on the coast of Colombia. Because the sequence of three earthquakes that ended in 1979 did not release as much energy as the 1906 event, it has been suggested that an earthquake of similar magnitude to that in 1906 was likely in the near future. <P> Earthquakes that affect Ecuador can be divided into those that result from movement on the subduction interface along the plate boundary, those that result from deformation within the South American and Nazca Plates and those that are associated with active volcanoes. Earthquakes within the downgoing Nazca Plate, such as the M w 7.1 event of August 2010, are generally too deep to cause significant damage in Ecuador although they are felt over a wide area. <P> Ecuador is a land of volcanoes and geological faults so Ecuador does have earthquakes. Here is an excerpt from a full report just emailed to our Ecuador Living subscribers. The recent earthquake in Haiti sent many readers scuttling to their keyboards so they could ask about earthquakes in Ecuador. An article at History.com entitled “ Earthquake destroys landmarks in Quito ” provides more details: Quito, Ecuador, the site of many powerful earthquakes through the years, suffers one of its worst when a tremor kills 5,000 people and destroys some of the most famous buildings in South America, on this day in 1859. <P> Earthquakes in Pennsylvania. Pennsylvania experiences a relatively low level of earthquake activity compared to active states such as Alaska and California. Not only do earthquakes occur in our Commonwealth, but parts or all of Pennsylvania has been subject to the effects of earthquakes located outside our borders.	Ecuador is a land of volcanoes and geological faults so Ecuador does have earthquakes.
incubation period for q fever	<P> 1 The incubation period for Q fever varies depending on the number of organisms that initially infect the patient. 2 Infection with greater numbers of organisms will result in shorter incubation periods. 3 Most persons become ill within 2-3 weeks after exposure. <P> It is an infection caused by the bacteria Coxiella burnetii which can cause pneumonia and hepatitis (liver inflammation) in its early stage, and infection of the heart valves (endocarditis) in its chronic stage. The incubation period (time to development of symptoms) for early (acute) Q fever is approximately 20 days. <P> Incubation Period. In humans, the incubation period varies from 2 to 40 days; the typical incubation period is approximately 2 to 5 weeks. Clinical Signs. The symptoms of Q fever appear acutely and can include fever, chills, a severe headache, fatigue, malaise, myalgia and chest pains. <P> Q fever has an incubation period of one to four weeks in other words, it can take up to four weeks between exposure and the first symptoms. Usually it starts with a sudden high fever with muscle pain and severe headache symptoms similar to influenza. There may be chills, sweats, cough, muscle pains and fatigue. <P> Incubation Period. 1 The incubation period for Q fever varies depending on the number of organisms that initially infect the patient. 2 Infection with greater numbers of organisms will result in shorter incubation periods. 3 Most persons become ill within 2-3 weeks after exposure. <P> Q fever is a worldwide disease with acute and chronic stages caused by the bacteria Coxiella burnetii. Cattle, sheep, and goats are the primary reservoirs although a variety of species may be infected. Organisms are excreted in milk, urine, and feces of infected animals. <P> Following an incubation period of 10-20 days, Q fever generally occurs as a self-limiting febrile illness that includes headache, fatigue, and myalgias and lasts from 2 days to 2 weeks. Pneumonia occurs frequently, usually manifested only by an abnormal chest x-ray. <P> High temperature pasteurization destroys the organism. Infections in Humans Incubation Period In humans, the incubation period for acute Q fever varies from 2 to 48 days; the typical incubation period is approximately 2 to 3 weeks. Chronic Q fever can occur from months to many years after infection. weight in some women.	From 2 to 48 days.
what is serbian currency called	<P> The Bosnian Convertible Marka is the currency of Bosnia and Herzegovina. Our currency rankings show that the most popular Bosnia and Herzegovina Convertible Marka exchange rate is the BAM to USD rate. The currency code for Convertible Marka is BAM, and the currency symbol is KM. Below, you'll find Bosnian Convertible Marka rates and a currency converter. <P> RSD-Serbian Dinar. Serbia, Dinar. The Serbian Dinar is the currency of Serbia. Our currency rankings show that the most popular Serbia Dinar exchange rate is the RSD to EUR rate. The currency code for Dinars is RSD, and the currency symbol is рсд. Below, you'll find Serbian Dinar rates and a currency converter. <P> Serbia's official currency is the Serbian dinar (RSD). The Serbian dinar can be exchanged in most of the banks throughout the Europe. You can convert your currency into RSD at the airport, nearly all banks, or in the numerous and visibly marked authorized exchange offices (Menjačnica/мењачница). <P> The currency used in Montenegro is called: Euro with exchange rate of 1 USD = 0.89 Euro updated on Wednesday, September 30, 2015. The information is based on data from the Bank of Canada and is updated daily for the major currencies.	Serbian Dinar.
what is color of cough	<P> Home » Pulmonology » Phlegm ». Phlegm or respiratory system mucus is a gel like substance produced by upper and lower respiratory system organs in response to various types of irritants in the form of allergens, viruses, bacteria, environmental toxins and pollution. However, in response to various irritants and inflammatory processes, the color of phlegm changes along with its consistency. The presence of white blood cells, proteins and irritants gives mucus its tint. <P> Pink Phlegm. Pink-colored phlegm is anything but pretty. Coughing up pink phlegm is an indicator of pulmonary edema, also known as fluid in the lungs. It can also be a sign of bleeding when seen in small amounts, which show up as a stain or streak. This causes the mucus to stagnate and dry out, leading to a white discharge. Meanwhile, coughing up gray phlegm may be a sign that the body is trying to get rid of resins or tars that accumulated from excessive smoking or inhalation of large amounts of air pollutants like smog or dust. <P> Green mucus can also be a sign of bronchitis, if one or more of the following is present: coughing, fatigue, shortness of breath after non-vigorous physical exercise, wheezing, discomfort in the chest area. Yellow mucus. Pink mucus By pink is meant a pink-tinged mucus. Mucus having this color should be regarded as a sign of a potentially serious condition. If the pink-tinged mucus is accompanied by: 1 fatigue, weakness. <P> Color of phlegm is a very helpful way for you to know how your body is coping with an illness. No matter what the color of phlegm is, if it’s accompanied by a fever of 102 F degrees or higher, if you generally feel run down, experience wheezing, chest pains and persistent cough, it is time to call a doctor. However, in response to various irritants and inflammatory processes, the color of phlegm changes along with its consistency. The presence of white blood cells, proteins and irritants gives mucus its tint. <P> 1 It is normal to have a productive cough when you have a common cold. 2 Coughing is often triggered by mucus that drains down the back of the throat. 3 Infections. 4 An infection of the lungs or upper airway passages can cause a cough. 5 A productive cough may be a symptom of pneumonia, bronchitis, sinusitis, or tuberculosis. There are many causes of a productive cough, such as: 1 Viral illnesses. 2 It is normal to have a productive cough when you have a common cold. 3 Coughing is often triggered by mucus that drains down the back of the throat. 4 Infections. 5 <P> Coughing up yellow mucus can be a sign of a sinus infection, especially when the color changes to a dark yellow. It can also be a sign of bronchitis if it is accompanied by the symptoms already described for bronchitis under Green mucus, above. Yet when the air is very dry some persons produce a light yellow mucus. Pink mucus By pink is meant a pink-tinged mucus. Mucus having this color should be regarded as a sign of a potentially serious condition. If the pink-tinged mucus is accompanied by: 1 fatigue, weakness. <P> Hemoptysis or haemoptysis is the act of coughing up blood or blood-stained mucus from the bronchi, larynx, trachea, or lungs. This can occur with lung cancer, infections such as tuberculosis, bronchitis, or pneumonia, and certain cardiovascular conditions. <P> Green or Dark Yellow Phlegm. A thick and dark yellow phlegm may be a sign of a viral or bacterial infection, sinus infection, or lower respiratory tract infection. Typically, this occurs when the immune system sends white blood cells, known as neutrophils, to the area of infection. This causes the mucus to stagnate and dry out, leading to a white discharge. Meanwhile, coughing up gray phlegm may be a sign that the body is trying to get rid of resins or tars that accumulated from excessive smoking or inhalation of large amounts of air pollutants like smog or dust. <P> The phlegm palette is similarly multicolored to mucus with clear or white sputum being normal, yellow or green hues from frequent coughing, and red or brown shades from blood that's new or old. If you're seeing a lot of blood in phlegm, give your doctor a call. A rainbow of mucus and phlegm. As far as color goes, mucus is typically clear. But when the immune system sends white blood cells into the nose to fight off infection, they contain a greenish enzyme that shades the substance yellow or green. These are the same tones mucus takes on when it dries and clumps into boogers.	Green or Dark Yellow Phlegm.
what kind of oil do hibachi chefs use	<P> Teppanyaki grills are commonly confused with the hibachi barbecue grill, which has a charcoal or gas flame and is made with an open grate design. With a solid griddle type cook surface, the teppanyaki is more suitable for smaller ingredients, such as rice, egg, and finely chopped vegetables. Soybean oil is typically used to cook the ingredients. Japanese-style teppanyaki may also use noodles (yakisoba) or cabbage with sliced meat or seafood (okonomiyaki), which are cooked using vegetable oil, animal fat, or a mixture. <P> 1 what is the sauce hibachi chefs use, 2 brown hibachi sauce, 3 What kind of oil is it that hibachi chefs use to make the flames, 4 what do they squirt on the teppanyaki grill, 5 japanese hibachi dark sauce, 6 hibachi noodles name. what do hibachi chefs use to make fire. 1 how to make hibachi brown sauce, 2 what is the sauce hibachi chefs use, 3 brown hibachi sauce, 4 What kind of oil is it that hibachi chefs use to make the flames, 5 what do they squirt on the teppanyaki grill, 6 japanese hibachi dark sauce, 7 hibachi noodles name. <P> I am curious as to what kind of oil they use at Japanese hibachi grills such as Benihana where they light it on fire and dip their hands in it and then transfer the burning oil to your hand. I need an oil that will flame easily but won't be so hot I can't touch it. Thanks. <P> 1 Heat the vegetable oil and sesame oil in a large skillet or wok on medium high heat. 2 Add the chicken, soy sauce, butter, lemon juice, salt, and pepper to the skillet. 3 Saute sauté the chicken for-6 8 minutes or until no longer. 4 Pink: Note do not clean. skillet 1 Hibachi Veggies. 2 Cut the white onion into slivers. 3 Quarter the zucchini. 4 Heat the vegetable oil and sesame oil in a large skillet or wok on medium high heat. 5 Add the white onion, zucchini, butter, soy sauce, salt, and pepper. 6 Saute sauté veggies for-6 8 minutes or until veggies are. tender <P> 1 Quarter the zucchini. 2 Heat the vegetable oil and sesame oil in a large skillet or wok on medium high heat. 3 Add the white onion, zucchini, butter, soy sauce, salt, and pepper. 4 Saute sauté veggies for-6 8 minutes or until veggies are. 5 Tender: Note do not clean, skillet you will use the same skillet for the bean. sprouts 1 Hibachi Veggies. 2 Cut the white onion into slivers. 3 Quarter the zucchini. 4 Heat the vegetable oil and sesame oil in a large skillet or wok on medium high heat. 5 Add the white onion, zucchini, butter, soy sauce, salt, and pepper. 6 Saute sauté veggies for-6 8 minutes or until veggies are. tender <P> 1 What kind of oil is it that hibachi chefs use to make the flames, 2 what do they squirt on the teppanyaki grill, 3 japanese hibachi dark sauce, 4 hibachi noodles name. what do hibachi chefs use to make fire. 1 how to make hibachi brown sauce, 2 what is the sauce hibachi chefs use, 3 brown hibachi sauce, 4 What kind of oil is it that hibachi chefs use to make the flames, 5 what do they squirt on the teppanyaki grill, 6 japanese hibachi dark sauce, 7 hibachi noodles name. <P> Chef preparing a flaming onion volcano. Teppanyaki (鉄板焼き, teppan-yaki) is a style of Japanese cuisine that uses an iron griddle to cook food. The word teppanyaki is derived from teppan (鉄板), which means iron plate, and yaki (焼き), which means grilled, broiled, or pan-fried. In Japan, teppanyaki refers to dishes cooked using an iron plate, including steak, shrimp, okonomiyaki, yakisoba, and monjayaki. Soybean oil is typically used to cook the ingredients. Japanese-style teppanyaki may also use noodles (yakisoba) or cabbage with sliced meat or seafood (okonomiyaki), which are cooked using vegetable oil, animal fat, or a mixture. <P> Like Hibachi steak, this chicken goes well with rice. Heat 1 tbsp. of oil in a large skillet over medium heat. Place 1 1/2 lbs. of bite-size boneless chicken pieces and mushrooms into skillet and cook until chicken is no longer pink, about 8 minutes. Add in 2 tbsp. of lemon juice and 2 tbsp. of sesame seeds. Season with salt and pepper, if desired. In a small bowl, combine 3 tbsp. of dry mustard and 2 tbsp. of hot water. The mixture will form a paste. Place the paste into a blender with the toasted sesame seeds, 3/4 cup of soy sauce and 1/4 cup of crushed garlic. Blend on the highest setting for about one minute.	To make the flames
chinchilla mating age	<P> Breeding Chinchillas. Most females mature at about 7 months of age and may be put into breeding at this time. Males should be placed into breeding when they are approximately 7 or 8 months old. Chinchillas should be placed into breeding before they turn 2 years old for optimum ability to breed. A chinchilla s gestation period is 111 days <P> Overseas the average breeding chinchilla will weigh over 650 grams for a male and 700+ grams for a female. In New Zealand breeders should try to get breeding chinchillas as big, and healthy, as possible but over 550 grams for males and over 600 grams for females. It is widely accepted that most chinchillas have stopped growing and have matured to a point where they are capable of bearing young successfully and well by 12 months of age, though in the case of some mutations, namely Velvets, they may not mature until 18 months of age. <P> Age to breed. The age a chinchilla should begin breeding, or be added to a breeding program is a hot topic among chinchilla owners, breeders, rescuers, and anyone else who wants to put their two cents worth in. It is widely accepted that most chinchillas have stopped growing and have matured to a point where they are capable of bearing young successfully and well by 12 months of age, though in the case of some mutations, namely Velvets, they may not mature until 18 months of age. <P> While young chinchillas are sexually mature at a young age the females should not be bred until they are at least 8-9 months old. It is actually best to wait until they are at least one year old as they are still growing themselves until then! Birth Weight The average weight of a newborn chinchilla is 30 - 60 grams (1 - 2 ounces). Kits in the lower range can be a challenge to keep alive and should be watched closely. Weaning Age Aim to wean your kits at 8 weeks of age. <P> For example, most chinchillas are capable of breeding at around the age of 5 months. In human terms, this would be early teens or even preteen, an age bracket in which mating is definitely not recommended. Most breeders will wait until both male and female are around 9 months of age. Some will wait even a bit longer. What You Need To Know Before Breeding Chinchillas. Breeding chinchillas involves a lot more than simple putting a male and female together in the same cage. <P> Chinchillas can reach sexual maturity as young as 4 – 5 months of age. However, females should not be exposed to a breeding situation until they are at least one year plus and you are confident that they have reached full size. <P> If the female is not in heat you certainly can (and should) let them have supervised play time together. On the other end of the age issue is the fact that if a chinchilla has not reproduced by the time it is 2 years old, it probably never will. Breeding Life Healthy chinchillas in captivity live for up to 17 years. Until they are about 10 years old they can be in breeding. Birth Weight The average weight of a newborn chinchilla is 30 - 60 grams (1 - 2 ounces). Kits in the lower range can be a challenge to keep alive and should be watched closely. Weaning Age Aim to wean your kits at 8 weeks of age. <P> Breeding & Babies. Breeding & Mating. Chinchillas become sexually mature when they are around eight months old. They mate seasonally based upon the light cycle. In the northern hemisphere, mating season takes place from about November until May. <P> A Basic Guide to Chinchilla Breeding. Chinchillas have no specific mating season and breed any time in the year. Unlike most members of the rodent family, they have a longer conception period of 111 days (approximately 4 months).	9 months of age
disease that affects muscular system	<P> Symptoms, diagnosis and treatment. The most common symptom or sign of a muscle disorder is weakness, although muscle disorders can cause a number of symptoms, according to Schabbing. In addition to weakness, symptoms include abnormal fatigue with activity, as well as muscle spasms, cramping or twitching. <P> Diseases of the Muscular System. Myasthenia gravis. Myasthenia gravis (MG) is a condition where the body's own defense, the immune system, attacks the body. In MG, the intersection between nerve and muscle is the target, causing a blockade of signals that would otherwise command the muscle to go into action. <P> Motor neuron disorders affect the nerve cells that supply muscles, Schabbing said. The most recognizable motor neuron disease is amyotrophic lateral sclerosis, or ALS, commonly known as Lou Gehrig's disease. Learn about the muscles that move your body and keep you alive. <P> Muscular System Diseases. Muscular system diseases affect the normal working of the muscles in the body. The list of diseases covered in the following article, will help you learn about the different types of disorders that cause weakness and a wasting away of muscle tissue. Advertisement. Muscles are a very important part of our body. <P> Muscular system diseases cause many problems in the human body, that affect the mobility and functioning of its various organs. Muscular Dystrophy. This is a genetic disease of a group of inherited muscle disease that cause damage to muscle fibers. <P> Cerebral Palsy is one of the diseases that affects the muscular system, where a persons posture, balance and motor functions are affected. Brain damage during or before childbirth causes loss of muscle tone, causing problems carrying out physical tasks in children.	Cerebral Palsy, Myasthenia gravis, Motor neuron
when checking your temperature under the arm what is normal	<P> Normal axillary temperature is 97.8 degrees F. However, a normal infant's temperature can range between 97.6 to 100 degrees F. Rectal Method.... 1 How to Take A Baby's Temperature Under The Armpit. This measurement, also known as axillary temperature, tends to be about half a degree to a degree below oral temperature. Therefore, normal axillary temperature would range between 97.6 degrees and 98.1 degrees Fahrenheit (36.4-36.7 degrees Celsius). <P> Generally, the correlation of temperature results are as follows: 1 The average normal oral temperature is 98.6°F (37°C) . 2 A rectal temperature is 0.5°F (0.3°C) to 1°F (0.6°C) higher than an oral temperature. 3 An ear (tympanic) temperature is 0.5°F (0.3°C) to 1°F (0.6°C) higher than an oral temperature. 1 A rectal temperature is 0.5°F (0.3°C) to 1°F (0.6°C) higher than an oral temperature. 2 An ear (tympanic) temperature is 0.5°F (0.3°C) to 1°F (0.6°C) higher than an oral temperature. 3 An armpit (axillary) temperature is usually 0.5°F (0.3°C) to 1°F (0.6°C) lower than an oral temperature. <P> Normal range runs between 97 and 100 degrees Fahrenheit or 36.0-37.7 degrees Celsius. Ear temperature (or tympanic temperature) also is very accurate in children and adults. 99.5 degrees Fahrenheit (37.5 degrees Celsius) is the normal temperature for this method. Measuring body temperature orally is perhaps the most traditional means of measurement. Although 98.6 degrees Fahrenheit is the standard norm, healthy range can vary between 98.2 and 98.8 degrees (36.7-37.1 degrees Celsius). This measurement, also known as axillary temperature, tends to be about half a degree to a degree below oral temperature. Therefore, normal axillary temperature would range between 97.6 degrees and 98.1 degrees Fahrenheit (36.4-36.7 <P> Temperature / Fever. Normal axillary (under the arm) temperature ranges from 97.5 to 99.3 degrees Fahrenheit (36.5 to 37.4 degrees Celsius). Taking a rectal temperature. Normal rectal temperature is 100.2 degrees Fahrenheit or less (37.9 degrees Celsius or less). 1 Before taking your baby's axillary temperature, make sure the area under the arm is dry. 2 Insert the end of the thermometer under your baby's arm and hold his/her arm snugly against his/her body. 3 Wait five minutes or until the electronic thermometer beeps before removing. 4 Use only a blunt tipped rectal thermometer. <P> If you think your baby has a fever, it's important to know exactly what his temperature is, so you'll need a good digital thermometer. We'll help you choose one. (Get more details in our thermometer buying guide .). Regular multi-use digital thermometers are sold in drugstores for less than $10. Some babies don't mind having their temperature taken rectally, while others seem to hate it. If your baby protests, you might want to take her underarm (axillary) temperature first. If that reading is over 99 degrees Fahrenheit, take her rectal temperature for a more precise and accurate result. <P> 1 The average normal oral temperature is 98.6°F (37°C) . 2 A rectal temperature is 0.5°F (0.3°C) to 1°F (0.6°C) higher than an oral temperature. 3 An ear (tympanic) temperature is 0.5°F (0.3°C) to 1°F (0.6°C) higher than an oral temperature. 1 A rectal temperature is 0.5°F (0.3°C) to 1°F (0.6°C) higher than an oral temperature. 2 An ear (tympanic) temperature is 0.5°F (0.3°C) to 1°F (0.6°C) higher than an oral temperature. 3 An armpit (axillary) temperature is usually 0.5°F (0.3°C) to 1°F (0.6°C) lower than an oral temperature. <P> Jupiterimages/BananaStock/Getty Images. Checking a person's temperature under the arm, known as the axillary site, is often easier than taking a rectal temperature in children and others who may not be able to assist you in properly taking an oral temperature reading. However, axillary readings are less reliable than those obtained orally or rectally. <P> 1 An ear (tympanic) temperature is 0.5°F (0.3°C) to 1°F (0.6°C) higher than an oral temperature. 2 An armpit (axillary) temperature is usually 0.5°F (0.3°C) to 1°F (0.6°C) lower than an oral temperature. 3 A forehead (temporal) scanner is usually 0.5°F (0.3°C) to 1°F (0.6°C) lower than an oral temperature. 1 A rectal temperature is 0.5°F (0.3°C) to 1°F (0.6°C) higher than an oral temperature. 2 An ear (tympanic) temperature is 0.5°F (0.3°C) to 1°F (0.6°C) higher than an oral temperature. 3 An armpit (axillary) temperature is usually 0.5°F (0.3°C) to 1°F (0.6°C) lower than an oral temperature. <P> 1 An armpit (axillary) temperature is usually 0.5°F (0.3°C) to 1°F (0.6°C) lower than an oral temperature. 2 A forehead (temporal) scanner is usually 0.5°F (0.3°C) to 1°F (0.6°C) lower than an oral temperature. 1 A rectal temperature is 0.5°F (0.3°C) to 1°F (0.6°C) higher than an oral temperature. 2 An ear (tympanic) temperature is 0.5°F (0.3°C) to 1°F (0.6°C) higher than an oral temperature. 3 An armpit (axillary) temperature is usually 0.5°F (0.3°C) to 1°F (0.6°C) lower than an oral temperature.	97.5 to 99.3 degrees Fahrenheit (36.5 to 37.4 degrees Celsius)
how long to drive after eye dilation	<P> It normally takes 20 – 30 minutes for the eyes to dilate. It then just takes 5 - 10 minutes for the doctors to examine them. The pupils will remain larger than normal for 4 – 6 hours causing increased light sensitivity but vision is back to normal usually within the hour. <P> Sadly, there is no hard rule for how long your eyes stay dilated. We tell patients it can last for three hours on average, but it could be very different for you. The truth is that length of time can vary from 45 minutes for one lucky person, to all day long for another – and occasionally even into the next day. So if you find your pupils are still dilated the day after your eye exam, don’t panic! Getting your eyes dilated for the first time is a strange feeling. I’ve already explained why North Cascade Eye Associates will dilate during your regular exam in a previous blog, but there are still plenty of questions to answer about it – even experienced patients want reminders sometimes. <P> Driving While Dilated. WebMD Health News. Aug. 18, 2000 -- Maybe this has happened to you: You go into the ophthalmologist's office for a checkup, and about 45 minutes later, walk out with a new prescription for glasses and hopelessly dilated pupils. It found that for some people, in some situations, it may be safe to drive while dilated. The main reason to have the pupils dilated is so the eye doctor can better see the nerves and blood vessels in the back of the eye, Rohit Varma, MD, tells WebMD. <P> Posts: 74. Re: How long after eyes being dilated can you drive? for the lasik pre-exam, the eyes are dilated way more then for a regular exam, and they said one needed a driver for the appointment as you aren't able to drive after the exam. I wouldn't have been able to drive after. I don't recall ever having had a problem driving within 20 or 30 min. after dilation, but wondered if dilation for pre-exam for Lasik surgery is different from dilation for regular eye exam. Is there a difference in the dilation solutions used? <P> The dilating drops that we typically use last, on average, 4-6 hours before they wear off. Occasionally, we use longer lasting eye drops in younger children, which can last approximately 24 hours. Most people do feel comfortable to drive after their pupils have been dilated. However, if you have never had your pupils dilated before (and therefore don't know if you will feel safe or not), we recommend that you bring a driver or arrange for someone to pick you up after your exam. <P> The researchers, led by Theo Potamitis, recruited 12 healthy volunteers to test several aspects of vision while in a driving simulator, both before and after having their pupils dilated. Potamitis is from the Academic Unit of Ophthalmology at the Birmingham and Midland Eye Center (U.K.). It found that for some people, in some situations, it may be safe to drive while dilated. The main reason to have the pupils dilated is so the eye doctor can better see the nerves and blood vessels in the back of the eye, Rohit Varma, MD, tells WebMD. <P> Dilation is an integral part of any complete eye exam. You should expect to be dilated at your exam. Dilation mostly affects near vision and most people can drive afterwards without any problems. However, if you are unsure or feel uncomfortable, we recommend that you bring a driver with you. <P> Report Abuse. You really should wait a while before driving, dilated eyes are much more sensitive to light than those that aren't dilated. If you have to leave the office right after your examination, perhaps your eye doctor will give you some throw-away shades...otherwise, have somebody drop you off and pick you up. <P> I work at an optometrists office and we dilate every patient every year. Oh yea and also it depends on the color of your eyes to how much and how long you will be dilated, lighter eyes dilate more and for longer and muddy eyes not as much and shorter time. It is normal to suggest you don't drive, after dilation. But it does depend on your normal delirium.	20 – 30 minutes
london borough of sutton council tax contact number	<P> Sign in or register to manage your account for council tax or business rates, council tax reduction or housing benefit. You can view a full statement of your account, a list of your payments, any instalments to be paid, any discount or exemption details or download a pdf of your bill. <P> How to contact Sutton Housing Partnership. You can contact us by the following ways: Our Offices Visit us at our offices at Sutton Gate from 8:45am - 5pm, Monday to Friday. Our reception opens at 8.45am for visitors, our receptionist will be available to take your enquiries from 8:45am. Private interview rooms are available. <P> Paying by Direct Debit is the most convenient way to pay. For either Council Tax or Business Rates please go to www.sutton.gov.uk/directdebit to set up a direct debit online. Alternatively, call us on 0208 770 5000 9am - 5pm and we will set one up with you over the phone. You can also download a form. <P> First-time users. If you are the person or business liable to pay Council Tax or Business Rates or receive Council Tax Reduction and/or Housing Benefit, you can now view your accounts online. Also, Landlords can access information about Housing Benefit payments made to them in respect of their tenants.	0208 770 5000
what is thermal cutting oxide	<P> 12. Thermal Cutting 168 2005 The high-speed cutting nozzle (cutting-oxygen pressure 8 bar) allows higher cutting speeds with increased cutting-oxygen pressure. The heavy-duty cutting nozzle (cutting-oxygen pressure 11 bar) is mainly applied for eco-nomic cutting with flame-cutting machines. The different energy carriers for the thermal cutting are depicted in Figure 12.3: - gas, - electrical gas discharge and-beams. Electron beams for ther-mal cutting are listed in the DIN-Standard, they pro-duce, however, only very small boreholes. Cutting is impossible. <P> Iowa/Illinois Laser Oxide Removal. As the use of thermal cutting processes in the metalworking industry has increased substantially, the need to remove the oxidation produced by those processes has also increased. Carbon oxide is formed on the edges of parts when gas is introduced during the thermal metal cutting process. This creates a carbon oxide scale that appears as a shiny blue/silver finish on and around the cut areas. <P> In oxy-fuel cutting, a torch is used to heat metal to its kindling temperature. A stream of oxygen is then trained on the metal, burning it into a metal oxide that flows out of the kerf as slag. Oxygen is not the fuel. It is what chemically combines with the fuel to produce the heat for welding. This is called 'oxidation', but the more specific and more commonly used term in this context is 'combustion'. In the case of hydrogen, the product of combustion is simply water <P> Machine Controls for Thermal Cutting Open-architecture PC-based machine controls offer advantages that flow from the power of standard software developed with standard development tools, running on one or more standard operating systems. Managers can capture cutting data and log it into a database. A cutting attachment connected to the torch assembly enables cutting of work to 8 inches thick; thicker work requires a dedicated cutting torch. Two-tube attachments mix oxygen and gas in the larger bottom tube; the mixed gas flows through the tube, enters the torch head, and leaves from the tip. <P> For other uses, see Aluminium oxide (compounds) . Aluminium oxide is a chemical compound of aluminium and oxygen with the chemical formula Al 2 O 3. It is the most commonly occurring of several aluminium oxides, and specifically identified as aluminium(III) oxide. Aluminium oxide is an amphoteric substance, meaning it can react with both acids and bases, such as hydrofluoric acid and sodium hydroxide, acting as an acid with a base and a base with an acid, neutralising the other and producing a salt. <P> Standard oxyfuel cutting tips, used primarily for manual cutting, have a straight-through cutting-oxygen orifice, working at 30-60-PSI oxygen pressure. Mechanized cutting uses a tapered tip with cutting-oxygen pressure increased to 100 PSI to boost cutting speed by up to 25 percent over standard tips. A cutting attachment connected to the torch assembly enables cutting of work to 8 inches thick; thicker work requires a dedicated cutting torch. Two-tube attachments mix oxygen and gas in the larger bottom tube; the mixed gas flows through the tube, enters the torch head, and leaves from the tip. <P> Oxy-fuel is one of the oldest welding processes, besides forge welding. Still used in industry, in recent decades it has been less widely utilized in industrial applications as other specifically devised technologies have been adopted. It is still widely used for welding pipes and tubes, as well as repair work. Oxygen is not the fuel. It is what chemically combines with the fuel to produce the heat for welding. This is called 'oxidation', but the more specific and more commonly used term in this context is 'combustion'. In the case of hydrogen, the product of combustion is simply water	In oxy-fuel cutting, a torch is used to heat metal to its kindling temperature. A stream of oxygen is then trained on the metal, burning it into a metal oxide that flows out of the kerf as slag.
statutory law government definition	<P> Statutory law or statute law is written law set down by a body of legislature or by a singular legislator (in the case of an absolute monarchy). This is as opposed to opposed to oral or customary law; or regulatory law promulgated by the executive or common law of the judiciary. Statutory laws are subordinate to the higher constitutional laws of the land and other sources of law. <P> Statute. An act of a legislature that declares, proscribes, or commands something; a specific law, expressed in writing. A statute is a written law passed by a legislature on the state or federal level. Statutes set forth general propositions of law that courts apply to specific situations. A statute may forbid a certain act, direct a certain act, make a declaration, or set forth governmental mechanisms to aid society. When a bill becomes law, the various provisions in the bill are called statutes. The term statute signifies the elevation of a bill from legislative proposal to law. State and federal statutes are compiled in statutory codes that group the statutes by subject. <P> Statute. An act of a legislature that declares, proscribes, or commands something; a specific law, expressed in writing. A statute is a written law passed by a legislature on the state or federal level. Statutes set forth general propositions of law that courts apply to specific situations. <P> Federal Statute Law & Legal Definition. A federal statute is a law enacted by Congress. It is the written will of Congress as expressed formally by an Act of Congress. Thus, when a bill is passed by Congress and signed by the president, it becomes a federal statute. <P> Introduction. Statutory law in the United States consists of the laws passed by the legislature. For the federal government, then, the statutory law is the acts passed by the United States Congress. These acts are designated as Public Laws or Private Laws. Public laws relate to the general public, while private laws relate to specific institutions or individuals <P> Common law is defined as law that has been developed on the basis of preceding rulings by judges. Statutory laws are written laws passed by legislature and government of a country and those which have been accepted by the society. <P> Full Definition of STATUTE. 1. : a law enacted by the legislative branch of a government. 2. : an act of a corporation or of its founder intended as a permanent rule. 3. : an international instrument setting up an agency and regulating its scope or authority. See statute defined for English-language learners. <P> Statutory Law is the term used to define written laws, usually enacted by a legislative body. Statutory laws vary from regulatory or administrative laws that are passed by executive agencies, and common law, or the law created by prior court decisions.	Is the term used to define written laws, usually enacted by a legislative body.Statutory laws vary from regulatory or administrative laws that are passed by executive agencies, and common law, or the law created by prior court decisions.
what is speech pathologist	<P> Job Description. Speech pathologists, officially called speech-language pathologists and sometimes called speech therapists, work with people who have a variety of speech-related disorders. These disorders can include the inability to produce certain sounds, speech rhythm and fluency problems, and voice <P> Speech-language pathologists must be able to listen to and communicate with their patient in order to determine the right course of treatment. Speech-language pathologists (sometimes called speech therapists) assess, diagnose, treat, and help to prevent communication and swallowing disorders in patients. <P> Speech-language pathology is the study and treatment of human communication and its disorders. Speech-language pathologists work with the full range of human communication and its disorders to: 1 Treat speech, language and swallowing disorders in individuals of all ages from infants to the elderly. <P> Speech-language pathology is a field of expertise practiced by a clinician known as a Speech-language pathologist (SLP), also called speech and language therapist, or speech therapist, who specializes in the evaluation and treatment of communication disorders and swallowing disorders. <P> speech pathology (speech-language pathology) a field of the health sciences dealing with the evaluation of speech, language, and voice disorders and the rehabilitation of patients with such disorders not amenable to medical or surgical treatment. See also speech-language pathologist. <P> About Speech-Language Pathology. Speech-language pathologists (SLPs) work to prevent, assess, diagnose, and treat speech, language, social communication, cognitive-communication, and swallowing disorders in children and adults. <P> Overview. Speech-language pathology is the study and treatment of human communication and its disorders. Speech-language pathologists work with the full range of human communication and its disorders to: 1 Treat speech, language and swallowing disorders in individuals of all ages from infants to the elderly.	Assess, diagnose, treat, and help to prevent communication and swallowing disorders in patients.
What vitamins are good for your gums	<P> Your gums are part of your body and they need the same vitamins that your whole body needs to remain healthy. Certain vitamins like vitamin D and K and C, and a vitamin helper called Coenzyme Q10 are essential for the health of all body tissues and organs, including your gums. <P> Yes, supplements such as Vitamin B and iron can help keep your gums healthy. Vitamin B is essential for growth and iron for healthy blood, which in turn contributes to healthy gum tissue. Vitamin C keeps gums healthy by producing healthy connective tissue that holds teeth in their sockets. <P> Save. If you want to take good care of your gums there are certain vitamins you need to take. Some of the vitamins will help prevent certain conditions and other vitamins can help cure certain conditions. <P> Vitamin E is a powerful antioxidant that can be taken in capsule form or opened and rubbed onto the gums for tissue healing. It has also been used to relieve soreness of the gums during infant teething. Foods that are high in vitamin E include sunflower seeds, turnip greens, tomato paste and peanut butter. <P> Vitamin C helps keep your gums healthy. A vitamin C deficiency can lead to gum disease because this vitamin helps produce collagen in the skin, and the gums are considered skin tissue. When there is not enough vitamin C in your system your body has a difficult time trying to replenish gum tissue. <P> Vitamin B. Vitamin B deficiencies can cause toothaches, receding gums and overall sensitivity of the mucous membranes in the mouth. Vitamin B complex supplements are best taken in the sublingual form--under the tongue--for optimal absorption. Food sources of the B vitamins include mushrooms, meat and fish. <P> Some of the best foods to eat for healthy gums and teeth include a diet high in fiber such as whole grain breads and cereals and beans. Fruits high in vitamin C are especially good for your gums, including pears, oranges and kiwi. <P> Vitamin D. Adequate amounts of vitamin D can prevent inflammation of the gums. It is also beneficial to the absorption of calcium, which is necessary for both the development and maintenance of healthy teeth. The best source of vitamin D is sun exposure, but you can also get this nutrient in cheese, milk and fatty fish.	Vitamins B, C, D, E and K.
how much it cost to add a bathroom	<P> Homeowners have many options when it comes to bathroom remodels and the total cost depends on style and budget. The average bathroom remodel costs $9,254, but you can spend less-between $3,500 and $7,000 - to fix up the essentials in a small-to medium-sized bathroom. <P> A good price range for a bathroom addition might be $150 to $250 a square foot and where you end up can depend on just how expensive your tastes happen to be. If you visit a local home improvement store around Griffin, it should be easy to see just how much fixtures can vary in cost. <P> Those concerned with the cost of adding a bathroom to a home should note that such cost varies, and there are typically satisfactory projects for almost any budget. (Jupiterimages/Creatas/Getty Images). Types. There are two main types of bathrooms that can be added to a home: a full bath and a half-bath. <P> Tile. Depending on the type of tile you want, tile can eat away your bathroom budget rather quickly. Tiles range in price from under $1 per square to high-end tiles that can cost approximately $100 per square. Remember to use a type of tile that fits the rest of your home. <P> 1 Remodeling Magazine pegs the price of a 6x8-foot bathroom addition at averages of $33,188-$41,195 in the Midwest, $34,876-$42,491 along the East Coast and $35,987-$47,052 in the Western states. 2 For a spa-quality 100-square-foot master bath the survey says it averages $75,812 nationwide. <P> Cost. In late 2009, converting existing floor space in an area such as a garage, basement or attic to include a bathroom cost between $3,000 and $6,000. Depending on the extravagance of the bathroom and its distance away from plumbing lines, it could cost between $7,000 and $25,000 or more. <P> 1 Do-it-yourself costs to convert an existing garage or basement into a bedroom run anywhere from $200-$5,000. 2 Hiring a contractor for the conversion project can be $7,500-$50,000 or more depending on the size and condition of the existing space; whether the project includes a bathroom; and local labor rates. <P> Adding a half-bathroom will fall in the lower end of the cost spectrum, as a half-bath requires only a toilet and a sink. If you have to add additional floor space to your home to add a bathroom, expect to pay $25,000 to $50,000 and up, depending on complexity and local labor rates. <P> 1 Adding new floor space to your home for a basic 6x8-foot bathroom addition starts around $25,000-$50,000 and goes up depending on complexity, quality of fixtures, number of amenities and local labor rates.	$150 to $250 a square foot
what are geosynchronous satellites used for	<P> The special case of a geostationary orbit is the most common type of orbit for communications satellites. If a geosynchronous satellite's orbit is not exactly aligned with the Earth's equator, the orbit is known as an inclined orbit. It will appear (when viewed by someone on the ground) to oscillate daily around a fixed point. <P> This special, high Earth orbit is called geosynchronous. A satellite in a circular geosynchronous orbit directly over the equator (eccentricity and inclination at zero) will have a geostationary orbit that does not move at all relative to the ground. It is always directly over the same place on the Earth’s surface. <P> Geostationary Satellites. Geostationary or communications satellites are PARKED in space 22,300 miles (35,900 km) above the equator of the STATIONARY earth. Geostationary satellites are used for weather forecasting, satellite TV, satellite radio and most other types of global communications. Communications satellite in a stationary position or slot high above the earth. Satellite dish or receiver installed on a house. These dishes point to a geostationary satellite. At exactly 22,300 miles above the equator, the force of gravity is cancelled by the centrifugal force of the rotating universe. <P> A geosynchronous satellite is a satellite in geosynchronous orbit, with an orbital period the same as the Earth's rotation period. If a geosynchronous satellite's orbit is not exactly aligned with the Earth's equator, the orbit is known as an inclined orbit. It will appear (when viewed by someone on the ground) to oscillate daily around a fixed point. <P> A special case of geosynchronous satellite is the geostationary satellite, which has a geostationary orbit – a circular geosynchronous orbit directly above the Earth's equator. Another type of geosynchronous orbit used by satellites is the Tundra elliptical orbit. Geosynchronous satellites have the advantage of remaining permanently in the same area of the sky, as viewed from a particular location on Earth, and so permanently within view of a given ground station. If a geosynchronous satellite's orbit is not exactly aligned with the Earth's equator, the orbit is known as an inclined orbit. It will appear (when viewed by someone on the ground) to oscillate daily around a fixed point. <P> The synchronization of rotation and orbital period means that, for an observer on the surface of the Earth, an object in geosynchronous orbit returns to exactly the same position in the sky after a period of one sidereal day. A special case of geosynchronous orbit is the geostationary orbit, which is a circular geosynchronous orbit at zero inclination (that is, directly above the equator). A satellite in a geostationary orbit appears stationary, always at the same point in the sky, to ground observers <P> A geostationary orbit (GEO) is a circular geosynchronous orbit in the plane of the Earth's equator with a radius of approximately 42,164 km (26,199 mi) (measured from the center of the Earth). A satellite in such an orbit is at an altitude of approximately 35,786 km (22,236 mi) above mean sea level. A special case of geosynchronous orbit is the geostationary orbit, which is a circular geosynchronous orbit at zero inclination (that is, directly above the equator). A satellite in a geostationary orbit appears stationary, always at the same point in the sky, to ground observers <P> View full size image. A geosynchronous orbit is a high Earth orbit that allows satellites to match Earth's rotation. Located at 22,236 miles (35,786 kilometers) above Earth's equator, this position is a valuable spot for monitoring weather, communications and surveillance. <P> A geosynchronous orbit (sometimes abbreviated GSO) is an orbit around the Earth with an orbital period of one sidereal day, intentionally matching the Earth's sidereal rotation period (approximately 23 hours 56 minutes and 4.9 seconds). A special case of geosynchronous orbit is the geostationary orbit, which is a circular geosynchronous orbit at zero inclination (that is, directly above the equator). A satellite in a geostationary orbit appears stationary, always at the same point in the sky, to ground observers	It is used for monitoring weather, communications and surveillance.
what is raw silk	<P> Raw Silk Fabrics. Also known as Silk Noil. This is a slightly nubby fabric with random flecks in a natural, off-white color. It has a somewhat rough texture and a gentle drape. Remember, bolts vary! They can be over or under-we charge you for the actual yardage. If you need very specific yardage, order cut yardage. <P> Anyway, that’s raw silk, in the best way it’s ever been explained to me. Drake’s new variety of raw silk grenadines at the moment can be found through Mr. Porter, Barney’s, and Drake’s website itself. They may or may not go on sale. I was afraid this one wouldn’t, which is why I bought early. <P> Silk is a natural protein fiber, some forms of which can be woven into textiles. The protein fiber of silk is composed mainly of fibroin and is produced by certain insect larvae to form cocoons. The best-known silk is obtained from the cocoons of the larvae of the mulberry silkworm Bombyx mori reared in captivity (sericulture). Silk is mainly produced by the larvae of insects undergoing complete metamorphosis, but some adult insects such as webspinners also produce silk, and some insects such as raspy crickets produce silk throughout their lives. <P> Raw Thai silk is a filament silk from which the gum (one of the components of silk) has not yet been removed. Pure Thai silk has had the gum removed. They do this by hand-reeling the threads onto a wooden spindle to produce a uniform strand of raw silk. Raw Thai silk is typically a short fiber silk recycled from spinning silk and has a strong odor due to impurities in the yarn. <P> raw silk. n. 1. (Textiles) untreated silk fibres reeled from the cocoon. 2. (Textiles) fabric woven from such fibres. How good was the touch of the raw silk to her flesh. The Awakening and Selected Short Stories by Chopin, Kate View in context. I told him we would sell our cargo and purchase China wares, calicoes, raw silks, tea, wrought silks, &c. <P> A raw Thai silk fabric may fool you into thinking that it is cotton or synthetic. The fabric has irregular surface with rough and nubbly appearance. The nubbly texture of the silk comes from the use of very short fibers (called “silk noil”) to weave the fabric. They do this by hand-reeling the threads onto a wooden spindle to produce a uniform strand of raw silk. Raw Thai silk is typically a short fiber silk recycled from spinning silk and has a strong odor due to impurities in the yarn. <P> If you prefer bright colors, dry-clean or hand wash. Raw silk Raw silk is any silk yarn or fabric that hasn't had the sericin-the natural gum that protects the fiber-removed. The fabric is stiff and dull and the sericin tends to attract dirt and odors. The raw silk is then processed to remove the sericin-the natural gum that protects the fibers and causes them to stick to each other as the cocoon was spun. Silk is a protein fiber, similar to wool or to human hair. It is only natural for silks to have some irregularities sometimes called slubs. <P> Weaving Raw Thai Silk. Raw Thai silk taken directly from the filature is too fine to be woven. Before it is woven into fabric, it goes through a series of operations which conditions for the loom. They do this by hand-reeling the threads onto a wooden spindle to produce a uniform strand of raw silk. Raw Thai silk is typically a short fiber silk recycled from spinning silk and has a strong odor due to impurities in the yarn. <P> Raw silk is typically a short fiber silk recycled from spinning silk. In the production of mulberry silk only a certain middle section of the cocoon can be unreeled for spinning Thai silk. The waste silk is the raw Thai silk and it has a smooth feel with some bumps and a low luster. They do this by hand-reeling the threads onto a wooden spindle to produce a uniform strand of raw silk. Raw Thai silk is typically a short fiber silk recycled from spinning silk and has a strong odor due to impurities in the yarn. <P> Definition of RAW SILK. 1. : reeled silk before the gum is removed. 2. : a woven or knitted fabric of spun silk.	is typically a short fiber silk recycled from spinning silk. In the production of mulberry silk only a certain middle section of the cocoon can be unreeled for spinning Thai silk. The waste silk is the raw Thai silk and it has a smooth feel with some bumps and a low luster.
what originated from french renaissance	<P> The French Renaissance was a very rich phase of French history as it led to the development of new techniques and artistic forms in various fields. These fields include printing, architecture, painting, the sciences and vernacular literature etc. Other fields included elaboration of new codes of sociability. <P> France History. Pan-European Renaissance originated in northern Italy in the fourteenth century. The French Renaissance covers various stages such as the French invasion of Italy in 1494 when Charles VIII was the king. It also covers the death of Henry IV, 1610. Many artistic, literary and technological developments that can be traced back to Italian Renaissance arrived in France. <P> Historical Period. The Renaissance is a historical era and cultural movement in Europe that spanned from the 14th to 17th centuries. The term Renaissance is a French word that means rebirth. The Renaissance started in Italy and spread throughout Europe through the 14th through <P> Tweet. the Renaissance: the period of European history between the 14th and 17th centuries when there was a new interest in science and in ancient art and literature especially in Italy. : a situation or period of time when there is a new interest in something that has not been popular in a long time. <P> Pan-European Renaissance originated in northern Italy in the fourteenth century. The French Renaissance covers various stages such as the French invasion of Italy in 1494 when Charles VIII was the king. It also covers the death of Henry IV, 1610. Many artistic, literary and technological developments that can be traced back to Italian Renaissance arrived in France. <P> The French Renaissance was at its apex during the rule of Francis I and his son Henry II. Francis I ruled from 1515 to 1547 and Henry II ruled from 1547 to 1559. After the sad demise of Henry II in a joust, his widow Catherine de Medico and her three sons Francis II, Charles IX and Henry III ruled France.	New techniques and artistic forms in various fields of printing, architecture, painting, the sciences and vernacular literature etc.
why is dna called the blueprint of life	<P> DNA has a double helix structure, which appears like a twisted ladder. The sides of the DNA ladder are composed of alternating deoxyribose sugar molecules and phosphate groups. The rungs of the ladder are nucleotide base pairs, which are the genetic information of the DNA. Each nucleotide can be adenine, thymine, cytosine or guanine. Genetic information is read in sequence of three bases called triplets. Each triplet codes for a specific amino acid during protein synthesis. When proteins are needed, the corresponding genes are transcribed from DNA into an RNA molecule. <P> So basically, the DNA of a cell is the 'blueprint of life' because it holds all the plans and acts as the master computer to tell what every cell, tissue, organ and system to do. 10 people found this useful. We also know that a lot of DNA apparently is nonsense and codes for nothing. These regions of DNA that do not code for proteins are called introns, or sometimes junk DNA. The sections of DNA that do actually code from proteins are called exons. <P> The DNA is like a blueprint that tells the organism's Cells what to do-just like giving orders. The Blueprint of Life: Every cell in your body has the same blueprint or … the same DNA. These regions of DNA that do not code for proteins are called introns, or sometimes junk DNA. The sections of DNA that do actually code from proteins are called exons. Because Dna contains all of the instructions for each and every function of Cells that make up all living organisms. <P> It is called the Blueprint of life because it is just like a blueprint, it maps out our genes: whether we have blue eyes, brown hair, long fingers. The genetic code determin … es where everything will be placed. It holds the information for humans or other organism to produce their cells and proteins. We also know that a lot of DNA apparently is nonsense and codes for nothing. These regions of DNA that do not code for proteins are called introns, or sometimes junk DNA. The sections of DNA that do actually code from proteins are called exons. <P> So the sequence from the DNA gets transferred to mRNA, which then contains the information used to build proteins. There are very complex signals that trigger the beginning and end of the building processes. Everything from the way you feel to the way you digest your food is controlled by the proteins within your cells. So whatever organizes the proteins in a living being is providing the blueprint for building that organism. DNA does just that: it provides the information for building all the proteins within every living thing on Earth. <P> The DNA is like a blueprint that tells the organism's Cells what to do-just like giving orders. The Blueprint of Life: Every cell in your body has the same blueprint or the same DNA. Like the blueprints of a house tell the builders how to construct a house, the DNA blueprint tells the cell how to build the organism. We also know that a lot of DNA apparently is nonsense and codes for nothing. These regions of DNA that do not code for proteins are called introns, or sometimes junk DNA. The sections of DNA that do actually code from proteins are called exons. <P> So basically, the DNA of a cell is the 'blueprint of life' because it holds all the plans and acts as the master computer to tell what every cell, tissue, organ and system to do. 10 people found this useful. These regions of DNA that do not code for proteins are called introns, or sometimes junk DNA. The sections of DNA that do actually code from proteins are called exons. Because Dna contains all of the instructions for each and every function of Cells that make up all living organisms. <P> It is called the Blueprint of life because it is just like a blueprint, it maps out our genes: whether we have blue eyes, brown hair, long fingers. The genetic code determin … es where everything will be placed. It holds the information for humans or other organism to produce their cells and proteins. These regions of DNA that do not code for proteins are called introns, or sometimes junk DNA. The sections of DNA that do actually code from proteins are called exons. Because Dna contains all of the instructions for each and every function of Cells that make up all living organisms. <P> RNA is very similar to DNA except in a couple respects. First, it is a single-stranded molecule. Second, it uses uracil, U, instead of thymine, T. So RNA polymerase builds a strand of RNA that complements the DNA. A DNA sequence of CGGATACTA would get transcribed into an RNA strand of GCCUAUGAU. When making proteins, the RNA built in this way is called messenger RNA, or mRNA. So whatever organizes the proteins in a living being is providing the blueprint for building that organism. DNA does just that: it provides the information for building all the proteins within every living thing on Earth.	it is just like a blueprint, it maps out our genes: whether we have blue eyes, brown hair, long fingers.The genetic code determines where everything will be placed.
the hereditary material of DNA is in what shape	<P> Principles of inheritance given by Mendel and discovery of nuclein (nucleic acids) by Meischer (1871) almost coincided but for claiming that DNA acts as a genetic material took long time. Earlier discoveries made by Mendel, Walter Sutton, T.H. <P> DNA (deoxyribose nucleic acid) has been found to be a genetic material in all the living beings except few plant viruses where RNA is the genetic material because DNA is not found in such viruses. <P> Citation: O'Connor, C. (2008) Discovery of DNA as the hereditary material using Streptococcus pneumoniae. Nature Education 1(1) :104. It was a pleasant surprise to the scientific community when clinical research with the bacterium Streptococcus pneumoniae led to the discovery of DNA as the hereditary material. <P> heredity. the transmission of genetic traits from parents to offspring. The hereditary material is DNA in the ovum and sperm, so that the offspring's heredity is determined at the moment of conception. Inside the nucleus of each germ cell are structures called chromosomes. <P> DNA is a double helix formed by base pairs attached to a sugar-phosphate backbone. DNA, or deoxyribonucleic acid, is the hereditary material in humans and almost all other organisms. Nearly every cell in a person’s body has the same DNA. <P> B. Properties of Genetic Material (DNA versus RNA) : DNA is the genetic material RNA has been found to be genetic material in TMV (Tobacco mosaic virus), ф β bacteriophage etc. DNA is major hereditary material in most of the organisms. RNA mainly performs the functions of messenger and adapter.	The ovum and sperm.
cost for eye exam lenscrafters	<P> On top of reasonable prices, Lenscrafters also offers coupons on a range of different products and services to help save you some money. Lenscrafters coupons can be found through the link I just provided. If you are just having the very basic exam, the Lenscrafters eye exam cost is approximately $60 USD. This is a fairly standard price for an eye exam, although if they have a coupon for eye exams the price paid will then drop. If you wish to have more than a basic eye exam (for example a contact lens exam), the cost will also rise. Please note that the actual price at each different Lenscrafters center will vary. Therefore, it may be a good idea to visit a few centers to check prices and service before deciding on the one for you. <P> Eye Exam Costings. You obviously got to this page to find out Lenscrafters eye exam cost. The Lenscrafters eye exam cost for a basic exam sits at around $60 mark. This price is slightly pricier than at other chains, but also cheaper than some others. Also, this cost does not take into account things such as coupons. Lenscrafters Eye Exam Cost. When you need an eye exam, lets face it, there are so many different options of eye care chains in America, each with their own advantages and disadvantages. You have Lenscrafters, Pearle Vision, America’s Best, and many, many more. <P> Best Answer: My eye exam at LensCrafters about 3 weeks ago was $75. I have progressive lenses, and I chose the featherweight plus package. Total cost of lenses $315. Cost will vary depending on what you choose in your package. <P> The basic eye exam at lenscrafters would cost you $59. However, if you need to get a comprehensive eye exam, you should pay more $35 for your eye exam. But You may find the price of the eye exam different in different places. Some optomologists at Lenscrafters would charge you about $75 for the exam. And some people will pay $150 for the exam. So you'd better go to the lenscrafters near you in your local place to get more information about the eye exam so that you can know the exact cost of the eye exam you will take. <P> In order to facilitate an easy access to go for regular eye exam, Lenscrafters have offered free eye exam coupons and best eye exam deals. LensCrafters. With the help of best eye exam deals you can get the service for eye exam at a discounted price which is very affordable and also will save your money. The Lenscrafters eye exam cost is worth enough for you to get eye exam regularly. This eye exam coupon is the best chance for you to maintain healthy eyes. <P> Eye Exam Costings. You obviously got to this page to find out Lenscrafters eye exam cost. The Lenscrafters eye exam cost for a basic exam sits at around $60 mark. This price is slightly pricier than at other chains, but also cheaper than some others. Also, this cost does not take into account things such as coupons. Lenscrafters Eye Exam Cost. When you need an eye exam, lets face it, there are so many different options of eye care chains in America, each with their own advantages and disadvantages. <P> You obviously got to this page to find out Lenscrafters eye exam cost. The Lenscrafters eye exam cost for a basic exam sits at around $60 mark. This price is slightly pricier than at other chains, but also cheaper than some others. Also, this cost does not take into account things such as coupons. Some optomologists at Lenscrafters would charge you about $75 for the exam. And some people will pay $150 for the exam. So you'd better go to the lenscrafters near you in your local place to get more information about the eye exam so that you can know the exact cost of the eye exam you will take.	$35 to $150
how to approach someone with a addiction	<P> Before you talk to your loved one about treatment options, you need to approach him or her about the drug problem. It's important that you don't confront your loved one in a way that will cause an argument. It's common for those abusing drugs to get angry easily, so you need to approach the situation with care. <P> How to Talk to Someone Suffering from Addiction. Initially, attempt to talk with the addict in person. This approach can be less intimidating for him or her than staging an intervention with several people. Find a time when you can be alone with the addict and will be free of distractions or interruptions. <P> • Listen to person with the addiction at least as much as you talk. Whether they are a loved one or not, a person with an addiction is more likely to confide in you about what is really going on for them if you listen without interrupting or criticizing. <P> 1 Be honest about your feelings, what you want to happen, and what the addiction has been like for you. 2 Do not blame, criticize or humiliate your loved one in counseling. 3 Simply say what it has been like for you. 4 Do not be surprised if your loved one says that things you are doing are contributing to their addiction. <P> If you think that someone you love is addicted to drugs, it's important to handle the situation carefully. Select any of the substances below to learn the best ways to find help when someone you love is struggling with addiction to that drug. <P> You cannot make your loved one stop using drugs or alcohol. But if you decide you want to talk with the person about his/her addiction and recovery options, make sure you do it in a way that enhances your chance of being heard. Here are some proven strategies and techniques that can help. <P> Before approaching an addict with the intention to help, it’s important to remember that, ultimately, no one but the addict is responsible for recovery. Typically, an addict must be ready and willing to stop and get help before the recovery process can even begin.	Attempt to talk with the addict in person. This approach can be less intimidating for him or her than staging an intervention with several people. Find a time when you can be alone with the addict and will be free of distractions or interruptions.
what is tonality in music	<P> Tonality is what scale the music is in, usually major of minor. -major = happy-minor = sad-modal = sounds like monks singing in a monastery-pentatonic = chinesey-gamelan music, all the black notes-atonal = clashing sounds, nothing nice about it. <P> Definition of TONALITY. 1. : tonal quality. 2. a: key 7 b: the organization of all the tones and harmonies of a piece of music in relation to a tonic. 3. : the arrangement or interrelation of the tones of a work of visual art. See tonality defined for kids. ADVERTISEMENT. <P> All harmonic idioms in popular music are tonal, and none is without function (Tagg 2003, 534). Tonality is an organized system of tones (e.g., the tones of a major or minor scale) in which one tone (the tonic) becomes the central point for the remaining tones. <P> tonality. (tōnăl`ĭtē) , in music, quality by which all tones of a composition are heard in relation to a central tone called the keynote or tonic. In music that has harmony harmony,in music, simultaneous sounding of two or more tones and, especially, the study of chords and their relations. <P> Tonality is a musical system that arranges pitches or chords to induce a hierarchy of perceived relations, stabilities, and attractions. The pitch or triadic chord with the greatest stability is called the tonic. <P> tonality. n, pl-ties. 1. (Classical Music) music. a. the actual or implied presence of a musical key in a composition. b. the system of major and minor keys prevalent in Western music since the decline of modes. <P> Tonality. The character of a piece of music is related to its key centre or tonality. 1 Tonal music is in a major or minor key. 2 Atonal music is not related to a tonic note and therefore has no sense of key. 3 Modal music is in a mode. 4 A mode is a seven-note scale.	The actual or implied presence of a musical key in a composition.
average annual salary in us	<P> Average Lawyer Pay vs. Other Best Jobs. Lawyers earned an average annual salary of $131,990 in 2013, which is substantially more than any other occupation on our list of Best Social Service Jobs. In 2013, paralegals earned an average annual salary of $51,170. Other jobs that also earn less than half of what lawyers make include patrol officers ($58,720), high school teachers ($58,260) and school counselors ($56,160). <P> To determine the national average wage index for 2013 at a level that is consistent with the national average wage indexing series for prior years, we multiply the 2012 national average wage index of 44,321.67 by the percentage change in average wages from 2012 to 2013 (based on our tabulated wage data). For retirement, eligibility is at age 62. If a person reaches age 62 in 2015, for example, then 2015 is the person's year of eligibility. We always index an individual's earnings to the average wage level two years prior to the year of first eligibility. Thus, for a person retiring at age 62 in 2015, we would index the person's earnings to the average wage index for 2013, or 44,888.16 <P> United States. The most frequent salary ranges in the US are from 45K to 55K. The 28% of employees earn from 40K to 60K. About 18% earn below the 45K per annual. Please note that data are extracted from our salary polls and those salaries are higher than for entire population. Average incomes in Florida are $75,000. Average salaries in Michigan and Pennsylvania are $73,000 per annual. By far most paid US city is San Francisco, with average salary about $100,000 per annual. The second largest salaries are in New York City, Washington DC, and Boston, all from $87,000 to $88,000 per annual <P> National Averages. According to the U.S. Census Bureau, the average salary for all Americans was $51,017 in 2012, down very slightly from 2011's mean of $51,100. That is still 8.7 percent below the average salary in 2007. Women made 77 percent of what men make on average across the country in 2012 <P> Determination of the National Average Wage Index for 2013. To determine the national average wage index for calendar year 2013, we multiplied the 2012 national average wage index of 44,321.67 by the percentage change in average wages from 2012 to 2013, as measured by annual wage data we tabulated. For retirement, eligibility is at age 62. If a person reaches age 62 in 2015, for example, then 2015 is the person's year of eligibility. We always index an individual's earnings to the average wage level two years prior to the year of first eligibility. Thus, for a person retiring at age 62 in 2015, we would index the person's earnings to the average wage index for 2013, or 44,888.16 <P> According to the US Census Bureau persons with doctorates in the United States had an average income of roughly $81,400. The average for an advanced degree was $72,824 with men averaging $90,761 and women averaging $50,756 annually. One key measure is the real median level, meaning half of households have income above that level and half below, adjusted for inflation. According to the Federal Reserve, this measure was $51,939 in 2013, below the 1999 peak of around $57,000. <P> $67,930. In 2013, registered nurses made an average salary of $68,910, which is pretty good pay compared with some of the other health care professions on this year’s Best Jobs list.	45K to 55K
what did wegener think had happened to this supercontinent	<P> In the 1960's, however, geologists discovered that the ocean floors had been spreading, thus influencing the shapes and sizes of the continents. This new theory, called plate tectonics, provided a mechanism that made sense in physical terms to account for Wegener's idea of continental drift. Alfred Wegener, who was educated to be a meteorologist and an Arctic climatologist, insisted that his theory was correct because of the evidence he saw. To support his ideas about continental drift, Wegener pointed to the similarities in the fossils of the southern <P> A German meteorologist and geophysicist. He proposed the theory of continental drift and believed that all the continents today were all part of one land mass called Pangaea … , and that over the years due to continental drift they are how they are today. + 51 others found this useful. Tiwana Hearditallbefore. Alfred Wegener was a German scientist who hypothesized that the continents were slowly moving along the earth, and therefore discovered tectonic plates. He also figured out th … at the continents were like giant puzzle pieces that when put together could make up one giant continent (Its called Pangea) <P> On Wegener's map, however, it clustered neatly around the South Pole--because Africa, Antarctica, Australia, and India had once comprised a Southern Hemisphere supercontinent (Gondwanaland). Wegener considered such paleoclimatic validation one of the strongest proofs of his theory. As he read, his earlier conjecture that the continents had once been joined became a conviction he would boldly champion for the rest of his life. Just a few months later, on January 6, 1912, Wegener startled a meeting of the Geological Association in Frankfurt with his radical theory. <P> Wegener's theory states that 250 million years ago, the land that makes up our continents (North and South America, Antarctica, Africa, Australia, Asia and Europe) was once one great land mass, or supercontinent, which he called Pangaea, meaning “all Earth.. Alfred Wegener also came up with a theory to explain continental drift, although it was in error. His theory of continental drift proposed that centrifugal force moved the heavy continents toward the equator as the Earth spun. <P> Wegener believe that there was once a single supercontinent, which he called Pangea (or Pangaea). He said that Pangea broke apart millions of years ago to form two large continents. He called the one in the northern hemisphere Laurasia and the one in the southern hemisphere Gondwanaland. Alfred Wegener, who was educated to be a meteorologist and an Arctic climatologist, insisted that his theory was correct because of the evidence he saw. To support his ideas about continental drift, Wegener pointed to the similarities in the fossils of the southern <P> On November 1, 1880, Alfred Wegener was born in Berlin as the youngest of five children in a clergyman's family. His father, Richard Wegener, was a theologian and teacher of classical languages at the Berlinisches Gymnasium zum Grauen Kloster. Wegener's fit of the supercontinent at the 200m isobath (the continental shelves), an idea he had since at least 1910, was a good match. Part of the reason Wegener's ideas were not initially accepted was based on his proposed fit of the continents, with Charles Schuchert commenting: <P> The reaction to Alfred Wegener's Continental Drift Theory demonstrates that new ideas threaten the establishment, regardless of the century. Alfred Wegener was the scientist who proposed the Continental Drift Theory in the early twentieth century. Simply put, his hypothesis proposed that the continents had once been joined, and over time had drifted apart. Wegener really did not believe that he had the explanation for the mechanism, but that this should not stop discussion of a hypothesis. Wegener's contemporaries disagreed. A major conference was held by the American Association of Petroleum Geologists in 1926 that was critical of the theory. <P> Alfred Wegner had once believed that all the continents were once all together as one big continent that … was called Pangea. His theory was called the continental drift theory. That hypothesis was put forward by Abraham Orthelius but Alfred had fully developed the theory. In 1910 Continental Drift was toyed around with by a man known as Alfred Wegner. He actually went through with the idea in 1912. The way He really discovered it was by noticin … g on a map how Africa and South America could almost completely fit together.	Wegener believe that there was once a single supercontinent, which he called Pangea (or Pangaea). Supercontinent broke apart millions of years ago to form two large continents. He called the one in the northern hemisphere Laurasia and the one in the southern hemisphere Gondwanaland
what is complex tear tfcc	<P> The Triangular Fibrocartilage Complex (TFCC) is a ligament and cartilage structure that connects the wrist to the forearm on the little finger side (ulnar side). The TFCC plays an important role in stabilizing this side of the wrist. <P> Triangular fibrocartilage complex (TFCC) injuries of the wrist affect the ulnar (little finger) side of the wrist. Mild injuries of the TFCC may be referred to as a wrist sprain. As the name suggests, the soft tissues of the wrist are complex. They work together to stabilize the very mobile wrist joint. <P> The triangular fibrocartilage complex (TFCC) is located on the side of the wrist with the bump (the “ulnar” side of the wrist) and is made up of cartilage and ligament support structures. It acts as a shock absorber and stabilises the wrist bones during twisting movements. <P> Common symptoms of a TFCC tear include: 1 Pain, at the base of small finger side of the wrist. 2 Pain worsens as the wrist is bent from side to side. 3 Swelling in the wrist. 4 Painful clicking in the wrist. 5 Loss of grip strength. <P> The Triangular Fibrocartilage Complex (TFC or TFCC) is a very common source of pain on the ulnar (small finger) side of the wrist. The Triangular Fibrocartilage Complex is a constellation of many structures that support the Triangular Fibrocartilage Proper. <P> TFCC Tear. A TFCC tear is an injury to the triangular fibrocartilage complex, found in the wrist, between the end of the ulna bone and the carpals. Its function is to stabilize the radioulnar joint. <P> The triangular fibrocartilage complex (TFCC) is a cartilage structure located on the small finger side of the wrist that, cushions and supports the small carpal bones in the wrist. The TFCC keeps the forearm bones (radius and ulna) stable when the hand grasps or the forearm rotates. <P> A TFCC tear is a tear in the triangular fibrocartilage complex, a structure found in the little finger side of the wrist. Within the forearm are 2 bones, the radius (thumb side) and the ulna (little finger side), and within the wrist there are 8 wrist bones (carpals).	The triangular fibrocartilage complex (TFCC) is a cartilage structure located on the small finger side of the wrist that, cushions and supports the small carpal bones in the wrist.
what is a niche business	<P> Market niches can be geographic areas, a specialty industry, ethnic or age groups, or any other particular group of people. Sometimes a niche product can be a variation of a common product that is not produced and marketed by the main marketing firms. Examples of niche markets are listed in Table 1. It is obvious from the table that niche marketing is everywhere. <P> Concentrating all marketing efforts on a small but specific and well defined segment of the population. Niches do not 'exist' but are 'created' by identifying needs, wants, and requirements that are being addressed poorly or not at all by other firms, and developing and delivering goods or services to satisfy them. You can try for niche marketing if you think that you really need your product to go out to one small demographic. 7 people found this helpful. Me and my business partner practiced niche marketing and concentrated all of our efforts on a small percentage of the population. 8 people found this helpful. You may want to target a specific group of people for your product by using a specialized niche marketing plan <P> A large potential market. For your business to be profitable, your market and niche must be large enough that you can make money selling your product or service. In addition to identifying and accessing potential customers, there has to be enough of them, Rackley said. <P> From Wikipedia, the free encyclopedia. A niche market is the subset of the market on which a specific product is focused. The market niche defines the product features aimed at satisfying specific market needs, as well as the price range, production quality and the demographics that is intended to impact. It is also a small market segment. For example, sports channels like STAR Sports, ESPN, STAR Cricket, and Fox Sports target a niche of sports enthusiasts. <P> The word niche comes from a French word that means to nest. Niche marketing is targeting a product or service to a small portion of a market that is not being readily served by the mainstream product or service marketers. Nearly every business—fast food chains, convenience stores, even Wal-Mart was begun to fill perceived voids in the market place. Sometimes a niche product can be a variation of a common product that is not produced and marketed by the main marketing firms. Examples of niche markets are listed in Table 1. It is obvious from the table that niche marketing is everywhere. <P> Your niche is the service you specialise in offering to your target market. For example various design businesses can have creative freelancers as their client group: a design company can offer them web design and app development, another company can offer them branding advice or photography. However, it is important to understand that there is a difference between your niche and your target market: Your target market is the specific group of people you work for e.g. women in the City, dog owners, creative female freelancers, ceramic collectors, brides to be, outdoor galleries. <P> A niche in the wall. A niche in the wall. The definition of a niche is a specialized part of a market for products or services or a little separated area in a room. 1 An example of a niche is a market for beagle products, which is a niche in the market of dog products as a whole.	It is the subset of the market on which a specific product is focused. The market niche defines the product features aimed at satisfying specific market needs, as well as the price range, production quality and the demographics that is intended to impact.It is also a small market segment.
marie fredriksson net worth	<P> Roxette, formed by Per Gessle and Marie Fredriksson, will release a new album, “Charm School”, on February 11, 2011. The first single out of this album will be “She’s got nothing on (but the radio)”, which will be released on January 10th. You will find everything related to Marie with Roxette on the new Roxette site www.roxetteblog.com. This blog is a sister website to Marie Fredriksson Online, so please check it out if you are interested in news about Roxette (of course, incl. <P> About Marie Osmond. Marie Osmond has an estimated net worth of $17 million. As part of a family act that came to be virtually synonymous with wholesome entertainment, Marie Osmond enjoyed a lengthy career switching between several different areas of show business. <P> According to various sources, Marie Fredriksson's net worth has grown significantly in 2015. However, the numbers vary depending on the source. If you have current knowledge about Marie Fredriksson's net worth, please feel free to share the information below. Marie Fredriksson's net worth is estimated to be in the range of approximately $212194429 in 2015, according to the users of vipfaq. Marie Fredriksson is 57 years old. To be more precise (and nerdy), the current age as of right now is 20809 days or (even more geeky) 499416 hours. <P> Gun-Marie Fredriksson, known as Marie Fredriksson (help·info) (born 30 May 1958) is a Swedish pop singer-songwriter and pianist, best known for forming one half of the pop rock duo Roxette, which she created together with Per Gessle in 1986. Lindbom, Fredriksson, Per Gessle and Mats MP Persson started a new band called Spaennande Spännande (Ostar Exciting). Cheeses that same, Year fredriksson And lindbom went to The Canary islands to write songs For'marie s second solo. album <P> Per Gessle net worth: $20 Million. Per Gessle Net Worth: Per Gessle is a Swedish pop singer-songwriter and musician who has a net worth of $20 million. Per Gessle was born in Halmstad, Sweden in January 1959. Gessle plays guitar and harmonica and is the lead singer of the Swedish pop group Gyllene Tider. <P> (born Gun-Marie Fredriksson; 30 May 1958) is a Swedish pop singer-songwriter and pianist best known for forming one half of the pop rock duo Roxette which she created together with Per Gessle in 1986. Marie Fredriksson is 57 years old. To be more precise (and nerdy), the current age as of right now is 20809 days or (even more geeky) 499416 hours. <P> Submit a suggestion & help us add it! Marie Fredriksson is a Swedish pop singer-songwriter and pianist, best known for forming one half of the pop rock duo Roxette, which she created together with Per Gessle in 1986. She and Per Gessle achieved international success from the late 1980s to the early 1990s with a total of six top 10 US hi... <P> Per Hakan Håkan gessle is A swedish pop-singer, songwriter, guitarist and. Harmonicist he is the lead singer of The swedish pop Group Gyllene tider and Formed roxette With Marie. Fredriksson With'fredriksson s illness in, 2002 he went back to recording solo, albums Reformed... gylle Per Hakan Håkan gessle is A swedish pop-singer, songwriter, guitarist and. Harmonicist he is the lead singer of The swedish pop Group Gyllene tider and Formed roxette With Marie. fredriksson	Marie Fredriksson's net worth has grown significantly in 2015.
what does the infinity symbol symbolizes	<P> Infinity symbol ∞. Infinity ∞ is a maths text symbol for an infinite number that people had been texting from the times when ASCII encoding was developed. And you can type it right from your keyboard. I'll show you how to do it by using different techniques depending on your Operating System and tastes. <P> The Infinity Symbol. The infinity symbol refers to something without any limit, and is a concept known as unboundedness, itself derived from the Greek word apeiros, meaning endless. The infinity symbol is also known to represent the endless cycle of existence of birth, death and rebirth. <P> The Infinity Symbol Originating from the Latin infinitas which means “unboundedness”, infinity is the concept of endlessness or limitlessness most widely tackled in the fields of mathematics and physics. The very first person known to have written about the concept of infinity was Archimedes, more than 2300 years ago. <P> The infinity symbol is a mathematical symbol that represents an infinitely large number. The infinity symbol is written with the Lemniscate symbol: ∞. It represents an infinitely positive big number. <P> What infinity means. Infinity symbol created by John Wallis in 1655 refers to things without any limit. Usually is used in mathematics or physics to express that some things have no limit. For example, set of natural numbers has no limit and could be expressed by infinity ∞ sign.	The Infinity Symbol Originating from the Latin infinitas which means “unboundedness”, infinity is the concept of endlessness or limitlessness most widely tackled in the fields of mathematics and physics.
what are hyaline casts in the urine	<P> Urinary Casts: Hyaline Casts Hyaline cast and red blood cells. Urinary Casts: Hyaline Casts •Can be seen in even the mildest kind of renal disease. •A few hyaline casts may be found in the normal urine.•Frequently present •following physical exercise•physiologic dehydration Urinary Casts: Hyaline Casts. <P> 1 (Hyaline cast) Urinary casts are cylindrical structures produced by the kidney and present in the urine in certain disease states. 2 They form in the distal convoluted tubule and collecting ducts of nephrons, then dislodge and pass into the urine, where they can be detected by microscopy. hyaline casts. ( 1 Hyaline cast) Urinary casts are cylindrical structures produced by the kidney and present in the urine in certain disease states. 2 these casts are made of the protein itself. <P> Split and merge into it. Answer by Ronnadonna. Confidence votes 336. Hyaline casts are not specific to kidney pathology and are often found in urinalysis post-exercise. However, in the presence of other signs and symptoms, they may be a clue that something is wrong with the kidney. <P> Hyaline Casts. Hyaline casts are the type most commonly seen in the urine sediment. A few hyaline casts may occasionally be found in normal urine, and hyaline casts may be seen after strenuous exercise, during fever, or when undergoing diuretic therapy. Pathologically, hyaline casts may be seen with congestive heart failure, and may be seen together with other types of casts in a variety of renal diseases. Hyaline casts have a refractive index similar to the urine in which they are suspended. <P> Hyaline casts are formed in the absence of cells in the tubular lumen. They have a smooth texture and a refractive index very close to that of the surrounding fluid. Reduced lighting is essential to see hyaline casts. <P> hyaline casts. ( 1 Hyaline cast) Urinary casts are cylindrical structures produced by the kidney and present in the urine in certain disease states. 2 They form in the distal convoluted tubule and collecting ducts of nephrons, then dislodge and pass into the urine, where they can be detected by microscopy. hyaline casts. ( 1 Hyaline cast) Urinary casts are cylindrical structures produced by the kidney and present in the urine in certain disease states. 2 these casts are made of the protein itself.	Cylindrical structures produced by the kidney and present in the urine in certain disease states.
how much child care grant will i get	<P> To apply for a Childcare Grant follow these steps: Send Student Finance England an estimate of your childcare costs using form CCG1. Send proof of the child’s identity and financial dependence on you eg their original birth certificate, your Child Benefit or tax credits details. You’ll be sent a letter telling you how much Childcare Grant you’ll get. During each term, you and your childcare provider must confirm your actual childcare costs using form CCG2. If the actual childcare costs are higher or lower than your estimated costs, your next payment will be adjusted. <P> The following may result in the suspension of the child’s grant: 1 a change in your circumstances change. 2 the outcome of a review. 3 if you fail to co-operate when the child’s grant is reviewed. 4 when you commit fraud or misrepresent the child. You must: 1 Be the child’s primary caregiver (e.g. parent, grandparent or a child over 16 heading a family). 2 Be a South African citizen or permanent resident. 3 Not earn more than R39 600 per year (R3 300 per month) if you are single. <P> The grant will lapse: 1 in the case of death of the child or the last living foster parent. 2 in the case of admission of the child to a state institution. 3 if the grant is not claimed for three consecutive months. 4 when you are absent from the country. 5 if the child is no longer in your foster care. Get a grant to take care of your foster child. A foster child is a child who has been placed in your custody by a court as a result of being: 1 orphaned. 2 abandoned. 3 at risk. 4 abused. 5 neglected. <P> A primary care-giver can apply for the Child Support Grant on behalf of a child or children in his or her care. The primary care-giver must be older than 16 years old. The grant is paid to the primary care-giver. The grant follows the child. Child Support Grants. The Child Support Grant is there to provide for the basic needs of South African children up to the age of 14 years whose parents or primary care-givers are not able to provide sufficient support because of unemployment or poverty. <P> The child’s ability to get the grant will depend on the financial situation of the primary care-giver and their spouse. If the primary care-giver is a single parent, they should first try to get money from the child’s other parent through applying for a maintenance order. Child Support Grants. The Child Support Grant is there to provide for the basic needs of South African children up to the age of 14 years whose parents or primary care-givers are not able to provide sufficient support because of unemployment or poverty. <P> Full-time higher education students with children can apply for a Childcare Grant of: 1 up to £155.24 a week for 1 child. <P> The rate is also based on the number of hours your child is in care: 1 Full-day rate: child is in care 5-12 hours per day. 2 Part-day rate: child is in care less than 5 hours per day. 3 School-age rate: school-aged child in care less than 5 hours per day while school is in session. <P> You can currently get help for up to 70% of eligible childcare costs, but there's a limit to the total cost. The weekly limit is 175 for one child, or 300 for two or more. However, you can only get up to 70% of this maximum, though what you actually get depends on your income. <P> Grants And Funding For Child Care. Completely updated and revised. Child care grants are essential to funding a quality program. To assist our visitors, child care online has done extensive research into the question of Where to find grants for child care programs and brings you this feature section. Contact your local licensing office or Small Business Administration (SBA) for information about financing child care as a small business opportunity. There may also be special initiatives available through the SBA or through local women's organizations to help finance women-owned and-operated businesses as well. <P> The cost of child care is a significant part of a family's budget. One out of three families with young children earns less than $25,000 a year. Yet, full-day child care can cost anywhere from $4,000 to $10,000 and up per year. The availability of subsidies for low-income and working families for child care is inadequate to ensure that children have access to high-quality child care.	It can cost anywhere from $4,000 to $10,000.
what are plants made up of	<P> A plant’s body has different structures designed for different tasks, such as making food and conserving water. LEAVES, usually broad and flat, take in energy from sunlight and carbon dioxide from the air. ROOTS snake through the soil to take in water and minerals. The STEM supports the part of the plant above ground. The stem is the main support of the upright plant, and connects the roots and leaves. It contains bundles of microscopic tubes – xylem vessels, carrying water and minerals, and phloem vessels, carrying food. The stem also has cells with special thickened walls that help to provide strength. <P> General Anatomical Organization of Plants. Like animals, plant bodies are made up of a variety of cell types that are organized into tissues. Tissues are organized into organs, and organs function together within systems. Within this hierarchy of structure, emergent properties arise at each level. Plants are autotrophic, meaning that they produce their own food (via photosynthesis), and as a result ultimately produce food for the ecosystem's consumers (such as humans). Understanding plant function is the key to enhancing crop production, preserving plant biodiversity, producing medicines, and much more. <P> Cells are the building blocks that all living things are made of. For example, your body is made of trillions of cells. A pet dog or cat is made of cells. A tree and even a blade of grass are made of cells. There are different kinds of cells. Cells that make up plants are able to make food for a plant. They can store water. Cells that make up animals allow for taking in food, since animals do not make their own food. <P> Plants are made up of two organ systems: the shoot system and the root system. For terrestrial plants the shoot system is above ground and consists of a number of organs. These include stems, leaves, and flowers. Plants are autotrophic, meaning that they produce their own food (via photosynthesis), and as a result ultimately produce food for the ecosystem's consumers (such as humans). Understanding plant function is the key to enhancing crop production, preserving plant biodiversity, producing medicines, and much more. <P> Plants also help make soil. Soil is made up of lots of particles of rocks which are broken down into very small pieces. When plants die, their decomposed remains are added to the soil. This helps to make the soil rich with nutrients. M any plants are important sources of products that people use, including food, fibers (for cloth), and medicines. <P> Plant cells form, of course, all types of plants and roots, but also form vegetables and fruits and grains. Any organisms that are plants are made up of plant cells. They all … belong to the kingdom Plantae. Organisms such as animals, bacteria, etc. are not made up of plant cells. The reason why this is is because plant cells have organelles called chloroplasts which help the plant to photosynthesize. Photosynthesis allows plants to make their own food, which is what sets them apart from other organisms. Some examples of these are flowers, grass, trees, corn, wheat, vines, weeds, and shrubs. <P> 1 Sclerenchyma tissues are thick-walled support cells found throughout the plant as fiber. 2 Xylem is a structurally complex tissue that conducts water and nutrients from the roots to all parts of the plant. 3 The xylem is comprised of a series of long tubes made up of shorter vessel members. <P> Confidence votes 25. A plant cell is made-up of many components. firstly to start with it has a nucleus which consists of chromosomes, nucleolus and nucleoplasm. it consists of many other components like rRNA, mRNA and tRNA and proteins.. Plant cells form, of course, all types of plants and roots, but also form vegetables and fruits and grains. Any organisms that are plants are made up of plant cells. They all … belong to the kingdom Plantae. Organisms such as animals, bacteria, etc. are not made up of plant cells. The reason why this is is because plant cells have organelles called chloroplasts which help the plant to photosynthesize. Photosynthesis allows plants to make their own food, which is what sets them apart from other organisms <P> A plant is made up of microscopic living structures called cells. Like animal cells, plant cells have a nucleus and an oily membrane surrounding the whole cell. A plant cell is also encased in a tough cell wall and usually contains a large, fluid-filled bubble called a vacuole. The stem is the main support of the upright plant, and connects the roots and leaves. It contains bundles of microscopic tubes – xylem vessels, carrying water and minerals, and phloem vessels, carrying food. The stem also has cells with special thickened walls that help to provide strength.	A plant is made up of microscopic living structures called cells. Like animal cells, plant cells.
what is silica flour	<P> Silica's are used in a wide range of applications. Silica sands are used in DIY and construction products, flooring, paint and polymer systems, as well as in a large variety of industrial application areas. Fine ground silica’s are used in speciality floor, wall and marine coatings, where textured and non-slip finishes are required. DIY and construction applications include tile adhesives and grouts, cement-based self-leveling compounds, renders, mortar additives, fire cements, block paving and roofing felts. <P> Definition. Very finely divided silica; a siliceous binder cement that reacts with lime under autoclave curing conditions. The flour is prepared by grinding silica, such as quartz, to a fine powder. Print \| Cite This Source \| Link to This Page. <P> Silica exists in crystalline forms, amorphous forms, or as silica rocks. Silica flour is the very. finely divided, highly purified form of crystalline silica (SiO 2). Crystalline silica occurs naturally in a number of different shapes referred to as polymorphs. However, the general population is exposed dermally and orally through the use of silica flour in an array of industrial and consumer products. Insufficient information is available to determine whether oral and dermal exposure to crystalline silica poses a similar health hazard as respiratory exposures. <P> Product Specification. We have gained immense expertise in offering a superior quality Silica Flour that are processed from high grade raw material keeping in mind quality standards. These flour are used for Glass, Paints Industry, Chemicals, mix in concrete and used as filler. <P> Silica flour is nearly pure SiO 2 finely ground. Silica flour has been used as a polisher or buffer, as well as paint extender, abrasive, and filler for cosmetics. Silica flour has been associated with all types of silicosis, including acute silicosis. Silicosis (particularly the acute form) is characterized by shortness of breath, cough, fever, and cyanosis (bluish skin). It may often be misdiagnosed as pulmonary edema (fluid in the lungs), pneumonia, or tuberculosis. Silicosis resulted in 46,000 deaths globally in 2013 down from 55,000 deaths in 1990. <P> Silica flour, a finely ground crystalline silica, was nominated for toxicological testing via dermal and oral routes of exposure by a private individual based on evidence that occupational exposure to respirable crystalline silica is associated with a higher incidence of autoimmune diseases. However, the general population is exposed dermally and orally through the use of silica flour in an array of industrial and consumer products. Insufficient information is available to determine whether oral and dermal exposure to crystalline silica poses a similar health hazard as respiratory exposures. <P> Application. Z300 Silica Flour is used in the friction industry as an abrasion resistant filler. It is also used as a filler in epoxy resin castings and adhesives. <P> Silica flour is simply made by grinding pure silica sand to a very fine powder. It is used as a cheap filler in plaster and some plastics to add strength, or just to reduce the amount of (expensive) resin needed to fill a mold. Order today. <P> They are frequently ground into granules or a fine powder, sometimes called silica flour. Diatomaceous earth silica may be used in food or non-food products. Quartz powders or glass powders are silica sand heated to extreme temperatures and melted. Artisans and manufacturers mold and shape the molten material. When cooled, the substance becomes glass. <P> Silicosis (previously miner's phthisis, grinder's asthma, potter's rot and other occupation-related names) is a form of occupational lung disease caused by inhalation of crystalline silica dust, and is marked by inflammation and scarring in the form of nodular lesions in the upper lobes of the lungs. Silicosis (particularly the acute form) is characterized by shortness of breath, cough, fever, and cyanosis (bluish skin). It may often be misdiagnosed as pulmonary edema (fluid in the lungs), pneumonia, or tuberculosis. Silicosis resulted in 46,000 deaths globally in 2013 down from 55,000 deaths in 1990.	Silica flour is simply made by grinding pure silica sand to a very fine powder. It is used as a cheap filler in plaster and some plastics to add strength, or just to reduce the amount of (expensive) resin needed to fill a mold.
causes of jaundice in hands	<P> Jaundice is a yellow discoloration of the skin, mucous membranes, and the whites of the eyes caused by increased amounts of bilirubin in the blood. Jaundice is a sign of an underlying disease process. Bilirubin is a by-product of the daily natural breakdown and destruction of red blood cells in the body. The hemoglobin molecule that is released into the blood by this process is split, with the heme portion undergoing a chemical conversion to bilirubin. <P> Jaundice is a symptom that occurs due to excessive amounts of bilirubin in the blood. The causes for jaundice are several. Bilirubin is a buildup of old RBCs that have been processed by the liver. Bilirubin that fails to escape is seen as yellow pigmentation of the skin. Neonatal jaundice is relatively normal; bruises turn yellow when they heal; malaria, hepatitis, hemolytic anemia, pancreatic cancer and cirrhosis are serious causes of jaundice. 1 Hypercarotenemia. <P> The excess bilirubin causes the skin, eyes, and mucus membranes in the mouth to turn a yellowish color. Because bilirubin is processed by the liver, the symptoms of jaundice may indicate damage to the liver in adults. If the cause is not identified and treated, it can lead to liver failure. <P> Jaundice may be caused by several different disease processes. It is helpful to understand the different causes of jaundice by identifying the problems that disrupt the normal bilirubin metabolism and/or excretion. Pre-hepatic (before bile is made in the liver). Post-hepatic (after bile has been made in the liver). Jaundice in these cases, also termed obstructive jaundice, is caused by conditions which interrupt the normal drainage of conjugated bilirubin in the form of bile from the liver into the intestines. Causes of obstructive jaundice include: 1 gallstones in the bile ducts, 2 cancer (pancreatic and gallbladder /bile duct carcinoma), 3 strictures of the bile ducts, 4 cholangitis, 5 congenital malformations, 6 pancreatitis, 7 parasites, 8 pregnancy, and. 9 newborn jaundice <P> Jaundice, also referred to as icterus, is the yellow staining of the skin and sclerae (the whites of the eyes) by abnormally high blood levels of the bile pigment, bilirubin. The yellowing extends to other tissues and body fluids and also may turn the urine dark. Jaundice is a yellowish discoloration of the skin, mucous membranes and of the white of the eyes caused by elevated levels of the chemical bilirubin in the blood (hyperbilirubinemia). The term jaundice is derived from the French word jaune, which means yellow. <P> Jaundice. Jaundice is an umbrella term that covers yellow skin due to excess bilirubin. The exact causes of jaundice are many. Bilirubin is the collection of old red blood cells that have been processed by the liver. Bilirubin can build up if the liver is diseased, damaged or overwhelmed or if there are problems with the biliary duct. <P> Jaundice is the medical term that describes yellowing of the skin and eyes. This condition forms when there is too much bilirubin in your system. Bilirubin is a yellow pigment that is formed by the breakdown of dead red blood cells in the liver. Normally, the liver gets rid of bilirubin along with old red blood cells. Jaundice may indicate a serious problem with the function of your liver, gallbladder, or pancreas. Find an internist near you ». If you only have yellow skin, it’s more likely due to having too much beta-carotene in your system. Beta-carotene is an antioxidant found in carrots and pumpkins. An excess of this antioxidant is not a cause of jaundice. <P> Jaundice, also referred to as icterus, is the yellow staining of the skin and sclerae (the whites of the eyes) by abnormally high blood levels of the bile pigment, bilirubin. The yellowing extends to other tissues and body fluids and also may turn the urine dark. <P> In this article. Jaundice can occur in babies, children, and adults. Jaundice is not an illness in itself, but a medical condition in which too much bilirubin -- a compound produced by the breakdown of hemoglobin from red blood cells -- is circulating in the blood. Because bilirubin is processed by the liver, the symptoms of jaundice may indicate damage to the liver in adults. If the cause is not identified and treated, it can lead to liver failure.	Malaria, hepatitis, hemolytic anemia, pancreatic cancer and cirrhosis.
symptoms of muscle disorders	<P> Neuromuscular disease is a very broad term that encompasses many diseases and ailments that impair the functioning of the muscles, either directly, being pathologies of the muscle, or indirectly, being pathologies of nerves or neuromuscular junctions. Neuromuscular diseases are those that affect the muscles and/or their direct nervous system control. <P> Symptoms include general muscle weakness and possible joint deformities; disease progresses slowly; shortened life span. Duchenne. 2 to 6 years. Symptoms include general muscle weakness and wasting; affects pelvis, upper arms, and upper legs; eventually involves all voluntary muscles; survival beyond 20s is rare. <P> A Muscle Disease is defined by some typical set of symptoms that are found across most types of muscular diseases. These include progressive weakness of the muscles, pain in the limbs, undue lethargy or exhaustion, cramping or stiffness of certain muscle groups, stiff joints and uncoordinated body movements. 1 Typical symptoms of DM include muscular weakness among the thighs, hips, upper arms, back and shoulders. 2 Polymyositis (PM). 3 Polymyositis is a muscle disease that causes widespread inflammation of muscles and usually occurs after the age of 20 years. <P> Symptoms of muscle disease may include muscular weakness, rigidity, loss of muscular control, myoclonus (twitching, spasming), and myalgia (muscle pain). Neuromuscular diseases are those that affect the muscles and/or their direct nervous system control. <P> Other types of muscular dystrophy. Some types of muscular dystrophy are defined by a specific feature or by where in the body symptoms first begin. Examples include: 1 Myotonic. 2 Also known as Steinert's disease, this form is characterized by an inability to relax muscles at will following contractions. Signs and symptoms typically appear between the ages of 2 and 3, and may include: 1 Frequent falls. 2 Difficulty getting up from a lying or sitting position. 3 Trouble running and jumping. 4 Waddling gait. 5 Walking on the toes. 6 Large calf muscles. <P> The severity of mitochondrial disease symptoms is different from person to person. The most common symptoms are: 1 Poor growth. 2 Loss of muscle coordination, muscle weakness. 3 Neurological problems, seizures. 4 Autism, autistic spectrum, autistic-like features. 5 Visual and/or hearing problems. 6 Developmental delays, learning disabilities. 7 Heart, liver or kidney disease. 8 Gastrointestinal disorders, severe constipation. <P> Muscle symptoms can also accompany serious conditions that can even be life threatening, such as severe dehydration, spinal cord injury, or stroke. Muscle symptoms can be a sign of a serious disease, disorder or condition, such as muscular dystrophy, an infection of the muscles, or a pinched nerve. Seek prompt medical attention if your muscle symptoms are persistent or causing you concern. I was in excruciating pain…and you rescued me. Any type of muscle can produce symptoms when affected by various diseases, disorders and conditions. These include infection, trauma, autoimmune diseases, neurological and muscular disorders, malignancy (cancer), and even some medications. Muscle symptoms can also involve the ligaments, tendons and fascia, which is the soft tissue that connects the muscles, bones and organs <P> About one-third of boys with Duchenne muscular dystrophy don't have a family history of the disease, possibly because the gene involved may be subject to sudden abnormal change (spontaneous mutation). Signs and symptoms typically appear between the ages of 2 and 3, and may include: 1 Frequent falls. 2 Difficulty getting up from a lying or sitting position. 3 Trouble running and jumping. 4 Waddling gait. 5 Walking on the toes. 6 Large calf muscles.	Infection, trauma, autoimmune diseases, neurological and muscular disorders, malignancy (cancer),ligaments, tendons, fascia,muscular weakness, rigidity, loss of muscular control, myoclonus (twitching, spasming), and myalgia (muscle pain).
bumps at the back of tongue with swollen throat	<P> This went several days and now I have the sensation with discomfort in the back of my mouth and throat. It almost is like a burning sensation to the left side of my throat. And the left back part of my tongue is sore and almost feels as though I have biten it. <P> Sometimes, the red bumps on the very back of your tongue are just sores. The cause of these sores will vary, however. For instance, a few possible causes include infections, canker sores, allergies and even oral herpes. <P> Sore throat, Swollen tongue and White patches on tongue. WebMD Symptom Checker helps you find the most common medical conditions indicated by the symptoms sore throat, swollen tongue and white patches on tongue including Viral pharyngitis, Strep throat, and Tonsillitis. There are 28 conditions associated with sore throat, swollen tongue and white patches on tongue. The links below will provide you with more detailed information on these medical conditions from the WebMD Symptom Checker and help provide a better understanding of causes and treatment of these related conditions. <P> There are 33 conditions associated with mouth sores, sore throat and sore tongue. The links below will provide you with more detailed information on these medical conditions from the WebMD Symptom Checker and help provide a better understanding of causes and treatment of these related conditions. <P> I have swollen lymph nodes, big tonsils, and sore red bumps on the back of my tongue. Swallowing is somewhat painful (not too unbearable, though). I also have headaches and a stuffed up nose. I went to the doctor and I don't have strep. I also don't have any known allergies so I don't think this is an allergic reaction. <P> Mouth sores, Sore throat and Sore tongue. WebMD Symptom Checker helps you find the most common medical conditions indicated by the symptoms mouth sores, sore throat and sore tongue including Viral pharyngitis, Thermal burn of mouth or tongue, and Strep throat.	Viral pharyngitis, Strep throat, and Tonsillitis.
paralegal salary colorado springs	<P> Average Paralegal salaries for job postings in Colorado Springs, CO are 22% lower than average Paralegal salaries for job postings nationwide. <P> Colorado Paralegal Salaries. In 2011, a total of 5,580 paralegals worked in Colorado. The statewide average salary among them was $48,960, while those in the 90th percentile averaged $23,870 more, earning $72,830 on average. The majority were employed in Denver and Aurora where the total workforce of paralegals was 3,730. <P> This growth is slower than the salary trend for all careers in Colorado Springs. Paralegals in Colorado Springs earn a median salary of $42,825 per year. The 10% of paralegals in the lowest pay bracket earn less than $32,905 per year, while those in the highest pay bracket earn approximately $60,650 per year. <P> A Paralegal in Denver, Colorado earns an average salary of $47,797 per year. Experience has a moderate effect on pay for this job. Skills that are associated with high pay for this job are Litigation Case Management, Case Management, and Legal Compliance. $34,227 - $67,183. <P> $60,650. Paralegals in Colorado Springs earn a median salary of $42,825 per year. The 10% of paralegals in the lowest pay bracket earn less than $32,905 per year, while those in the highest pay bracket earn approximately $60,650 per year.	$42,825 per year.
symbolic meaning of circle	<P> Native American Symbols, like the Circle symbol, can vary in meaning from one tribe to another and across the culture groups of North America. Discover facts and information about the meanings of secret and mysterious symbols used by Native American Indians in our List of Symbols including the Circle symbol. The circle symbols are believed to be associated with religion and astronomy. The Circle Symbol-Meaning There were so many tribes of Native American Indians it is only possible to generalise the most common meaning of the Circle symbol or pattern. <P> Circle Symbol Meaning. Circle Symbolism and Meaning. I can't hope to quench the inexhaustible implications of the circle symbol meaning in this page. It's meanings are just too far reaching and profound. However, I'll try to cover a few highlights in human culture about the circle as a symbol. Stand behind the eyes of the first hominin. <P> The astrological symbol of the sun is a circle with a dot in the middle. The same symbol is often used to represent gold, which is strongly associated with the sun. The element of spirit, seen as an element equal or superior to the physical elements of fire, air, water and earth, is commonly represented by a circle. Circles commonly represent unity, wholeness, and infinity. Without beginning or end, without sides or corners, the circle is also associated with the number one. In some cases, there is a distinction between that which is contained within the circle and that which lies without. <P> The circle is a universal symbol with extensive meaning. It represents the notions of totality, wholeness, original perfection, the Self, the infinite, eternity, timelessness, all cyclic movement, God ('God is a circle whose centre is everywhere and whose circumference is nowhere' (Hermes Trismegistus)). The circle is also zero in our system of numbering, and symbolizes potential, or the embryo. It has a magical value as a protective agent, ... and indicates the end of the process of individuation, of striving towards a psychic wholeness and self-realization (Julien, 71). <P> It is a symbol of revolution, of being centered and mobile. It is a symbol of forever. The meaning of the circle as a symbol is universal. It is seen as a divine sign, sacred to several cultures. It symbolizes the ongoing energy found in nature. It symbolizes the way the universe includes everything. The circle has a lot of different meanings. Celtics saw the circle as a symbol of space and the universe. Chinese use the circle to symbolize heaven, and a square to symbolize earth. Chinese art has used squares inside of circles. They used the square inside the circle to represent heaven and earth being united. <P> The Circle Symbol-Meaning The circle is symbolic of equality, where no person is more prominent than any other person. Circle meetings ensured that all people were allowed to speak and the words spoken were accepted and respected on an equal basis. The circle symbols are believed to be associated with religion and astronomy. The Circle Symbol-Meaning There were so many tribes of Native American Indians it is only possible to generalise the most common meaning of the Circle symbol or pattern. <P> Meaning of the Circle Symbol Native American Indians were a deeply spiritual people and they communicated their history, thoughts, ideas and dreams from generation to generation through Symbols and Signs such as the Circle symbol. The circle symbols are believed to be associated with religion and astronomy. The Circle Symbol-Meaning There were so many tribes of Native American Indians it is only possible to generalise the most common meaning of the Circle symbol or pattern. <P> One common Mormon temple symbol is that of a circle inscribed in a square. This is a very simple symbol with a neat meaning. The circle in the square represent heaven and earth coming together (a great temple symbol). The heavens are often described as a bowl and often symbolized by a circle. <P> Symbolic Meanings of the Circle. The Astronomical and Symbolic Meanings of the Circle and Stones: The Stanstead Stone Circle commemorates many things. The first is the fact that the community of Stanstead falls on the 45th parallel—halfway between the equator and the North Pole, a significant location on the planet.	The circle is symbolic of equality, where no person is more prominent than any other person.
abide definition	<P> I cannot abide his impertinence.. This verb when intransitive, is followed by in or at before the place, and with before the person. Abide with me-at Jerusalem or in this land.. Sometimes by on, the sword shall abide on his cities; and in the sense of wait, by far, abide for me. <P> 1 a love that abided till the end of their lives. 2 Now his anger had poisoned all relationships, no one could be put in the two empty beds in the room, and not even his long-suffering sister could abide him in her house. — 3 Peter Pouncey, Rules for Old Men Waiting, 2005. <P> 1. [+ object] : to accept or bear (someone or something bad, unpleasant, etc.) — usually used in negative constructions. I can't abide his bad moods. [=(more commonly) I can't stand his bad moods; I hate his bad moods]. [+] more examples [-] hide examples [+] Example sentences [-] Hide examples. <P> Examples of ABIDE. 1 abide in the house of the Lord. 2 a love that abided till the end of their lives. 3 Now his anger had poisoned all relationships, no one could be put in the two empty beds in the room, and not even his long-suffering sister could abide him in her house. — 4 Peter Pouncey, Rules for Old Men Waiting, 2005. <P> 1. (v. i.) To stay; to continue in a place; to have one's abode; to dwell; to sojourn; -- with before a person, and commonly with at or in before a place. ABIDE. <P> 2 [with object] (can/could not abide) informal Be unable to tolerate: if there is one thing I cannot abide it is a lack of discipline. More example sentences. Synonyms. 1 The man who had hoped to segue from comedy returned to the role he hated and the director he couldn't abide.	To accept or bear.
symptoms of chromium deficiency	<P> Chromium Deficiency Symptoms. There are several signs of a chromium deficiency. Because many of the symptoms can overlap with other health conditions it is imperative to see your physician if you are suffering from these or any other symptoms. The most common chromium deficiency symptoms include: -Not being able to handle sugar or alcohol. <P> Here are the top five symptoms of chromium deficiency for easy reference: 1 You may experience a sudden and abrupt rise in anxiety levels. 2 You may get lightheaded, anxious, and your heart may start racing even after doing some light exercise. 1 With a deficiency of chromium, the chances of getting diabetes increase. 2 A young person may be suspected of chromium deficiency if he or she shows signs of muscle weakness, anxiety and fatigue, along with a slow growth rate. <P> Chromium Deficiency. The body needs chromium for normal growth and development. It is required by the body for the breakdown of sugars, fats, and proteins. Its deficiency, though rare, can lead to certain health problems. This article provides information about the causes and symptoms of this health condition. Chromium is a mineral required in trace amounts in our body. Its daily requirement in women and men is about 25 micrograms and 35 micrograms respectively. The deficiency of this mineral may occur if large amounts are lost from the body. For instance, consumption of large quantity of simple sugars may also lead to excretion of higher amount of chromium from the body. Physical trauma, some kind of infection, pregnancy, and breastfeeding may also lead to its deficiency. <P> The symptoms of chromium deficiency caused by long-term total parenteral nutrition are severely impaired glucose tolerance, weight loss, and confusion. However, subsequent studies questioned the validity of these findings. A natural form of chromium extracted from yeast, Glucose Tolerance Factor (GTF) chromium, was found to exert beneficial insulin-mimetic and insulin-potentiating effects in vitro and in a mouse model the GTF form was seen to produce an insulin-like effect by acting on cellular signals downstream of the insulin receptor. <P> A Emilia Klapp, Nutrition & Dietetics, answered. Symptoms of a chromium deficiency include a craving for sweets, depression, a decrease in the body’s ability to metabolize glucose and fats, an inhibition in the body’s production of protein, and an increased production of too much cholesterol and triglycerides. <P> Tags: deficiency \| of \| Chromium \| signs \| Chromium deficiency symptoms Chromium deficiency signs anddeficiency of Chromium Signs of Chromium. 1 With a deficiency of chromium, the chances of getting diabetes increase. 2 A young person may be suspected of chromium deficiency if he or she shows signs of muscle weakness, anxiety and fatigue, along with a slow growth rate. <P> Chromium Deficiency Symptoms. 1. insulin resistance or glucose intolerance where cells in the body become resistant to the effects of insulin (in pushing glucose from the blood across cell membranes into cells), which affects the ability of insulin to regulate blood sugar and means higher amounts of insulin are needed. This shows up as a host of symptoms that include insulin resistance, type 2 diabetes, abnormal blood sugar and/or insulin levels, high triglyceride and blood pressure and low HDL cholesterol levels, all of which increase the risk of heart disease. Severe deficiency is, however, rare. <P> Chromium is a trace mineral that helps maintain normal blood glucose levels in your body. Learn who is at risk of deficiency and how a deficiency can lead to diabetes-like symptoms, as well as the issues, if any, related to chromium toxicity in this lesson. Knowing this close relationship between chromium and insulin, it's fairly easy to see that a chromium deficiency will result in diabetic-like symptoms that include elevated blood glucose. This is due to the fact that insulin is just not as efficient at doing its job without chromium. <P> 1 If you have chronic fatigue and anxiety, you should visit your doctor for a glucose tolerance test. 2 If your doctor suspects chromium deficiency, the determination of blood sugar levels will help him or her prescribe medication to protect the body’s insulin making ability. 1 With a deficiency of chromium, the chances of getting diabetes increase. 2 A young person may be suspected of chromium deficiency if he or she shows signs of muscle weakness, anxiety and fatigue, along with a slow growth rate. <P> Visit your doctor for a glucose tolerance test if you suspect a chromium deficiency. A glucose tolerance test can determine your blood sugar levels and allow your doctor to prescribe medication to protect your body’s insulin-making ability. The risk of adult-onset diabetes increases with a deficiency in chromium.	Craving for sweets, depression, a decrease in the body’s ability to metabolize glucose and fats, an inhibition in the body’s production of protein, and an increased production of too much cholesterol and triglycerides.
What is Spina Bifida and what causes this condition	<P> Spina bifida is a condition that affects the spine and is usually apparent at birth. It is a type of neural tube defect (NTD). Spina bifida can happen anywhere along the spine if the neural tube does not close all the way. The backbone that protects the spinal cord does not form and close as it should. With meningocele a sac of fluid comes through an opening in the baby’s back. But, the spinal cord is not in this sac. There is usually little or no nerve damage. This type of spina bifida can cause minor disabilities. <P> Spina bifida is a type of neural tube defect. Neural tube defects, including spina bifida (open spine) and anencephaly (open skull), are seen in 7 out of 10,000 live births in the U.S. During pregnancy, the human brain and spine begin as a flat plate of cells, which rolls into a tube, called the neural tube. Spina bifida occulta. A mild form of spina bifida in which the spinal cord and the surrounding structures remain inside the baby, but the back bones in the lower back area fail to form normally. There may be a hairy patch, dimple, or birthmark over the area of the defect. <P> Spina bifida is a type of birth defect called a neural tube defect. It occurs when the bones of the spine (vertebrae) don't form properly around part of the baby's spinal cord. Spina bifida can be mild or severe. 1 The mild form is the most common. 2 It usually doesn't cause problems or need treatment. <P> When people talk about spina bifida, most often they are referring to myelomeningocele. Myelomeningocele is the most serious type of spina bifida. With this condition, a sac of fluid comes through an opening in the baby’s back. Part of the spinal cord and nerves are in this sac and are damaged. With meningocele a sac of fluid comes through an opening in the baby’s back. But, the spinal cord is not in this sac. There is usually little or no nerve damage. This type of spina bifida can cause minor disabilities. <P> Spina bifida is a birth defect in which an area of the spinal column doesn’t form properly, leaving a section of the spinal cord and spinal nerves exposed through an opening in the back. Myelomeningocele (MMC), the most common and serious form of spina bifida, may be treated before birth with fetal surgery. <P> Myelomeningocele, also known as open spina bifida, is the most severe form. Associated problems include poor ability to walk, problems with bladder or bowel control, hydrocephalus, a tethered spinal cord, and latex allergy. Learning problems are relatively uncommon. Spina bifida (Latin : split spine) is a birth defect where there is incomplete closing of the backbone and membranes around the spinal cord. There are three main types: spina bifida occulta, meningocele, and myelomeningocele. <P> In a milder form of the condition, called spina bifida occulta, the bones of the spinal column are abnormally formed, but the nerves of the spinal cord usually develop normally. Unlike in the more severe form of spina bifida, the nerves do not stick out through an opening in the spine. Part of the spinal cord may stick out through an opening in the spine, leading to permanent nerve damage. Because spina bifida is caused by abnormalities of the neural tube, it is classified as a neural tube defect. <P> Knowledge center. Spina bifida is a congenital malformation in which there is something wrong with the bone in the vertebral column, exposing the spinal cord which should be protected within the vertebral column. It is caused by the incomplete closing of the embryonic neural tube. Congenital malformation means a birth defect <P> Spina bifida, also called myelodysplasia, is a condition in which there is abnormal development of the back bones, spinal cord, surrounding nerves, and the fluid-filled sac that surrounds the spinal cord. 1 myelomeningocele-a severe form of spina bifida in which the spinal cord and nerves develop outside of the body and are contained in a fluid-filled sac that is visible outside of the back area. 2 These babies typically have weakness and loss of sensation below the defect.	Spina bifida is a type of birth defect called a neural tube defect.It occurs when the bones of the spine (vertebrae) don't form properly around part of the baby's spinal cord.
what was happening during the renaissance	<P> The Renaissance helped and changed the way people thought and lived their lives. During the Renaissance art was said to be very important, artists like Michelangelo, Raphael, Breughel the Elder and Leonardo Da Vinci created amazing works of art like the Mona Lisa, the Last Supper, the ceiling in the Sistine Chapel. <P> The Renaissance was a time of great social and cultural change in Europe. It was a period characterised by innovation, imagination and creativity. The Renaissance was also a time during which Europe's classical past was revisited and reinvigorated. The period of time during which the European Renaissance fell was between the end of the Middle Ages (or medieval period) and the beginning of the Modern Age. For some historians, the European Renaissance is considered as the dawn of the Early Modern Era. <P> The Renaissance (UK /rɨˈneɪsəns/ , US /ˈrɛnɨsɑːns/) is a period in Europe, from the 14th to the 17th century, considered the bridge between the Middle Ages and modern history. The Renaissance marks the period of European history at the close of the Middle Ages and the rise of the Modern world. It represents a cultural rebirth from the 14th through the middle of the 17th centuries. Early Renaissance, mostly in Italy, bridges the art period during the fifteenth century, between the Middle Ages and the High Renaissance in Ital <P> The Renaissance-Rebirth of Europe. Renaissance is the French word for rebirth. It is the time of change that happened in Europe between the 14th and 16th centuries. It was an age of growth in Europe. New, powerful city states emerged. A new middle class had more and more money to spend. <P> There are two Renaissances that I know of: a) The Medieval Renaissance: This was a time in Europe when art, literature and music flourished (mostly art and literature). Leonardo DaVinci, an Italian artist lived during this era, famous for creating religious paintings and The Mona Lisa. RENAISSANCE PERIOD never before The renaissance period started in northern Italy during the 14th century in northern Italy and spread to Europe in the late 15th century. It starts from the date of discovery of America by Columbus .The renaissance period of new thinking changed the culture of the English people. <P> Renaissance Inventions & Discoveries The Renaissance was a cultural movement that took place in Europe during the period between 14th and 17th century. <P> Introduction. The period of European history referred to as the Renaissance was a time of great social and cultural change in Europe. Generally speaking, the Renaissance spanned from the 14th to the 16th centuries, spreading across Europe from its birthplace in Italy. During the Middle Ages, Italy was not the unified country that it is today. The period of time during which the European Renaissance fell was between the end of the Middle Ages (or medieval period) and the beginning of the Modern Age. For some historians, the European Renaissance is considered as the dawn of the Early Modern Era. <P> The Harlem Renaissance was the name given to the cultural, social, and artistic explosion that took place in Harlem between the end of World War I and the middle of the 1930s. During this period Harlem was a cultural center, drawing black writers, artists, musicians, photographers, poets, and scholars. <P> 1 Techniques and Famous Works of the Renaissance Art Period It was the period that defined art in Europe for all time. 2 The Renaissance art period of the 15th and 16th centuries brought us some of the most renowned artists and works of…. 1 The Renaissance art period of the 15th and 16th centuries brought us some of the most renowned artists and works of…. 2 The History of Fort Lee Virginia Fort Lee in Virginia goes a long way back in American history.	The Renaissance was a time of great social and cultural change in Europe. It was a period characterised by innovation, imagination and creativity. The Renaissance was also a time during which Europe's classical past was revisited and reinvigorated.
oven temperature for homemade sausage rolls	<P> 16. Place the sausage rolls onto non-stick baking trays. 17. Cook in the oven for 25-30 minutes or until the pastry is golden and puffed and the mixture is cooked through. *For sausage rolls with crispy bases I find it best to place the sausage rolls directly <P> 1 Brush lightly with the egg mixture. 2 Sprinkle with sesame seeds or black poppy seeds. 3 Place the sausage rolls onto non-stick baking trays. 4 Cook in the oven for 25-30 minutes or until the pastry is golden and puffed and the mixture is cooked through. <P> Press down to seal and trim any excess. Cut each pastry roll into 8-10 small sausage rolls. Place the sausage rolls onto a baking tray and transfer to the oven to bake for 15-20 minutes, or until crisp and golden and the sausage meat is completely cooked through. <P> 1 Roll pastry around the sausage, and seal with a bit of beaten egg. 2 Place rolls onto an ungreased baking tray, and brush the tops with the rest of the egg. 3 Bake for 20 minutes in the preheated oven, or until the rolls are puffed and golden. <P> 1 Preheat the oven to 200 C / Gas mark 4. 2 Unfold the puff pastry sheets, and cut along the fold lines of each sheet to form 6 equal squares for a total of 12 squares. 3 Brush each square with mustard. 4 Divide sausage into 12 pieces, and roll into small logs. 5 Place one log on each square. <P> Lightly grease the baking tray, place the sausage rolls on it and put it in the middle of the pre-heated oven (see above for temperature) for 20 to 25 minutes or until the pastry is light golden brown. <P> 1 Place one log on each square. 2 Roll pastry around the sausage, and seal with a bit of beaten egg. 3 Place rolls onto an ungreased baking tray, and brush the tops with the rest of the egg. 4 Bake for 20 minutes in the preheated oven, or until the rolls are puffed and golden.	200 degree celcius
how long should a viral video be?	<P> If you look at the top 10 viral videos every week, which Ad Age lists every Thursday, you find that few are less than 30 seconds and the majority are between one minute and 5 minutes pretty consistently every week. We presented a video to some clients recently and one of them made an interesting comment. He was an analytics guy and he said, “I like the video, but it’s too long. All our data shows that people stop watching videos after 30 seconds.”. <P> Best Answer: I think you have the wrong definition of viral. Just because a video has a lot of views doesn't mean it's viral. Viral means that the video is posted everywhere to advertise/talk about it, whether it encourages you to or not. Obviously more views comes from this, but it's possible to just have a video in one location with a lot of views and have it not be considered viral. Source(s): Derek · 5 years ago. VIral videos are forwarded, shared and passed along to other people by the actual viewers. Usually after 5-10,000 views a video starts to become viral on youtube. It really depends on the TYPE of video also. A MUSIC video requires a lot more views to go viral as compared to say How To Make an Electromagnet <P> Controversy is good. Viral videos have a short shelf life. You have 15 minutes of fame, and your job is to open as many doors as possible in those 15 minutes. Create as many opportunities as you can. Ironically, the week I released the video, I barely danced at all. 7. Make your video shorter. The first thing people do when they play a video is check to see how long it is. It helps them decide whether to watch it. 10 minutes: forget it. 2 minutes: I’ll give it a shot. 30 seconds: Heck, might as well. <P> A viral video is a video that becomes popular through a viral process of Internet sharing, typically through video sharing websites, social media and email. CMU Viral Videos is a public data set for viral video study, in which the videos are carefully selected by experts on viral videos including editors from YouTube, Time Magazine and Ray William Johnson. <P> Reel SEO adds that length doesn’t matter. Interesting content does. “There isn’t any direct correlation between length-of-video and viral success…Length is largely unimportant so long as the content is engaging.”. 30 seconds, in fact, seems to be the minimum length a video should be, not the maximum. We presented a video to some clients recently and one of them made an interesting comment. He was an analytics guy and he said, “I like the video, but it’s too long. All our data shows that people stop watching videos after 30 seconds.”. <P> More recently, the Kony 2012 video by Invisible Children, Inc. became the most viral video in history with over 34,000,000 views on the first day of its upload on 5 March 2012 and as of late 2013 has over 100,000,000 views. Another recent example is Gangnam Style by PSY. CMU Viral Videos is a public data set for viral video study, in which the videos are carefully selected by experts on viral videos including editors from YouTube, Time Magazine and Ray William Johnson. <P> 7. Make your video shorter. The first thing people do when they play a video is check to see how long it is. It helps them decide whether to watch it. 10 minutes: forget it. 2 minutes: I’ll give it a shot. 30 seconds: Heck, might as well. <P> Viral videos have a short shelf life. You have 15 minutes of fame, and your job is to open as many doors as possible in those 15 minutes. Create as many opportunities as you can. Ironically, the week I released the video, I barely danced at all. I didn’t go out and celebrate. The first thing people do when they play a video is check to see how long it is. It helps them decide whether to watch it. 10 minutes: forget it. 2 minutes: I’ll give it a shot. 30 seconds: Heck, might as well.	15 minutes
what does hipo mean	<P> HiPos value recognition-but only one in nine organisations tell these individuals they're HiPo and just 11 per cent of businesses ask their HiPos to make a reciprocal commitment to the copany in return for the investment in their careers. HOW TO: RETAIN YOUR BEST STAFF by Gulf Business. , complex, three-tier architecture with, browser used, transaction-based, on-line case management workflow management IT system called Semaphore IT security experts tasks, support infrastructure design) to carry out. <P> Hypo-: Prefix meaning low, under, beneath, down, or below normal, as in hypoglycemia (low blood sugar) and hyposensitivity (undersensitivity). The opposite of hypo-is hyper-. <P> HIPO. HIPO for hierarchical input process output is a popular 1970s systems analysis design aid and documentation technique for representing the modules of a system as a hierarchy and for documenting each module. <P> hypo-, hyp-, prefix meaning under, below, beneath, deficient, or, in chemistry, lacking oxygen: hypochlorite, hypodermic, hypodontia. 1. Prefix meaning deficient, below normal. <P> The World's most comprehensive professionally edited abbreviations and acronyms database. All trademarks/service marks referenced on this site are properties of their respective owners. The Acronym Finder is ©1988-2015, Acronym Finder, All Rights Reserved. <P> What made you want to look up hipo? Please tell us where you read or heard it (including the quote, if possible). <P> The noun HYPO has 2 senses: 1. a compound used as a fixing agent in photographic developing. 2. a piston syringe that is fitted with a hypodermic needle for giving injections. Familiarity information: HYPO used as a noun is rare. Dictionary entry details. <P> A prefix that means beneath or below, as in hypodermic, below the skin. It also means less than normal, as in hypoglycemia, having a level of sugar in the blood that is less than normal. 2. a stimulus or boost. 3. to stimulate by or as if by administering a hypodermic injection; boost: to hypo a car by installing a bigger engine. [1900–05; by shortening of hypodermic; sense “stimulate” perhaps by association with hype 1; see-o ]. <P> The common hippopotamus is semiaquatic, inhabiting rivers, lakes and mangrove swamps, where territorial bulls preside over a stretch of river and groups of five to 30 females and young. During the day, they remain cool by staying in the water or mud; reproduction and childbirth both occur in water. The word hippopotamus is derived from the ancient Greek ἱπποπόταμος, hippopotamos, from ἵππος, hippos, horse, and ποταμός, potamos, river, meaning horse of the river.	HIPO for hierarchical input process output is a popular 1970s systems analysis design aid and documentation technique for representing the modules of a system as a hierarchy and for documenting each module.
what is cortisol am	<P> Description: This test is used to measure Cortisol levels in the blood early in the day. Cortisol testing is usually ordered to aid in the diagnosis of conditions related to the adrenal and pituitary glands such as Addison's Disease, Cushing's Syndrome, Adrenocortical Insufficiency or Hypersecretion. <P> A cortisol level test uses a blood sample to measure the level of cortisol present in blood. Cortisol is a steroid hormone released by the adrenal gland. The adrenal glands sit atop the kidneys. A cortisol level test may also be called a serum cortisol test. <P> Cortisol is the major adrenal steroid hormone and is controlled by the pituitary gland and the hypothalamus. The body’s stress response increases cortisol in order to mobilize energy to manage and resolve the stressor. <P> Cortisol is a steroid hormone produced by the adrenal gland. It is released in response to ACTH (adrenocorticotropic hormone), which is produced by the pituitary gland near the brain. Adrenocorticotropic hormone stimulates the secretion of hormones by the adrenal cortex. <P> Guide. A cortisol test is done to measure the level of the hormone cortisol in the blood. The cortisol level may show problems with the adrenal glands or pituitary gland. Cortisol is made by the adrenal glands. Cortisol levels go up when the pituitary gland releases another hormone called adrenocorticotropic hormone (ACTH). <P> The cortisol level test is done to check if cortisol production levels are either too high or too low. There are certain diseases, such as Addison’s disease and Cushing’s disease, which affect the amount of cortisol produced by the adrenal gland. <P> The test is done to check for increased or decreased cortisol production. Cortisol is a glucocorticoid (steroid) hormone released from the adrenal gland in response to adrenocorticotropic hormone (ACTH). This is a hormone released from the pituitary gland in the brain.	Cortisol is the major adrenal steroid hormone and is controlled by the pituitary gland and the hypothalamus.
who created the first iron for clothes	<P> Nevertheless, this invention of the ironing board was patented, and Boone was said to be among the first African Americans who garnered a patent for a particular useful invention. Its patent (U.S. Patent #473,653) was done in the 26th of April in 1892. <P> Best Answer: The electric iron was invented in 1882 by Henry W. Seeley, a New York inventor Seeley patented his electric flatiron on June 6, 1882 (patent no. 259,054). His iron weighed almost 15 pounds and took a long time to warm up. <P> By the 1820s, cast iron was also used to make flatirons. These irons were called sad irons because they were heavy, weighing about 15 lb (5.6 kg), and hard to move. Like flatirons, sad irons were heated on the stovetop, but they sometimes heated unevenly. The handle also heated up, which posed problems for users. <P> The Hotpoint iron, designed by Earl H. Richardson of Ontario, California, was launched in 1905, and was the first electric iron to have any commercial success. By the 1920s enough people had homes wired for electricity for electric clothes irons to spread fast across the US. <P> Before heated dryers were invented, irons served another purpose as well. Hot irons killed parasites and bacteria in clothing, and eliminated mildew. Most modern irons are made of metal and plastic, and have many features such as steam, temperature controls, and automatic shutoff. <P> A clothes iron is a household appliance used to press the wrinkles out of and creases into clothes. When the iron is turned on, the consumer moves it over an item of clothing on an ironing board. The combination of heat and pressure removes wrinkles. <P> If there was no one who invented the iron, you could probably imagine how everyone’s clothes would look like after being washed and hanged on the clothesline to dry before using. Most probably, it would look really horrid with all its wrinkles and creases.	Henry W. Seeley
how long does a second kidney transplant last	<P> How long does kidney transplant last is subject to various external and internal factors. The answer to how long does a kidney transplant last is, on average, most kidney transplants last somewhere between 10 and 12 years. There are chances that some transplants may fail shortly after transplant; some may be so successful that the recipient may not need another one for years. Another important factor in how long does kidney transplant last is that it does not last forever. In essence, the average duration of a transplanted kidney is approximately ten years for a kidney from a donor who has died to about 12 years for a donor who is alive and is a relative. For a donor who is alive and not related to the patient, the answer to how long does the transplant last is between 10-12 <P> 3 years ago. People with transplants can live a full, long life. I got my first kidney transplant at the age of 13. Thirty one years later, it wore out just as my second transplant arrived. I've had it for almost four years. I have a full life and compete at the National level in a popular sport. <P> Everyone talks about the success rates of kidney transplants. Rarely do we talk about what happens when transplants fail. People will quote the official statistics that 97% of kidney transplants are working at the end of a month; 93% are working at the end of a year; and 83% are working at the end of 3 years*. <P> Dialysis could cost from $50,000 to $80,000 a year, Sher said, but transplanted patients only cost about $25,000 a year in treatment. However, that doesn't factor in the cost of the initial transplant surgery, Sher told MedPage Today. He did not have a cost estimate for the procedure. WASHINGTON -- Patients who have a second kidney transplant may not be as bound for failure as once thought, researchers said here. <P> Fifty percent of kidneys from a living donor still function after 16 to 20 years, and with organs from deceased donors, a transplanted kidney should last 8 to 10 years. A Dr. Audrey K. Chun, MD, Geriatric Medicine, answered on behalf of The Mount Sinai Health System. With the use of current immunosuppressive medications the risk of sudden kidney rejection is low, and if it occurs it can be treated very effectively. Kidney transplants last relatively long. <P> Even with a second transplant, graft function, length of survival, and complications were all comparable to a primary transplant. Some earlier research had shown inferior long-term outcomes when kidney patients are re-transplanted, and researchers have considered second transplants to carry high immunologic risks. WASHINGTON -- Patients who have a second kidney transplant may not be as bound for failure as once thought, researchers said here. <P> Although the newer generation of immunosuppressive drugs -- cyclosporin A, for example -- has improved the success rate during the initial rejection phase, the long-term survival of a functioning kidney is only around ten years because of ongoing rejection that chips away at the kidney's ability to perform adequately. A Dr. Audrey K. Chun, MD, Geriatric Medicine, answered on behalf of The Mount Sinai Health System. With the use of current immunosuppressive medications the risk of sudden kidney rejection is low, and if it occurs it can be treated very effectively. Kidney transplants last relatively long. <P> A kidney transplant does not last for ever. The average life-span of a transplanted kidney is ten years for a deceased donor kidney, and about 12 years for a living related transplant. The average for a living unrelated transplant is somewhere between the two. Another way of looking at how long a transplanted kidney is likely to last is to look at the percentage chance that the kidney will be working at set time points. 1 a 90% chance (eight or nine out of ten) of working one year after the operation. 2 a 60% chance (six out of ten) of lasting five years;	Five years
cost of radon mitigation	<P> 1 Ground water wells can also be tested for radon, then, if needed, can get a water radon mitigation system installed. 2 Installing a water radon mitigation system runs from $1,000-$4,500, and maintenance runs $0 to $150 annually. 3 To find out about radon content in a city water system, call the local water provider. 1 It's wise to retest a home's radon level every year or two after a mitigation system is installed. 2 Most radon mitigation systems include a fan, which will need to be replaced about every 5 years. 3 Expect to pay $250-$300 to have this necessary maintenance done. <P> 1 A radon kit can cost anywhere from $13 to $30. 2 For example, the First Alert RD1 Radon Gas Test Kit costs $13 to $23. 3 Based on a 1-10 scale, anything under 4pCi/L is deemed “standard” according to the EPA. 4 If that number surpasses 4, mitigation will be necessary to ensure that the radon is free from the home. 1 The EPA will recommend that a home with radon present in the past be retested every 1 to 2 years. 2 A professional can give a professional reading for anywhere from $150 to $300. 3 A mitigation system may require maintenance in the future in case it fails. <P> 1 The EPA's Installation and Operating Cost Table lists how much a radon mitigation system should cost based on the type of foundation. 2 Operating a radon mitigation system costs from nothing up to $700 per year. 3 Many radon mitigation systems have fans that require continuous electric power that can add to power bills. 1 It's wise to retest a home's radon level every year or two after a mitigation system is installed. 2 Most radon mitigation systems include a fan, which will need to be replaced about every 5 years. 3 Expect to pay $250-$300 to have this necessary maintenance done. <P> The average radon mitigation system is installed for under $1,500. Some homes require multiple mitigation techniques and /or systems, so the costs can vary. In new homes, the cost to install a passive system is less since the system is installed during construction. <P> 1 Installing a water radon mitigation system runs from $1,000-$4,500, and maintenance runs $0 to $150 annually. 2 To find out about radon content in a city water system, call the local water provider. 3 It's wise to retest a home's radon level every year or two after a mitigation system is installed. 1 It's wise to retest a home's radon level every year or two after a mitigation system is installed. 2 Most radon mitigation systems include a fan, which will need to be replaced about every 5 years. 3 Expect to pay $250-$300 to have this necessary maintenance done. <P> 1 On average, mitigation by a professional can cost anywhere from $650 to $1,900. 2 One of the most common methods or ridding a home of radon is by installing a radon mitigation system; this keeps a constant reading as well as reduces the radon in the air. 3 A system can cost upwards of $650 to $2,100. 1 The EPA will recommend that a home with radon present in the past be retested every 1 to 2 years. 2 A professional can give a professional reading for anywhere from $150 to $300. 3 A mitigation system may require maintenance in the future in case it fails. <P> The average cost for a certified or licensed mitigation contractor to lower radon levels in a slab or basement home is about $1,500, and a crawl space home is about $3,000 or more. Your costs may vary depending on the size and design of your home and which radon reduction methods are needed. If your home has a radon problem, it can be fixed by installing a radon mitigation system in the home. EPA and the Nevada Division of Public and Behavioral Health recommends that you get a certified or licensed radon mitigation contractor to install the system. <P> Radon mitigation is any process or system used to reduce radon concentrations in the breathing zones of occupied buildings. The goal of a radon mitigation system is to reduce the indoor radon levels to below the EPA action level of 4 pCi/L. A quality radon reduction (mitigation) system is often able to reduce the annual average radon level to below 2 pCi/L. In general, costs can range from approximately $800-$2500, with the average reduction system costing approximately $1500. The PBS series “ Ask This Old House ” visited a home in Minneapolis to install a radon mitigation system. The episode covers how radon systems are properly designed and installed <P> 1 A radon test kit, including laboratory analysis, costs $15-$35. 2 Short-term test kits cost a little bit less than long-term test kits. 3 Radon test kits are available at most home improvement stores, including Lowes and the home section of Wal-Mart. 1 It's wise to retest a home's radon level every year or two after a mitigation system is installed. 2 Most radon mitigation systems include a fan, which will need to be replaced about every 5 years. 3 Expect to pay $250-$300 to have this necessary maintenance done. <P> The cost of a mitigation system may vary according to the home's design, size, foundation, construction materials and the local climate. Radon reduction systems average costs nationally are $1,200 with a range from $800 to $1500 common depending on house and market conditions.	$1,200 with a range from $800 to $1500 common depending on house and market conditions.
how is rett syndrome inherited	<P> Males with mutations in the MECP2 gene often die in infancy. However, a small number of males with a genetic change involving MECP2 have developed signs and symptoms similar to those of Rett syndrome, including intellectual disability, seizures, and movement problems. <P> The congenital variant of Rett syndrome is a severe neurodevelopmental disorder with features of classic Rett syndrome (RTT; 312750), but earlier onset in the first months of life. Classic Rett syndrome shows later onset and is caused by mutation in the MECP2 gene (300005). <P> Rett syndrome is a rare, but severe brain disorder that affects girls. It's usually discovered in the first two years of life, and a child's diagnosis with Rett syndrome can feel overwhelming. Although there's no cure, early identification and treatment may help girls and families who are affected by Rett syndrome. <P> Definition. Rett syndrome is a rare genetic neurological and developmental disorder that affects the way the brain develops, causing a progressive inability to use muscles for eye and body movements and speech. It occurs almost exclusively in girls. <P> Rett syndrome is a rare genetic disease that causes developmental and nervous system problems, mostly in girls. It's related to autism spectrum disorder. Babies with Rett syndrome seem to grow and develop normally at first. Between 3 months and 3 years of age, though, they stop developing and even lose some skills. <P> Rett syndrome is a genetic that affects girls almost exclusively. It's rare -- only about one in 10,000 to 15,000 girls will develop the condition. In most cases of Rett syndrome, a child develops normally in early life.	Rett syndrome is a rare genetic neurological and developmental disorder that affects the way the brain develops, causing a progressive inability to use muscles for eye and body movements and speech. It occurs almost exclusively in girls.
mental capacity act what age is a child	<P> Mental Capacity Act Code of Practice – Only people aged 18 and over can make an advance decision to refuse medical treatment.– The Court of Protection may only make a statutory will for a person aged 18 and over. Mental Capacity Act Code of Practice • capacity to make a will 6 • capacity to make a gift 7 • capacity to enter into a contract 8 • capacity to litigate (take part in legal cases), 9 and • capacity to enter into marriage. <P> 10. See also the separate article Consent To Treatment (Mental Capacity and Mental Health Legislation) . Children and young people should be involved as much as possible in decisions about their care, even when they are not able to make decisions on their own. 1 It should be noted that Gillick competency applies to England, Wales and Northern Ireland. 2 In Scotland, the Age of Legal Capacity Act 1991 (mentioned above) lays down a statutory basis for consent. <P> 1 Doctors confronted by such a situation should take legal advice. 2 In Scotland, the rights of people under the age of 16 to consent to treatment is governed by the Age of Legal Capacity (Scotland) Act 1991. 1 It should be noted that Gillick competency applies to England, Wales and Northern Ireland. 2 In Scotland, the Age of Legal Capacity Act 1991 (mentioned above) lays down a statutory basis for consent. <P> 1 Mental Capacity Act (MCA) 2005 – Impact on Children and Young Adults 12 A briefing for Parent Partnership Services – July 2012 The Mental Capacity Act (MCA) was enacted in 2005 and has been in force in England and Wales since 2007 when a Code of Practice was issued. The exceptions are that: 1. The Court of Protection can make decisions about a child’s property and finances if the child lacks capacity to do so (under section 2(1) of the MCA) and is still likely to lack the capacity so to do when they reach 18 (section 18(3)). 2. <P> 12. Standard and urgent authorisations under Schedule A1 Mental Capacity Act have no application to children’s homes as they only apply to hospitals and care homes and only apply to those over the age of 18 years old. 13. The Court of 1 Such authorisations are granted under Schedule A1 of the Mental Capacity Act 2005. The meaning of a care home is provided by section 3 of the Care Standards Act 2000 (Para. 178 of Schedule A1 to 2005 Act) 2 Sections 4A(3) and (4) and section 16(2)(a) of the 2005 Act. <P> LPA is a new legal document which allows a person who is 21 years of age or older (known as the donor), and who has mental capacity, to voluntarily appoint one or more persons (known as the donee[s]) that he trusts to act and make decisions on his behalf if he lacks mental capacity in the future. FEATURE. Overview of the Mental Capacity Act. Singapore’s population is ageing rapidly. As our society ages, we expect a corresponding rise in dementia. At the age of 65 years, one in 20 may have dementia and the incidence could be as high as one in 10 by the age of 75 years. <P> Mental Capacity Act Code of Practice • the donor is detained under the Mental Health Act (section 28) An attorney cannot consent to or refuse treatment for a mental disorder for a patient detained under the Mental Health Act 1983 (see also chapter 13). Mental Capacity Act Code of Practice • capacity to make a will 6 • capacity to make a gift 7 • capacity to enter into a contract 8 • capacity to litigate (take part in legal cases), 9 and • capacity to enter into marriage. <P> Within the MCA Code of Practice “children” are people below the age of 16; “young people” are those aged 16 and 17; anyone aged 18 and over is considered to be an “adult”. This differs from the law more generally and the Children Act 1989 in particular where the term “child” is used to refer to anyone under 18. The exceptions are that: 1. The Court of Protection can make decisions about a child’s property and finances if the child lacks capacity to do so (under section 2(1) of the MCA) and is still likely to lack the capacity so to do when they reach 18 (section 18(3)). 2. <P> When their consent can be overruled. If a young person refuses treatment, and by doing so this may lead to their death or a severe permanent injury, their decision can be overruled by the Court of Protection. This is the legal body that oversees the operation of the Mental Capacity Act (2005). The parents of a young person who has refused treatment may consent for them, but it is usually thought best to go through the courts in such situations. Children under the age of 16 are presumed to lack capacity, but can consent to their own treatment if it is thought that they have enough intelligence, competence and understanding to fully appreciate what is involved in their treatment.	Below the age of 16.
how long does it take for mail to get from california to florida	<P> Express mail typically overnight any where on the east coast, to the east coast. Priority can be 2-3 business days, parcel post … can range from a day, to a week depending on how much mail the USPS is handling at that time. First class mail from FL to me (I live in Lackawanna county PA) is usually a day or two unless its around Christmas. <P> How long does it take regular mail to get from California to Florida? For a regular mail to get from California to Florida, it will usually take four days. There are instances where it might take 5 to 7 days. <P> Many factors, indeed, though with regard to how long does priority mail take, the answer is, not long. In fact, the United States Postal Service says your package or envelope will arrive within two days. <P> The United States Postal Services reports that as of January 2011, it takes an average of one to three days for First-Class Mail to arrive at its destination. Priority Mail takes an average of one to two days to arrive, according to the USPS. USPS only includes the time a package stays in transit in their estimations. <P> It depends on what part of Florida you are going from and what part you are going to in California if you go from Miami to San Diego it is 1 Day and 18 hours! + 1 other found this useful. Jacob Romero. Edit. <P> Below is a list of approximate delivery times for First Class mail that is sent from Florida (FL).	4 days
atp definition biology	<P> energy is stored in the covalent bonds between phosphates with the greatest amount of energy approximately 7 kcal mole in the bond between the second and third phosphate groups this covalent bond is known as a pyrophosphate bond we can write the chemical reaction for the formation of atp as two processes convert adp into atp 1 substrate level phosphorylation and 2 chemiosmosis substrate level phosphorylation occurs in the cytoplasm when an enzyme attaches a third phosphate to the adp both adp and the phosphates are the substrates on which the enzyme acts <P> adenosine triphosphate adenosine triphosphate atp is considered by biologists to be the energy currency of life it is the high energy molecule that stores the energy we need to do just about everything we do free energy from hydrolysis of atp adenosine triphosphate atp is the energy currency of life and it provides that energy for most biological processes by being converted to adp adenosine diphosphate since the basic reaction involves a water molecule this reaction is commonly referred to as the hydrolysis of atp <P> definition adenosine triphosphate or atp for short is the energy currency of life atp is a high energy molecule found in every cell its job is to store and supply the cell with needed energy <P> atp adenosine 5 triphosphate a nucleotide that is the most important molecule for capturing and trans ferring free energy in cells hydrolysis of each of the two high energy phosphoanhydride bonds in atp is accompanied by a large free energy change δg of 7 kcal mole atp synthase a molecular motor atp synthase dalton s embedded in the inner membrane of mitochondria its function is to convert the energy of protons h+ moving down their concentration gradient into the synthesis of atp <P> adenosine triphosphate atp the energy currency or coin of the cell pictured in figfures 1 and 2 transfers energy from chemical bonds to endergonic energy absorbing reactions within the cell two processes convert adp into atp 1 substrate level phosphorylation and 2 chemiosmosis substrate level phosphorylation occurs in the cytoplasm when an enzyme attaches a third phosphate to the adp both adp and the phosphates are the substrates on which the enzyme acts <P> adenosine triphosphate adenosine 5 triphosphate atp is a multifunctional nucleotide and plays an important role in cell biology as a coenzyme that is the molecular unit of currency of intracellular energy transfer in this role atp adenosine triphosphate atp is the energy currency of life and it provides that adenosine triphosphate atp molecule found in all living organisms that is the main immediate source of usable energy for the activities of the <P> best answer atp means adenosine triphosphate it is literally made up of the nitrogenous base adenine and 3 phosphates the bonds holding phosphate together are high in energy they are often described as a spring that is compressed just waiting to be released atp adenosine tri phosphate is an adenosine that is attached to 3 phosphate groups atp is a form of energy that we need in order for our cells body to do our job atp is mostly made in mitochondria for more info check out http en wikipedia org wiki <P> atp is adenosine triphosphate it is a nitrogenous base called adenine with three phophate po3 groups attached to it it is basically the source of energy in the cell this energy is stored in the bonds between the phosphate groups with most of the energy in the bond between the second and third phosphate groups atp is made in the mitochondria of cells silfly 7 years ago thumbs up atp adenosine tri phosphate is an adenosine that is attached to 3 phosphate groups atp is a form of energy that we need in order for our cells body to do our job atp is mostly made in mitochondria for more info check out http en wikipedia org wiki	ATP stands for Adenosine Triphosphate. ATP nucleotide that is the most important molecule for capturing and trans ferring free energy in cells hydrolysis of each of the two high energy phosphoanhydride bonds.
what is in a desert	<P> English desert and its Romance cognates (including Italian and Portuguese deserto, French desert désert And spanish) desierto all come from the Ecclesiastical latin (dēsertum originally an abandoned), place a participle of, dēserere to. abandon Deserts take up about one third of the Earth's land surface. Bottomlands may be salt-covered flats. Eolian processes are major factors in shaping desert landscapes. Polar deserts (also seen as cold deserts) have similar features, except the main form of precipitation is snow rather than rain. <P> LOCATION: Although few animals and plants are adapted to the extremely dry desert life, the desert is a vital biome. The desert is important because it covers about a fifth of the earth's surface! There are both hot and cold deserts. Antarctica is the largest desert in the world, while the Sahara in Africa is the largest of the hot deserts. There are also deserts close to Santa Barbara, such as the Mojave the Colorado Desert which encompass parts of Southern California <P> A desert is a region of land that is very dry because it receives low amounts of precipitation (usually in the form of rain but may be snow, mist or fog), often has little coverage by plants, and in which streams dry up unless they are supplied by water from outside the area. Deserts take up about one third of the Earth's land surface. Bottomlands may be salt-covered flats. Eolian processes are major factors in shaping desert landscapes. Polar deserts (also seen as cold deserts) have similar features, except the main form of precipitation is snow rather than rain. <P> The Thar Desert, also known as the Great Indian Desert, is a large, arid region in the northwestern part of the Indian subcontinent that forms a natural boundary between India and Pakistan. <P> The Desert Biome. Deserts are often defined as areas that receive less than 10 inches of average annual rainfall, but a more accurate defining factor is aridity. In addition to low rainfall, deserts are characterized by a high rate of water loss from the ground (evaporation) and through plants (transpiration). <P> The term dessert can apply to many foods, such as cakes, tarts, cookies, biscuits, gelatins, pastries, ice creams, pies, puddings, custards, and sweet soups. Fruit is also commonly found in dessert courses because of its naturally occurring sweetness. Dessert (/dɨˈzɜrt/) is a course that concludes a main meal. The course usually consists of sweet foods and beverages, but may include coffee, cheeses, nuts, or other savory items. <P> Plants Animals Climate Mojave Desert Sonoran Desert In this report you will learn about Hot and Dry Deserts and Cold Deserts. I hope you enjoy! A Hot and Dry Desert is, as you can tell from the name, hot and dry. Most Hot and Dry Deserts don't have very many plants. They do have some low down plants though. The only animals they have that can survive have the ability to burrow under ground. A cold desert is a desert that has snow in the winter instead of just dropping a few degrees in temperature like they would in a Hot and Dry Desert. It never gets warm enough for plants to grow. Just maybe a few grasses and mosses. The animals in Cold Deserts also have to burrow but in this case to keep warm, not cool. <P> A desert is a barren area of land where little precipitation occurs and consequently living conditions are hostile for plant and animal life. The lack of vegetation exposes the unprotected surface of the ground to the processes of denudation. About one third of the land surface of the world is arid or semi-arid. Deserts take up about one third of the Earth's land surface. Bottomlands may be salt-covered flats. Eolian processes are major factors in shaping desert landscapes. Polar deserts (also seen as cold deserts) have similar features, except the main form of precipitation is snow rather than rain. <P> T he hot desert is a land of extremes: extreme heat and extreme dryness; sudden flash floods and cold nights. Because deserts are such a harsh environment, deserts often have names likes Death Valley, the empty quarter, and the place from where there is no return.. Dryness. <P> Although most deserts, such as the Sahara of North Africa and the deserts of the southwestern U.S., Mexico, and Australia, occur at low latitudes, another kind of desert, cold deserts, occur in the basin and range area of Utah and Nevada and in parts of western Asia.	Cakes, tarts, cookies, biscuits, gelatins, pastries, ice creams, pies, puddings, custards, and sweet soups and fruit is also found in dessert.
what is a colostomy bag used for	<P> For the colostomy, one end of the healthy colon is brought out through an opening made in the abdomen wall, usually on the left side. The edges of bowel are stitched to the skin of opening. This opening is called a stoma. A bag called a stoma appliance is placed around the opening to allow stool to drain. Your colostomy may be short-term. If you have surgery on part of your large intestine, a colostomy allows the other part of your intestine to rest while you recover. <P> To perform a colostomy, the surgeon makes an opening through the skin on your abdomen and connects your bowel to that opening. This opening is called a stoma or, sometimes, a colostomy. Your stool passes out of your body through the opening. A disposable bag is attached over the opening to collect stool. <P> A colostomy is a surgery in which the colon (large intestine) is re-routed and attached to an opening in the abdomen and skin called a stoma. The colon, or large intestine, forms and eliminates stool through the rectum. After a colostomy, stool drains into a colostomy bag attached around the stoma instead of through the rectum. You may need a colostomy if your colon is diseased or injured and cannot form and eliminate stool normally. <P> During a colostomy, surgeons divert one end of the large intestine into a visible opening – known as a stoma – on the patient’s abdomen. A small pouch, or colostomy bag, is then placed over the stoma to collect waste products that would normally pass through a person's rectum and anus in the bathroom. An ileostomy is a similar procedure that applies to the small, rather than the large, intestine. <P> The colostomy drains stool (feces) from the colon into the colostomy bag. Colostomy stool is often softer and more liquid than stool that is passed normally. The texture of stool depends on which part of the intestine was used to form the colostomy. <P> It is attached to a stoma, which is an opening created when a person has a surgery to send waste out of the body through the abdomen instead of through the rectum. The stoma leads from the inner abdomen to the outside of the body and deposits waste into the colostomy bag.	To collect waste product of human body
what are the advantages of STR fingerprinting over vntr fingerprinting	<P> 6 which can be used to create a DNA Fingerprint which in turn, will confirm or deny whether a suspect was present at a crime scene. DNA Fingerprinting in conjunction with other evidence can assure that the accused person will receive the correct verdict. Another use of DNA fingerprinting is paternity testing. <P> The advantage of using DNA fingerprinting in this context is that it is over 99 percent reliable in determining paternity or a familial relationship. Useful in Rape Cases. There are also many advantages to using DNA fingerprinting in sexual assault or rape cases. <P> Discuss the advantages of the technique. Technique used to make copies of DNA in a short amount of time. An advantage is that PCR does not require a large sample. Steps: Denaturation-separates DNA Primer Annealing-bind to the complementary DNA Primer extension-extends these primers and forms extensions. <P> Actually, the question is about DNA fingerprinting, which is the term for using DNA evidence to create profiles of each individual. DNA evidence includes blood, hair follicles, skin cells, bone, semen, and other types of body tissue. <P> 2. Criminal Identification and Forensics DNA isolated from blood, hair, skin cells, or other genetic evidence left at the scene of a crime can be compared, through VNTR patterns, with the DNA of a criminal suspect to determine guilt or innocence. <P> Flakes of skin, drops of blood, hair, and saliva all contain DNA that can be used to identify us. In fact, the study of forensics, commonly used by police departments and prosecutors around the world, frequently relies upon these small bits of shed DNA to link criminals to the crimes they commit. <P> RFLPs and VNTRs are the traditional methods of fingerprinting DNA, which uses a relatively large sample that uses the method of probe hybridization to detect polymorphisms in the DNA. STRs are the most current form of DNA fingerprinting, which is PCR based and uses a very small sample of DNA.	There is large sample that uses the method of probe hybridization to detect polymorphisms in the DNA in VNTRs. When, uses a very small sample of DNA.
what does a liver do as a gland	<P> The liver is a gland and plays a major role in metabolism with numerous functions in the human body, including regulation of glycogen storage, decomposition of red blood cells, plasma protein synthesis, hormone production, and detoxification. The liver is a reddish brown wedge-shaped organ with four lobes of unequal size and shape. A human liver normally weighs 1.44–1.66 kg (3.2–3.7 lb). It is both the largest internal organ and the largest gland in the human body. <P> The liver is one of the vital organs of the body, responsible for hundreds of chemical actions that the body needs to survive. It is also a gland because it secretes chemicals that are used by other parts of the body. For these reasons the liver is both an organ and a gland. The liver is the largest internal organ of the body and is located in the right upper quadrant of the abdomen, beneath the diaphragm and is protected by the lower right ribs. It also extends across the midline toward the left upper quadrant of the abdomen. <P> The pancreas is a glandular organ in the upper abdomen, but really it serves as two glands in one: a digestive exocrine gland and a hormone-producing endocrine gland. Functioning as an exocrine gland, the pancreas excretes enzymes to break down the proteins, lipids, carbohydrates, and nucleic acids in food. The pancreas is classified as a heterocrine gland because it contains both endocrine and exocrine glandular tissue. The exocrine tissue makes up about 99% of the pancreas by weight while endocrine tissue makes up the other 1%. The exocrine tissue is arranged into many small masses known as acini. <P> It is the largest internal organ and also a gland. It is considered a gland because it makes and secretes bile. Glands are organs or parts of organs that make and secrete substances. And bile is a fluid that both aids in digestion and transports fats as well as waste products into the intestine. So that's why it is defined as a gland. <P> endocrine (EN-doh-krin) gland: a group of cells that makes hormones and sends them into the blood to have effects on other cells. goiter (GOY-ter): an enlarged thyroid. hormone (HOR-mohn): a chemical made in an endocrine gland in one part of the body. Having thyroid hormone levels that are too high (overactive thyroid gland). Sometimes the thyroid gland makes too much thyroid hormone, which is called hyperthyroidism. Think of your body as a car and your thyroid as the engine. An overactive thyroid makes your body idle too fast. <P> Liver. The liver is the body’s largest gland. It is a vital organ that supports nearly every other organ in the body in some facet. Without a healthy liver, a person cannot survive. The liver is the largest glandular organ in the body and performs multiple critical functions to keep the body pure of toxins and harmful substances. <P> 1 The adrenal cortex—the outer part of the gland—produces hormones that are vital to life, such as cortisol (which helps regulate metabolism and helps your body respond to stress) and aldosterone (which helps control blood pressure). <P> INTRODUCTION TO LIVER. The liver is one of the largest, most important, and least appreciated organs in the body. The bulk of the liver consists of hepatocytes, which are epithelial cells with a unique configuration. The liver is essentially an exocrine gland, secreting bile into the intestine. But, the liver is also -- and significantly so -- an endocrine gland and a blood filter. <P> The thyroid (THY-royd) gland, a small butterfly-shaped gland in the front of your neck, makes thyroid hormones. Thyroid hormones travel from the thyroid gland through the blood to all parts of the body, where they do their work. Having thyroid hormone levels that are too high (overactive thyroid gland). Sometimes the thyroid gland makes too much thyroid hormone, which is called hyperthyroidism. Think of your body as a car and your thyroid as the engine. An overactive thyroid makes your body idle too fast. <P> The liver is considered a gland—an organ that secretes chemicals—because it produces bile, a substance needed to digest fats. Bile’s salts break up fat into smaller pieces so it can be absorbed more easily in the small intestine. In addition to producing bile, the liver: The liver is the largest glandular organ in the body and performs multiple critical functions to keep the body pure of toxins and harmful substances.	It produces bile, a substance needed to digest fats.
ounces to cups	<P> When you convert from grams or ounces (weight) to teaspoons, tablespoons or cups (volume), you are converting from a weight to a volume. This simple calculation may not be highly accurate in many cases. This should not be used for measuring medicine or any form of critical science. <P> The conversion factors from fluid ounces (fl oz) to cups for imperial and US customary volume measurement systems are listed below. To find out how many cups in ounces, multiply by the right conversion factor or use the converter below. 1 Ounce [Fluid, US] = 0.125 (1/8) Cup [US]. Fluid ounce is an imperial and U.S. customary volume unit. Since often causes confusion, please note that it is different than the ounces which is a mass (weight) unit. <P> Use the volume converter for conversion of teaspoons to tablespoons, tablespoons to cups, ounces to cups, cups to pints, pints to quarts, and cups to gallons. <P> Enter a cup value that you want to convert into US fluid ounces and click on the convert button. Cup is a non standard volume measurement unit and used in different measurement systems. Metric cups are slightly larger than the U.S. customary cups. Mostly used in cooking to measure liquid and bulk, dry foods. <P> Volume Weight. -------------------------- --------------------------. 8 fl.oz. = 1 cup 16 oz. avoirdupois = 1 lb. 2 cups = 1 pint. 2 pints = 1 quart. 4 quarts = 1 gallon. For those who are trying to convert volume to weight, you need one more input to the equation: density. <P> Ounces Definition. Known as the US fluid ounce, the unit of volume for liquid substances is used as ounce in the US and other countries practicing the US Customary system. It is equals to approximately 1/8 of US cup, 1/16 of US pint, approximately 1.040842731 Imperial Fluid Ounces, 2 tablespoons or 6 teaspoons.	1 Ounce [Fluid, US] = 0.125 (1/8) Cup [US]
how to insert blank cover page in word	<P> To replace a cover page created in an earlier version of Word, you must delete the first cover page manually, and then add a cover page with a design from the Word gallery. To delete a cover page inserted with Word, click the Insert tab, click Cover pages in the Pages group, and then click Remove Current Cover Page. Add a cover page. Microsoft Word offers a gallery of convenient predesigned cover pages. Choose a cover page and replace the sample text with your own. On the Insert tab, in the Pages group, click Cover Page. Click a cover page layout from the gallery of options. After you insert a cover page, you can replace the sample text with your own text by clicking to select an area of the cover page, such as the title, and typing your text. Note. If you insert another cover page in the document, the new cover page will replace the first cover page you inserted <P> On the Insert tab, in the Pages group, click Cover Page. Click a cover page layout from the gallery of options. After you insert a cover page, you can replace the sample text with your own text by clicking to select an area of the cover page, such as the title, and typing your text. Just by the way... If you insert another cover page in the document, the new cover page will replace the first cover page you inserted. To delete a cover page inserted with Word, click the Insert tab, click Cover pages in the Pages group, and then click Remove Current Cover Page. http://office.microsoft.com/en-us/word-help/add-a-cover-page-HA010368884.aspx. share \| improve this answer. answered May 15 '11 at 17:43. <P> Head over to the “Insert” ribbon and you’ll find that Microsoft Office gives some cover pages that you can use. Although, normally a cover page appears in the first page, Word lets you place the cover page anywhere in the document. If you don’t like any of these cover pages, you can always create a custom one. Let’s begin by opening a blank document, and make it pretty. Give it a good background color and put a great picture. Put as many document property as you want. When you are done, select all the components on the cover page (CTRL + A), and save it into the gallery. Give it the appropriate name and save it. You should see your new cover page appears inside the cover page gallery. <P> 1) Click on the “insert” on the ribbon, where you can find some sample cover pages that you can use in your document. 2)Usually, a cover page appears at the beginning of your document. But Word 2010 allows you to place cover page anywhere around in your document. 3)However, if you don’t like to use available cover pages in your document, so you can create your own custom cover page. <P> You have plenty of options: author name, title, abstract. Put as many document property as you want. When you are done, select all the components on the cover page (CTRL + A), and save it into the gallery. Give it the appropriate name and save it. You should see your new cover page appears inside the cover page gallery. <P> How to Add a Background to a Single Page in Word. Whether you just want to create a cover page or have one page with a background while all other pages are blank this tutorial will show you how. Microsoft Word does come with the option to add a Cover Page using templates supplied in the software. <P> In the Pages group, click the Cover Page button. If you don’t see the Pages group or Cover Page button, click the Pages button and then click the Cover Page icon. The Cover Page button displays a fat, fun menu full of various cover-page layouts. Enlarge. <P> 1. Click the Insert tab. In the Pages group, click the Cover Page button. Choose a cover-page layout that titillates you. Click the bracketed text on the cover page. Type the required replacement text. Repeat Steps above until the cover page looks the way you like it. If you don’t see the Pages group or Cover Page button, click the Pages button and then click the Cover Page icon. The Cover Page button displays a fat, fun menu full of various cover-page layouts. Enlarge. <P> When I insert a cover... show more I need a blank page that I can write on. I can't keep pushing enter because my teacher uses that show/hide thing that tells when we press enter. When I do page break, it doesn't let me write on the blank page, it pushes the words all the way back to the second page.	Choose a cover page and replace the sample text with your own. On the Insert tab, in the Pages group, click Cover Page. Click a cover page layout from the gallery of options.After you insert a cover page, you can replace the sample text with your own text by clicking to select an area of the cover page, such as the title, and typing your text.

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