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what is rba

Results-Based Accountability® (also known as RBA) is a disciplined way of thinking and taking action that communities can use to improve the lives of children, youth, families, adults and the community as a whole. RBA is also used by organizations to improve the performance of their programs. Creating Community Impact with RBA. Community impact focuses on conditions of well-being for children, families and the community as a whole that a group of leaders is working collectively to improve. For example: “Residents with good jobs,” “Children ready for school,” or “A safe and clean neighborhood”.

The Reserve Bank of Australia (RBA) came into being on 14 January 1960 as Australia 's central bank and banknote issuing authority, when the Reserve Bank Act 1959 removed the central banking functions from the Commonwealth Bank. The assets of the bank include the gold and foreign exchange reserves of Australia, which is estimated to have a net worth of A$101 billion. Nearly 94% of the RBA's employees work at its headquarters in Sydney, New South Wales and at the Business Resumption Site.

Since 2007, the RBA's outstanding reputation has been affected by the 'Securency' or NPA scandal. These RBA subsidiaries were involved in bribing overseas officials so that Australia might win lucrative note-printing contracts. The assets of the bank include the gold and foreign exchange reserves of Australia, which is estimated to have a net worth of A$101 billion. Nearly 94% of the RBA's employees work at its headquarters in Sydney, New South Wales and at the Business Resumption Site.

RBA uses a data-driven, decision-making process to help communities and organizations get beyond talking about problems to taking action to solve problems. It is a simple, common sense framework that everyone can understand. RBA starts with ends and works backward, towards means. The “end” or difference you are trying to make looks slightly different if you are working on a broad community level or are focusing on your specific program or organization. RBA improves the lives of children, families, and communities and the performance of programs because RBA: 1 Gets from talk to action quickly; 2 Is a simple, common sense process that everyone can understand; 3 Helps groups to surface and challenge assumptions that can be barriers to innovation;

RBA Recognized with the 2014 Microsoft US Regional Partner of the ... by PR Newswire. Contract Awarded for supply and support the. Securitisations System used for risk management and analysis.

was ronald reagan a democrat

From Wikipedia, the free encyclopedia. A Reagan Democrat is a traditionally Democratic voter in the United States, especially a white working-class Northerner, who defected from their party to support Republican President Ronald Reagan in either or both the 1980 and 1984 elections. During the 1980 election a dramatic number of voters in the U.S., disillusioned with the economic 'malaise' of the 1970s and the presidency of Jimmy Carter (even more than, four years earlier, Liberal Republican Gerald Ford), supported former California governor (and former Democrat) Ronald Reagan.

Ronald Reagan began his political life in the Democratic Party, but as he became more and more conservative, he ultimately changed to the Republican Party in the early 1960s. Yes, he switched parties in 1962. He said that he did not desert the Democrats but rather they deserted him. Yes, Ronald Reagan was a member of the Democratic Party until he s … witched to the Republican Party in 1962, at the age of 51. 8 people found this useful.

1984 Re-Election. In November 1984, Ronald Reagan was re-elected in a landslide, defeating Democratic challenger Walter Mondale. Reagan carried 49 of the 50 U.S. states in the election, and received 525 of 538 electoral votes—the largest number ever won by an American presidential candidate.

Ronald Reagan (1911-2004), a former actor and California governor, served as the 40th U.S. president from 1981 to 1989. Raised in small-town Illinois, he became a Hollywood actor in his 20s and later served as the Republican governor of California from 1967 to 1975. In November 1984, Ronald Reagan was reelected in a landslide, defeating Walter Mondale and his running mate Geraldine Ferraro (1935-), the first female vice-presidential candidate from a major U.S. political party.

Ronald Wilson Reagan (/ˈrɒnəld ˈwɪlsən ˈreɪɡən/ ; February 6, 1911 – June 5, 2004) was an American politician, commentator, and actor, who served as the 40th President of the United States from 1981 to 1989. I think Ronald Reagan changed the trajectory of America in a way that Richard Nixon did not and in a way that Bill Clinton did not. He put us on a fundamentally different path because the country was ready for it.

how long do you need for sydney and surrounding areas

Sydney is the capital city of the Australian state of New South Wales, and Australia's largest city. A week in Sydney will help you see many of the sights of Sydney and its surrounds, and understand the city and its culture. If you're up for exploring the area by bike (one of the best ways to do so as much of it is parkland), take the train to Concord West station on the Northern Line (red line on the Sydney Trains map-about 20-25 minutes from the city on a direct train).

This itinerary will have you crossing the country to take in the Great Barrier Reef, Australia’s iconic reef in Queensland, before heading to Western Australia to see the breath taking Ningaloo Reef, one of Australia’s best kept secrets. View more information. 10 day-Sydney, rock and reef. It’s easy to see why Hamilton Island is one of the most popular spots for a getaway on the Great Barrier Reef. With palm-fringed beaches, top restaurants and stylish resorts, there’s plenty to do on land, while those keen to explore the clear waters of the Whitsundays will be richly rewarded.

Sydney is a very large city, and we haven't spent much time outside of the inner suburbs, apart from what you would have seen on the way to the Blue Mountains. On Day 5 we'll explore one of Sydney's parkland areas in the Sydney Olympic Park at Homebush Bay [63] . If you're up for exploring the area by bike (one of the best ways to do so as much of it is parkland), take the train to Concord West station on the Northern Line (red line on the Sydney Trains map-about 20-25 minutes from the city on a direct train).

Sydney Attractions. Sydney is home to some of Australia’s most iconic attractions. The Sydney Opera House is a thriving hub of art, culture and history. 1km (return) - 1.5 hour (each way)Step out of your car and into the past. This short walk, perfect for walking with children and for visitors with ties to the local area, pulls you back thro... http://www.nationalparks.nsw.gov.au/scheyville-national-park/migrant-heritage-walk/walking.

1 Taxis to the city centre should cost approximately $40 (including tolls), and more to other Sydney destinations (The Rocks $40-45, North Sydney $45, Manly $50, Parramatta $80-100 etc.) You can expect to pay a $3.80 airport taxi levy and a $5.50 Eastern Distributor toll on top of the metered fare. Newtown in Sydney's inner-west (approx 4km from the CBD) is renowned for its inexpensive cafes and restaurants on King St, in particular Thai food. It is highly popular among students from the nearby Sydney University.

price to install tile in shower

1 Install ceramic tile floor to match shower-Average prices for installation are between $11 to $22 per square foot; 2 A light/fan combination-Averages at $180 and one hour of installation; 3 Insulate and re-finish ceilings and walls-Fiberglass wall insulation with R-30 value will cost $2.25 per square foot.

In regards to tile installation costs, consumers can expect to pay an average of $25 per square foot, depending on the grade of material that is used. For a medium-sized shower, the price can cost about $2,000. Tile installation materials include:

The national average for a new shower installation project, when performed by a capable contractor, is $2,689. At the low-end of the normal cost range, homeowners are paying $1,109, and at the high end of the average range they’re spending $2,459. More luxurious showers can cost in excess of $10,000 to install.

The cost for a typical small bathroom remodel will range from about $4,000 to $12,000 with the average cost being about $8,000. Let’s look at how the costs breakout starting with the most basic remodel including a new toilet, shower, vanity & sink and tile.

1 Polished nickel faucets-Average cost is $400 each plus four hours of installation; 2 Install ceramic tile floor to match shower-Average prices for installation are between $11 to $22 per square foot; 3 A light/fan combination-Averages at $180 and one hour

why conversion observed in body

Conversion disorder is a type of somatoform disorder where physical symptoms or signs are present that cannot be explained by a medical condition. Very importantly, unlike factitious disorders and malingering, the symptoms of somatoform disorders are not intentional or under conscious control of the patient.

The brain uses loads and loads of energy which is a major challenge for your metabolism-the organ which uses most energy prefers to run on the fuel that can be stored worst. Fatty acids can be converted to ketones, which can partly power the brain. More about the brain later, it is not that simple.

Glucose. Glucose is a carbohydrate, and is the most important simple sugar in human metabolism. Glucose is called a simple sugar or a monosaccharide because it is one of the smallest units which has the characteristics of this class of carbohydrates. Glucose is also sometimes called dextrose. Corn syrup is primarily glucose.

Sometimes people with conversion disorder have tremors or symptoms that resemble fainting spells or seizures * . There also may be loss of feeling in various parts of the body, or loss of the sense of smell, and symptoms may occur together.

Conclusions: In adult body CT, dose to an organ fully encompassed by the primary radiation beam can be estimated from CTDI vol using a protocol-independent conversion coefficient. However, fully encompassed organs only account for 50% ± 19% of k factor and 46% ± 24% of q factor. Dose received by partially encompassed organs is also substantial. To estimate effective dose and risk index from DLP, it is necessary to use conversion coefficients specific to the anatomical region examined.

where are the lungs located in the back

1. Get help from a doctor now ›. under ribs: The lungs in the front and back are inside the rib cage. This is why doctors will place a stethoscope on the back as well as the front to evaluate the function of the lungs. ...Read more. 1 Where are your kidneys located on your back in women. 2 Where are the lungs located in the back. 3 Where are lungs located in your body. 4 Ask a doctor a question free online. 5 Where are the lungs located in the human body.

Your heart is located under your ribcage in the center of your chest between your right and left lungs. Its muscular walls beat, or contract, pumping blood to all parts of your body. The size of your heart can vary depending on your age, size, and the condition of your heart. Oxygen-rich blood from your lungs passes through the pulmonary veins (shown in red to the right of the left atrium in figure B above). The blood enters the left atrium and is pumped into the left ventricle. From the left ventricle, the oxygen-rich blood is pumped to the rest of your body through the aorta.

© 2014 WebMD, LLC. All rights reserved. The lungs are a pair of spongy, air-filled organs located on either side of the chest (thorax). The trachea (windpipe) conducts inhaled air into the lungs through its tubular branches, called bronchi. The bronchi then divide into smaller and smaller branches (bronchioles), finally becoming microscopic.

your lungs are located on the right and left side of your body just up from your waistline. They are inside your ribs from front to back, top to bottom. Your heart sits in the space between them. They have different lobes, so your pneumonia could be in a part of your lungs that reflects to your back causing the pain. Take your medicine and rest, get well soon.

In humans, the lungs are located on either side of the heart in the chest, with the left lung sharing the left side of the space with the heart, which sits in an impression called the cardiac notch. In this image, lung tissue has been dissected away to reveal the bronchioles. The lung is the essential respiratory organ in many air-breathing animals, including most tetrapods, a few fish and a few snails. In mammals and most other vertebrates, two lungs are located near the backbone on either side of the heart.

cost to get a patent

The cost of a patent can vary widely depending on, not only the complexity of the invention, but also the intended market. The most expensive patents are international patents, which can run up to $100,000 or higher. Domestically the costs can be $10,000 or above. Patent applications involve lots of text and drawings, even for simpler inventions. The first step in the patent application process is to file a non provisional patent application, which involves paying attorney fees in the range of $5000 to $15,000 or more, depending on the intricacies of the invention. The amount you spend on a patent application will also depend on the market opportunities

1 Rates for patent attorneys to prepare a patent application and defend it during the approval process range from $3,500 to $25,000 or more, depending on the complexity. 2 Attorneys fees may be based on hourly rates of $150-$400, depending on the services provided. 1 Computer software patents can be simple, moderately complex or extremely complex, depending on the nature of the application. 2

The filing fee is $130 for a small entity and drawings typically cost $100 to $125 per page, so a high quality provisional patent application for a mechanical or electrical device can typically be prepared and filed for $2,500 to $3,000. By way of example, you could probably find an attorney to write a patent for a business method or computer software for quite cheap, but a cheap computer related patent would not be nearly as strong as a patent application costing $20,000 or more. The devil is always in the details.

The costs can add up quickly no doubt, and there will be post-filing costs once the Patent Examiner starts to examine the application filed, but those will be the subject of a future article. Still, you should budget at least another $5,000 to $7,500 for prosecution and issue fees to the Patent Office. By way of example, you could probably find an attorney to write a patent for a business method or computer software for quite cheap, but a cheap computer related patent would not be nearly as strong as a patent application costing $20,000 or more. The devil is always in the details.

$8,000 - $15,000. Cost to patent an electronics invention. “If you've got a mechanical invention, [a patent will] cost between $5,000 to $10,000 including attorney's fees and filing fees. If you're talking about electronics, the cost goes up to more like $8,000 to $15,000. $100,000 or more for worldwide patent rights. “Getting even a simple patent approved -- a process known as ‘prosecuting’ the patent application -- can cost up to $10,000 domestically and $100,000 or more for worldwide rights…” Cost of getting a patent.

best tragedies of ancient greece

by Mark Cartwright. Greek tragedy was a popular and influential form of drama performed in theatres across ancient Greece from the late 6th century BCE. The most famous playwrights of the genre were Aeschylus, Sophocles, and Euripides and many of their works were still performed centuries after their initial premiere. Greek tragedy led to Greek comedy and, together, these genres formed the foundation upon which all modern theatre is based. In the Roman world, tragedy plays were translated and imitated in Latin, and the genre gave rise to a new art form from the 1st century BCE, pantomime, which drew inspiration from the presentation and subject matter of Greek tragedy.

Euripides (c. 484-407 BCE) was one of the greatest authors of Greek tragedy. In 5th century BCE Athens his classic works such as Medeia cemented his reputation for clever dialogues, fine choral lyrics and a gritty realism in both his text and stage presentations. In the Roman world, tragedy plays were translated and imitated in Latin, and the genre gave rise to a new art form from the 1st century BCE, pantomime, which drew inspiration from the presentation and subject matter of Greek tragedy.

The best playwrights of the day were famous celebrities in Ancient Greece. There were often competitions during festivals and the playwright with the best play was presented an award. The most famous Greek playwrights were Aeschylus, Sophocles, Euripides, and Aristophanes. History Ancient Greece. 1 Tragedy-Greek tragedies were very serious plays with a moral lesson. 2 They usually told the story of a mythical hero who would eventually meet his doom because of his pride.

(1777-1779, the final lines of Oedipus at Colonnus). Sophocles of Kolōnos (c. 496 - c. 406 BCE) was one of the most famous and celebrated writers of tragedy plays in ancient Greece and his surviving works, written throughout the 5th century BCE, include such classics as Oedipus the King, Antigone, and Women of Trachis. The most famous playwrights of the genre were Aeschylus, Sophocles, and Euripides and many of their works were still performed centuries after their initial premiere. Greek tragedy led to Greek comedy and, together, these... [ continue reading ].

Three well-known Greek tragedy playwrights of the fifth century are Sophocles, and Euripedes. Aeschylus, who was a competitor at the City Dionysia around 499 B.C., wrote some of the oldest tragedies in the world. Aeschylus is attributed with the introducing the second actor to the stage. Another Greek playwright was Sophocles, and only seven of his tragedies--including the still-popular Antigone, Electra, and Oedipus Rex --have survived. Sophocles won twenty-four contests for his plays, never placing lower than second place.

what is a conifer

A conifer is a tree or shrub which produces distinctive cones as part of its sexual reproduction. These woody plants are classified among the gymnosperms, and they have a wide variety of uses, from trapping carbon in the environment to providing resins which can be used in the production of solvents. Several features beyond the cones set conifers apart from other types of woody plants. A conifer is typically evergreen, although some individuals are deciduous, and almost all conifers have needle or scale-like leaves.

The earliest conifers in the fossil record date to the late Carboniferous (Pennsylvanian) period (about 300 million years ago), possibly arising from Cordaites, a seed-bearing plant with cone-like fertile structures. The conifers are an ancient group, with a fossil record extending back about 300 million years to the Paleozoic in the late Carboniferous period; even many of the modern genera are recognizable from fossils 60–120 million years old.

Conifer Health Solutions is a health services company like no other. What makes us exceptional is that we focus on strengthening both the financial health of your organization and the personal health of your patients, your community, your employees and your members.

Full Definition of CONIFER. : any of an order (Coniferales) of mostly evergreen trees and shrubs having usually needle-shaped or scalelike leaves and including forms (as pines) with true cones and others (as yews) with an arillate fruit. — co·nif·er·ous \kō-ˈni-f(ə-)rəs, kə-\ adjective.

Definition of CONIFER for Kids. : any of a group of mostly evergreen trees and shrubs (as pines) that typically produce cones and have leaves resembling needles or scales in shape. — co·nif·er·ous \kō-ˈni-fə-rəs, kə-\ adjective. : any of an order (Coniferales) of mostly evergreen trees and shrubs having usually needle-shaped or scalelike leaves and including forms (as pines) with true cones and others (as yews) with an arillate fruit. — co·nif·er·ous \kō-ˈni-f(ə-)

in animals somatic cells are produced by and gametic cells are produced by

In animals, somatic cells are produced by mitosis and ________ are produced by meiosis. After telophase I of meiosis, the chromosomal makeup of each daughter cell is. A) diploid, and the chromosomes are composed of a single chromatid. B) diploid, and the chromosomes are composed of two chromatids. C) ha

In humans, n = 23. Gametes contain half the chromosomes contained in normal diploid cells of the body, which are also known as somatic cells. Haploid gametes are produced during meiosis, which is a type of cell division that reduces the number of chromosomes in a parent diploid cell by half. The term haploid can also refer to the number of chromosomes in egg or sperm cells, which are also called gametes. In humans, gametes are haploid cells that contain 23 chromosomes, each of which a one of a chromosome pair that exists in diplod cells.

Unlike the somatic cells, gametes are haploid cells, which carry unpaired chromosomes. A gamete of a particular multicellular organism always carries only half the number of chromosomes carried by a somatic cell of that particular organism. • Somatic cells contain homologous pairs of chromosomes, whereas gametes contain only unpaired chromosomes. • Somatic cells form internal and external structures of the body, whereas gametes do not. • Somatic cells are found almost everywhere in the body, whereas gametes are restricted to certain parts.

In animals somatic cells are produced by mitosis and answer here are produced by meiosis. a. gametes b. clones c. zygotes d. spores e. Gametes are your haploid sex cells which are formed by meiosis. Gametes combined to form a zygote which is a diploid cell. Spores are haploid plant sex cells. Clones doesn`t even make sense ..

Gametes are an organism's reproductive cells. They are also referred to as sex cells. Female gametes are called ova or egg cells, and male gametes are called sperm. Gametes are haploid cells, and each cell carries only one copy of each chromosome. These reproductive cells are produced through a type of cell division called meiosi

in animals somatic cells are produced by and gametic cells are produced by

Gametes (sperm and ova) are haploid cells. The haploid gametes produced by most organisms combine to form a zygote with n pairs of chromosomes, i.e. 2 n chromosomes in total. The chromosomes in each pair, one of which comes from the sperm and one from the egg, are said to be homologous. Cells and organisms with pairs of homologous chromosomes are called diploid. For example, most animals are diploid and produce haploid gametes. During meiosis, sex cell precursors have their number of chromosomes halved by randomly choosing one member of each pair of chromosomes, resulting in

For an example, a human gamete contains only 23 chromosomes where as a human somatic cell contains 46 chromosomes. Germ cells are the cells which give rise to gametes. Meiosis takes place during gametogenesis (process of gamete production) giving rise to haploid cells. • Somatic cells contain homologous pairs of chromosomes, whereas gametes contain only unpaired chromosomes. • Somatic cells form internal and external structures of the body, whereas gametes do not. • Somatic cells are found almost everywhere in the body, whereas gametes are restricted to certain parts.

Gametes are an organism's reproductive cells. They are also referred to as sex cells. Female gametes are called ova or egg cells, and male gametes are called sperm. Gametes are haploid cells, and each cell carries only one copy of each chromosome. These reproductive cells are produced through a type of cell division called meiosi

Haploid describes a cell that contains a single set of chromosomes. The term haploid can also refer to the number of chromosomes in egg or sperm cells, which are also called gametes. In humans, gametes are haploid cells that contain 23 chromosomes, each of which a one of a chromosome pair that exists in diplod cells. The number of chromosomes in a single set is represented as n, which is also called the haploid number

In animals somatic cells are produced by mitosis and answer here are produced by meiosis. a. gametes b. clones c. zygotes d. spores e. Gametes are your haploid sex cells which are formed by meiosis. Gametes combined to form a zygote which is a diploid cell. Spores are haploid plant sex cells. Clones doesn`t even make sense ..

remembering the name of the author who wrote the cat in the hat

The Cat in the Hat is a children's book by Dr. Seuss, featuring a tall, anthropomorphic, mischievous cat, wearing a tall, red and white striped hat. With the series of Beginner Books that The Cat inaugurated, Seuss promoted both his name and the cause of elementary literacy in the United States.

Returning to children's books, he wrote many works, including such favorites as If I Ran the Zoo, (1950), Horton Hears a Who! (1955), If I Ran the Circus (1956), The Cat in the Hat (1957), How the Grinch Stole Christmas (1957) and Green Eggs and Ham (1960). Geisel adopted his Dr. Seuss pseudonym during his university studies at Dartmouth College and the University of Oxford. After leaving Oxford in 1927 he began his career as an illustrator and cartoonist for Vanity Fair, Life, and various other publications.

After the war Geisel focused on his children's books, writing classics such as If I Ran the Zoo (1950), Horton Hears a Who! (1955), If I Ran the Circus (1956), The Cat in the Hat (1957), How the Grinch Stole Christmas! (1957), and Green Eggs and Ham (1960). Geisel adopted his Dr. Seuss pseudonym during his university studies at Dartmouth College and the University of Oxford. After leaving Oxford in 1927 he began his career as an illustrator and cartoonist for Vanity Fair, Life, and various other publications.

The Cat in the Hat would change all that. Seuss wrote the book to teach children how to read, and its success allowed him to write full-time for children. Indeed, the Cat made Dr. Seuss a household name. With the publication of The Cat in the Hat in the spring of 1957 and of How the Grinch Stole Christmas! later that year, Dr. Seuss became an icon of American children's literature. He was born Theodor Seuss Geisel in Springfield, Massachusetts, on March 2, 1904.

The Cat in the Hat is a farm cat of Dr. Seuss's short story The Cat in the Hat. With his book being an overwhelmingly successful best-seller, the Cat in the Hat has become a logo for Random House's beginner books, the production logo for all of Seuss's animated shorts, and Dr. Seuss's most popular character world wide. The Cat in the Hat emblem has been featured on most every book published by the company since the character’s debut. “The Cat in the Hat Productions” was also the name of the production company that animated the Dr. Seuss specials from 1966 to 1989, the Cat in the Hat of course being the mascot as well.

how long cooking chicken legs in the big easy

Directions. 1 Arrange chicken thighs/leg quarters skin side up in a shallow baking dish. 2 Sprinkle with garlic powder. 3 Drizzle about 1/2 teaspoon soy sauce on each piece. 4 Bake at 350 degrees Fahrenheit for 45 minutes to an hour, until the skin is crisp and brown and the meat is ready to fall off the bones.

Directions. 1 Put some olive oil in the bottom of a 9X13 pan (just enough to put the drumsticks on). 2 Add drumsticks (space enough apart so they aren't touching each other). 3 Sprinkle generously with pepper and garlic powder. 4 Sprinkle lightly with salt. 5 Bake at 375 for half an hour.

Bake the chicken. Put the chicken in the oven and set a timer for 30 minutes. Check the chicken after 30 minutes. It should be ready when the skin is crispy and golden brown, or when the internal temperature has reached 180 degrees. Use a meat thermometer to check the temperature.

Preheat the oven to 400°F. Bake the chicken, uncovered, for 35 to 40 minutes or until the chicken is no longer pink inside. You can bake the chicken legs in a 375°F. oven, if desired. Increase the baking time to 45 to 50 minutes.

Heat canola oil in pan and place the coated chicken legs side by side in a pan turning to brown evenly. Cook 20 to 25 minutes until legs are cooked through.

average cost of heating per square foot

1 Expect to pay about $6-$16 a square foot for a professionally installed hydronic (hot water) radiant floor heating system, or $9,000-$22,500 or more for a 1,500 square foot home, depending on local rates, the number of temperature zones and the overall size of the system.

Current electric charges in the area are about 15¢ per kWh, natural gas is about $1.40 a ccf, propane is about $3.00 a gallon, and oil is about $3.20 a gallon. The annual cost to heat a 2200 square foot existing house of average energy consumption for different combinations of fuels and furnaces: 1 Natural Gas in an 80% furnace: $1215.

Back to Top How much should a typical radiant system cost? On average, a radiant heating system will typically cost between $6-$12 per square foot to install. The variance in price is mainly affected by the amount of separate zoned areas and the overall size of the system.

Typical costs: 1 Expect to pay about $6-$16 a square foot for a professionally installed hydronic (hot water) radiant floor heating system, or $9,000-$22,500 or more for a 1,500 square foot home, depending on local rates, the number of temperature zones and the overall size of the system.

On average the systems cost between $6-$12 per square foot of the conditioned space. In addition, an indirect fired storage option which we install for domestic water heating using the same space heating boiler will run between $4,500.00-$7,000.00.

is mount pinatubo made of granite or basalt

Mount Pinatubo is a volcano on the island of Luzon in the Philippines. It is best known for its enormous eruption on June 15, 1991. This eruption was the second largest of … the twentieth century. 1 person found this useful. Similar to many other volcanoes it has a large assortment or rocks, a lot of granite as these rocks are carried out from the magma chamber. … There are other rocks such as basalt, Scoria, sandstone, mudstone, shale, limestone, quartize, hornfels, slate and marble. 4 people

Dacite rocks. Dacite contains less quartz than rhyolite lava and more than andesite lava. The lava when it flows out a a volcano vent is so sticky that it piles on top of a volcano's vent forming a dome. Lava domes often form in the craters of stratovolcanoes like Mount Saint Helens. Basalt rocks. Basalt rocks are formed from dark heavy lava that usually forms in the upper mantle. Pillow basalt covers all the ocean floors. It forms when lava erupts on the ocean floor at spreading ridges where two crustal plates are separating.

Basalt and granite actually have quite a bit in common. Both are igneous rocks, which means that they cooled from a magma (the earth gets very hot just below the surface, and there is lots of liquid rock available). Both are made up of minerals from the silicate group, so both have large amounts of silicon and oxygen. Granite is the ultimate silicate rock. As discussed elsewhere in greater detail, on average oxygen and silicon account for 75% of the earth's crust. The remaining 25% is split among several other elements, with aluminum and potassium contributing the most to the formation of the continental granitic rocks.

Rocks found at present day Mount Pinatubo are mostly dacite with andesitic xenoliths. Andesite is a volcanic rock that is gray to black in color. This rock mostly comes from stratovolcanoes in a form of thick lava flows.

Pumice is a light-colored, extremely porous igneous rock that forms during explosive volcanic eruptions. It is used as aggregate in lightweight concrete, as landscaping aggregate, and as an abrasive in a variety of industrial and consumer products. The second most powerful volcanic eruption of the 20th century was at Mount Pinatubo in 1991. The description below explains how enormous volumes of dissolved gas powered the eruption and how a cubic mile of ash and pumice lapilli was blasted from the volcano.

concrete pads cost

Get an INSTANT estimate of the cost to Install a Concrete Pad! Our free calculator uses recent, trusted data to estimate costs for your Concrete Pad Installation project. For a basic 120 square feet project in zip code 47474, the benchmark cost to Install a Concrete Pad ranges between $4.64 - $6.36 per square foot* . To estimate costs for your project: 1.

Basic concrete slab cost. I'll base my price on what my actual estimate would be to install a 6 thick concrete slab for one of my customers. Base cost for a 6 thick concrete slab -- $4.00 dollars per square foot --. Take the length of the concrete slab x the width of the slab to get the. total square footage. Multiply the total square footage by 4 (dollars) to get the total price. L x W x $4.00 in this example.

In addition to the cubic yard cost, some delivery companies also have minimum purchase requirements. A cubic yard of concrete commonly runs between $80 and $165, and it’s standard to order a quarter of a yard extra in case you run short. For example, if you need 2 cubic yards to pour the pad, order 2 1/4 yards. If the pad is in a spot where a concrete truck cannot back up and dump the mix, you can order a pump truck, which can add another $300, or more, to the cost. If forming and pouring your pad takes three workers two days to complete at a cost of $30 per worker hour, it could add around $1,400 to your bill. That’s not counting concrete, reinforcement, excavation and fill sand costs.

Concrete Pads-Pricing and Installation Cost Notes. Homewyse cost estimates are approximate ranges for basic work in typical conditions. The estimates should only be used for preliminary planning. Homewyse estimates are NOT substitutes for quotes from qualified vendors. Do you need to know the average cost to install Concrete Pads in your zip code? Do you need an easy-to-understand 2015 estimate of Concrete Pad job options and costs? Get pricing INSTANTLY. Enter your options and zip code above-then select Update

Labor. The cost to pour a concrete pad takes a big jump if you hire the pros, who charge per hour, per worker. If forming and pouring your pad takes three workers two days to complete at a cost of $30 per worker hour, it could add around $1,400 to your bill. That’s not counting concrete, reinforcement, excavation and fill sand costs.

what kind of organism is a black damsel

Known by multiple common names, such as humbug damselfish, three-striped damselfish and white-tailed damselfish, Dascyllus aruanus is a feisty little fish that adapts well to aquarium life. Three-striped damselfish can be pugnacious and are better introduced at the latter stages of setting up a marine fish community. Remove as many of the three-striped damselfish fry as you want to try and raise to a rearing aquarium, with an absence of adult fish and invertebrates that might look upon the young fish as tasty morsels for the taking. Dascyllus aruanus is a worthy first-time breeding project for up-and-coming marine aquarists.

Size and appearance. The largest scientifically measured Striped Damsel was 10.0 cm / 3.9 in. The Striped Damsel is white and adorned with three black bars. A large brown spot is located on the dorsal part of the snout. The pelvic fins are black, the caudal fin is pale, and the pectoral fins are translucent.

The following list of marine aquarium fish species commonly available in the aquarium trade is not a completely comprehensive list; certain rare specimens may available commercially yet not be listed here.

1 Three Stripe Damsel Fish-These striking black and white fish are fairly aggressive and need a large aquarium with plenty of hiding places. 2 Cerulean Damsel Fish-These vividly coloured fish are very territorial and should be added to the aquarium only after more peaceful fish have had time to establish themselves. 1 Sulphur Damsel Fish-With exotic yellow colouration, these hardy and adaptable fish are aquarium favourites. 2 Blue Green Chromis-These stunningly beautiful iridescent fish are naturally hardy and peaceful by nature. 3 Despite being small they need a lot of swimming space.

Damselfishes comprise the family Pomacentridae except those of the genera Amphiprion and Premnas, which are the anemonefishes. They can grow up to 14 inches (36 cm) long. While most are marine, a few species inhabit the lower stretches of rivers in fresh water. Damselfish usually have bright colors. Many species live in tropical coral reefs, and many of those are kept as marine aquarium pets. Their diets include small crustaceans, plankton, and algae.

who coined the phrase it is what it is

The first reference to the phrase, '...it is what it is,' that I've come across is from 1943, in a New York State hermit's letter to the editor of an Adirondack Mountain newspaper. The hermit was named Noah John Rondeau, and he concluded his letter with this particular phrase.

While you’ll never hear me use the phrase “It is what it is”, there is value in maintaining a portion of your attitude that is stoic in nature. Know what you can control and what you can’t control. And the first thing to accept that you can’t control is the past.

The phrase is stupid enough when rationalizing insufficient performance, but it’s especially damaging when “ It is what it is ” is used in framing a response to a problem. “Well, that route to the objective is blocked.

Brain (22,552). It is what it is, has become an all-purpose cliche used by celebrities, sports figures, politicians and population in general. In 1949, the adage was used in the Nebraska State Journal. In 1919, Edward Hegeler of The Monist, Vol 29, used the phrase in reference to a stick.

To say someone coined a phrase means that he or she first used it or is otherwise credited with its origin. Writer Francis Brett Young coined that particular phrase in 194 … 0.

what is oilskin fabric

Noun. 1. oilskin-a macintosh made from cotton fabric treated with oil and pigment to make it waterproof. slicker. mac, mack, mackintosh, macintosh-a waterproof raincoat made of rubberized fabric. 1. (Textiles). a. a cotton fabric treated with oil and pigment to make it waterproof. b. (as modifier): an oilskin hat. 2. (Clothing & Fashion) (often plural) a protective outer garment of this fabric.

Fabric is sold by the running yard. If you purchase one yard of oilcloth you will be sent a piece that is 36 by 47. Fabric is sold in 1/4 yard increments, with a 1/2 yard minimum per fabric. Orders under 1/2 yard will automatically be increased to the minimum. If you need a lot of oilcloth you can buy it by the roll for $81.00. Each roll is 12 yards long

Adorable animal families that will make you aww. Oilskin is fabric that has been impregnated with oil to make it waterproof. Before the development of synthetic fibers, this was the material of choice for waterproof garments and coverings. Sailors, especially, grew familiar with oilskin, since it protected them from the elements on the job. It is still possible to buy oilskin fabric and garments made with it, and people can also make their own. Oils like beeswax make great waterproofers, and they smell pleasant, unlike the tar of old.

Outback Oilskin is produced from 100% Cotton, enabling the fabric to breathe. This property lends the fabric to not only high performance wet weather gear, but stylish casual clothing such as jackets and vests as well.

True to the old adage they get along like oil and water, the reason oilskin works is the oil coating will not let the water pass through the fabric. This is why oilskin works, and is the Natural Waterproof Fabric. Cotton, as a natural fabric, does have a slight nap to it.

how long is german measles contagious

Quick Answer. The German measles are contagious for 7 days before to 7 days after the rash appears, as noted by the New York State Department of Health. Rubella is another term for the German measles, and the disease itself is highly contagious and can be seen in patients through a rash, swollen glands a fever. Know More.

Rubella is contagious but less so than measles and chickenpox. How long does it take to show signs of rubella after being exposed? The incubation period varies from 12 to 23 days (av-erage, 14 days). Symptoms are often mild and may be subclinical or inapparent up to half of the time.

A: The German measles are contagious for 7 days before to 7 days after the rash appears, as noted by the New York State Department of Health. Rubella is another term for the German measles, and the disease itself is highly contagious and can be seen in patients through a rash, swollen glands a fever. Know More.

German measles (rubella) is caused by a highly contagious virus. A patient is contagious in the week before the rash outbreak until two weeks after the rash clears. The virus is spread when you inhale or touch secretions from an infected person.

Measles is a highly contagious virus that lives in the nose and throat mucus of an infected person. It can spread to others through coughing and sneezing. Also, measles virus can live for up to two hours in an airspace where the infected person coughed or sneezed.

what is a camerata

The Camerata are a group of four powerful and influential individuals in the city of Cloudbank. Established by Grant Kendrell and Royce Bracket, the group circumvents the official administration and democratic nature of Cloudbank, in order to establish some form of stability in the ever-changing city. The group uses the Transistor to integrate various individuals of influence. The true reason for integration is unknown, perhaps the Camerata had moral objection to outright killing their targets. Integration, however, does also appear to increase the functionality of the Transistor.

They met at the house of Giovanni de' Bardi, and their gatherings had the reputation of having all the most famous men of Florence as frequent guests. After first meeting in 1573, the activity of the Camerata reached its height between 1577 and 1582. While propounding a revival of the Greek dramatic style, the Camerata's musical experiments led to the development of the stile recitativo. In this way it facilitated the composition of dramatic music and the development of opera. Unifying the Camerata members was the belief that music had become corrupt, and by returning to the forms and style of the ancient Greeks, the art of music could be improved, and thereby society could be improved as well.

The Camerata had a hard time keeping up with the constant thirst of new and exciting attractions for the citizens of Cloudbank, so they began regulating the city. They used the Transistor to absorb influential individuals in hopes of creating constant new and interesting concepts for the city. The group uses the Transistor to integrate various individuals of influence. The true reason for integration is unknown, perhaps the Camerata had moral objection to outright killing their targets. Integration, however, does also appear to increase the functionality of the Transistor.

Not much is known about The Camerata. Its members are Grant Kendrell, Asher Kendrell, Sybil Reisz, and Royce Bracket. As a group, they are responsible for the disappearances of high profile people in Cloudbank. The numerous individuals who disappeared were killed by the Camerata, their Trace Data downloaded into the Transistor. Together, they intended to improve Cloudbank, using The Process as a canvas, and the Transistor as a brush.

Origin of CAMERATA. New Latin, from Latin, neuter plural of cameratus, past participle of camerare to arch, from camera arched roof — more at chamber. This word doesn't usually appear in our free dictionary, but the definition from our premium Unabridged Dictionary is offered here on a limited basis. Note that some information is displayed differently in the Unabridged. To access the complete Unabridged Dictionary, with an additional 300,000 words that aren't in our free dictionary, start a free trial.

how long does it take to bake a pound cake

1. Preheat your oven to 300ºF (150ºC). In your pan or pans (this recipe is quite large -- but pound cakes are perfect for a double-layer masterpiece), line them with cooking spray or butter; this prevents sticking. You could also sprinkle with flour (on top of the butter) or line with parchment paper. Pour batter into your pan(s) and place in the oven. Cook for 75 minutes, checking periodically. Some ovens cook unevenly or quickly -- if this describes yours, keep an eye on it. 1 If to be used for fancy ornamented cakes, bake 30 to 35 minutes in a dripping-pan. 2 Insert a skewer or toothpick to see if it's finished.

A steady 325-350 degrees is ideal when it comes to baking pound cake. Position the pan in the middle of the oven, and rotate it once, halfway through the baking time, as it bakes to account for any hot spots.

1 This results in a pound cake with maximum volume. 2 Be patient. Beat softened butter (and cream cheese or vegetable shortening) at medium speed with an electric mixer until creamy. 3 This can take from 1 to 7 minutes, depending on the power of your mixer. 4 Gradually add sugar, continuing to beat until light and fluffy.

How long does it take to bake a cake in a 9 by 9 cake pan? Baking a cake in a 9square pan at 350 degrees F will take approximately 35 to 40 minutes. It is best to follow the directions in a recipe for the best results. 1 person found this useful. As a general rule of thumb you can bake most cakes at 375 degrees Fahrenheit (which is 180 degrees Celsius) and check them after about 30 minutes and expect it to take at least 45 minutes.

1 Have ingredients at room temperature. 2 This results in a pound cake with maximum volume. 3 Be patient. Beat softened butter (and cream cheese or vegetable shortening) at medium speed with an electric mixer until creamy. 4 This can take from 1 to 7 minutes, depending on the power of your mixer. 1 This results in a pound cake with maximum volume. 2 Be patient. Beat softened butter (and cream cheese or vegetable shortening) at medium speed with an electric mixer until creamy. 3 This can take from 1 to 7 minutes, depending on the power of your mixer.

how long does it take to bake a pound cake

I've never seen a pound cake take less than an hour... most take 1 hr. 15 min, and I have one recipe that calls for 1½ hours. Those long times, tho, are for a slow oven (about 300-325ºF). Till a toothpick inserted in the center of the cake comes out clean. Depends on the heat of your oven but start checking at about 45 minutes and when the cake is golden brown. sonnyboy · 8 years ago. Thumbs up.

1 Have ingredients at room temperature. 2 This results in a pound cake with maximum volume. 3 Be patient. Beat softened butter (and cream cheese or vegetable shortening) at medium speed with an electric mixer until creamy. 4 This can take from 1 to 7 minutes, depending on the power of your mixer. 1 This results in a pound cake with maximum volume. 2 Be patient. Beat softened butter (and cream cheese or vegetable shortening) at medium speed with an electric mixer until creamy. 3 This can take from 1 to 7 minutes, depending on the power of your mixer.

How long does it take to bake a cake in a 9 by 9 cake pan? Baking a cake in a 9square pan at 350 degrees F will take approximately 35 to 40 minutes. It is best to follow the directions in a recipe for the best results. 1 person found this useful. As a general rule of thumb you can bake most cakes at 375 degrees Fahrenheit (which is 180 degrees Celsius) and check them after about 30 minutes and expect it to take at least 45 minutes.

A steady 325-350 degrees is ideal when it comes to baking pound cake. Position the pan in the middle of the oven, and rotate it once, halfway through the baking time, as it bakes to account for any hot spots.

Baking time will be slightly longer for 10-inch cake. 3. CHOCOLATE POUND CAKE. Cream butter, sugar ... and floured bundt pan, 10 inch pan or 2 (9x5x3 inch) loaf pans. Bake at ... pans. Bake until cake tester inserted in ... to drizzle down sides. 4. BUTTERMILK LEMON POUND CAKE. To prepare the pound cake: Grease and flour a 10-inch bundt pan or two 8 1/2 x 4 1/2 inch loaf pans. Put the ... hours, the loaf cakes for 40 to ... into slices

what is the maximum dose of subutex

Subutex Dosage for Treating Opioid Dependence. One typical way to dose Subutex is to start with 8 mg on the first day and 16 mg (the full dosage) on the second day. Often, by the third day you can be switched to Suboxone ® (buprenorphine and naloxone). Typically, the initial dose for treating opioid dependence is 8 mg on the first day and 16 mg

A maximum daily dosage of up to 24 mg/day (based on buprenorphine) will be. allowed for ninety consecutive days. After the ninety days has elapsed, a maximum daily dosage. of up to 16 mg/day (based on buprenorphine) will be allowed. Beginning with the first Suboxone@ claim submitted with a date of service on or after. February I, 2013, a maximum daily dosage of up to 24 mg/day (based on buprenorphine). is allowed per recipient for an initial ninety consecutive day period. After the initial ninety day period, a maximum daily dosage limit of up to 16 mg/day. (based on buprenorphine) is allowed per recipient. Subutex. The maximum daily dosage limit for Subutex@ is 16 mg/day

Buprenorphine is the generic form of Subutex, a prescription drug used to treat dependence on opioid painkillers such as oxycodone (OxyContin). It's also prescribed in lower dosages to treat pain. If you are recovering from surgery, your doctor may start you on buprenorphine to treat your post-operative pain.

Buprenorphine Quantity Limits. Drugs containing buprenorphine and a combination of buprenorphine and naloxone are typically used for the treatment of opiate dependency. The manufacturer s recommended maintenance dose of buprenorphine is 16 mg per day and the maximum FDA approved dose is 32 mg per day. Buprenorphine Maximum Dose Limits Reduced. Nov. 19, 2014 MHCP Provider Update PRX-14-08. Effective Jan. 1, 2015, products containing buprenorphine will be limited to 24

Dosing Overview. The recommended buprenorphine daily dose is 12 to 16 mg/day* for patients with opioid use disorder. The minimum effective dose is typically around 8 mg/day, and the maximum recommended dose is 32 mg/day. Some patients do well on as little as 2 or 4 mg/day, however. Most patients should be started and maintained on the buprenorphine/naloxone combination formulation.

salary difference in same team

* Salaries flatten when nurses are in a position for more than 10 years. Nurses working in the same position for 11 to 15 years report a salary of $56,000; those holding their positions for over 15 years made $56,700. * As in previous years, men in nursing made more money than women. The average salary for all male respondents was $54,600, compared with $50,600 for women-an 8% difference.

According to Sports Illustrated, Garnett now makes more than $10 million a year off the court with adidas; Anta, a Chinese sportswear brand; Gatorade; and Wheaties in addition to his $21 million salary. Catchings, who makes the league maximum $105,500 per season, is not one to measure quality of life by dollars. Today, the estimated median salary — half the players make more than that — is $2.5 million. The league minimum is $473,604. The salary cap for an entire WNBA team of 11 players is $878,000. Even prorated for the 34-game season, it's less than the median NBA salary

A salary cap existed in the early days of the National Hockey League (NHL). During the Great Depression, the league was under financial pressure to lower its salary cap to $62,500 per team and $7,000 per player, forcing some teams to trade away well-paid star players in order to fit the cap. The salary cap, known officially as Total Player Payments, is A$10,070,000 for the 2015 season with a salary floor of $9,566,500 except for Greater Western Sydney, whose salary cap is $10,500,000 with a floor of $9,996,500.

The CBA also contains a salary floor which is formally titled the Lower Limit of the Payroll Range, the minimum that each team must pay in player salaries. The lower limit was originally set at 55% of the cap, but is now defined to be $16 million below the cap, therefore the 2011–12 minimum was $48.3 million. The salary cap, known officially as Total Player Payments, is A$10,070,000 for the 2015 season with a salary floor of $9,566,500 except for Greater Western Sydney, whose salary cap is $10,500,000 with a floor of $9,996,500.

In terms of minimum salary for each team, the salary floor is 89% of the cap. That became effective in 2013, as this requirement was by-passed in 2011 and 2012. Hence, there was in essence no salary floor in 2011 or 2012. For 2011, each team may designate up to 3 of their highest paid players (who must have at least 5 accrued seasons and make at least $1 M more than the league minimum salary for that year), toward whom the team will will receive $1 M cap credit. Repayment of this credit will be applied toward the 2014-2017 league years.

what was tet

The Tet Offensive was a military campaign during the Vietnam War that began on January 31, 1968 by the forces of the National Liberation Front for South Vietnam. The purpose w … as to displace the invading army presently stationed in South Vietnam and regain control of the country by the Vietnamese.

The combined forces of the Vietcong and the North Vietnamese Regular Army (NVA), about 85,000 strong, launched a major offensive throughout South Vietnam. The attacks began on January 31, 1968, the first day of the Lunar New Year, Vietnam's most important holiday.

The Tet Offensive was a series of surprise attacks by the Vietcong (rebel forces sponsored by North Vietnam) and North Vietnamese forces, on scores of cities, towns, and hamlets throughout South Vietnam.

As the celebration of the lunar new year, Tet was the most important holiday on the Vietnamese calendar. In previous years, the holiday had been the occasion for an informal truce in South Vietnam’s long-running conflict with North Vietnam and their Communist southern allies, derisively known as Viet Cong.

The fighting that made up the Tet Offensive lasted for several days in some South Vietnamese cities. This map shows the route taken by North Vietnamese troops. During the Buddhist holiday of Tet, over 80,000 Vietcong troops emerged from their tunnels and attacked nearly every major metropolitan center in South Vietnam.

what energy is used in photosynthesis

Photosynthesis is a process used by plants and other organisms to convert light energy, normally from the Sun, into chemical energy that can be later released to fuel the organisms' activities. However, not all organisms that use light as a source of energy carry out photosynthesis, since photoheterotrophs use organic compounds, rather than carbon dioxide, as a source of carbon. In plants, algae and cyanobacteria, photosynthesis releases oxygen.

PHOTOSYNTHESIS. INTRODUCTION. Photosynthesis, process by which green plants and certain other organisms use the energy of light to convert carbon dioxide and water into the simple sugar glucose. In so doing, photosynthesis provides the basic energy source for virtually all organisms. Photosynthesis, process by which green plants and certain other organisms use the energy of light to convert carbon dioxide and water into the simple sugar glucose

In photosynthesis, solar energy is converted to chemical energy. The chemical energy is stored in the form of glucose (sugar). Carbon dioxide, water, and sunlight are used to produce glucose, oxygen, and water. Photosynthesis Summary. In summary, photosynthesis is a process in which light energy is converted to chemical energy and used to produce organic compounds. In plants, photosynthesis typically occurs within the chloroplasts located in plant leaves. Photosynthesis consists of two stages, the light reactions and the dark reactions

Photosynthesis is the process used by plants, algae and certain bacteria to harness energy from sunlight into chemical energy. There are two types of photosynthetic processes: oxygenic photosynthesis and anoxygenic photosynthesis. Oxygenic photosynthesis is the most common and is seen in plants, algae and cyanobacteria.

Photosynthesis. Photosynthesis is the process by which plants, some bacteria and some protistans use the energy from sunlight to produce glucose from carbon dioxide and water. This glucose can be converted into pyruvate which releases adenosine triphosphate (ATP) by cellular respiration. Oxygen is also formed. Photosynthesis Photosynthesis is the process by which plants, some bacteria and some protistans use the energy from sunlight to produce glucose from carbon dioxide and water.

The smallest blood vessels in your body,where gas exchange occurs are called

Gas exchange is the delivery of oxygen from the lungs to the bloodstream, and the elimination of carbon dioxide from the bloodstream to the lungs. It occurs in the lungs between the alveoli and a network of tiny blood vessels called capillaries, which are located in the walls of the alveoli. The walls of the alveoli actually share a membrane with the capillaries in which oxygen and carbon dioxide move freely between the respiratory system and the bloodstream.

2. Capillaries-these are the sites of gas exchange between the tissues. 3. Veins-these return oxygen poor blood to the heart, except for the vein that carries blood from the lungs. On the right is a diagram showing how the three connect. Notice the artery and vein are much larger than the capillaries.

Arterioles are the smallest arteries and regulate blood flow into capillary beds through vasoconstriction and vasodilation. Capillaries are the smallest vessels and allow for exchange of substances between the blood and interstitial fluid. Continuous capillaries are most common and allow passage of fluids and small solutes. Fenestrated capillaries are more permeable to fluids and solutes than continuous capillaries.

Gas exchange occurs in the capillaries which are the smallest blood vessels in the body. Each artery that comes from the heart is surrounded by capillaries so that they can ta … ke it to the various parts of the body.

Arterioles branch into capillaries, the smallest of all blood vessels. Capillaries are the sites of nutrient and waste exchange between the blood and body cells. Capillaries are microscopic vessels that join the arterial system with the venous system.

what is rappelling

Rappelling is the process of coming down from a mountain that is usually done with two pieces of rope. Use a natural anchor or a set of bolts to rappel from with help from an experienced rock climber in this free video on rappelling techniques. Expert: Scott Kiesling. Contact: www.climbon.biz.

5. Cancel. Rappelling is the process of coming down from a mountain that is usually done with two pieces of rope. Use a natural anchor or a set of bolts to rappel from with help from an experienced rock climber in this free video on rappelling techniques. Part of the Video Series: Rappelling & Rock Climbing.

Abseiling (/ˈaebseɪl/ ˈæbseɪl /or/ ; ˈɑːpzaɪl From german, abseilen meaning to rope), down also called, rappelling is the controlled descent of a vertical, drop such as a rock, face using a. Rope climbers use this technique when a cliff or slope is too steep/and or dangerous to descend without. protection

5. Cancel. Rappelling is the process of coming down from a mountain that is usually done with two pieces of rope. Use a natural anchor or a set of bolts to rappel from with help from an experienced rock climber in this free video on rappelling techniques. Part of the Video Series: Rappelling & Rock Climbing.

Abseiling (/ˈaebseɪl/ ˈæbseɪl /or/ ; ˈɑːpzaɪl From german, abseilen meaning to rope), down also called, rappelling is the controlled descent of a vertical, drop such as a rock, face using a. Rope climbers use this technique when a cliff or slope is too steep/and or dangerous to descend without. protection

what does a brewery representative do

A Beer Sales Representative is an important member of a beer manufacturers business. They are the soldiers on the ground that Boost Beer Sales. Selling Beer is by far one of the most amazing jobs that any person can have. Becoming a Beer Sales Representative. Beer jobs are not that easy to find or get because every guy in their right mind wants to become a beer rep. Beer companies are looking for guys that know how to Sell and Market a product. They want people that have a passion for the beer business

As a brewery field sales representative, the RAS is expected to be the authority on product knowledge, brand positioning and programming in the marketplace....

A microbrewery or craft brewery is a brewery that produces a small amount of beer. Exact definitions vary, but the terms are typically applied to breweries that are much smaller than large-scale corporate breweries and are independently owned.

CB A is a unique Alliance of four craft beer brands: Widmer Brothers, Redhook, Kona Brewing and our newest brand, Omission. As an Alliance, together, we are able to satisfy more consumers, at more times, in more locations, through more authentic, distinct craft beers and brands than any other brewery.

Kettles in a modern Trappist brewery. A brewery or brewing company is a business that makes and sells beer. The place at which beer is commercially made is either called a brewery or a beerhouse, where distinct sets of brewing equipment are called plant. The commercial brewing of beer has taken place since at least 2500 BC; in ancient Mesopotamia, brewers derived social sanction and divine protection from the goddess Ninkasi. 1 Farm brewery – A farm brewery, or farmhouse brewery, is a brewery that primarily brews its beer on a farm. 2 Crops and other ingredients grown on the farm, such as barley, wheat, rye, hops, herbs, spices, and fruits are used in the beers brewed.

how long will i be in hospital after a gallbladder surgery last

Recovering from a gallbladder removal. Recovery after keyhole surgery to remove your gallbladder (laparoscopic cholecystectomy) is usually quick. Most people are able to eat and drink and leave hospital on the same day as the surgery. In some cases you may be advised to stay overnight and go home the next day. After open surgery, you will have to stay three to five days in hospital and your recovery time will be longer. Typically, it takes around four to six weeks to recover fully from the effects of open surgery.

You will need general anesthesia for this surgery, which usually lasts 2 hours or less. After surgery, bile flows from the liver (where it is made) through the common bile duct and into the small intestine. Because the gallbladder has been removed, the body can no longer store bile between meals. What To Think About. Recovery is much faster and less painful after laparoscopic surgery than after open surgery. 1 The hospital stay after laparoscopic surgery is shorter than after open surgery. 2 People generally go home the same day or the next day, compared with 2 to 4 days or longer for open surgery.

Laparoscopic cholecystectomy is a procedure in which the gallbladder is removed by laparoscopic techniques. Laparoscopic surgery also referred to as minimally invasive surgery describes the performance of surgical procedures with the assistance of a video camera and several thin instruments.

You may have gallbladder surgery as an outpatient, or you may stay 1 or 2 days in the hospital. Most people can return to their normal activities in 7 to 10 days. People who have laparoscopic gallbladder surgery are sore for about a week. But in 2 to 3 weeks they have much less discomfort than people who have open surgery. No special diets or other precautions are needed after surgery. What To Think About. Recovery is much faster and less painful after laparoscopic surgery than after open surgery. 1 The hospital stay after laparoscopic surgery is shorter than after open surgery. 2 People generally go home the same day or the next day, compared with 2 to 4 days or longer for open surgery.

How long does the surgery for removing a gallbladder take. Laparoscopic gallbladder surgery to remove the gallbladder or stones usually takes about 2-1/2 hours.

at what age does medicare begin

For most people, Medicare starts the 1st day of the month you turn age 65. You can sign up for Medicare Part A & B which covers about 80% of the costs of care. You can also sign up for a Medicare Supplement plan (Medigap) to cover the difference. Medicare along with a Medicare Supplement is great health insurance.

If you want Part B coverage to begin the month you turn age 65, you. must sign up for it during the first 3 months of your Initial Enrollment Period. If you wait until you are age 65, or sign up during the last 3 months of your. Initial Enrollment Period, your Part B start date will be delayed.

If you want your Medicare coverage to begin when you turn age 65, you should. contact Social Security during the 3 months before your 65th birthday. If you wait. until your 65th birthday or later, your Part B coverage will be delayed. I am age 65, still working, and covered by a group. health plan.

You can sign up for Medicare beginning three months before you turn 65, and coverage can start as soon as the first day of your birthday month. The initial enrollment period lasts until three months after your 65th birthday.

If you sign up within 6 months of your 65th birthday, your coverage will start the first day of the month you turn 65, or the month before you turn 65 (if your birthday is the first of the month).

Adoption fees for rabbits

Adoption Fees Michigan Rabbit Rescue is a not-for-profit organization. The adoption donation fee is $85 ($125.00 for a pair), payable to Michigan Rabbit Rescue. This fee also includes the cost of a copy of the House Rabbit Handbook ($9.00) which is provided with all adoptions. The book fee will not be charged twice for adopting a pair, or if you already own the book.

1 $60 adoption fee for a single rabbit for members, $78 for nonmembers ($18 sent in for HRS membership). 2 $100 adoption fee for a pair of rabbits for members, $118 for nonmembers. 3 The fee helps cover the cost of spaying and neutering.

Our rabbits are spayed or neutered and litterbox trained. Our adoption fee is $85.00 for a single rabbit or $125.00 for a bonded pair. The adoption fee covers the cost of the spay or neuter which normally costs well over $150.00 per rabbit. Your donation is tax deductable. Adoption applications can be filled out at the Burrow, at our off site adoption events or online.

There is a $65 adoption fee per rabbit or $95 per pair of rabbits to help cover the alteration costs. (Neuter costs $80 per male, Spay costs $80-100 per female) Adoption fees for small animals vary.

Subscribe to MRRChat. Adoption Fees Michigan Rabbit Rescue is a not-for-profit organization. The adoption donation fee is $85 ($125.00 for a pair), payable to Michigan Rabbit Rescue. This fee also includes the cost of a copy of the House Rabbit Handbook ($9.00) which is provided with all adoptions. The book fee will not be charged twice for adopting a pair, or if you already own the book.

what is a diabetic kidney

Diabetic kidney disease, or diabetic nephropathy, is a complication of type 1 or type 2 diabetes caused by damage to the kidneys' delicate filtering system. Your kidneys contain millions of tiny blood vessel clusters (glomeruli) that filter waste from your blood.

High blood pressure is the other leading cause of kidney disease in people with diabetes. High blood pressure also is a result of damage from kidney disease. If you have high blood pressure, your kidneys may already be damaged. Even a small rise in blood pressure can quickly make kidney disease worse.

Diabetic nephropathy -- kidney disease that results from diabetes -- is the number one cause of kidney failure. Almost a third of people with diabetes develop diabetic nephropathy. People with diabetes and kidney disease do worse overall than people with kidney disease alone. This is because people with diabetes tend to have other long-standing medical conditions, like high blood pressure, high cholesterol, and blood vessel disease (atherosclerosis).

One of the more common long-term complications of diabetes is diabetic renal disease (renal refers to the kidneys). Also known as diabetic nephropathy, this condition is a result of direct vascular abnormalities that accompany diabetes.

Kidney disease in type 1 diabetes is slightly different than in type 2 diabetes. In type 1 diabetes, kidney disease rarely begins in the first 10 years after diagnosis of diabetes. In type 2 diabetes, some patients already have kidney disease by the time they are diagnosed with diabetes.

why is james madison father of constitution

James Madison. James Madison, America's fourth President (1809-1817), made a major contribution to the ratification of the Constitution by writing The Federalist Papers, along with Alexander Hamilton and John Jay. In later years, he was referred to as the Father of the Constitution..

James Madison was called the father of the constitution because he was the author of the basic plan of government that the Convention adopted. Not only that, but he kept … careful notes at Convention which was not open to the public. These notes are by far the best record of the convention in existence.

The very first man at the convention was renowned Father of the Constitution. James Madison. While waiting for the others, he began drafting a blueprint which would eventually be known as the Virginia Plan.

James Madison, Father of the U.S. Constitution. Portrait of James Madison. In May, 1787 the 55 Delegates to the United States Constitutional Convention set off to Philadelphia, Pennsylvania. Traveling in the late 18th century wasn't easy, and what would take modern Americans just hours took the Founding Fathers weeks.

James Madison is generally regarded as the father of the United States Constitution. No other delegate was better prepared for the Federal Convention of 1787, and no one contributed more than Madison to shaping the ideas and contours of the document or to explaining its meaning.

what temp does meat need to be cooked to

Marinated Grilled Steak. The proper temperature to cook a medium-rare steak is 130° - 135° F. Although, according to foodsafety.gov, beef, lamb, and pork should be cooked to at least 145° (or above, if desired). Ground meat must be cooked to at least 160° F. Ground poultry must be cooked to at least 165°.

Cooking thermometers take the guesswork out of cooking, as they measure the internal temperatures of your cooked meat, poultry, seafood, baked goods, and/or casseroles, to assure that a safe temperature has been reached, harmful bacteria have been destroyed, and your food is cooked perfectly.

Cooking Raw meat and poultry should always be cooked to a safe minimum internal temperature. When roasting meat and poultry, use an oven temperature no lower than 325 °F. Use a food thermometer to assure that meat and poultry have reached a safe minimum internal temperature. • Cook all raw beef, pork, lamb and veal steaks, chops, and roasts to a minimum internal temperature of 145 °F as measured with a food thermometer before removing meat from the heat source. For safety and quality, allow meat to rest for at least three minutes before carving or consuming.

1 Use a food thermometer to measure the internal temperature of cooked foods. 2 Check the internal temperature in several places to make sure that the meat, poultry, seafood, eggs or dishes containing eggs are cooked to safe minimum internal temperatures as shown in the Safe Cooking Temperatures Chart. To chill foods properly: 1 Refrigerate or freeze meat, poultry, eggs, seafood and other perishables within 2 hours of cooking or purchasing. 2 Refrigerate within 1 hour if the temperature outside is above 90ºF. 3 Never thaw food at room temperature, such as on the counter top.

Report Abuse. Bacteria need time, food and moisture to grow. They do not grow well unless they are in the danger zone which is between 40-140. Some bacteria are found naturally in food. They can be killed if the food is cooked to the correct temperature. BUT.....some bacteria produce poisons. (when left in the danger zone) heating the food will kill the bacteria. However, the poisons will not be destroyed and can still cause a foodborne illness

what is a mobile analog phone

Motorola DynaTAC 8000X TACS mobile phone. Advanced Mobile Phone System (AMPS) is an analog mobile cell phone system standard developed by Bell Labs, and officially introduced in the Americas on October 13, 1983, Israel in 1986, Australia in 1987, and Pakistan in 1990. It was the primary analog mobile phone system in North America (and other locales) through the 1980s and into the 2000s. As of February 18, 2008, carriers in the United States were no longer required to support AMPS and companies such as AT&T and Verizon have discontinued this service permanently.

Analog at a glance. As a technology, analog is the process of taking an audio or video signal (in most cases, the human voice) and translating it into electronic pulses. Digital on the other hand is breaking the signal into a binary format where the audio or video data is represented by a series of 1s and 0s. Let's say you connect your home analog phone to your office's digital line. When you lift the receiver, the phone tries to draw an electrical current to operate. Typically this is regulated by the phone company's central office.

Analog is also rather limited in terms of mobile phone technology. With a cordless device (such as a mobile or home phone), analog is limited in the range that it is able to pick up (of course, that more or less depends on the environment in which one uses the phone). Digital phones allow more users to use their mobile phones within a single area of coverage. Analog phones use technology that translates audio or video signals into electronic pulses; digital phones use technology that translates audio or video signals into binary code. 2. Analog phones have a substantially higher sound quality; digital phones have a slightly clearer sound.

An analog telephone adapter (ATA) is a device for connecting traditional analog telephones, fax machines, and similar customer-premises devices to a digital telephone system or a voice over IP telephony network.

How do you tell if the phone line is analog or digital? Look at the back of the telephone connected to it. If you see complies with part 68, FCC Rules and a Ringer Equivalence Number (REN), then the phone and the line are analog. Also, look at the phone's dialpad. Let's say you connect your home analog phone to your office's digital line. When you lift the receiver, the phone tries to draw an electrical current to operate. Typically this is regulated by the phone company's central office.

traits that are derived from a common ancestor are said to be

Convergent evolution creates analogous structures that have similar form or function, but that were not present in the last common ancestor of those groups. The cladistic term for the same phenomenon is homoplasy, from Greek for same form. The recurrent evolution of flight is a classic example of convergent evolution. Functionally similar features arising through convergent evolution are termed analogous, in contrast to homologous structures or traits, which have a common origin, but not necessarily similar function.

Primitive trait: same as plesiomorphy; a character that is present in the common ancestor of a clade; a primitive trait is inferred to be the original character state of that character within the clade under consideration; compare to derived trait. Evolutionary Systematics is based on identifying and determining the traits of an ancestral species or, more usually, supra-specific taxa. Cladistics rejects the possibity of knowing the actual common ancestor, and instead posits a hypothetical common ancestor.

I want to ask my audience this question... Traits that are derived from a common ancestor, like similarity in the bones of human arms and bird wings, are said to be ______. Poll responses are kept private. Poll Everywhere lets your audience respond using text messages (SMS), Twitter, or the web in real-time. The best part is you can embed live audience responses and live charts right inside your Microsoft PowerPoint presentation, free!

. Primitive trait: same as plesiomorphy; a character that is present in the common ancestor of a clade; a primitive trait is inferred to be the original character state of that character within the clade under consideration; compare to derived trait. Process cladism: see Phylogenetic Systematics. Evolutionary Systematics is based on identifying and determining the traits of an ancestral species or, more usually, supra-specific taxa. Cladistics rejects the possibity of knowing the actual common ancestor, and instead posits a hypothetical common ancestor.

Primitive traits are those inherited from distant ancestors. Derived traits are those that just appeared (by mutation) in the most recent ancestor -- the one that gave rise to a newly formed branch. Of course, what's primitive or derived is relative to what branch an organism is on. Now let's compare traits on the lamprey-dolphin-shark-wolf branch.

residential solar cost

System Costs. As mentioned in the introduction, residential solar systems are typically sized from 3 to 8kW and end up costing somewhere between $15,000 and $40,000. In this section, we will look at the costs of the various components of a solar system (not installation or operational costs). Solar Panels. The solar panels themselves usually account for about 30% of total costs. Residential solar panels with a combined capacity of 3-8kW typically cost between $4,000-$16,000. The best solar panels are not necessarily the most expensive.

Figuring out exactly how much your solar system will cost can take a little detective work. Electricity rates vary, and each state has different rebates that may affect the overall price of your system. The average system costs a little over $10,000. When we installed solar, the value of our home was increased by more than the cost of the system. We know that electricity prices will continue to climb, but not for us! - Ellen, Wholesale Solar Employee-Owner.

The bulk of the price of going solar is now the “soft costs” (installation, permitting, etc.) rather than the solar panel cost. Again referencing the latest US Solar Market Insight report, the average installed cost of a residential solar panel system was $4.72/watt. However, prices vary tremendously by region. “Common residential system prices ranged from less than $3.00/W to just above $7.00/W,” the Solar Energy Industries Association writes. The total price of a system, of course, varies tremendously based on the size of your roof and your electricity needs. I got a quote for my 2,000 square foot house in the Dallas area and it was $85,000 installed. Financed over 30 years that comes out to $509/month. My electric bill is about $140/month on average. So over 30 years solar would cost over $100,000 more than electricity from the grid (gas, coal, wind).

Once these were factored in, the actual cost of the system was around $6,000 plus the cost of installation. The current federal tax credit is 30 percent of the cost of home solar panels. You will receive that back as a refund on your next year’s taxes. You also must factor in the cost of labor to determine the cost of residential solar panels. How much the installation of the system will cost depends on the size of the panels and your home. In some cases, installation can double the cost of the system. Call local contractors who are experienced with installing solar panels for an estimate

A typical residential solar PV panel system in the U.S. costs $3.60/watt after installation, and the solar panels typically save the customer over $20,000 (net) over the course of 20 years. Learn more about the many advantages of solar energy.

irs late penalty fees

1 The penalty for filing late is normally 5 percent of the unpaid taxes for each month or part of a month that a tax return is late. 2 That penalty starts accruing the day after the tax filing due date and will not exceed 25 percent of your unpaid taxes.

1 It will not exceed 25 percent of your unpaid taxes. 2 Minimum late filing penalty. 3 If you file your return more than 60 days after the due date or extended due date, the minimum penalty for late filing is the smaller of $135 or 100 percent of the unpaid tax. 4 Penalty for late payment.

1 The late filing penalty is 5% of the additional taxes owed amount for every month (or fraction thereof) your return is late, up to a maximum of 25%. 2 If you file more than 60 days after the due date, the minimum penalty is $135 or 100% of your unpaid tax, whichever is smaller.

The IRS assesses a late-payment penalty if you do not pay 90 percent or more of your unpaid tax by April 15, even if you file Form 4868. For example, let's say you owe $5,000 in taxes: If you don't pay at least $4,500 when you file Form 4868, the IRS will assess a late-payment penalty.

Late Filing Penalty. You need to file your federal income tax return by the due date, or at least request an extension. Otherwise, the IRS automatically assesses a late-filing penalty, usually 5 percent of the amount of unpaid taxes, for every month or part of a month that you are late, up to 25 percent.

what is the discriminant of an equation

The Discriminant. In the quadratic formula, the expression under the square root sign, b 2 – 4 ac, is called the discriminant. The sign of the discriminant can be used to find the number of solutions of the corresponding quadratic equation, ax 2 + bx + c = 0. If the discriminant b 2 – 4 ac is negative, then there are no real solutions of the equation. If the discriminant is positive, then the ± symbol means you get two answers. The solutions of this equation correspond to the x-intercepts of the parabola. y = ax 2 + bx + c. So, you can also use the discriminant to find the number of x-intercepts of a parabola.

Standard Form. The Standard Form of a Quadratic Equation looks like this: 1 a, b and c are known values. a can't be 0. 2 x is the variable or unknown (we don't know it yet).

Quadratic Formula Calculator & Solver. Calculator for solutions to any Quadratic equation. The calculator uses the quadratic formula to find solutions to any quadratic equation. The formula is: The quadratic formula calculator below will solve any quadratic equation that you type in.

If the discriminant is zero, there is only one solution. If the discriminant is positive, then the ± symbol means you get two answers. The solutions of this equation correspond to the x-intercepts of the parabola. y = ax 2 + bx + c. So, you can also use the discriminant to find the number of x-intercepts of a parabola.

Then the answer is: x = –1.24, x = 3.24, rounded to two places. For reference, here's what the graph looks like: There is a connection between the solutions from the Quadratic Formula and the graph of the parabola: you can tell how many x-intercepts you're going to have from the value inside the square root.

gayla name meaning

English Meaning: The name Gayla is an English baby name. In English the meaning of the name Gayla is: Festive party. American Meaning: The name Gayla is an American baby name. In American the meaning of the name Gayla is: Festive party. SoulUrge Number: 2. Expression Number: 1. People with this name have a deep inner desire for love and companionship, and want to work with others to achieve peace and harmony.

[ syll. gay-la, ga-yla ] The baby girl name Gayla is pronounced G EY-LAH †. Gayla is of Old Norse and English origin. It is used mainly in English. Gayla is a variation of Gail (English). Gayla is also a variation of Gala (Scandinavian, Hebrew, Russian, and Slavic). Gayla is also a variation of Gay (English). Gayla is rare as a baby girl name. At the modest peak of its usage in 1954, 0.031% of baby girls were named Gayla.

Gayla is a very prominent first name for females (#1027 out of 4276, Top 24%) but an unusual surname for both adults and children. (2000 U.S. Census). Displayed below is the birth name popularity of Gayla for girls. Gayla was first listed in 1940-1949 and reached its highest position of #493 in the U.S. during 1950-1959, but is not found in the list currently.

In English, the name Gayla means-festive party.The name Gayla originated as an English name. The name Gayla is most often used as a girl name or female name. Meaning of Gayla. English name. In English, the name Gayla means-festive party.The name Gayla originated as an English name. The name Gayla is most often used as a girl name or female name. English Name Meaning-festive party.

The name Gayla has the following meaning: My father's joy. An elaborated form of Gail, in turn a variant of Abigail. Also a variant of the French name Gala, meaning merry maker. The following names are baby names related to Gayla and are suitable names for brothers and sisters of Gayla: Boys-Amon, Areli, Asher, Elzie, Enoch, Jadon, Javon, Joel, Raphael, Girls-Anais, Derora, Diza, Mikaila, Ona, Yadira, Both genders-Jesse.

what animal is a possum

Foxes, cats and birds of prey are the main predators of the possum but other animals such as Tasmanian devils, dogs, dingos and snakes also prey on the possum. The possum is a very solitary animal, and possum individuals only really come together to mate. The pygmy possum is the smallest species of possum in the world, growing to just 10cm tall, where the brushtail possum can reach more than a meter in height.

There are more than 60 different species of opossum, which are often called possums. The most notable is the Virginia opossum or common opossum—the only marsupial (pouched mammal) found in the United States and Canada. A female opossum gives birth to helpless young as tiny as honeybees.

Confidence votes 242K. Passionate about all things Australian. Possums and opossums are mammals, specifically marsupials, as their young develop in the pouch. Possums are native to Australia, New Guinea and Sulawesi, whilst opossums are native to North America. They are quite different animals.

The possum is a medium-sized marsupial that is natively found in Australia, Papua New Guinea and Sulawesi, which is a tropical island found in the Indonesian Archipelago. Today the possum has also been introduced to New Zealand and parts of China. The pygmy possum is the smallest species of possum in the world, growing to just 10cm tall, where the brushtail possum can reach more than a meter in height.

The opossum is a medium-sized animal that is found inhabiting farmland and forested areas of North America. The opossum is thought to have evolved from the basic marsupials that lived in the jungles of South America. The opossum is often referred to as a possum, although there is no direct link between the possums of Australia and the opossum of America. The opossum is the only species of marsupial that is found outside of Australia an it's surrounding islands. The opossum is found inhabiting areas of grassland, farmland and woodland in

what animal is a possum

A possum (plural form: possums) is any of about 70 small-to medium-sized arboreal marsupial species native to Australia, New Guinea, and Sulawesi (and introduced to New Zealand and China). The common brushtail possum was introduced to New Zealand by European settlers in an attempt to establish a fur industry. There are no native predators of the possum in New Zealand, so its numbers in New Zealand have risen to the point where it is considered a serious pest.

Possums have long prehensile tails, which are naked on the underside which gives the possum more grip when it is in the trees. Possums also have sharp claws which enable them to climb up tree trunks more easily. Possums are omnivorous animals so possums naturally eat a variety of both plants and other animals. The pygmy possum is the smallest species of possum in the world, growing to just 10cm tall, where the brushtail possum can reach more than a meter in height.

The opossum is a medium-sized animal that is found inhabiting farmland and forested areas of North America. The opossum is thought to have evolved from the basic marsupials that lived in the jungles of South America. The opossum is often referred to as a possum, although there is no direct link between the possums of Australia and the opossum of America. The opossum is the only species of marsupial that is found outside of Australia an it's surrounding islands. The opossum is found inhabiting areas of grassland, farmland and woodland in

When an opossum is playing possum, the animal's lips are drawn back, the teeth are bared, saliva foams around the mouth, the eyes close or half-close, and a foul-smelling fluid is secreted from the anal glands. Like some New World monkeys, opossums have prehensile tails. Like all marsupials, the fur consists of awn hair only, and the females have a pouch. The tail and parts of the feet bear scutes. The stomach is simple, with a small cecum.

Confidence votes 242K. Passionate about all things Australian. Possums and opossums are mammals, specifically marsupials, as their young develop in the pouch. Possums are native to Australia, New Guinea and Sulawesi, whilst opossums are native to North America. They are quite different animals.

types of bacterial respiration

The respiration in bacteria is basically of two types aerobic and anaerobic which may be obligate or facultative. They are further classified as: Obligate aerobes: These are strict aerobes that mean they always require oxygen for their survival. They are not able to withstand anaerobic conditions.

Some species of bacteria go through the process of cellular respiration. This is a more complex process that doesn t need oxygen, and the energy of the organic molecules is more efficient in the creation of ATP. Carbon dioxide and water are the byproducts most usually produced. To get energy from molecules such as sugars, bacteria must use fermentation or cellular respiration. These are processes that use the energy in the molecules to make adenosine triphosphate, known as ATP.

In many cases, the chemical process of respiration requires oxygen, although some organisms are able to carry out respiration in the absence of oxygen. This page will explain the three types of respiration found in microorganisms, as well as how these types of respiration affect the wastewater treatment plant. Aerobic Respiration. Aerobic respiration is respiration in the presence of oxygen. Most multicellular organisms and many microorganisms produce their energy using aerobic respiration. In aerobic respiration, sugars are broken down in the presence of oxygen to produce carbon dioxide, water, and energy. Without oxygen, aerobic microorganisms are unable to produce energy and quickly die

Bacterial infections may develop after a viral illness such as a cold or the flu. Bacterial infections may affect the upper or lower respiratory system, and symptoms tend to localize to one area. The most common sites of bacterial infections in the upper respiratory system are the sinuses and throat. Pneumonia is the most common bacterial infection of the lower respiratory system. Antibiotics are effective against bacterial infections only after they have developed, so most doctors do not prescribe them until a bacterial infection is suspected or confirmed

Aerobically respiring forms of bacteria require oxygen to live. They utilize oxygen as fuel to help burn energy and provide them with the energy needed for life. This type of bacterial respiration is the same kind that human beings use, hence the term aerobic exercise.. The major byproduct of aerobic respiration from bacteria is carbon dioxide. Other forms, such as the bacteria that causes the Bubonic Plague, can kill a person if left untreated. There are many different types of bacteria and they respire using different methods. The two primary methods of bacterial respiration are aerobic respiration and anaerobic respiration.

what are monocytes

3D Rendering of a Monocyte. Monocytes are a type of white blood cells (leukocytes). They are the largest of all leukocytes. They are part of the innate immune system of vertebrates including all mammals (humans included), birds, reptiles, and fish. Monocytes which migrate from the bloodstream to other tissues will then differentiate into tissue resident macrophages or dendritic cells. Macrophages are responsible for protecting tissues from foreign substances, but are also suspected to be important in the formation of important organs like the heart and brain.

This is taken directly from-http://www.wisegeek.com/what-are-monocytes.htm#. Monocytes are a type of leukocyte or white blood cell which play a role in immune system function. Depending on a patient's level of health, monocytes make up between one and three percent of the total white blood cells in the body. For example, if monocytes are elevated because of an inflammation caused by a viral infection, the patient would be given medication to kill the virus and bring down the inflammation. Typically, when a monocyte count is requested, the lab will also run other tests on the blood to generate a complete picture.

Monocytes are considered the largest white blood cell. These cells are part of the innate immune system. Monocytes also play important roles in the immune function of the body. These cells are often found when doing a stained smear and appear large kidney shaped. Many of these re found in the spleen area.

Monocytes are produced by the bone marrow from precursors called monoblasts, bipotent cells that differentiated from hematopoietic stem cells. Monocytes circulate in the bloodstream for about one to three days and then typically move into tissues throughout the body. Monocytes which migrate from the bloodstream to other tissues will then differentiate into tissue resident macrophages or dendritic cells. Macrophages are responsible for protecting tissues from foreign substances, but are also suspected to be important in the formation of important organs like the heart and brain.

A monocyte (pictured below) is a large type of white blood cell with one large, smooth, well-defined, indented, slightly folded, oval, kidney-shaped, or notched nucleus (the cell s control center). White blood cells help protect the body against diseases and fight infections.

interior decorator cost per hour

The cost of hiring an interior designer varies greatly. Most charge per hour, with the current market rate between $50 and $200 per hour. You would pay this in addition to the cost of furniture, accessories, artwork, etc. Some interior designers charge their clients by marking up the decor they choose.

If the interior decorator charges for his services by the hour, the hourly rate may range between $50 and $200 per hour depending on the square footage of the space and the amount of work needed to complete the job.

It depends on the interior decorator or interior designer and yes there is a difference! For newer designers fees usually start around $75 per hour. More established designers charge $100+ per hour depending on expertise and location. Sometimes the designers decided to choose a flat (fixed fee or Cost Plus.

On average nationally, hiring an interior decorator or designer costs $7,125, with most homeowners spending between $5,544 and $8,706. If you decide to hire a professional for decorating your house, make sure you know the right kind of one that you need.

Interior Decorators usually cost less than Interior Designers as they are not certified professional designers with a degree and/or education in design. Decorators are not the same as Designers. Decorators will charge between $50 - $85 an hour depending on their location.

interior decorator cost per hour

This eliminates you paying an unknown amount when all is said and done. The cost of hiring an interior designer varies greatly. Most charge per hour, with the current market rate between $50 and $200 per hour. You would pay this in addition to the cost of furniture, accessories, artwork, etc. Some interior designers charge their clients by marking up the decor they choose.

If the interior decorator charges for his services by the hour, the hourly rate may range between $50 and $200 per hour depending on the square footage of the space and the amount of work needed to complete the job.

Interior Decorators usually cost less than Interior Designers as they are not certified professional designers with a degree and/or education in design. Decorators are not the same as Designers. Decorators will charge between $50 - $85 an hour depending on their location.

On average nationally, hiring an interior decorator or designer costs $7,125, with most homeowners spending between $5,544 and $8,706. If you decide to hire a professional for decorating your house, make sure you know the right kind of one that you need.

1 Some decorators work for free; they're earning commissions from merchants and may steer you to the highest priced products. 2 Others charge a fixed fee, of $500-$10,000 or more depending on location and reputation. 3 Hourly rates can be $35-$500, again based

certified child life specialist average salary locally

$37,000. Average Child Life Specialist salaries for job postings in Las Vegas, NV are 19% lower than average Child Life Specialist salaries for job postings nationwide.

Half of all child life specialists polled reported annual salaries ranging from $36,754 to $47,157 per year. Child life specialists with additional supervisory or leadership responsibilities reported a somewhat higher average salary of $49,509 per year. Child life specialists working in the Pacific Coast states earned the highest average salary as of September 2012: $55,164 per year. Those in the Mid-Atlantic states reported the second-highest average salary by region: $44,475 per year. Child life specialists in most other areas of the country reported average salaries between $41,000 and $44,000

$46,000. Average Child Life Specialist salaries for job postings nationwide are 20% lower than average salaries for all job postings nationwide.

Child life specialists with fewer than three years of experience in the field averaged $37,513, those with four to nine years of experience earned an average of $41,724, and those with nine or more years of experience averaged $46,097. Those with nine or more years of experience averaged $67,443. As of 2008, child life specialists earned an average of $39,775 per year. While those with only bachelor's degrees earned an average of $38,870, child life specialists with master's degrees averaged $41,479.

As of 2008, the Child Life Council reports that directors or managers of child life programs earned an average annual salary of $63,417. Those who held bachelor's degrees reported average earnings of $55,857 per year, while those who held master's degrees received an average of $67,594 per year. Those with nine or more years of experience averaged $67,443. As of 2008, child life specialists earned an average of $39,775 per year. While those with only bachelor's degrees earned an average of $38,870, child life specialists with master's degrees averaged $41,479.

What Kills Scorpions Naturally

Keep yourself, your loved ones, and your home safe from scorpions with diatomaceous earth. It's a safe product that works through a mechanical reaction, rather than chemical, to kill bugs. When the scorpion comes into contact with the DE, the powder will attach to the exoskeleton of the scorpion and begin to dehydrate.

Internet # 202821090. Terro Scorpion Killer is formulated to instantly kill spiders and create a long-lasting barrier to keep pests from coming back. Use this spray on spiders wherever possible indoors or out. Terro Spider Killer helps in creating a barrier to repel spiders from returning to your home.

to get rid of your scorpions get rid of your fears. live with your scorpions. Check your boots in the morning, but live in peace and in prayer with your scorpions. It is not a scorpion problem; it is a cricket problem.

Natural Scorpion Pest Control. Scorpions can get inside buildings through torn windows and door screens, or through vents and other openings in walls. For this reason, prevention is a good, natural method of scorpion pest control. Check weather stripping around doors and make sure there are no gaps. Repair or replace any damaged sections.

1 Similar books to Natural Scorpion Control: How To Get Rid of Scorpions Without Pesticides or Poisons and Protect Yourself from a Scorpion Attack (Natural Pest Control Book 8).

what is the meaning of powhiri

The powhiri is the ritual ceremony of encounter. Traditionally the process served to discover whether the visiting party were friend or foe, and so its origins lay partly in military necessity. The kaupapa or purpose of the occasion will be discussed, and perhaps general present day issues and concerns might be aired. Each speech is followed by the performance of a waiata (song), or sometimes a haka (dance), by the orator's support group.

The pōwhiri (or pōhiri) is a process whereby the host people welcome visitors on the marae. In recent years the pōwhiri process has also been used in other situations, such as welcoming a new employee to a workplace. The marae usually consists of a wharenui (meeting house) with marae ātea (courtyard) in front, a wharekai (dining hall) and an ablutions block with toilets and showers.

powhiri. n. 1. (Anthropology & Ethnology) NZ a Māori ceremony of welcome, esp to a marae. [Māori]. 1 Facebook. 2 Twitter.

A pōwhiri may not be performed for every group of manuhiri (visitors); a mihi whakatau (informal greeting to visitors) may be used instead. Pōwhiri is often used for special visitors or for tūpāpaku (the body of the deceased) for a tangihanga (funeral). The first warrior represents the realm of Tumatauenga, the Atua (God) of War. The third Warrior represents Rongo the Atua of Peace (Rangimarie). It is the final warrior who offers the rautapu, a signal that the manuhiri (guests) may enter the Marae-atea.

Find synonyms, antonyms and the meaning of the word powhiri in our free online dictionary! Find words starting with powhiri and anagrams of powhiri.

Burly Man Definition

Burly Man. Often refers to a man who is able to grow a corn-silk like beard. A burly man is not afraid to share his eclectic tastes such as music and authors. A burly man is a true friend who is reliable.

1 In the next-door compound, a burly man was whacking a skinny boy with a thick stick. 2 She had been clamped by the time she got outside, and two burly men demanded £125 to have her car released. 3 Blanche looked at him, a big burly man with an abdomen that was bulging over his belt which seemed much too tight for him.

A man with a Grizzly Adams look. A man with a big burly beard, burly arms, burly chest, burly man ass and big burly hairy balls.

LINK / CITE ADD TO WORD LIST. adjective. This man is burly. This man is burly. The definition of burly is big, strong and rough. An example of a burly person is a muscular lumberjack.

He's a big, burly rugby player who works as a landscape gardener. ( 1 slang) Originating from the east end of London, England. 2 An expressive term to mean something is good, awesome, amazing, unbelievable. 3 e.g That goal was burly, or Raeikkoenen räikkönen is a Burly formula 1. driver

do game shows pay their contestants

1 If you can use most of the prizes the show offers, such as a new car or trip, you may be content to appear on a game show that features material prizes. 2 If not, you should probably try out for a show where cash is the main prize. 3 In the United States, game show contestants must pay taxes on any prizes they win. 2. Meet the eligibility requirements. All game shows have certain eligibility requirements for their contestants. Generally, you must be at least 18 years of age, except for those shows that use child or teenage contestants, and you are allowed to appear on no more than 1 game show per year.

So, in the end, game show winners get some of the money that TV advertisers pay to the networks, who pay the show producers, who then pay the game show winners. Just in the same way that the actors, and crew of a show get paid. Game shows, like other programs, have costs to produce the programs-they have to pay for sets, cameras, talent (the hosts), and also prizes to contestants.

Reality shows never reveal how much they pay, but sometimes contestants do. On Survivor, the show talks about the grand prize: $1 million. The host, Jeff Probst, talks about the first-runner up making a “$900,000 mistake,” which implies that the second place finisher gets $100,000.

Best Answer: Your question offers a way to easily see the insight of how television works as a business. Game shows, like other programs, have costs to produce the programs-they have to pay for sets, cameras, talent (the hosts), and also prizes to contestants.

Win the prize, pay the tax piper. Most of us know if we win a cash prize, there are taxes to pay. Big prizes mean big taxes. But many game show contestants don't realize when they win merchandise, there's also tax to pay, and you might not get out the door with your prize until some of that tax is paid. When the prize is merchandise or travel – a washer/dryer, a new car, a cruise – it's a different ball game.

diseases caused by clostridium

by Seth Cowan. Tetanus is a disease caused by the bacteria Clostridium tetani, a gram negative rod bacterium. C. tetani spores generally reside in manure rich soils after being passed from the normal gut flora of animals.

Clostridial gas gangrene is a highly lethal necrotizing soft tissue infection of skeletal muscle caused by toxin-and gas-producing Clostridium species. The synonym clostridial myonecrosis better describes both the causative agent and the target tissue.

Botulism is a serious illness that causes flaccid paralysis of muscles. It is caused by a neurotoxin, generically called botulinum toxin, produced by the bacterium Clostridium botulinum (and rarely by C. butyricum and C. baratii). Botulism facts. 1 The botulism neurotoxin is one of the most potent, lethal substances known. 2 Botulism is a disease caused by this neurotoxin (specifically A, B, E, or F type neurotoxin). 3 The neurotoxin is produced by bacteria called Clostridium botulinum. 4 The neurotoxin paralyzes muscles and can be deadly.

Clostridium contains around 100 species that include common free-living bacteria, as well as important pathogens. The five main species responsible for disease in humans are: 1 C. botulinum can produce botulinum toxin in food or wounds and can cause botulism. 1 C. botulinum can produce botulinum toxin in food or wounds and can cause botulism. 2 Honey sometimes contains spores of C. botulinum, which may cause infant botulism in humans one year old and younger. 3 The toxin eventually paralyzes the infant's breathing muscles.

C difficile disease is caused by the overgrowth of the organism in the intestinal tract, primarily in the colon (Fig. 18-4). The organism appears unable to compete successfully in the normal intestinal ecosystem, but can compete when normal flora are disturbed by antibiotics, allowing overgrowth of C difficile. Clinical Manifestations. Botulism is a disease caused by the toxin of a diverse group of clostridia called C botulinum. This neurotoxin characteristically causes a symmetrical, descending paralysis (Fig. 18-3). The symptoms of botulism can occur in both the nervous system and the alimentary tract of the patient.

what is the salary of a person with a biology degree

Bachelor of science in biology degree holders working as research laboratory technicians earned $28,000 to $38,000 per year, according to a survey of 1,303 biology majors by PayScale.com that was updated in November 2010. Biology majors working as high school teachers made salaries between $36,801 and $48,519 annually. Mid-Career Income. Molecular biology majors with 15 years of experience earned a median salary of $82,900 per year, according to PayScale.com's College Salary Report, while those with a general biology degree earned $72,800 a year, just ahead of microbiology majors, whose median mid-career salary was $72,600.

According to PayScale.com, the 10th to 90th percentile salaries as of August 2014 for biotechnology research associates according to degree was as follows: 1 Bachelor of Science in Biotechnology: $47,706-$63,001. 2 Bachelor of Science in Biology: $34,278-$60,917. 3 Bachelor of Arts in Biology: $38,000-$71,322. Salary Scale for Biotechnology Majors with a 4-Year Degree. Biotechnology is a rapidly expanding field that utilizes organisms for technological advancement in medicine, agriculture and other fields. Salaries for biotechnology majors vary depending on industry, employer and years of experience.

However, the average salary for people with a bachelor's degree varies widely based upon several factors, including their major, job position, location and years of experience. The National Association of Colleges and Employers conducted a salary survey that determined the average starting salary for graduates of various bachelor's degree programs.

They determined that graduates of bachelor's degree programs in computer science and engineering earned the highest average starting salaries. According to the results of their September 2013 salary survey for bachelor's degree graduates, graduates of these programs earned the highest average starting salary: The National Association of Colleges and Employers conducted a salary survey that determined the average starting salary for graduates of various bachelor's degree programs.

Starting Salary. The average starting salary for people with a bachelor’s degree in biochemistry is $45,000; while the average starting salary for those with a master’s degree is $60,000. That figure rises to $90,000 for Ph.Ds, according to the National Association of Colleges and Employers' Winter 2011 Salary Survey.

what is the salary of a person with a biology degree

Starting Salaries. The starting median pay for biology majors was $40,600 per year for those who specialized in microbiology, according to PayScale.com's 2010-2011 College Salary Report, while for those with a molecular biology focus it was $40,200 annually. General biology majors had a median starting salary of $38,400. Mid-Career Income. Molecular biology majors with 15 years of experience earned a median salary of $82,900 per year, according to PayScale.com's College Salary Report, while those with a general biology degree earned $72,800 a year, just ahead of microbiology majors, whose median mid-career salary was $72,600.

Average Biology Degree salaries for job postings nationwide are 20% lower than average salaries for all job postings nationwide.

Starting Salary. The average starting salary for people with a bachelor’s degree in biochemistry is $45,000; while the average starting salary for those with a master’s degree is $60,000. That figure rises to $90,000 for Ph.Ds, according to the National Association of Colleges and Employers' Winter 2011 Salary Survey.

They determined that graduates of bachelor's degree programs in computer science and engineering earned the highest average starting salaries. According to the results of their September 2013 salary survey for bachelor's degree graduates, graduates of these programs earned the highest average starting salary: The National Association of Colleges and Employers conducted a salary survey that determined the average starting salary for graduates of various bachelor's degree programs.

Biology majors with a bachelor's degree can become instructors at technical trade schools and junior colleges. According to the BLS, in 2011 these instructors earned an average annual salary of $54,870 and $67,360, respectively. California, Texas and Pennsylvania had the highest employment level in this industry.

what is the salary of a person with a biology degree

Biology majors who don’t attend a graduate program make a median salary of $51,000 per year, which is a little below the median salary for graduates from all other majors combined. Don’t let that fact stop you from pursuing a degree in biology if it’s what you’re passionate about, though. Career Options for Biology Majors. Below is a list of common career options for biology majors. This isn’t a comprehensive list, as students who major in biology go on to do many interesting things. However, this list should give you an idea of the types of work that would be available to you with a degree in biology.

They determined that graduates of bachelor's degree programs in computer science and engineering earned the highest average starting salaries. According to the results of their September 2013 salary survey for bachelor's degree graduates, graduates of these programs earned the highest average starting salary: The National Association of Colleges and Employers conducted a salary survey that determined the average starting salary for graduates of various bachelor's degree programs.

However, the average salary for people with a bachelor's degree varies widely based upon several factors, including their major, job position, location and years of experience. The National Association of Colleges and Employers conducted a salary survey that determined the average starting salary for graduates of various bachelor's degree programs.

Starting Salary. The average starting salary for people with a bachelor’s degree in biochemistry is $45,000; while the average starting salary for those with a master’s degree is $60,000. That figure rises to $90,000 for Ph.Ds, according to the National Association of Colleges and Employers' Winter 2011 Salary Survey.

According to PayScale.com, the 10th to 90th percentile salaries as of August 2014 for biotechnology research associates according to degree was as follows: 1 Bachelor of Science in Biotechnology: $47,706-$63,001. 2 Bachelor of Science in Biology: $34,278-$60,917. 3 Bachelor of Arts in Biology: $38,000-$71,322. Salary Scale for Biotechnology Majors with a 4-Year Degree. Biotechnology is a rapidly expanding field that utilizes organisms for technological advancement in medicine, agriculture and other fields. Salaries for biotechnology majors vary depending on industry, employer and years of experience.

how tall is jack griffo

Jack Griffo Height: 5' 6 (167.64 cm). Standing at a height of 5 feet, 6 inches tall Jack Griffo is taller than 11.9% of all men, as reflected by the figure's fill height %.Conversely, at this height Jack Griffo is not as tall as 88.1% of all men.

Born in Orlando, Florida, on December 11th, 1996, Jack grew up with theater-geek siblings who initiated him into the acting world as a toddler. He booked his first commercial at age two.

Jack Davis Griffo is a 17-year old actor born on December 11, 1996. Jack is from Orlando, Florida but moved to Los Angeles in 2010 to pursue his acting career. Jack plays the guitar and sings. His hobby is skateboarding. He is very close to his friends and his family.

On 11-12-1996 Jack Griffo (nickname: Davis) was born in Orlando, Florida, United States.

Born in Orlando, Florida, on December 11th, 1996, Jack grew up with theater-geek siblings who initiated him into the acting world as a toddler. He booked his first commercial at age two. In the 7th grade he was cast in A Christmas Story and To Kill a Mockingbird at his community theatre.

what is meant by pneumatics

Pneumatics (Greek:which means breath) is a branch of physics applied to technology that makes use of gas or pressurized air. Pneumatic systems used extensively in industry are commonly powered by compressed air or compressed inert gases. A centrally located and electrically powered compressor powers cylinders, air motors, and other pneumatic devices. A pneumatic system controlled through manual or automatic solenoid valves is selected when it provides a lower cost, more flexible, or safer alternative to electric motors and actuators. Pneumatics also has applications in dentistry, construction, mining, and other areas.

Pneumatics is the technology of compressed air, but in some circles, it is more fashionable to refer to it as a type of automation control. Pressurized gas—generally air that may be either of the dry or lubricated type—is used to actuate an end effector and do work. A pneumatic system generally uses an air compressor to reduce the volume of the air, thereby increasing the pressure of the gas. The pressurized gas travels through pneumatic hoses and is controlled by valves on the way to the actuator.

This comes from Greek pneumatikos, from pneuma ‘wind’. Greek pnein ‘breathe’ is the base. Because the Greeks felt there was a strong association between breath and the soul the pneumatic is used in New Testament Greek to mean ‘spiritual’, and this is the sense first recorded in English.

The word pneumatic comes from the Greek pneuma, meaning air or wind. Examples of these devices are rock drills, jackhammers, spray painters, and air brakes. In some cases, air suction instead of compression is used to operate the tool or appliance, as in the familiar vacuum cleaner. Pneumatic. pneumatic device...

Fluid power is a term describing hydraulics and pneumatics technologies. Both technologies use a fluid (liquid or gas) to transmit power from one location to another. With hydraulics, the fluid is a liquid (usually oil), whereas pneumatics uses a gas (usually compressed air). The principles of pneumatics are the same as those for hydraulics, but pneumatics transmits power using a gas instead of a liquid. Compressed air is usually used, but nitrogen or other inert gases can be used for special applications. With pneumatics, air is usually pumped into a receiver using a compressor

what is a laryngocele

Laryngocele refers to a congenital anomalous air sac communicating with the cavity of the larynx, which may bulge outward on the neck. It may also be acquired, seen in glassblowers due to continual forced expiration producing increased pressures in the larynx which leads to dilatation of the laryngeal ventricle (sinus of Morgagni). It is also seen in people with chronic obstructive airway disease.

Laryngocele Definition. Laryngocele refers to a congenital anomalous air sac which communicates with the cavity of the larynx which bulges outward. Laryngocele Causes. Laryngocele can be the result of abnormally large saccule. Saccule is the appendix of the laryngeal ventricle. This abnormally large saccule may extend over the level of the thyroid cartilage. These structures are connected with the laryngeal lumen and it is filled with air. This condition is more common in adults

Laryngocele: A rare condition where an air-filled sac associated with the larynx becomes dilated. More detailed information about the symptoms, causes, and treatments of Laryngocele is available below. Read about other experiences, ask a question about Laryngocele, or answer someone else's question, on our message boards: 1 I can not get a diagnosis. 2 Tell us your medical story. 3 Share your misdiagnosis story. 4 What is the best treatment for this? 5 See all the forums.

A laryngocele is a disorder of the saccule, or laryngeal appendix, in which air abnormally expands it. Watch this video to see how a laryngocele behaves in real-time, and why that can affect the voice.

Case Discussion: Laryngocele is usually an acquired herniation of laryngeal mucosa secondary to an increase in intralaryngeal pressure. Risk factors include excessive cough, playing wind instruments or post inflammatory stenosis and obstruction.

what age can a child go swimming alone

Posted: Jul-12 10:24 AM (1 of 31). Our local pools allow kids to swim alone at 8 years old. They are staffed with lifeguards but even so, my newest Parent's magazine stated that accidental drowning deaths were the second most common way for children ages 5-14 to lose their life. The particular story they featured had a child age 4, who had completed swimming lessons and was fearless of the water. Our local pool has the rule that kids 7 and under need to be with an adult in the water. 8-11 an adult needs to be at the pool with them but can sit in on the deck of the pool. After 11 if they can pass a swim test then they're good to go.

The answer is no one is allowed to swim alone in the pool. Not adults, kids, dogs or monsters. If you go to a public beach, there are signs that state no swimming without lifeguards or swim at your own risk. At public pools in my community, the pools are emptied of all swimmer if no lifeguard is present. At what age do/did you allow your child to swim in your pool unsupervised? My daughter is 11 years old and is an extremely strong swimmer.

My parents let me go to the pool on my own at an early age, but I was a competitive swimmer starting at age 8. Our local pool has the rule that kids 7 and under need to be with an adult in the water. 8-11 an adult needs to be at the pool with them but can sit in on the deck of the pool. After 11 if they can pass a swim test then they're good to go.

April 13, 2011 at 1:50 pm. It really depends on the individual child and when they seem ready to swim alone. For example, if you have a 13 year old but they are a weak swimming then supervision is still needed. Our YMCA has a test that kids must pass to be able to swim in the deep pool and go down the slide. It requires swimming the length of the pool in more than just a dog paddle and treading water for 30 seconds. They will not hesitate to fail a kid if they don’t think they are handling even if they are doing it.

You can be at least 14 years of age! However, at that age, you have to be at top class and pass the Youth Academy and go up the world ladder. Normally, you can star … t swimming in the Olympiics at the age of 16. It depends on how your swimming progresses through the future.

what kind of coffee pods does delonghi use?

See how easy it is to make authentic espresso and cappuccino at home with a De’Longhi pump espresso machine. Now you can make authentic espressos, lattes and cappuccinos to suit your taste, in the comfort of your kitchen. For milk-based beverages, the manual frother mixes steam and milk to create a rich, creamy froth for evenly textured drinks — just the way you like them. Our patented three-in-one filter holders give you total control over your beverages and allow you to choose from one shot, two shot, or convenient espresso pods.

Some brands of pod coffeemakers come with a larger selection of pods than others. DeLonghi, for example, uses the Nescafe Nescafé Dolce gusto, capsules which come in 16, flavors while machines made By, Breville, Cuisinart keurig And. Mr coffee Accept-k cup, pods which come in 250. varieties With three winners on Consumer Reports' list of recommended pod coffeemakers, DeLonghi dominates the top of our tests. Its machines deliver speedy first and subsequent cups, consistently hot servings, and offer other conveniences.

There are many different types of coffee capsules available on the market other than ESE & Senseo pods, such as Nespresso, Tassimo, and Dolce Gusta. In terms of price and taste, there is a premium price to be paid on most capsule systems, and we consider the flavour of coffee produced from an ESE pod to be far better. Coffee pods are freshly roasted coffee, ground perfect, tampered to the correct pressure and then encapsulated in a paper. Pods are made to a standard size of 44mm with 6.8g - 7.5g of coffee per pod, as well as the 62mm coffee pod with 8g of coffee used in the Phillips Senseo coffee maker.

Most modern espresso machines come with filter baskets both for loose coffee and for espresso pods. ESE espresso pods fit all models of espresso machines which have a filter basket for pods. 1 Howto & Style. 2 Standard YouTube License

Additionally, the single serve machines almost always include instructions on how to make coffee pods from home.Another type of coffee pod that is used in regular automatic drip coffee makers is the coffee filter pack. These disks of coffee are used instead of ground coffee and a coffee filter. There are many different types of coffee pods that correspond to the different coffee machines they are used in as well as the different types of coffee that can be purchased in coffee pods.Miss Elliea€™ellieâ S Coffee pods are the best and smoothest pods on the. markets

why choose range or interquartile range

Interquartile range. The interquartile range is another range used as a measure of the spread. The difference between upper and lower quartiles (Q 3 –Q 1), which is called the interquartile range, also indicates the dispersion of a data set. The interquartile range spans 50% of a data set, and eliminates the influence of outliers because, in effect, the highest and lowest quarters are removed. Semi-quartile range. The semi-quartile range is another measure of spread. It is calculated as one half the difference between the 75th percentile (often called Q 3) and the 25th percentile (Q 1). The formula for semi-quartile range is: (Q 3 –Q 1) ÷ 2.

1 The lower quartile (Q 1) is the median of the lower half of the data set. 2 The upper quartile (Q 3) is the median of the upper half of the data set. 3 The interquartile range (IQR) is the spread of the middle 50% of the data values. 4 So: The interquartile range is a more useful measure of spread than range as it describes the middle 50% of the data values and thus, is less affected by outliers. 19 21 24 21 24 28 25 24 30. 19 21 21 24 24 24 25 28 30. 1 The median is the middle value of the data set.

In descriptive statistics, the interquartile range (IQR), also called the midspread or middle fifty, is a measure of statistical dispersion, being equal to the difference between the upper and lower quartiles, IQR = Q 3 − Q 1. Unlike total range, the interquartile range has a breakdown point of 50%, and is thus often preferred to the total range. The IQR is used to build box plots, simple graphical representations of a probability distribution.

1 The upper quartile (Q 3) is the median of the upper half of the data set. 2 The interquartile range (IQR) is the spread of the middle 50% of the data values. The interquartile range is a more useful measure of spread than range as it describes the middle 50% of the data values and thus, is less affected by outliers. 19 21 24 21 24 28 25 24 30. 19 21 21 24 24 24 25 28 30. 1 The median is the middle value of the data set.

The interquartile range is a value that is the difference between the upper quartile value and the lower quartile value. To find the interquartile range, simply take the upper quartile and subtract the lower quartile. To unlock this lesson you must be a Study.com Member. To find the interquartile range, simply take the upper quartile and subtract the lower quartile: 7.5 - 2.5 = 5. The interquartile range for this data set is 5. That means that the majority of the group can make about five out of ten free throw shots.

what are liver spots caused by

Causes of liver spots. Liver spots are caused due to exposure to UV or ultraviolet light from the sun over a period of several years. It can also result from excessive use of tanning beds and tanning lamps. The epidermis or the upper layer of the skin contains a pigment known as melanin, which gives the skin its color. Liver spots, also known as age spots and solar lentigines, are flat, brown, gray or black spots that generally occur on the face, shoulders, hands and arms.

Age spots on the shoulder and back. Age spots — also called liver spots and solar lentigines — are flat tan, brown or black spots. They vary in size and usually appear on the face, hands, shoulders and arms — areas most exposed to the sun. Age spots are very common in adults older than age 50.

Histology slide of a solar lentigo. Liver spots (also known as age spot, solar lentigo, Lentigo senilis, Old age spot, Senile freckle) are blemishes on the skin associated with aging and exposure to ultraviolet radiation from the sun.

Liver spots are called as Lentigos in medical terms. These are also known as age spots. These are the yellowish-brown flat spots that look like large freckles and are thought to be caused by aging, too much sun, impaired liver function, and a dietary or nutritional deficiency. 1 Age is also a cause in liver spots. 2 Liver spots are extremely common after the age of 40. 3 They occur mostly on hands, forearms, shoulder, face and forehead. 4 Oxidation within the body and the lack of antioxidants also plays an important role in creating age spots on skin.

Causes. Age spots are caused primarily by years of exposure to ultraviolet (UV) light from the sun. The use of commercial tanning lamps and tanning beds can also contribute to the development of age spots. The pigment in the upper layer of skin (epidermis) that gives your skin its normal color is called melanin

what are liver spots caused by

Liver spots are blemishes on the skin that are mainly caused due to hyperpigmentation. These spots are associated with aging and are known to be common among adults over 30 years of age. Even though these spots are called liver spots, they have no connection to the liver. Liver spots are NOT caused due to problems in the liver. They are associated with aging and are mainly caused due to excess exposure to ultra violet light. Individuals as they age lose the strength in their skin cells and tissues

Histology slide of a solar lentigo. Liver spots (also known as age spot, solar lentigo, Lentigo senilis, Old age spot, Senile freckle) are blemishes on the skin associated with aging and exposure to ultraviolet radiation from the sun.

Liver Spots. Liver spots, also known as age spots and solar lentigines, are flat, brown, gray or black spots that generally occur on the face, shoulders, hands and arms. They differ in size and normally occur in those parts which are exposed to the sun

Liver spots are called as Lentigos in medical terms. These are also known as age spots. These are the yellowish-brown flat spots that look like large freckles and are thought to be caused by aging, too much sun, impaired liver function, and a dietary or nutritional deficiency. 1 Age is also a cause in liver spots. 2 Liver spots are extremely common after the age of 40. 3 They occur mostly on hands, forearms, shoulder, face and forehead. 4 Oxidation within the body and the lack of antioxidants also plays an important role in creating age spots on skin.

Age spots on the shoulder and back. Age spots — also called liver spots and solar lentigines — are flat tan, brown or black spots. They vary in size and usually appear on the face, hands, shoulders and arms — areas most exposed to the sun. Age spots are very common in adults older than age 50.

what are liver spots caused by

Causes. Liver spots are changes in skin color that occur in older skin. The coloring may be due to aging, exposure to the sun or other sources of ultraviolet light, or causes that are not known. Liver spots are very common after age 40

Liver Spots. Liver spots, also known as age spots and solar lentigines, are flat, brown, gray or black spots that generally occur on the face, shoulders, hands and arms. They differ in size and normally occur in those parts which are exposed to the sun

Liver spots are called as Lentigos in medical terms. These are also known as age spots. These are the yellowish-brown flat spots that look like large freckles and are thought to be caused by aging, too much sun, impaired liver function, and a dietary or nutritional deficiency. 1 Age is also a cause in liver spots. 2 Liver spots are extremely common after the age of 40. 3 They occur mostly on hands, forearms, shoulder, face and forehead. 4 Oxidation within the body and the lack of antioxidants also plays an important role in creating age spots on skin.

Age spots on the shoulder and back. Age spots — also called liver spots and solar lentigines — are flat tan, brown or black spots. They vary in size and usually appear on the face, hands, shoulders and arms — areas most exposed to the sun. Age spots are very common in adults older than age 50.

Causes. Age spots are caused primarily by years of exposure to ultraviolet (UV) light from the sun. The use of commercial tanning lamps and tanning beds can also contribute to the development of age spots. The pigment in the upper layer of skin (epidermis) that gives your skin its normal color is called melanin

History of Microchip Timeline

1 History of Integrated Circuit. 2 The integrated circuit otherwise known as The Chip or microchip was invented by both Jack Kilby and Robert Noyce.

Home Timelines. Computer History Timeline Timeline Description: Computers are made up of many parts, and each one of them is a unique invention on its own. In this timeline we will take a look at many of these parts, and how they contributed to the computers we have today. Date Event 1936 The First Computer The first freely programmable computer came into play. 1947 The transistor The transistor was invented by Bell Telephone Company.

History of Robotics: Timeline This history of robotics is intertwined with the histories of technology, science and the basic principle of progress. Technology used in computing, electricity, even pneumatics and hydraulics can all be considered a part of the history of robotics.

Robert Noyce, with sixteen patents to his name, founded Intel, the company responsible for the invention of the microprocessor, in 1968. But for both men the invention of the integrated circuit stands historically as one of the most important innovations of mankind. Almost all modern products use chip technology.

The history of RFID has shown a steady development in RFID technology. Having its routes in the earliest days of electrical science and then radio, RFID history has come out of developments such as radar and IFF.

medicare conditions of participation emtala

Section 1866(a)(1)(I)(iii) of the Act states, as a requirement for participation in the Medicare program, that hospitals must maintain a list of physicians who are on call for duty after the initial examination to provide treatment necessary to stabilize an individual with an emergency medical condition.

. Grievance procedures: Defines grievances as a written or verbal complaint regarding patient care, abuse, neglect, or issues reference to CMS Conditions of Participation (CoP's) or a Medicare billing complaint under 42 CFR section 489 that is not resolved on the spot. A written complaint is always considered a grievance under this rule.

SUMMARY: This final rule clarifies policies relating to the responsibilities of Medicare-participating hospitals in treating individuals with emergency medical conditions who present to a hospital under the provisions of the Emergency Medical Treatment and Labor Act (EMTALA).

Interpretive Guidelines: §489.20(r)(3) The purpose of the central log is to track the care provided to each individual who comes to the hospital seeking care for an emergency medical condition. Each hospital has the discretion to maintain the log in a form that best meets the needs of the hospital.

“In the case of a hospital that has an emergency department, if an individual (whether or not eligible for Medicare benefits. and regardless of ability to pay) ‘comes to the emergency department,’ as defined in paragraph (b) of this section, the.

does peanut butter contain cholesterol

Peanut butter is an excellent source of nutrition. Required to contain at least 90 percent peanuts, it includes more than 30 vitamins and minerals. Peanut butter contains no cholesterol or trans fats, according to the National Peanut Board. In fact, studies show that peanut butter may even improve your levels of good cholesterol.

Peanut butter contains healthy unsaturated fats and unhealthy saturated fats, but the mere presence of bad fat does not suddenly kick it into the unhealthy camp, according to Harvard Health Publications. It's more important to look at the ratio of good to bad fats.

Even though it has 16 grams of total fat, 80 percent of the total consists of healthy unsaturated fats, which is similar to olive oil for the ratio of good to bad fats. One serving, or 2 tablespoons, of peanut butter contains 2 grams of dietary fiber, 6 grams of total carbohydrates and 8 grams of protein.

Peanut butter in small amounts can stimulate your body to produce the HDL cholesterol that clean LDL out of your bloodstream and reduce your cholesterol. However, the saturated fats in peanut butter mean your body will simultaneously produce harmful LDL as well.

Peanuts and cholesterol lowering go hand-in-hand. You can enjoy peanuts, peanut butter, and peanut oil for cholesterol lowering benefits but do so in moderation. Peanuts contain heart-healthy monounsaturated fats but also contain a high number of calories, which could lead to weight gain.

can you take left hand lane to turn right on a dual carriageway roundabout

You may think you can turn right from any lane on a roundabout. But that's not the rule. On a multi-lane roundabout, you should turn right from the right lane. You can only turn right from the left hand lane of a roundabout if the road markings indicate that you can do so. So, if the arrows on the road don't indicate otherwise, turning right from the left hand lane is illegal. When to turn off a multi-lane roundabout. You can position your car to be in the correct lane at a roundabout by looking for signs, lane markings and arrows when approaching the roundabout. Unless traffic lane arrows indicate otherwise, if you want to: 1 turn left, use the left lane. 2 turn right, use the right lane. 3 go straight ahead, use either lane

On approach you must be in the left lane unless otherwise marked on the road, and indicate a left turn. You must give way to traffic already on the roundabout if there is any risk of a collision. Enter the roundabout when there is a safe gap in the traffic. Stay in the right lane. You must indicate a left turn just before your exit unless it is not practical to do so. Indicating When approaching a roundabout, if you are turning left or right, you must indicate left or right. When exiting a roundabout, whether you are turning left, right or even going straight ahead, you must always indicate a left turn just before you exit,

1 if safe, enter the right lane of the roundabout. 2 keep in the right lane around the roundabout. 3 when passing the road before your exit road, give a change of direction signal to the left. 4 leave by the right lane of your exit road and. 5 cancel the left signal. 1 give a change of direction signal early to go right. 2 if safe, enter the right lane of the roundabout. 3 keep in the right lane around the roundabout. 4

Turning right (Exit 3 on diagram). Signal right on approach and use the right hand lane and stay on the inside of the roundabout until you pass the last exit that is just before your turn (Exit 2 on diagram). Check mirrors and signal left to confirm your intentions to exit the roundabout. Looking for Lane Markings. If the lane markings show that you can use either lane following the road ahead: If you approach on the left then you should stay to the left in new road, if you take the right hand lane on approach stay on the inside of the roundabout and exit in the right hand lane in new road.

If you are following the road ahead on a main route (eg dual carriageway) you can often go ahead in either lane. If you approach on the left then you should stay to the left in new road, if you take the right hand lane on approach stay on the inside of the roundabout and exit in the right hand lane in new road. Looking for Lane Markings. If the lane markings show that you can use either lane following the road ahead: If you approach on the left then you should stay to the left in new road, if you take the right hand lane on approach stay on the inside of the roundabout and exit in the right hand lane in new road.

what does the oad survey expert level color mean

Special maps called choropleth maps use map color to represent statistical data. The color schemes used by choropleth maps is different from general maps in that the color represents data for a given area.

A skiing ability level is a short way of classifying skiers based on what they ski, their skiing ability, and how well they ski beginner, intermediate, or advanced trails. Knowing what skiing ability level you are is often necessary when purchasing a lesson.

©Constant Contact, Inc. All rights reserved. Sample Survey Questions, Answers and Tips | Page 4 About these Sample Questions These sample questions are provided to help you determine what you should ask in a survey as well as what ques-tion type. The following are some sample questions for inspiration.

Adjust color using Levels. In the Adjustments panel, click the Levels icon or choose Levels from the panel menu. In the Properties panel, do one of the following to neutralize a color cast: 1 Click the eyedropper tool to set the gray point. 2 Then click in a part of the image that is neutral gray.

The nominal level of measurement is the lowest of the four ways to characterize data. Nominal means in name only and that should help to remember what this level is all about. Nominal data deals with names, categories, or labels. Data at the nominal level is qualitative. Colors of eyes, yes or no responses to a survey, and favorite breakfast cereal all deal with the nominal level of measurement.

example of involuntary muscle tissue is

Contractions of cardiac muscles move blood throughout the veins and arteries of the circulatory system. Involuntary muscles in the eye's iris to expand and contract in response to light. A beating heart is one of the best examples of an involuntary muscle. Contractions of cardiac muscles push blood through the four chambers of the human heart. The process of peristalsis, which pushes food through the esophagus and small intestine, is controlled by involuntary muscles.

However, cardiac muscle shares features of both smooth and skeletal muscle tissue. It is striated like skeletal muscle tissue, but its contractions are involuntary, like those of smooth muscle tissue. Cardiac muscle is unique in that is particularly invulnerable to fatigue. A beating heart is one of the best examples of an involuntary muscle. Contractions of cardiac muscles push blood through the four chambers of the human heart. The process of peristalsis, which pushes food through the esophagus and small intestine, is controlled by involuntary muscles.

Involuntary muscles are muscles that are not controllable consciously, and instead contract due to unconscious impulses sent by the autonomic nervous system or certain specialized cells or hormones. Both smooth muscle and cardiac muscle can be classified as involuntary muscles. A beating heart is one of the best examples of an involuntary muscle. Contractions of cardiac muscles push blood through the four chambers of the human heart. The process of peristalsis, which pushes food through the esophagus and small intestine, is controlled by

Visceral muscle tissue, or smooth muscle, is tissue associated with the internal organs of the body, especially those in the abdominal cavity. There are three types of muscle in the body: skeletal, smooth, and cardiac. As with any muscle, the smooth, involuntary muscles of the visceral muscle tissue (which lines the blood vessels, stomach, digestive tract, and other internal organs) are composed of bundles of specialized cells capable of contraction and relaxation to create movement. If one... Click to read more below.

a voluntary muscle is a muscle that move when you tell it to Muscles in our hands (skeletal muscle) are called voluntary, because these muscles act according to the impulses (… orders) given by our conscious brain. Heart (cardiac muscle) is an example of an involuntary muscle. It works all the time with impulses from our brain stem, which is involuntary. Some more examples of voluntary muscles in our body are muscles of the chest, neck, abdomen, and legs. Involuntary muscles include the muscles of the digestive system. --- Skeletal muscles, like biceps (the muscles that flex your forearm/wrist toward your shoulder) are voluntary muscles. These muscles will not flex unless you think about flexing them, and your brain sends that signal to your arm.

what is slime

Slime is a substance that is slippery and sticky and commonly used as a toy. This substance can be made at home or may be bought from toy stores. This is a type of board game that involves a plastic monster that has a slimy mouth. The object of the game is to avoid being “slimed” by this plastic monster. Other toymakers also joined the slime craze and made their own versions of this popular sticky toy.

Just mix equal parts of glue and water and then add an equal part of liquid starch. Just like that you have gooey slime. The more you play with it the more fun it becomes. This acclivity causes the polymer chains in the glue to cross link with chemicals in the starch. The result is an awesome stretchy slime.

Slime mold or slime mould is an informal name given to several kinds of unrelated eukaryotic organisms that can live freely as single cells, but aggregate together to form multicellular reproductive structures. Slime molds were formerly classified as fungi but are no longer considered part of that kingdom. Many slime molds, namely the cellular slime molds, actually do not spend most of their time in this state. As long as food is abundant, these slime molds exist as single-celled organisms. When food is in short supply, many of these single-celled organisms will congregate and start moving as a single body.

slime. n. 1. A thick, sticky, slippery substance. 2. Biology A mucous substance secreted by certain animals, such as catfishes and slugs. slime. 1 asphalt-Its synonyms are mineral pitch, Jews' pitch, and slime. 2 ooze-As in mud or slime, it traces back to an Old Norse word meaning puddle, stagnant pool, and originally meant juice or sap from a plant or fruit.

Molasses is thick and has a high viscosity. Non-Newtonian fluids, like slime, have a different viscosity based on the amount of force put on them. If a small amount of force is applied, such as stirring them slowly with your fingers, they feel thin and water-like. If a high force is applied, like throwing it against a wall, the resistance is very strong. It often has an unpleasant odor, a green color, and is cold and slimy to the touch. In scientific terms, slime is classified as a non-Newtonian fluid. These are thick liquids that have a variable viscosity. Viscosity is a measurement of the resistance to flow when a shearing force is applied.

how to make a poached egg without an egg poacher

1 Remove the egg: Use a slotted spoon to remove the egg from the water. 2 Pat the egg dry: This is optional as well, but I like to pat the egg dry lightly with a paper towel. 3 Season and eat! 4 Place the poached egg on a salad, piece of toast, or a plate and season to taste with salt and pepper. Let me show you how I poach an egg; there's really nothing to it. Pin it. The big difference between an easy poached egg and a slightly more difficult one is your tolerance for imperfection. I admit it's tough to get the perfectly round, satiny smooth poached eggs you see adorning restaurant dishes.

Preparation. 1 To poach a pasteurized egg, first fill a deep saucepan or large saute sauté pan about-half full of water and set over high. 2 Heat add some, salt for, flavor and white vinegar or lemon – juice this helps to keep the white of the egg from. 3 Spreading, next crack a pasteurized egg into a small custard. cup 1 Use a spoon to gently gather the white around the yolk, then cook for 3 minutes. 2 To test for doneness, lift the egg from the water using a slotted spoon and gently jiggle the spoon to make sure the white is solid. 3 Carefully return the egg to the poaching water if you prefer a less runny yolk.

The poacher is actually coddling the eggs, not truly poaching them, but if what you want is an egg with a cooked white and runny yolk, this is an easy way to do it. To use an egg poaching pan, remove the cups from the pan that you intend to use. Fill the pan with only 1/2-inch of water and bring it to a low boil. One way to help your poached egg whites stay together is to remove some of the thin wispy egg whites before you add your eggs to the hot water. An easy way to do this is with a fine mesh sieve. 1 Place the raw egg into a fine mesh sieve over a bowl. The very thin egg whites will drain out through the sieve

4 Gently lift the poached eggs out of the pan with a slotted spoon and place on a plate to serve. To help the eggs keep from spreading too much some people have good results by placing a mason jar ring in the pan. Put a mason jar ring in the bottom of the pan and fill the pan with water to just above the mason jar ring. One way to help your poached egg whites stay together is to remove some of the thin wispy egg whites before you add your eggs to the hot water. An easy way to do this is with a fine mesh sieve. 1 Place the raw egg into a fine mesh sieve over a bowl. The very thin egg whites will drain out through the sieve

Method 3 of 5: Using a silicon egg poacher cup. 1. If you have access to a good kitchen store, consider purchasing a small silicon egg poacher cup or a set of silicon egg poachers (a set often comes with a pan with a clear lid). This is a fairly inexpensive option and they're very easy to use. Remove the poached egg with a slotted spoon. Work quickly to transfer each egg onto the plate, letting excess water drip back into the pan. Larousse Gastronomique advises to refresh the egg in cold water and then drain on a cloth.

how to make a poached egg without an egg poacher

It takes about 10 minutes to poach an egg, and you can cook one egg at a time or several eggs at once. Step 1: Bring the water to simmering Lightly grease a medium skillet (about 10 inches in diameter) or large saucepan. This greasing step is optional but helps keep the whites from sticking to the sides of the pan. You can also poach eggs in other hot liquids, such as broth, milk, wine, or tomato juice. Break one cold egg into a small dish. Carefully slide the egg into the simmering water, holding the lip of the dish as close to the water as possible. Take care not to break the yolk.

2 Working with the eggs one at a time, crack the egg into a small bowl or cup. Place the bowl close to the surface of the hot water and gently slip the egg into the water. If you want, use a spoon to push some of the egg whites closer to their yolks, to help them hold together. One way to help your poached egg whites stay together is to remove some of the thin wispy egg whites before you add your eggs to the hot water. An easy way to do this is with a fine mesh sieve. 1 Place the raw egg into a fine mesh sieve over a bowl. The very thin egg whites will drain out through the sieve

Preparation. 1 To poach a pasteurized egg, first fill a deep saucepan or large saute sauté pan about-half full of water and set over high. 2 Heat add some, salt for, flavor and white vinegar or lemon – juice this helps to keep the white of the egg from. 3 Spreading, next crack a pasteurized egg into a small custard. cup 1 Use a spoon to gently gather the white around the yolk, then cook for 3 minutes. 2 To test for doneness, lift the egg from the water using a slotted spoon and gently jiggle the spoon to make sure the white is solid. 3 Carefully return the egg to the poaching water if you prefer a less runny yolk.

4 Gently lift the poached eggs out of the pan with a slotted spoon and place on a plate to serve. To help the eggs keep from spreading too much some people have good results by placing a mason jar ring in the pan. Put a mason jar ring in the bottom of the pan and fill the pan with water to just above the mason jar ring. One way to help your poached egg whites stay together is to remove some of the thin wispy egg whites before you add your eggs to the hot water. An easy way to do this is with a fine mesh sieve. 1 Place the raw egg into a fine mesh sieve over a bowl. The very thin egg whites will drain out through the sieve

Method 3 of 5: Using a silicon egg poacher cup. 1. If you have access to a good kitchen store, consider purchasing a small silicon egg poacher cup or a set of silicon egg poachers (a set often comes with a pan with a clear lid). This is a fairly inexpensive option and they're very easy to use. Remove the poached egg with a slotted spoon. Work quickly to transfer each egg onto the plate, letting excess water drip back into the pan. Larousse Gastronomique advises to refresh the egg in cold water and then drain on a cloth.

what is a harrier

The harrier is a smaller version of the English foxhound, more suited for hunting hares. It has large bone for its size, and is slightly longer than tall. It is a scenting pack hound and should be capable of running with other dogs, scenting its quarry and hunting tirelessly over any terrain for long periods.

The Hawker Siddeley Harrier is the first generation-version and is also known as the AV-8A Harrier. The Sea Harrier is a naval strike/air defence fighter. The AV-8B and BAE Harrier II are the US and British variants respectively of the second generation Harrier aircraft. The Harrier Jump Jet, capable of taking off vertically, can only do so at less than its maximum loaded weight. In most cases, a short take off is performed, using forward speed to achieve aerodynamic lift, which uses fuel more economically than a vertical take off.

Definition of HARRIER. 1. : any of a breed of hunting dogs resembling a small English foxhound and originally bred for hunting rabbits. 2. : a runner on a cross-country team. ADVERTISEMENT.

• HARRIER (noun). The noun HARRIER has 3 senses: 1. a persistent attacker. 2. a hound that resembles a foxhound but is smaller; used to hunt rabbits. 3. hawks that hunt over meadows and marshes and prey on small terrestrial animals. Familiarity information: HARRIER used as a noun is uncommon. Dictionary entry details.

The Harrier, informally referred to as the Harrier Jump Jet, is a family of military jet aircraft capable of vertical/short takeoff and landing (V/STOL) operations. The Harrier Jump Jet, capable of taking off vertically, can only do so at less than its maximum loaded weight. In most cases, a short take off is performed, using forward speed to achieve aerodynamic lift, which uses fuel more economically than a vertical take off.

how long should a drive thru take

Last year’s study indicated that the average drive-thru wait time hit 181 seconds, up from 173 seconds the year before. According to the new study—an expanded version that incorporated 23 quick-serve restaurant brands, up from just seven in 2013—the average wait time reached a record high of 203 seconds.

While the data changes a bit from year to year, the 2012 drive-thru study indicated that the average wait time for a Wendy’s order was just 130 seconds, the quickest in the field and more than one minute faster than Burger King. Meanwhile, Chick-fil-A was tops in terms of accuracy, getting 92% of orders correct.

And improve it did: 1 In 1998, the fastest quick-service drive thru, Long John Silver’s, averaged a time of 159.1 seconds, and Whataburger topped the accuracy rankings with 86.7 percent of its orders served correctly.

And it's why the number of drive-thru windows at fast-food stands has doubled in five years. (The industry cooks better than it spells: It's drive-through in English class, but it's drive-thru at every major chain.). In 1975, McDonald's didn't have a single drive-thru. Today, more than 90% of its 13,000 U.S. restaurants do. Industrywide, 80% of fast food's growth over the past five years has been at the drive-thru. Most drive-thru customers are just stopping to fill their guts, says Bob Sandelman, a fast-food consultant. The industry's bread and butter folks who buy fast food 25 to 30 times monthly are the biggest drive-thru fans, he says.

It’s true, too, with drive-thru service; some brands perform better than the rest. And this year the QSR Drive-Thru Performance Study focuses on seven brands as a benchmark group that have consistently, year after year, risen to the top of the heap in drive-thru performance.

what is plasmalyte

PlasmaLyte is a family of balanced crystalloid solutions with multiple different formulations available worldwide according to regional clinical practices and preferences. It closely mimics human plasma in its content of electrolytes, osmolality, and pH. It shares the same problems as most other crystalloid fluids (fluid overload, edema with weight gain, lung edema, and worsening of the intracranial pressure). A unique concern is that most formulations contain magnesium, which may affect peripheral vascular resistance, heart rate, and worsen organ ischemia.

Abstract. PlasmaLyte is a family of balanced crystalloid solutions with multiple different formulations available worldwide according to regional clinical practices and preferences. It closely mimics human plasma in its content of electrolytes, osmolality, and pH.

Indications Plasma-Lyte 148 Replacement IV Infusion is indicated as a source of water and electrolytes or as an alkalinising agent. Contraindications  Plasma-Lyte 148 Replacement IV infusion is contraindicated in patients with a known hypersensitivity to the product. Precautions Plasma-Lyte 148 Replacement IV Infusion is not indicated for  the treatment of hypochloremic hypokalaemic alkalosis and should be used with caution, in patients with hypochloremic hypokalaemic alkalosis.  the primary treatment of severe metabolic acidosis.  hypomagnesaemia

 Hypomagnesaemia. Although Plasmalyte 148 in 5% Glucose infusion solution has a potassium concentration similar to the concentration in plasma, it is insufficient to produce a useful effect in case of severe potassium deficiency; therefore, it should not be used for correction of severe potassium deficiency. Use in lactation There are no adequate data from the use of Plasmalyte 148 in 5% Glucose infusion solution in lactating women. The potential risks and benefits for each specific patient should be carefully considered before using

PLASMALYTE 148 IN 5% GLUCOSE New Zealand Data Sheet PLASMALYTE 148 IN 5% GLUCOSE Data Sheet 28 July 2015 Page 11 of 11 Baxter PRESENTATION AND STORAGE CONDITIONS Plasmalyte 148 in 5% Glucose infusion solution in Viaflex plastic containers is available as shown below. Use in lactation There are no adequate data from the use of Plasmalyte 148 in 5% Glucose infusion solution in lactating women. The potential risks and benefits for each specific patient should be carefully considered before using

what is a goods receipt

A Goods Receipt is a document issued to acknowledge the receipt of the items listed in it. In other words, it is a document used to register in Openbravo the specifics of items physically received in the warehouse.

Purpose. A goods receipt in the Warehouse Management system (WMS) is the physical inbound movement of goods or materials into the warehouse. It is a goods movement that is used to post goods received from external vendors or from in-plant production. All goods receipts result in an increase of stock in

A goods receipt is the physical inbound movement of goods or materials into the warehouse. It is a goods movement that is used to post goods received from external vendors or from in-plant production. Goods receipts will result in an increase of stock in the warehouse. For detailed information, check on to the foll.

A goods receipt in the Warehouse Management system (WMS) is the physical inbound movement of goods or materials into the warehouse. It is a goods movement that is used to post goods received from external vendors or from in-plant production.

You have the following possibilities for goods receipt posting: Goods Receipt Handling With Reference to Inbound Delivery. If you use the decentralized Warehouse Management system or Handling Unit Management, the data necessary for creating the transfer orders is transferred from the inbound delivery.

cortical functions of the brain

Cerebral Cortex: The cerebral cortex covers the outer portion (1.5mm to 5mm) of the cerebrum. It is the layer of the brain often referred to as gray matter. The cortex (thin layer of tissue) is gray because nerves in this area lack the insulation that makes most other parts of the brain appear to be white. Most information processing occurs in the cerebral cortex. The cerebral cortex is divided into lobes that each have a specific function. Function: The cerebral cortex is involved in several functions of the body including: 1 Determining Intelligence. 2 Determining Personality. 3 Motor Function. 4 Planning and Organization.

In the human brain more than two-thirds of the cerebral cortex is buried in the sulci. The cerebral cortex is gray matter, consisting mainly of cell bodies (with astrocytes being the most abundant cell type in the cortex as well as the human brain as a whole) and capillaries. It contrasts with the underlying white matter, consisting mainly of the white myelinated sheaths of neuronal axons. The cerebral cortex plays a key role in memory, attention, perception, awareness, thought, language, and consciousness. The human cerebral cortex is 2 to 4 millimetres (0.079 to 0.157 in) thick. In large mammals, the cerebral cortex is folded, giving a much greater surface area in the confined volume of the skull.

The cerebral cortex is the cerebrum 's (brain) outer layer of neural tissue in humans and other mammals. It is divided into two cortices, along the sagittal plane: the left and right cerebral hemispheres divided by the medial longitudinal fissure. The cerebral cortex plays a key role in memory, attention, perception, awareness, thought, language, and consciousness. The human cerebral cortex is 2 to 4 millimetres (0.079 to 0.157 in) thick. In large mammals, the cerebral cortex is folded, giving a much greater surface area in the confined volume of the skull.

The cerebral cortex is responsible for many higher-order functions like language and information processing. Language centers are usually found only in the left cerebral hemisphere. For more information on language and differences between the right and left cerebral hemisphere, read about split brain experiments.

Brodmann Areas. Over a lifetime, the various parts of the brain that control the body's movements can suffer damage from various causes, such as head injuries, strokes, and degenerative brain diseases. One typical example is what happens when one side of the motor cortex is completely destroyed by a stroke. The basic function of the brain is to produce behaviours, which are, first and foremost, movements. Several different regions of the cerebral cortex are involved in controlling the body's movements. These regions are organized into a hierarchy like the crew of a ship.

what is conduction

Conduction is when heat is transferred through a material by passing thermal energy from molecule to molecule (from collisions). An example is when you heat up one end of a pa … n and the handle gets hot a little later. Convection is when, as they say, heat rises. Conduction:- Conduction is the transfer heat from a hotter to a colder body by vibrating. Convection:- Is the main heat transfer mechanism in fluids. … Radiation:- Radiation is the process of particles transferring heat through matter or space. Answered

Conduction occurs when energy is transferred through an object due to the movement of particle due to contact. The energy that is transferred is in the form of heat or electricity, so the two types of conduction that we discussed are conduction of heat and conduction of electricity. Conduction is the transfer of energy in the form of heat or electricity from one atom to another within an object by direct contact. Conduction occurs in solids, liquids, and gases.

Best Answer: Convection is the transfer of heat by the actual movement of the warmed matter. Heat leaves the coffee cup as the currents of steam and air rise. Convection is the transfer of heat energy in a gas or liquid by movement of currents. (It can also happen is some solids, like sand.) The heat moves with the fluid. Consider this: convection is responsible for making macaroni rise and fall in a pot of heated water.

Thermal conduction is the transfer of internal energy by microscopic diffusion and collisions of particles or quasi-particles within a body or between contiguous bodies. The microscopically diffusing and colliding objects include molecules, atoms, electrons, and phonons. In conduction, the heat flow is within and through the body itself. In contrast, in heat transfer by thermal radiation, the transfer is often between bodies, which may be separated spatially.

Heat is transferred in several different ways, either conduction, convection, and radiation. Regardless of the method of transfer, only heat can be transferred. Cold is simply the absence of heat and cannot be transferred by any method. Conduction is the transfer of heat from one molecule to another through a substance. Not all substances conduct heat at the same speed. Metals are considered good conductors since they can speedily transfer heat. Stone is also a moderately good conductor, but wood, paper, air, and cloth are poor heat conductors

what is a tilde accent

A diacritic /daɪ.əˈkrɪtɪk/ – also diacritical mark, diacritical point, or diacritical sign – is a glyph added to a letter, or basic glyph. The term derives from the Greek διακριτικός (diakritikos, diakritikós), distinguishing which is composed of the Ancient greek (διά, dia) diá through (and κρίνω krinein, krínein or). krino kríno to separate

What a tilde is used for on a computer. 1 In languages such as Spanish and Portuguese, the tilde is a diacritical mark that is placed over a letter such as 'n' ñ 'and' a ã to help emphasize. the letter What a tilde is used for on a computer. 1 In languages such as Spanish and Portuguese, the tilde is a diacritical mark that is placed over a letter such as 'n' ñ 'and' a ã to help emphasize. 2 The letter shorten long file Names In microsoft windows. 95 above

The tilde (/ˈtɪldə/ ; ˜ or ~) is a grapheme with several uses. The name of the character came into English from Spanish, which in turn came from the Latin titulus, meaning title or superscription. The tilde has since been applied to a number of other uses as a diacritic mark or a character in its own right. These are encoded in Unicode at U+0303 ◌̃ combining tilde and U+007E ~ tilde (as a spacing character), and there are additional similar characters for different roles.

--Mariana--. I´ve always thought that an accent was a mark used to indicate an accent, stress, etc., For example, that used in the word informacion. Información and a tilde was the mark one places over words such as manana mañana. for pronunciation 1 The mark over the n ñ has no. 2 Name tilde is the accent,a,á,e,é. - 3 i_í O ó, u ú. 4 Ismarodri, uy Oct. 5 30, 2009 Flag...yes in spanish no in english the tilde. 6 Would only Refer to the n ñ tilde in. - 7 english Is used, in mathematics. 8 And logic'0074b507 oct '30' 2009 flag i didn T. knew tilde was a word

Examples of English words using diacritical marks are facade (façade which uses a), cedilla (resume résumé two), accent (marks) naive naïve (umlaut). And pinata piñata tilde spanish uses three: 1 Types of diacritical marks the tilde is used to. distinguish n from n ñ Note that in Spanish, the word tilde can be used to refer to accent marks on vowels as well as the mark of the n. ñ: Examples Many spanish words such as arbol árbol use accents to put the stress on the. correct syllable

is armed assault a felony

Any assault committed while armed with a weapon can be considered a felony offense on the face of it. However a simple assault (committed by a physical touching (i.e.: h … ands or fist) is customarily classifed as a misdemeanor, UNLESS, it is a continuous event and escalates into a merciless beating.. Aggravated assault is a felony in most, if not all states. Usually this crime is committed when a person threatens another with a weapon or an advantage of size or strength (i … n the latter case, for example, if the victim is a petite woman and the perp is a burly man). 31 people found this useful.

Assault is a misdemeanor punishable by one year imprisonment; assault with intent to have carnal knowledge of him or her or who indecently assaults another, or who commits other more-serious variants of assault (as defined in the Act) are guilty of a felony, and longer prison terms are provided for. It is both a crime and a tort and, therefore, may result in either criminal and/or civil liability. Generally, the common law definition is the same in criminal and tort law. There is, however, an additional criminal law category of assault consisting of an attempted but unsuccessful battery.

Assault on a Police Officer. Assault on a police officer, or APO, is a criminal offense that can be charged as either a misdemeanor or felony, depending on the severity of the offense. DC assault on a police officer charges are prosecuted aggressively in the District of Columbia. As a felony, assault on a police officer is punishable by a maximum sentence of 10 years in jail and fines of up to $25,000.

(4) Burglary is a felony of the third degree, punishable as provided in s. 775.082, s. 775.083, or s. 775.084, if, in the course of committing the offense, the offender does not make an assault or battery and is not and does not become armed with a dangerous weapon or explosive, and the offender enters or remains in a:

Assault in the first degree. (1) A person is guilty of assault in the first degree if he or she, with intent to inflict great bodily harm: (a) Assaults another with a firearm or any deadly weapon or by any force or means likely to produce great bodily harm or death; or. (b) Administers, exposes, or transmits to or causes to be taken by another, poison, the human immunodeficiency virus as defined in chapter 70.24 RCW, or any other destructive or noxious substance; or. (c) Assaults another and inflicts great bodily harm. (2) Assault in the first degree is a class A felony.

carpal tunnel symptoms

The types and severity of symptoms of carpal tunnel syndrome vary between individuals. At the onset of the disease, the symptoms of carpal tunnel syndrome can be vague and develop slowly. Symptoms may include pain, weakness, burning and numbness and tingling of the fingers, hands and wrists. These symptoms can run all the way up the arm to the shoulder in some cases. Symptoms can be worse at night.

Carpal tunnel syndrome arises from compression of the median nerve that supplies the hand. Symptoms begin with numbness and/or tingling of the hand in the distribution of this nerve (the thumb, index, middle, and thumb side of the ring fingers).

Carpal tunnel syndrome is an irritation of the median nerve in the wrist that leads to numbness, tingling, pain, and weakness in the hand. The syndrome typically affects the thumb, index, and middle fingers and is often particularly troublesome at night.

Medical Author: Melissa Conrad Stoeppler, STöPPLER. Md carpal tunnel syndrome arises from compression of the median nerve that supplies the. Hand symptoms begin with numbness/and or tingling of the hand in the distribution of this (nerve the, thumb, index, middle and thumb side of the ring). fingers

Not all pain in the wrist or hand is caused by carpal tunnel syndrome. There are many other conditions with similar symptoms, such as: 1 An injury to the muscles, ligaments, tendons, or bones. 2 Nerve problems in the fingers, elbow, or neck. 3 Arthritis in the thumb joint or wrist.

meaning of name tasneem

Meaning of Tasneem. African name. In African, the name Tasneem means-foundation of paradise.The name Tasneem originated as an African name. The name Tasneem is most often used as a girl name or female name. African Name Meaning-foundation of paradise. Origin-Africa.

Making the world better, one answer at a time. TASNEEM: Name of a fountain in Jannahh (Paradise) whose drink is superior to the purest of wines. Its nectar will only be drunk by those nearest to Allah Ta'ala. Literally means rich and elevated.

This name is a Muslim name from The Koran. Tasneem or Tasnim is the name of a fountain in heaven that The Koran says those who are close to God will drink from. Comments and insights on the name Tasneem: | Edit. Share what you know! Personal experiences with the name Tasneem: | Edit. I had a friend named Tasneem, an African-American girl around my age from Kansas City, MO. She was a great person who I always admired and a good friend. Years later the name popped up again when I was pregnant

5. Tasneem. Tasneem means an aggressive psychotic demon its meaning came from an old legend in the old Asian myths this name has normally been given to females due to their beliefs of women being a human form of demons. Many ancient old tribes name the girl tribe leader Tasneem with this definition. 3. Tasneem. usually, a girl named tasneem, is very sophisticated and beautiful. she most likely has an awesome personality. and is definitely SUPER FINEEEE. gorgeous eyes, enchanting smile, cute laugh. but is too good for any guy :). the girl of your dreams.

Self-awareness test of the baby. Performing the self-awareness test of the baby is quite simple. If you put a red dot on the baby’s forehead and show him the mirror, notice what he does. If they rub the dot, they are aware, else not. Higher ratio of birth mark. The ratio of birth mark among babies is very high i.e. one baby born out of every 3 babies have a birth mark present on their body. Baby girls have more probability of birth marks than baby boys.

why is the kilauea volcano a shield volcano

Kilauea is a shield volcano with a low angle and broad shape like the shields used by Hawaiian warriors of the past. They are usually built from the successive lava flows piling one on top of the other. The volcano’s current active period has been ongoing since 1983.

Some of the largest volcanoes in the world are shield volcanoes. The Hawaiian Islands are composed of linear chains of these volcanoes including Kilauea and Mauna Loa on the island of Hawaii-- two of the world's most active volcanoes. The floor of the ocean is more than 15,000 feet deep at the bases of the islands.

Examples of shield volcanoes are Kilauea and Mauna Loa (and their Hawaiian friends), Fernandina (and its Galapagos galápagos), Friends, Karthala Erta, Ale, Tolbachik, masaya and many. Others here are 4 of the volcanoes that comprise the big island Of'hawai. i Shield Volcanoes. Shield volcanoes are the largest volcanoes on Earth that actually look like volcanoes (i.e. not counting flood basalt flows). The Hawaiian shield volcanoes are the most famous examples. Shield volcanoes are almost exclusively basalt, a type of lava that is very fluid when erupted.

View full size image. Kilauea is one of the world’s most active volcanoes. It is a shield-type volcano that makes up the southeastern side of the Big Island of Hawaii. The volcano rises 4,190 feet (1,227 meters) above sea level and is about 14 percent of the land area of the Big Island.

The Mauna Loa volcano on the Big Island of Hawaii, seen here in both a oblique and satellite views, is the world's largest shield volcano: Mauna Loa from the southeast Mauna Loa satellite view. Mauna Loa from the southeast. Mauna Loa satellite view. Shield volcanoes are generated by Hawaiian eruptions.

how to make a gold color with paint

To make gold acrylic or oil paint, begin by mixing equal parts of yellow and brown with a brush. If you're just practicing, you can start with a 1/8 teaspoon or less of each and begin by dabbing your brush into the brown paint and blending it into the yellow to see how the shade adjusts with increasing amounts.

Mix the pale orange gold of sourwood honey with primary colors by using cadmium yellow light as the dominant color while adding cadmium red light, a bright orange red. Add a tiny amount of ultramarine blue to darken the hue while maintaining a light overall orange gold tone. 4. Create a blueberry honey paint color, which features a redder, darker honey gold. Combine cadmium yellow light with a little more quinacridone red and ultramarine blue than when mixing lighter honey golds. Consider using darker varieties of gold ochre alone, especially when the tone is more orange red than yellow.

Rating Newest Oldest. Best Answer: Many have suggested mixing black with white, to make gray and then mixing the gray with the yellow. Others have said using brown. My advice is get a nice clean pallet of colours and mix it about. Usually mixing red,blue and yellow to get brown. Try adding brown and white to the yellow to get a gold kind of colour. You could even try using yellowie gold and adding gold sparkles (found in many craft stores) to give it the glint of gold. Basically you need to experiment a little bit. Use small quantities first, and when you think you've got it, go for it!

This feature is not available right now. Please try again later. Oil painting the color gold involves mixing a large variety of golden tones, such as yellows, oranges, browns, reds and greens, in order to convey the iridescent quality of the color.

To create gold in watercolor, use yellow ochre for the highlighted sections and mix the yellow with raw sienna and carmine for the shadows. Begin with a 2-to-1-to-1 ratio of yellow ochre, raw sienna and carmine. If you're just practicing, you can start with a 1/8 teaspoon or less of each and begin by dabbing your brush into the brown paint and blending it into the yellow to see how the shade adjusts with increasing amounts.

what is carp fish

Carp are various species of oily freshwater fish of the family Cyprinidae, a very large group of fish native to Europe and Asia. Carp have long been an important food fish to humans. Several species such as the various goldfish breeds and the domesticated common carp variety known as koi have been popular ornamental fishes. As a result, carp have been introduced to various locations, though with mixed results.

Common carp, German carp, European carp (Cyprinus carpio). Common carp. Common carp. Species and Origin: The common carp is a large omnivorous fish. They have large scales, a long dorsal fin base, and two pairs of long barbels (whiskers) in its upper jaw. Native to Europe and Asia, it was intentionally introduced into Midwest waters as a game fish in the 1880s.

Izaak Walton said about carp in The Compleat Angler, The Carp is the queen of rivers; a stately, a good, and a very subtil fish; that was not at first bred, nor hath been long in England, but is now naturalised. Carp are also popular with spear and bow fisherman. They can grow to a length of 1.2 metres (3.9 ft) and the oldest recorded age of a wild fish is 38 years. The largest recorded carp, caught by British angler, Colin Smith, in 2013 at Etang La Saussaie Fishery, France, weighed 45.59 kilograms (100.5 lb).

Description of Method-Triploid Grass Carp. The grass carp, also known as the white amur, is a vegetarian fish native to the Amur River in Asia. Because this fish feeds on aquatic plants, it can be used as a biological tool to control nuisance aquatic plant growth. In some situations, sterile grass carp may be permitted for introduction into Washington waters.

Posted on. by Naveen. Koi vs Carp. Koi and carp are very closely related fish types, yet they are sometimes considered as different types of the same species. However, there are important facts to consider about both Koi and carp before classifying them in the same group or into different groups. • Koi is an ornamental fish of the species common carp. On the other hand, carp is usually the group of cyprinids, but sometimes considered either as large-bodied cyprinids or just the

how long can you leave a cooked meal in the fridge

Kitchen Fact: Cooked food stored in the refrigerator should be eaten in 3 to 4 days. After food is cooked, it should sit out at room temperature no more than two hours before being refrigerated to slow down bacteria growth. But once stored in the fridge, leftovers should be eaten up within three to four days because bacteria can still grow even at refrigerator temperatures. To help you remember how long something has been in the fridge, we recommend labeling it with the date it was cooked to help you keep track!

Yes. Leftovers should be used within 2 days and stored in the fridge at between 0-5°C during this time. They can be reheated as long as they are heated to 70°C or higher. Food should be very hot and steaming before it is served.

Uncooked foods, such as cold salads or sandwiches, also should be eaten or refrigerated promptly. 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). 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.

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.

Cooked food sitting at room temperature is in what the USDA calls the Danger Zone, which is between 40 ° F and 140 ° F. In this range of temperatures, bacteria grows rapidly and the food can become unsafe to eat, so it should only be left out no more than two hours.