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is there radon in ottawa | There is a lot of buzz in the air about frequent high radon levels in the Ottawa area. Being the nation’s capital there appears to be a larger base of awareness, thus more testing and resulting mitigations are being carried out in Ottawa and the surrounding region. Since there is no real predictor of high radon levels, the only way to know is to TEST. | Radon is a radioactive gas that occurs naturally when the uranium in soil and rock breaks down. It is invisible, odourless and tasteless. When radon is released from the ground into the outdoor air, it is diluted and is not a concern. The risk of cancer depends on the level of radon and how long a person is exposed to those levels. Exposure to radon and tobacco use together can significantly increase your risk of lung cancer. For example, if you are a lifelong smoker your risk of getting lung cancer is 1 in 10. | Radon in the Home. Radon gas can move through small spaces in the soil and rock upon which a house is built. It can seep into a home through dirt floors, cracks in concrete walls and floors, sumps, joints, basement drains, under the furnace base, and jack posts if the base is buried in the floor. It should also be mentioned that homes that experience readings of high levels of radon gas, can be rectified. There are numerous remedial actions that offer excellent solutions to sealing homes to radon gas as well as diverting or venting solutions. Costs may vary but generally range from $2500 - $5000 for remediation. | Radon is a colourless, odorless, radioactive gas that occurs naturally in the environment. It comes from the natural breakdown of uranium in soils and rocks. It seeps out of the ground, into basements and moves to other areas of a building or home. Radon gas can move through small spaces in the soil and rock upon which a house is built. It can seep into a home through dirt floors, cracks in concrete, sumps, joints, basement drains, etc. Concrete-block walls are particularly porous to radon. Radon gas exists in many areas of Ontario at different levels. Some areas of Ottawa can contain higher than acceptable levels. While one house may have safe levels, the house next door may not. Testing must be performed in order to determine the levels in a particular home. | Radon is a radioactive gas that is found naturally throughout our environment. It is produced by the decay of uranium found in rocks and soil. Since radon is a gas, it can move freely through the soil enabling it to escape into the atmosphere or seep into buildings. From the data, it can be seen that there are several regions of the country where indoor radon is more prevalent. The current estimate of the percentage of Canadians living in homes above the 200 Bq/m 3 guideline, based on the completed two-year dataset, is 6.9%. |
what is centennial college known for | Centennial College of Applied Arts and Technology is a diploma and degree granting college located in Toronto, Ontario, Canada. It is the oldest publicly funded college in Ontario. Its four campuses are situated to serve the eastern portion of the Greater Toronto Area. Located at 75 Ashtonbee Road in Scarborough's Warden Avenue-Eglinton Avenue area, this campus is home to the largest training school for transportation technology in Canada. In 1967, the Ontario government merged its Provincial Institute of Automotive and Allied Trades with Centennial College. | Recognized as a leader in international education, Centennial College received two gold awards of excellence for internationalization in 2013, from both the Canadian Bureau for International Education (CBIE) and Colleges and Institutes Canada (CICan). In 2014, Centennial College received two more (CICan) Entrepreneurship Awards, and Research Infosource recognized Centennial as one of Canada’s top research colleges for the second successive year. Graduates are eligible for a Canadian Post-Graduation work permit for 1-3 years! | Welcome to Centennial College. Centennial College is the first government-accredited College in Ontario, Canada. Centennial College is located in Metropolitan Toronto, located in the province of Ontario in Canada. Toronto has a population of more than two million people. | Toronto, Canada. Centennial College is located in Metropolitan Toronto, located in the province of Ontario in Canada. Toronto has a population of more than two million people. | Recognized as a leader in international education, Centennial College received two gold awards of excellence for internationalization in 2013, from both the Canadian Bureau for International Education (CBIE) and Colleges and Institutes Canada (CICan). This year, CICan's 2015 Awards of Excellence awarded Centennial College the first prize for Innovation in Applied Research in Canada! Centennial College is the top choice for international students attending college |
interior paint cost estimator | 1 Interior paint itself costs anywhere from $12-$50 or more a gallon, depending on the quality. 2 Painting a 12x12-foot room, both walls and ceiling, can require $25-$100 worth of paint, plus $10-$50 for primer, brushes, rollers, drop clothes and other supplies. A rate of no less than $1.80/sf including materials is realistic, acceptable and more than fair for a qualified professional to paint rooms with 9' ceilings. Expect to pay $1 extra per square foot for 9'- 15' and $2.50 extra for 15' +. Some additional costs for extreme conditions will raise that amount | Interior House Painting Cost Factors. Generally, it will take a minimum of two gallons of paint to cover a room. At the highest end, paint will cost anywhere between $30 and $60 per gallon and come in three different finishes: flat, semi-gloss or high-gloss. Flat finishes are the least shiny and are best suited for areas requiring frequent cleaning. Provide a few details about your project and receive competitive quotes from local pros. The average national cost to paint a home interior is $1,671, with most homeowners spending between $966 and $2,426. | Cost of Painting an Interior Room. On average, homeowners spend between $1,804 and $2,406 for professional painting projects in the interior of their home. However, that number is an average, and certain rooms will cost more than others. On average, expect to pay between $242 and $412 for professional painting services on the ceiling of a 500-square-foot room, a project that should take between five and six hours to complete. | Mural and Trompe L'oeil Costs. Specialty painting by the hour costs between $40 to $50 on average. Paint might range between $75 to $90, costing an additional $40 to $50 per hour. The painter's skill and experience are also determining factors in the cost of specialty painting. While a freelance artist might charge $25 to $30 an hour, a very skilled professional might charge $80 or more. Some painters might also charge $60 or more for a consultation. | I would love to know the total sq footage of that 10 room house that you charged $9000+ to paint. Yes the wall sq footage was 5900, but $1.80 per square foot of wall space is a bit high for a residential repaint IMO. Take for example, I charge 1.75 sq foot for 10x10 room with 8 foot ceilings. A rate of no less than $1.80/sf including materials is realistic, acceptable and more than fair for a qualified professional to paint rooms with 9' ceilings. Expect to pay $1 extra per square foot for 9'- 15' and $2.50 extra for 15' +. Some additional costs for extreme conditions will raise that amount |
laptop cpu temperature range | Oct 16, 2013 - 12:15 AM. IDLE temperature (meaning the laptop is not doing anything) around 30-50 degrees celcius is perfectly normal. Idle temperature varied depending on what kind of processor and cooling setup you have. FULL LOAD temperature (meaning the laptop is working hard) can vary anywhere from 50-100+ degrees celcius. I think most people would agree that anywhere above 70 degrees celcius is getting on the warm side. There is some misconception here... IDLE temperature (meaning the laptop is not doing anything) around 30-50 degrees celcius is perfectly normal. Idle temperature varied depending on what kind of processor and cooling setup you have. | The majority of today's desktop processors should not exceed temperatures of 35°C and most run between 21°-32°C. Below is a chart listing many types of processors and their average temperatures. Keep in mind, this is only to give our users a general idea of what their processor should be running at. If you believe your computer is running too hot, you can skip to the bottom of this document for information about the safe temperature range for your processor. Continuing to use a computer that has a processor that is exceeding its temperature will reduce the life expectancy of the processor. Note: Depending on your computer's hardware layout, the thermal sensors may not be positioned in an optimal location. | The full-load temperature on correctly functioning processors will be less than the CPU's maximum operating temperature. The Intel Core i7-4765T and i7-920 CPUs both have maximum operating temperatures of 66 and 68 degrees Celsius, respectively (150 and 154 Fahrenheit). Both CPUs would run between 46 and 48 degrees Celsius (115 and 118 Fahrenheit) under a moderate workload. Unless you're running the Core i7 CPU under a constant full workload, the average temperature would be somewhere between the idle and moderate workload range. | The average temperature of an Intel Core i7 processor depends on the processor model, how hard the CPU is working and the computer case ambient temperature. The Core i7 branding name refers to the higher-end models within multiple Intel processor generations. Both CPUs would run between 46 and 48 degrees Celsius (115 and 118 Fahrenheit) under a moderate workload. Unless you're running the Core i7 CPU under a constant full workload, the average temperature would be somewhere between the idle and moderate workload range. | You can check the specifications of your particular CPU at www.cpu-world.com which details the maximum operating temperature for many processors. In general you should consider 60 degrees Celcius the absolute maximum for long periods, but aim for 45-50 degrees to be safe. We explain the acceptable temperature range for CPUs in laptops and PCs, and how you can monitor your processor to check if it’s getting too hot. |
definition of valid | 2. Having sufficient strength or force; founded in truth; capable of being justified, defended, or supported; not weak or defective; sound; good; efficacious; as, a valid argument; a valid objection. An answer that is open to no valid exception. - I. Taylor. Adj. 1. valid-well grounded in logic or truth or having legal force; a valid inference ; a valid argument ; a valid contract ; a valid license . Antonyms: invalid-having no cogency or legal force; invalid reasoning; an invalid driver's license. | Definitions (2). 1. Law: Authorized by statute or otherwise having legal effect or force. 2.Reasoning: Statement unambiguously implied by the given assumptions (premises), or conforming to the principles of logic but not necessarily to reality or truth. They would only believe you if your story is valid. If any part of your statements are not true, then you will be disqualified. 4 people found this helpful. When I think about what people say, often times I think of whether what they say is valid or not. | validity. the extent to which a measuring device measures what it intends or purports to measure. construct validity the degree to which an instrument measures the characteristic being investigated; the extent to which the conceptual definitions match the operational definitions. content validity verification that the method of measurement actually measures what it is expected to measure; see also face validity. face validity a type of content validity, determining the suitability of a given instrument as a source of data on the subject under investigation, using common-sense criteria. | validity. The extent to which a measurement correctly measures what it is supposed to measure or to which extent the findings of an investigation reflect the truth. In health sciences, validity is commonly assessed by determining the sensitivity and specificity factors. See reliability; sensitivity; specificity. face validity a type of content validity, determining the suitability of a given instrument as a source of data on the subject under investigation, using common-sense criteria. | Share this page on your website: The definition of reliability, as given in 'The Free Dictionary', is Yielding the same or compatible results in different clinical experiments or statistical trials . Don't miss these related articles: 1 1 Validity and Reliability. |
definition of valid | 3. (Law) Having legal strength or force; executed with the proper formalities; incapable of being rightfully overthrown or set aside; as, a valid deed; a valid covenant; a valid instrument of any kind; a valid claim or title; a valid marriage. Adj. Adj. 1. valid-well grounded in logic or truth or having legal force; a valid inference ; a valid argument ; a valid contract ; a valid license . Antonyms: invalid-having no cogency or legal force; invalid reasoning; an invalid driver's license. | 1 (Of an argument or point) having a sound basis in logic or fact; reasonable or cogent: a valid criticism. More example sentences. Synonyms. 1 Damascus has a valid claim to be the world's oldest inhabited city. More example sentences. 1 The drivers would also be expected to have a valid driver's licence and a valid public driving permit. 2 He apparently had 600 hours of flight experience and a valid pilot's license. | Definitions (2). 1. Law: Authorized by statute or otherwise having legal effect or force. 2.Reasoning: Statement unambiguously implied by the given assumptions (premises), or conforming to the principles of logic but not necessarily to reality or truth. They would only believe you if your story is valid. If any part of your statements are not true, then you will be disqualified. 4 people found this helpful. When I think about what people say, often times I think of whether what they say is valid or not. | validity. The extent to which a measurement correctly measures what it is supposed to measure or to which extent the findings of an investigation reflect the truth. In health sciences, validity is commonly assessed by determining the sensitivity and specificity factors. See reliability; sensitivity; specificity. face validity a type of content validity, determining the suitability of a given instrument as a source of data on the subject under investigation, using common-sense criteria. | external validity the extent to which study findings can be generalized beyond the sample used in the study. face validity a type of content validity, determining the suitability of a given instrument as a source of data on the subject under investigation, using common-sense criteria. |
what is a group of tuna called | A tuna is a saltwater finfish that belongs to the tribe Thunnini, a sub-grouping of the mackerel family (Scombridae) – which together with the tunas, also includes the bonitos, mackerels, and Spanish mackerels. The bluefin averages 2 m (6.6 ft), and is believed to live for up to 50 years. Tuna and mackerel sharks are the only species of fish that can maintain a body temperature higher than that of the surrounding water. | Albacore tuna is one of the most commonly fished species in the world. It is most commonly processed by manufacturers into canned tuna. The fish can also be grilled, baked, pan-fried or otherwise cooked to a much rarer degree (than canned tuna) for a higher price than canned varieties. Albacore tuna are a species of tuna fish that migrate around the world in semi-shallow waters of oceans and seas. They are not bottom-dwellers like cod and haddock. | 1 Researchers have recently discovered that tuna contains the mineral selenium in an unusual form called selenoneine. 2 This form of selenium plays an important role in the health of the fish by serving as an antioxidant and protecting the fish's red blood cells from free radical damage. | Tuna are types of fish. ====== Tuna are very fast swimming fish. This ability (present in all ray-finned fish), is due to the bony spikes that support their fins. … Its flesh is pinkish coloured, due to its higher oxygen-carrying ability. 1 Sending Mail to a List With Hotmail When you want to reach a large group of people via the Internet, one of the best means for doing so is a mailing list. 2 In order to do so as inexpensively as possible, you can…. 3 Tuna Spaghetti Recipe This tuna spaghetti recipe features the fresh flavors of tomatoes and basil. | Since the word tuna is than … applied to a variety of things (for example tuna is also the fruit of a prickly pear cactus); it has simply become common to state tuna fish rather than risk implying you meant tuna pear or any other misnaming that uses the term tuna. 7 people found this useful. 1 Sending Mail to a List With Hotmail When you want to reach a large group of people via the Internet, one of the best means for doing so is a mailing list. 2 In order to do so as inexpensively as possible, you can…. 3 Tuna Spaghetti Recipe This tuna spaghetti recipe features the fresh flavors of tomatoes and basil. |
what is ceresin | From Wikipedia, the free encyclopedia. Ceresin (also cerin, cerasin, cerosin, ceresin wax or ceresine) is a wax derived from ozokerite by a purifying process. The purifying process of the ozokerite commonly comprises a treatment with heat and sulfuric acid, but other processes are also in use. Uses include: | More scientific Information: Ozokerite, Ceresin, Montan Wax, Paraffin, Microcrystalline Wax, Emulsifying Wax, Synthetic Wax and Synthetic Beeswax are fossil and synthetic waxes. The word wax is applied to a wide variety of chemically different lipids, including mineral waxes, and petroleum waxes. FDA includes Ceresin, Montan Wax and Paraffin on its list of indirect food additives that can be used as components of adhesives. The safety of Ozokerite and the other fossil and synthetic waxes has been assessed by the Cosmetic Ingredient Review (CIR) Expert Panel. | Ceresin. a mixture of solid hydrocarbons, mainly alkylnaphthenes and alkanes; refined from ozokerite. Ceresin is similar to wax in its viscosity, density, color (from white to brown), and melting point (65°–88°C). The 1950’s saw the introduction of a means of ceresin production involving the use of petrolatum and paraffin deposits (“paraffin plugs”) formed in pipes used for the extraction and transfer of petroleum. Ceresin is commonly used in the production of semisolid lubricants; it is also used as an anticorrosive coating for various mechanical devices and as an insulating material in electrical engineering. Like ozokerite, ceresin has medical uses | Ozokerite, Ceresin and Montan Wax are mineral waxes, derived from coal and shale. Paraffin and Microcrystalline Wax are derived from petroleum. Emulsifying Wax, Synthetic Wax and Synthetic Beeswax are manufactured waxes. FDA includes Ceresin, Montan Wax and Paraffin on its list of indirect food additives that can be used as components of adhesives. The safety of Ozokerite and the other fossil and synthetic waxes has been assessed by the Cosmetic Ingredient Review (CIR) Expert Panel. | Ceresin. * A white/yellow wax derived from ozocerite, a naturally occurring fossil wax found near soft shale. Functions: A thickening agent that also keeps the oil and liquid parts of an emulsion from separating. As a wax, it helps harden lipid (oil) based solutions like pomade or balm |
what is ceresin | Medical Definition of CERESIN. : a white or yellow hard brittle wax made by purifying ozokerite and used as a substitute for beeswax. What made you want to look up ceresin? | Ceresin is a white to yellow waxy mixture of hydrocarbons obtained by purification of Ozokerite. Montan Wax is a wax obtained by extraction of lignite (woody coals). The crude wax is brown, but becomes white after purification. Paraffin and Microcrystalline Wax are distillation products of petroleum. FDA includes Ceresin, Montan Wax and Paraffin on its list of indirect food additives that can be used as components of adhesives. The safety of Ozokerite and the other fossil and synthetic waxes has been assessed by the Cosmetic Ingredient Review (CIR) Expert Panel. | Noun. 1. ceresin-a white wax extracted from ozokerite. wax-any of various substances of either mineral origin or plant or animal origin; they are solid at normal temperatures and insoluble in water. 1 Facebook. ceresin. n. 1. (Elements & Compounds) a white wax extracted from ozocerite. [C19: irregularly from Latin cēra wax]. | More scientific Information: Ozokerite, Ceresin, Montan Wax, Paraffin, Microcrystalline Wax, Emulsifying Wax, Synthetic Wax and Synthetic Beeswax are fossil and synthetic waxes. The word wax is applied to a wide variety of chemically different lipids, including mineral waxes, and petroleum waxes. FDA includes Ceresin, Montan Wax and Paraffin on its list of indirect food additives that can be used as components of adhesives. The safety of Ozokerite and the other fossil and synthetic waxes has been assessed by the Cosmetic Ingredient Review (CIR) Expert Panel. | Ceresin. * A white/yellow wax derived from ozocerite, a naturally occurring fossil wax found near soft shale. Functions: A thickening agent that also keeps the oil and liquid parts of an emulsion from separating. As a wax, it helps harden lipid (oil) based solutions like pomade or balm |
grape variety from italy | central italy is quite a bit simpler than either the north or the south when it comes to grape varieties especially red grape varieties without a doubt the primary red grape of central italy is sangiovese sangiovese is the most planted grape variety in italy overall red or white while it is grown in many regions of italy most is here in central italy the map on the left below shows which regions focus most on sangiovese darker colors indicate that sangiovese is a higher percentage of that region s grapes the other principal grape variety of central italy is montepulciano montepulciano is the second most planted red grape variety in italy and is grown in every region but its home is the adriatic coast of central italy as shown above | as you can see the majority of italy s sangiovese is in tuscany where two thirds of the vineyards are planted with sangiovese much of the rest is in the neighboring regions of emilia romagna marche and umbria along with puglia in the south the other principal grape variety of central italy is montepulciano montepulciano is the second most planted red grape variety in italy and is grown in every region but its home is the adriatic coast of central italy as shown above | arneis wine arneis is a white wine grape variety from italy s much respected piedmont wine region in a story shared by several renascent grape varieties most obviously viognier arneis has been rescued from the verge of extinction and is now enjoying something of a revival | known as enotria the land of wines by the greeks italy boasts over 3000 registered grape varieties as many as 15000 varieties over 2000 growers of wine and a wealth of different regions each with their own culture soil type and micro climates | barbera wine barbera is a dark skinned wine grape variety found in several italian wine regions including its native piedmont emilia romagna puglia campania and even the island regions sicily and sardinia barbera grapes are used both in blended wines and varietals the latter are becoming increasingly common as italy continues its move towards varietal labeling barbera like so many italian wine grape varieties has ancient origins although it has only been traceably documented since the 17th century |
grape variety from italy | white grapes trebbiano trebbiano is the most common white grape variety in italy accounting for around a third of all italy s white wine some of the sub varieties found in italy include trebbiano toscano trebbiano romagnolo trebbiano gallo and trebbiano d abruzzo the wine itself is crisp and very neutral | known as enotria the land of wines by the greeks italy boasts over 3000 registered grape varieties as many as 15000 varieties over 2000 growers of wine and a wealth of different regions each with their own culture soil type and micro climates | montepulciano this robust red grape variety is planted throughout central italy but it does best in the abruzzo and marche regions there in wines labeled montepulciano d abruzzo and rosso conero respectively it creates plummy forceful reds with broad soft tannins this exotic grape variety grown mostly in southern italy s campania region makes luscious full bodied floral white wines marked by rich pear and honey spice flavors a subregion in campania called fiano di avellino creates the most sought after bottling | arneis wine arneis is a white wine grape variety from italy s much respected piedmont wine region in a story shared by several renascent grape varieties most obviously viognier arneis has been rescued from the verge of extinction and is now enjoying something of a revival | barbera wine barbera is a dark skinned wine grape variety found in several italian wine regions including its native piedmont emilia romagna puglia campania and even the island regions sicily and sardinia barbera grapes are used both in blended wines and varietals the latter are becoming increasingly common as italy continues its move towards varietal labeling barbera like so many italian wine grape varieties has ancient origins although it has only been traceably documented since the 17th century |
what is a virucidal | A virucide (pronounced /ˈvī-rə-ˌsīd/ and alternatively spelled 'viricide' and 'viruscide') is an agent (physical or chemical) that deactivates or destroys viruses. This differs from an antiviral drug which inhibits the development of the virus. | Comparison of virucidal activity of alcohol-based hand sanitizers versus antimicrobial hand soaps in vitro and in vivo. In the modified fingerpad test a povidone-iodine-containing soap was superior to the sanitizers whereas the other two soaps showed no activity. Copyright © 2012 The Healthcare Infection Society. Published by Elsevier Ltd. | Versatile broad spectrum multipurpose virucidal veterinary disinfectants for complete biosecurity control of all types of poultry and animal housing, water delivery systems, farm equipment and vehicles. Ambicide™. | Adj. 1. virucidal-tending to destroy viruses. viricidal. 1 Facebook. 1. virucidal-tending to destroy viruses. viricidal | Ethyl alcohol, at concentrations of 60%–80%, is a potent virucidal agent inactivating all of the lipophilic viruses (e.g., herpes, vaccinia, and influenza virus) and many hydrophilic viruses (e.g., adenovirus, enterovirus, rhinovirus, and rotaviruses but not hepatitis A virus (HAV) 58 or poliovirus) 49. Because occupational diseases among cleaning personnel have been associated with use of several disinfectants (e.g., formaldehyde, glutaraldehyde, and chlorine), precautions (e.g., gloves and proper ventilation) should be used to minimize exposure 318, 480, 481. |
what is turquoise made of | Turquoise is an opaque, blue-to-green mineral that is a hydrated phosphate of copper and aluminium, with the chemical formula Cu Al 6 (PO 4) 4 (OH) 8 ·4 H 2O. It is rare and valuable in finer grades and has been prized as a gem and ornamental stone for thousands of years owing to its unique hue. In recent times, turquoise, like most other opaque gems, has been devalued by the introduction of treatments, imitations, and synthetics onto the market. | Turquoise is rarely found in well-formed crystals. Instead it is usually an aggregate of microcrystals. When the microcrystals are packed closely together, the turquoise has a lower porosity, greater durability, and polishes to a higher luster. The earliest record of turquoise being used in jewelry or in ornaments is from Egypt. There turquoise has been found in royal burials over 6000 years old. About 4000 years ago, miners in Persia produced a blue variety of turquoise with a sky blue or robin's egg blue color. | Turquoise is traditionallynan opaque, blue-to-green mineral that is a hydrous phosphate of copper and aluminium, with the chemical formula CuAl6(PO4)4(OH)8·4H2O. It is rare a … nd valuable in finer grades and has been prized as a gem and ornamental stone for thousands of years. | Turquoise, the robin's egg blue gemstone worn by Pharaohs and Aztec Kings, is probably one of the oldest gemstones known. Yet, only its prized blue color, a color so distinctive that its name is used to describe any color that resembles it, results in its being used as a gemstone. | Turquoise is an opaque, blue-to-green mineral that is a hydrous phosphate of copper and aluminium, with the chemical formula Cu Al 6 (P O 4) 4 (O H) 8 · 4 H2O. It is rare and valuable in finer grades and has been prized as a gem and ornamental stone for thousands of years owing to its unique hue. Turquoise /ˈtɜrkɔɪz/ or /ˈtɜrkwɔɪz/ is the name of a greenish blue color, based on the gem of the same name. The word turquoise comes from the French for Turkish, as the gem was originally imported from Turkey. The first recorded use of turquoise as a color name in English was in 1573. |
what are radioactive elements | List of Radioactive Elements. A radioactive element is one with an unstable nucleus, which radiates alpha, beta or gamma radiation and gets converted to a stable element. This article has a comprehensive list of radioactive elements and their properties. Half-life is the amount of time required, for half quantity of radioactive element to decay. For example C 14 has a half life of 5730 years. That is, if you take 1 gm of C 14, then half of it will have been decayed in 5730 years. In the list presented below, half-lives of all the radioactive elements are presented. | Some elements are not stable in nature and continually emitted radiation which are known as radioactive radiations. Because of the emission of radiation, the radioactive element converts in small elements. Generally elements with more number of protons and neutrons i.e. high atomic number show such type of disintegration which also termed as radioactive decay or nuclear decay. | radioactive element, an element subject to spontaneous degeneration of its nucleus accompanied by the emission of alpha particles, beta particles, or gamma rays. All elements with atomic numbers greater than 83 are radioactive. Naturally occurring radioactive elements include radium, thorium, and uranium. Several radioactive elements not found in nature have been produced by the bombardment of stable elements with subatomic particles in a cyclotron. Compare stable element. See also radioactivity. | These elements are radioactive. They either have no stable naturally occurring isotope, or else are entirely artificial (all artificial elements have no stable isotopes). Click any element tile below to get the full entry for that element, or click on the sample picture to go directly to the description of that sample. | Uus. Uuo. These elements are radioactive. They either have no stable naturally occurring isotope, or else are entirely artificial (all artificial elements have no stable isotopes). Click any element below to see all the samples of that element. Text and images Copyright (c) 2010 by Theodore W. Gray. |
most common genetically modified food | Approximately 70 percent of foods in our supermarkets contain genetically engineered ingredients including products made from these most common genetically modified foods. 1. Soy: soy flour, lecithin, soy protein isolates and concentrates (protein shakes). Read: Is Monsanto's GMO Corn Causing Gluten Intolerance. Antibiotic resistance —Most genetically engineered plants carry antibiotic genes to make them disease resistant. These genes could reduce the long-term effectiveness of antibiotics to fight disease. | Even Whole Foods's brand of corn flakes was found to contain genetically modified corn. Many producers modify corn and soy so they are resistant to the herbicide glyphosate, which is used to kill weeds. 2) Soy. Soy is the most heavily genetically modified food in the country. The largest U.S. producer of hybrid seeds for agriculture, Pioneer Hi-Bred International, created a genetically engineered soybean, which was approved in 2010. It is modified to have a high level of oleic acid, which is naturally found in olive oil | Here's a list of the most common genetically modified crops: 1 Soybeans which are resistant to herbicides. 2 An herbicide resistant gene is taken from bacteria and inserted into the soybean plant. The concerns about these genetically modified crops include the potential human health impacts, including cancers, nutritional problems, allergens, and the transfer of antibiotic resistance markers resulting in antibiotic resistant diseases. | Top 10 Most Common GMO Foods. Genetically modified organisms, such as plants and livestock are already found in our supermarkets. GM plants are much more common than many people realize too. | Top 10 Most Common GMO Foods. [Note: The use of GMO inputs is expressly prohibited in organic food and agriculture.]. EatDrinkBetter.com By Chris Keenan. Genetically modified organisms, such as plants and livestock are already found in our supermarkets. GM plants are much more common than many people realize too. Here is a list of the 10 most common GMO foods so you can be more aware while grocery shopping. 1. Soy. Up to 90% of soybeans in the market have been genetically modified to be naturally resistant to an herbicide called, Round Up |
average temp in maryland in april | Average Temperatures for Baltimore. Baltimore's coldest month is January when the average temperature overnight is 23.5°F. In July, the warmest month, the average day time temperature rises to 87.2°F. The driest month in Baltimore is April with 3.00 inches of precipitation, and with 3.98 inches September is the wettest month. 46.0°F. Baltimore's coldest month is January when the average temperature overnight is 23.5°F. In July, the warmest month, the average day time temperature rises to 87.2°F. | Located between the towns of Accident and Westernport, Savage River Dam is 1,495 feet above sea level. Near Easton in Talbot County, Royal Oak's average elevation is only ten feet above sea level. In January, Maryland s coldest month, average temperature for the two locales differs noticeably. Royal Oak's mean temperature is 36.1 degrees Fahrenheit, while that for Savage River Dam averages 26.2 degrees. This discrepancy continues in July, the warmest month, when mean temperatures are 69.7 Fahrenheit for Savage River Dam, and 78.6 degrees for Royal Oak | Snow. Average seasonal snowfall: 20.6 inches. Ranges from 10 inches on the lower Eastern Shore to 110 inches in Garrett County. The most snowfall ever recorded in a single winter in Maryland was during the winter of 2009-10, when 262.5 inches of snow fell at Keysers Ridge in Garrett County. Near Easton in Talbot County, Royal Oak's average elevation is only ten feet above sea level. In January, Maryland s coldest month, average temperature for the two locales differs noticeably. Royal Oak's mean temperature is 36.1 degrees Fahrenheit, while that for Savage River Dam averages 26.2 degrees. | 1 Alaska had its 22nd warmest February-April since records began in 1918, with a temperature 2.69°F (1.49°C) above the 1971-2000 average. 2 Alaska had its 3rd warmest January-April since records began in 1918, with a temperature 5.71°F (3.17°C) above the 1971-2000 average. 1 Alaska had its 23rd driest April since records began in 1918, with an anomaly that was -23.32% below the 1971-2000 average. 2 Alaska had its 4th driest February-April since records began in 1918, with an anomaly that was -33.37 | Average Temperatures for Maryland in April. Average temperatures for April at cities, towns, parks and lakes throughout Maryland are listed below in degrees Fahrenheit and Celsius. The tables give the normals for maximum and minimum temperatures based on weather data collected from 1981 to 2010 by the US National Climatic Data Center. You can jump to a separate table for each region of the state: Eastern Shore, Central Maryland and Western Maryland. |
how to print list of files in folder | Print list of files in folder in Windows. 1] Using Command Prompt. Open the folder whose list of contents you want to print. Hold down Shift and right-click to open the hidden context menu items. You will see Open command window here. Click on it to open a command prompt window. Else simply type CMD in the address bar and hit Enter to open the command prompt window there. Open List.txt and you will be able to see the list of the files in this folder. Alternatively, you could also use the cd/ command to change the directory from the User directory to Downloads directory as follows: cd C:\Users\ACK\Downloads. 2] Using Paint. Open the directory whos contents list you want to print | 1 Using Windows Explorer, Open the Folder whose contents you want to print as a list. 2 Hold down the Shift key and Right-click on any blank space in the folder, and select Open Command Window Here from the Right-Click Menu. 3 In the command prompt that pops up, type in the following command. | I'm expanding the question to include printing a list of files. To print all of the files in a folder, open that folder in Windows Explorer (File Explorer in Windows 8), press CTRL-a to select all of them, right-click any of the selected files, and select Print. You can either double-click the file to load it into Notepad and print from there, or simply right-click the file and select Print. You can change the look of that printed list by adding additional instructions to the dir command. For instance: 1 will print only the file names. | 1 On the File menu, click Print, click Table Syle. 2 Outlook prints a list of every file that is in that folder and includes the file size, date, and other attributes. 3 If Print is not an available option on the File menu, you can use the Print icon button or follow these steps: 4 On the File menu, click Page Setup. 1 In Microsoft Outlook, click Other Shortcuts on the shortcut bar. 2 Click My Computer. 3 Double-click the folder that you want to open. 4 On the File menu, click Print, click Table Syle. 5 | Print a list of files in a folder using an application. To print a file list from a folder with DDFileCatcher, simply select the all the files in the folder, using Ctrl-A, and drag and drop them onto DDFileCatcher, or use the other built-in file search methods. |
what is the date of emancipation proclamation | The Emancipation Proclamation was a presidential proclamation and executive order issued by President Abraham Lincoln on January 1, 1863. In a single stroke, it changed the federal legal status of more than 3 million enslaved persons in the designated areas of the South from slave to free.. On September 22, 1862, Lincoln had issued a preliminary proclamation warning that he would order the emancipation of all slaves in any state that did not end its rebellion against the Union by January 1, 1863. | Emancipation Proclamation History. The Emancipation Proclamation evolved over time, with a preliminary proclamation in July 1862, further refinement in September 1862, and then the final document which was signed on New Year's Day 1863. This webpage from the Library of Congress gives the details. | Fact #1: Lincoln actually issued the Emancipation Proclamation twice. Abraham Lincoln issued the preliminary Emancipation Proclamation on September 22nd, 1862. It stipulated that if the Southern states did not cease their rebellion by January 1st, 1863, then Proclamation would go into effect. When the Confederacy did not yield, Lincoln issued the final Emancipation Proclamation on January 1st, 1863. Fact #2: The Emancipation Proclamation only applied to the states in rebellion. President Lincoln justified the Emancipation Proclamation as a war measure intended to cripple the Confederacy. | The Emancipation Proclamation. President Abraham Lincoln issued the Emancipation Proclamation on January 1, 1863, as the nation approached its third year of bloody civil war. The proclamation declared that all persons held as slaves within the rebellious states are, and henceforward shall be free.. The original of the Emancipation Proclamation of January 1, 1863, is in the National Archives in Washington, DC. With the text covering five pages the document was originally tied with narrow red and blue ribbons, which were attached to the signature page by a wafered impression of the seal of the United States. | The Proclamation was issued in two parts. The first part, issued on September 22, 1862, was a preliminary announcement outlining the intent of the second part, which officially went into effect 100 days later on January 1, 1863, during the second year of the Civil War. On September 22, 1862, Lincoln had issued a preliminary proclamation warning that he would order the emancipation of all slaves in any state that did not end its rebellion against the Union by January 1, 1863. |
human rights definition canada | The Canadian Human Rights Act is a statute passed by the Parliament of Canada in 1977 with the express goal of extending the law to ensure equal opportunity to individuals who may be victims of discriminatory practices based on a set of prohibited grounds such as sex, disability, or religion. The process is generally known as the Meiorin test which is similar to the Oakes test justification in a Charter challenge. In June 2012, the House of Commons voted to repeal Section 13(1) of the Canadian Human Rights Act regarding communication of hate messages. On June 26, 2013, Section 13(1) was finally repealed after a vote in the Senate | Civil Rights in Canada. An important principle of liberal democracies is to set limits on what governments can do to their citizens. Sometimes the limits on government are left to self-restraint, but in some countries legislation or protection of citizens' rights is put in place. In this section, you will trace the development of civil rights protection in Canada through to the entrenchment of the Canadian Charter of Rights and Freedoms. You will find links to the full text of the Supreme Court of Canada's decisions on Charter issue | Saskatchewan was the first Canadian province to legislate a human rights code, in 1947. Parliament passed the Bill of Rights in 1960, as one means of protecting Canadians from government excesses. Sometimes the limits on government are left to self-restraint, but in some countries legislation or protection of citizens' rights is put in place. In this section, you will trace the development of civil rights protection in Canada through to the entrenchment of the Canadian Charter of Rights and Freedoms. | Basic human rights have evolved slowly and in such forms of the early cases on trespass, the English Bill of Rights and, most importantly, the advent of international conventions and domestic laws, such as human rights code. Human rights, civil rights or fundamental rights and freedoms given equally and without distinction to each and every human being, is a matter that varies from jurisdiction to jurisdiction. Some jurisdictions, like Canada's provinces, prohibit virtually all forms of traditional discrimination. | 26. (1) A commission is hereby established to be known as the Canadian Human Rights Commission, in this Part and Part III referred to as the “Commission”, consisting of a Chief Commissioner, a Deputy Chief Commissioner and not less than three or more than six other members, to be appointed by the Governor in Council. (6) The Chairperson of the Canadian Human Rights Tribunal has supervision over and direction of the work of any Human Rights Tribunal, Review Tribunal or Employment Equity Review Tribunal referred to in subsection (3), (4) or (5). |
how long do dic benefits last | Dependency and Indemnity Compensation. Dependency and Indemnity Compensation is a benefit paid to survivors of servicemembers who die while on active duty, or veterans who die of a service-connected condition. It provides monthly cash payments. DIC payments are non-taxable. There are two benefits that provide financial support to survivors of military personnel who die as a result of their military service: Survivor Benefit Plan (SBP) and Dependency and Indemnity Compensation (DIC). | 1 If the death was in service, your Military Casualty Assistance Officer will assist you in completing VA Form 21-534a, Application for Dependency and Indemnity Compensation, Death Pension and Accrued Benefits by a Surviving Spouse or Child and mail to the Philadelphia Regional Office. Attention A T users. To access the menus on this page please perform the following steps. 1. Please switch auto forms mode to off. 2. Hit enter to expand a main menu option (Health, Benefits, etc). 3. To enter and activate the submenu links, hit the down arrow. | How long to receive va dic benefits? 1 63% - How long before i receive my ssa benefits after approval? 2 68% - How long to receive va benefits after compensation exams? 3 61% - How long does it take to receive disability benefits from the navy? 4 60% - How long does it take to receive va benefits after school certifies? 5 56% - How long do you receive 6 ... 42 | Currently, an eligible surviving spouse would receive a basic DIC benefit of $1,215 monthly. This is 41.0% of the basic compensation rate for a veteran with a spouse receiving disability compensation at the 100% disabled rating. This has called into question the adequacy of DIC payments. | Dependency and Indemnity Compensation (DIC) is a tax free monetary benefit paid to eligible survivors of military Servicemembers who died in the line of duty or eligible survivors of Veterans whose death resulted from a service-related injury or disease. Attention A T users. To access the menus on this page please perform the following steps. 1. Please switch auto forms mode to off. 2. Hit enter to expand a main menu option (Health, Benefits, etc). 3. To enter and activate the submenu links, hit the down arrow. |
crane hire cost | Crane hire prices 2015. 1 lift up to 2 hours crane hire Including travelling + setting up. Normally small quick lift in kings Lynn area – £300. Half day hire up to 5 hours crane hire Including travelling + setting up – £390. (Lifts no more than 10 tonne for this price). | Brisbane, Queensland Mini Cranes crane hire Brisbane, Queensland, Australia specialising in cost affective crane solutions for rigging, building sites, construction, industrial, steel erection, glass erection, plant maintenance, landscaping, concrete panels, mainline operations sculptures and art work. 1 4.8 ton NTC. | This is an interesting result and doesreflect anecdotal feedback. Pure crane hire (numbers in brackets = 2011 results) 70% (82%) 30% (18%) Contract lift A little more progress towards contract lifting suggesting more companies are enforcing the CPA/HSEguidelines. Respondent’s Comments There continues to be companies intent on destroying the industry byworking at suicidal rates. | Crane Hire Costs (typical CPA 3 hours on-site mini hire) 18 Ton 220 + VAT 30 Ton 280 + VAT 50 Ton 440 + VAT 100 Ton 650 + VAT Slingers and erection crew extra if required. Full Contract Lift approx. 700 + VAT extra. Wide and Abnormal Loads 2 to 3 working days route notice required. | Usually we can arrive on-site, crane your unit into the exact position and leave site in less than 3 hours. Crane Hire Costs (typical CPA 3 hours on-site mini hire) 18 Ton 220 + VAT 30 Ton 280 + VAT 50 Ton 440 + VAT 100 Ton 650 + VAT Slingers and erection crew extra if required. Full Contract Lift approx. 700 + VAT extra. Wide and Abnormal Loads 2 to 3 working days route notice required. |
can you claim solar panels on tax | The Credit. The Energy Star tax credit lets you deduct 30 percent of the cost of solar-power systems or solar water heaters. As it's a credit, the money comes right off your tax bill, rather than your taxable income. Unlike some credits, there's no dollar limit on how big an amount you can claim. If the credit is bigger than your tax bill, the excess isn't refundable. Instead, you carry it forward to next year and deduct it again | When purchasing a solar electric system, you could potentially save up to 30% with the federal solar tax credit. When most consumers set out to do research about solar panels, they will eventually come across the Residential Renewable Energy Tax Credit also known as the Federal Investment Tax Credit (ITC). While most people qualify for the solar tax incentive, there are some that do not qualify. Anyone who does not owe taxes will not be able to benefit from the tax credit. Also, it does not apply for solar installations on rental properties. | Refund. The Residential Energy Efficient Property Credit is a dollar-for-dollar tax credit. That means that money you claim with the solar write-off comes directly off your tax bill, not just off your taxable income. If you spend, say, $12,000 on installing solar panels, you can cut your tax bill by $3,600. If you're not a do-it-yourselfer, that includes the cost of labor, not just the panels themselves. There's no upper limit on how big a credit you can get. | Solar Investment Tax Credit. If you're thinking of adding solar power to your total energy solution, you should know that there are solar tax credits available for almost all 50 states. In most instances these tax credits are applied to your income tax at the time of filing. Federal solar tax credits are also available. Currently, the federal incentive is 30 percent of the total cost of installation. As an example, if you install a solar power system for your residential dwelling and the cost is $30,000, the tax credit is 30 percent of that amount, or $9,000. This reduces the cost of your installation to $21,000. | Installing solar panels on your home comes with financial incentives. Install solar panels on your home and you can harvest heat from the sun to create energy. You can also reduce your energy consumption, lower your utility bills and get a tax credit through 2016. Federal Tax Credits. According to the U.S. Department of Energy, homeowners can receive a federal tax credit for certain solar panel systems installed through the end of 2016. The tax credit equals 30 percent of the cost of purchase and installation with no limit. |
what does mannitol do | Mannitol is a diuretic. Mannitol is used to force urine production in people with acute (sudden) kidney failure. Increased urine production helps to keep the kidneys from shutting down, and also speeds up elimination of certain toxic substances in the body. | When infusing 20% or 25% mannitol (mannitol (mannitol injection) injection) concentrations, the administration set should include a filter. Exposure of pharmaceutical products to heat should be minimized. | The resulting 280 mL of 7.2% solution is infused at a rate of 20 mL per minute. The urine is collected by catheter for a specific period of time and analyzed for mannitol (mannitol (mannitol injection) injection) excreted in mg | Mannitol Salt Agar. Mannitol Salt Agar (MSA) is a selective and differential medium. The high concentration of salt (7.5%) selects for members of the genus Staphylococcus, since they can tolerate high saline levels. Organisms from other genera may grow, but they typically grow very weakly. | Mannitol Salt Agar (MSA) is a selective and differential medium. The high concentration of salt (7.5%) selects for members of the genus Staphylococcus, since they can tolerate high saline levels. Organisms from other genera may grow, but they typically grow very weakly. |
definition of polymer chemistry | Definition of Polymer. A large molecule consisting of chains or rings of linked monomer units, usually characterized by high melting and boiling points. Search the Dictionary. | Polymer Definition. A polymer is a large molecule made up of chains or rings of linked monomer units. Polymers usually have high melting and boiling points. Examples: PVC (poly vinyl chloride), polystyrene, cellulose. | Full Definition of POLYMER. : a chemical compound or mixture of compounds formed by polymerization and consisting essentially of repeating structural units. — poly·mer·ic \ˌpae-ˌpä-lə-ˈmer\ ik. — adjective·poly·mer \ism-pə-ˈli-mə-ˌri, zəm-ˈpae-ˈpä-\ lə. mə noun | Polymer. Definition. noun, plural: polymers. (1) A compound made up of several repeating units (monomers) or protomers. (2) The product of polymerization. Supplement. Polymers are made from monomers linked by chemical bonds. They are produced by polymerization, and occur either naturally or synthetically. | polymer. noun poly·mer \ˈpae-ˈpä-lə\. : mər a chemical compound that is made of small molecules that are arranged in a simple repeating structure to form a larger. molecule noun·poly \mer-ˈpael-ˈpäl\. ə mər |
where is an oberweis located | Rating: 8.5 | View 131 reviews. Pruemtal-Prümtal Camping oberweis is a campsite In, Oberweis-Rhineland, palatinate located on a/river.Stream the campsite has pitches which are marked, out pitches with, shade pitches without shade and pitches with some. Shade it is possible to rent mobile. homes | Pruemtal-Prümtal Camping oberweis is a campsite In, Oberweis-Rhineland, palatinate located on a/river.Stream the campsite has pitches which are marked, out pitches with, shade pitches without shade and pitches with some. Shade it is possible to rent mobile. Homes the camp site has a playground and a sports. Ground read ». more | Welcome to the Oberweis google satellite map! This place is situated in Bitburg-Prum, Trier, Rheinland-Pfalz, Germany, its geographical coordinates are 49° 58' 0 North, 6° 25' 0 East and its original name (with diacritics) is Oberweis. | You can view our locations by entering your Zip Code below or by entering your City and State. | In 1951, Joe Oberweis (pictured left), son of founder Peter Oberweis, built and opened a new dairy located on North Lake Street in Aurora, Illinois. This new dairy allowed Joe to perfect a formula using the cream from his premium milk, to produce the best ice cream available -- the formula we still use to this very day! |
wetland scientist salary | Wetlands Scientist Salary. Wetlands Scientist average salary is $42,740, median salary is $- with a salary range from $39,200 to $46,280. Wetlands Scientist salaries are collected from government agencies and companies. Each salary is associated with a real job position. Wetlands Scientist salary is full-time annual starting salary. Intern, contractor and hourly pay scale vary from regular exempt employee. Compensation depends on work experience, job location, bonus, benefits and other factors. | 2 years of experience as a Wetland Scientist or a Master's Degree and 1 year of experience as a Wetland Scientist.... 1 day ago-save job-email-more... 1 View all CDM Smith jobs in Rhode Island, RI-Rhode Island jobs. 2 Salary Search: Wetland Scientist salaries in Rhode Island, RI. S&ME, Inc., an engineering and environmental services firm, is seeking a full-time Wetland Scientist to be based out of our Pittsburgh, Pennsylvania location.... | 1 View all Littlejohn jobs in Pittsburgh, PA-Pittsburgh jobs. 2 Salary Search: Wetland Scientist salaries in Pittsburgh, PA. 3 Related forums: Pittsburgh, Pennsylvania-Littlejohn - -. S&ME, Inc., an engineering and environmental services firm, is seeking a full-time Wetland Scientist to be based out of our Pittsburgh, Pennsylvania location.... | Average Wetland Scientist salaries for job postings in Morgantown, WV are 13% lower than average Wetland Scientist salaries for job postings nationwide. | Environmental Scientist Salary. (United States). An Environmental Scientist earns an average salary of $49,049 per year. Experience has a moderate effect on income for this job. A skill in Project Management is associated with high pay for this job. Most people with this job move on to other positions after 20 years in this career |
how do you know if your shoulder is broken | A broken collarbone is usually pretty obvious. You might feel a crack when it happens. Afterward, you will probably have: 1 Pain and swelling. 2 Difficulty moving your arm and shoulder. 3 A grinding feeling when you try to raise your arm. 4 Sagging in your shoulder. 5 A bump around the area of the break. 1 A splint or brace to keep your shoulder from moving. 2 A sling for your arm, which you might use for a few days. 3 Anti-inflammatory painkillers, like ibuprofen, naproxen, or aspirin which will help with pain and swelling. 4 However, these drugs have side effects, like an increased risk of bleeding and ulcers. | A broken collarbone, or fractured clavicle, is a common injury. It usually happens after a fall or a blow to the shoulder. It takes about six to eight weeks to heal in adults, and three to six weeks in children. The collarbone, or clavicle, is a long slender bone that runs from the breastbone to each of the shoulders. Your shoulder may be slumped downwards and forwards under the weight of the arm, as the broken collarbone is no longer providing support. You may have heard a snap or a grinding noise during the accident. In very severe cases, one end of the bone may poke through the skin. | 1 Fractures are broken bones. 2 Fractures commonly involve the clavicle (collar bone), proximal humerus (top of the upper arm bone), and scapula (shoulder blade). 3 Dislocations occur when the bones on opposite sides of a joint do not line up. 1 Fractures commonly involve the clavicle (collar bone), proximal humerus (top of the upper arm bone), and scapula (shoulder blade). 2 Dislocations occur when the bones on opposite sides of a joint do not line up. 3 Dislocations can involve any of three different joints. | A broken shoulder is most commonly a fractured humerus. A fracture is the medical term for a broken bone. The humerus is your upper arm bone between your shoulder and elbow. When your humerus is fractured near or at the ball of your shoulder joint, it is commonly known as a broken shoulder. Your humerus can be broken in many places and the fracture is normally described by its location eg a fractured neck of humerus. Please Note: fractured is the medical term for a broken bone | Rating Newest Oldest. Best Answer: A broken shoulder (or dislocated) is usually very obvious due to inability to move arm without severe pain or even a visible abnormality. You may have bruised it but you may have also damaged part of your rotator cuff. For now you need Rest, Ice, elevate. Normally you put compression like an ace bandage on an injured joint but that doesn't work on a shoulder. |
what is the typical distance between asteroids in the asteroid belt | The asteroid belt contains more than 200 asteroids larger than 60 miles wide. Scientists estimate that there are more than 750,000 asteroids in the belt wider than 3/5 mile. There are millions of smaller asteroids. The average distance between asteroids in the main belt is about 600,000 miles. Ceres, the largest and most massive, is 590 miles wide. It contains almost one-third of the total mass of all the | Confidence votes 6. Unlike old science fiction movies which gives you the impression that asteroids are close together, the average distance between asteroids is approximately 1 million km. If you were to travel through the asteroid belt, the chance of encountering an asteroid is next to nothing. | The Asteroid Belt is located in an area of space between the orbits of Mars and Jupiter. That places it between 2.2 and 3.2 astronomical units (AU) from the Sun. The belt is about 1 AU thick. The average distance between objects in the Asteroid Belt is quite large. If you could stand on an asteroid and look around, the next one would be too far away to see very well. Various Asteroids – www.nasa.gov/centers/jpl/news/dawn20110718.html. | Astronomers estimate that the average distance between two asteroids in the asteroid belt is about 600,000 miles (966,000 km). This is about 2.5 times the distance between the Earth and the Moon. That is a lot of space between two neighboring asteroids! | Because the asteroid belt is between the Mars and Jupiter orbits, it is around 2.2 to 3.2 Astronomical Units (AU) from the Sun – which is approximately 329,115,316 to 478,713,186 km. The average distance between objects is a massive 600,000 miles. |
what are the requirements for a registered dietitian | A registered dietitian (RD) or registered dietitian nutritionist (RDN), is a dietitian who meets all of a set of special academic and professional requirements, including: 1 the completion of a bachelor's degree with an accredited nutrition curriculum. | See the CDR website for up to date details. A $200.00 fee is required for Registered Dietitian (RD) applicants and $120.00 for those wishing to become Dietetic Technicians, Registered (DTR). A varied length examination, each RD candidate will be given an exam between 125 and 145 questions. DTR candidates will have between 110 and 130 questions. These accreditations may be earned through the CDR or a number of other medical and nutritional professional bodies. Moreover, many states have their own requirements for Registered Dietitians. Many of these requirements can be met through the process used by the national accreditation of the CDR. | Education. Certification as a registered dietitian requires a bachelor’s degree in dietetics, nutrition or a related field from an accredited university. Those aspiring for certification should take high-level courses in biochemistry, physiology, food chemistry, anatomy, culinary arts and nutrition science. This increased to $27.88 for all registered dietitians regardless of experience. Dietitians earned the least in inpatient hospital settings ($25.96) and the most in food and nutrition management ($34.13). The median annual salary for registered dietitians with a year or more of experience was $59,300 | Educational Requirements for Dietitians. The minimum requirement for a career in dietetics is a bachelor's degree; however, some dietitians hold graduate degrees. There were 279 bachelor's and 18 master's degree programs approved by the Dietetic Association's (ADA) Commission on Accreditation for Dietetics Education (CADE) in 2009 (www.eatright.org). Dietitians must hold at least a bachelor's degree in dietetics, nutrition or another health science field. Some colleges and universities offer Bachelor of Science in Dietetics programs comprised of didactic curricula approved by the ADA. | Registered Dietitian Education Requirements. Dietitians are typically required to have at least a bachelor's degree in nutrition or dietetics. Common courses include nutritional assessment, clinical nutrition, food systems management and nutrient metabolism. In addition to coursework, students may complete seminars, research, clinical experiences and internships. |
the petrarchan sonnet is called by that name because | All of the above choices are correct regarding Petrarchan sonnet. **The Petrarchan sonnet is called by that name because Petrarch wrote proficiently in this form, Petrarch is the most popular writer in this form and Petrarch made the form famous. Added 3/27/2013 3:35:04 PM. All of the above choices are correct regarding Petrarchan sonnet. **The Petrarchan sonnet is called by that name because Petrarch wrote proficiently in this form, Petrarch is the most popular writer in this form and Petrarch made the form famous. Question. | The difference is in their structure-both have fourteen lines of iambic pentameter, but they are organized in different ways. A Petrarchan (also called an … Italian) sonnet, is composed of an octave (eight lines) followed by a sestet (six lines). The rhyme scheme of the octave is typically abbaabba (this is easy in Italian because so many words end in suffixes like -ello or -etto). | Form [edit]. The rhyme scheme for the octave is typically a b b a a b b a. The sestet is more flexible. Petrarch typically used c d e c d e or c d c d c d for the sestet. Some other possibilities for the sestet include c d d c d d, c d d e c e, or c d d c c d (as in Wordsworth 's Nuns Fret Not at Their Convents Narrow Room poem). The sonnet is split in two groups: the octave (of 8 lines) and the sestet (of 6 lines), for a total of 14 lines. The octave (the first 8 lines) typically introduces the theme or problem using a rhyme scheme of abba abba. | The Petrarchan sonnet was the first kind of sonnet to be introduced into England. It was first translated by Sir Thomas Wyatt in the early 1500s. This type of sonnet got its name from Italian poet, Francesco Petrarca, a 14th-century Italian. It is a two-stanza poem with an octave, a sestet and a total of 14 lines. The Petrarchan sonnet has an a-b-b-a, a-b-b-a, c-d-e, c-d-e rhyming system. Francesco Petrarca was a humanist, scholar and poet from Italy. | The Petrarchan sonnet is called by that name because: a. Petrarch wrote proficiently in this form c. Petrarch is the most popular writer in this form b. Petrarch made the form famous d. All of the above choices are correct regarding Petrarchan sonnet. **The Petrarchan sonnet is called by that name because Petrarch wrote proficiently in this form, Petrarch is the most popular writer in this form and Petrarch made the form famous. Question. |
gdp per capita definition | GDP per capita is a measure of average income per person in a country. 1 GDP stands for Gross domestic product. 2 This measure National income / National Output and National expenditure. 3 GDP per capita divides the GDP by the population. 4 Real GDP per capita takes into account inflation. 1 | An approximation of the value of goods produced per person in the country, equal to the country's GDP divided by the total number of people in the country. YES NO 3 people found this helpful. “ Even though China is expected to overtake the United States in total Gross Domestic Product (GDP), the United States still maintains a significantly higher GDP per capita, which indicates a higher standard of living for the average U.S. citizen. | Noun. 1. gross domestic product-the measure of an economy adopted by the United States in 1991; the total market values of goods and services produced by workers and capital within a nation's borders during a given period (usually 1 year). GDP | GDP per capita is a measure of average income per person in a country. 1 GDP stands for Gross domestic product. 2 GDP per capita divides the GDP by the population. 3 Real GDP per capita takes into account inflation. 1 GDP stands for Gross domestic product. 2 This measure National income / National Output and National expenditure. 3 GDP per capita divides the GDP by the population. 4 | Definition. Gross Domestic Product. The total market value of all final goods and services produced in a country in a given year, equal to total consumer, investment and government spending, plus the value of exports, minus the value of imports. GDP Reporting. |
nova tuition fee | Tuition and Fees. The anticipated tuition for 2015-16 is $48,193 for Florida residents and $52,698 for out-of-state students. A microscope/laboratory fee of $100 is required for first-year students. A Health Professions Division student access fee of $145 is required each year. | Tuition and Fees. Expected tuition for 2015-2016 is $29,950 (U.S.) for Florida* and Puerto Rico residents and $33,725 (U.S.) for out-of-state residents, and is subject to change by the board of trustees without notice. A HPD general access fee of $145 and an NSU student services fee of $1,050 is also required annually. | Tuition and Fees. Expected tuition for 2015-2016 is $29,950 (U.S.) for Florida* and Puerto Rico residents and $33,725 (U.S.) for out-of-state residents, and is subject to change by the board of trustees without notice. A HPD general access fee of $145 and an NSU student services fee of $1,050 is also required annually. | Tuition and Fees. 1 Tuition for 2015-2016 (subject to change by the Board of Trustees without notice): $27,775 per year for both Florida residents and out of state students. 2 A Health Professions Division general access fee of $145 is required each year. 3 An NSU student services fee of $1050.00 is also required annually. | Tuition and Fees. 1 Tuition for 2015-2016 (subject to change by the Board of Trustees without notice): $27,775 per year for both Florida residents and out of state students. 2 A Health Professions Division general access fee of $145 is required each year. 3 An NSU student services fee of $1050.00 is also required annually. |
what makes your fingers swell | Some of the most common causes of swelling fingers include arthritis, fluid retention, and pregnancy. In addition, finger edema can be caused by cardiac problems, abnormal kidney function, and allergies. Before treatment can be implemented to reduce swelling, a thorough medical examination must take place. Pregnant women often experience swollen fingers and feet. Swelling fingers may be indicative of a cardiac problem. Swelling fingers may be a sign of an allergic reaction. A problem with the kidneys can cause bloated or swollen hands. Swelling fingers can be a sign of kidney problems that require dialysis to treat. Arthritis is a common cause of swelling fingers | When swelling in your fingers is present for a significant period of time, continues to worsen or has no obvious cause -- such as an injury or insect bite -- see your physician as soon as possible to determine the underlying cause and begin treatment. Infection. An infection on the wrist, hand or fingers may cause swelling, depending on the severity of the infection. The skin may also feel hot to the touch and may be painful. | Elevate your hands and fingers. Swelling can be caused by poor circulation or blood that stagnates in your hands. Elevating your hands will help any accumulated blood flow back down to the body. 1 Raise your swollen fingers above your heart for 30 minutes at least 3 or 4 times per day to treat severe edema. 3. Rub your swollen fingers. Massage the tissues in the swollen fingers toward your heart. Use strong, firm rubbing motions. A hand massage will stimulate the muscles and blood flow to your fingers, which will help push out the excess fluid that causes your fingers to swell. | Because a swollen finger can be a sign of a serious infection or inflammation, you should talk with your medical professional about your symptoms. If you experience finger swelling with pain, redness, or warmth, seek prompt medical care. Health Stories: Read how this real patient found the right care. A swollen finger is a sign of fluid buildup or inflammation of the tissues or joints of the finger. Finger swelling can result from serious infections, inflammation, trauma, and other abnormal processes. | Swollen fingers and hands may be a sign of hyponatremia, but other signs, such as confusion and vomiting, are more prominent than is swelling. Drinking too much water, particularly during a marathon or similar long, strenuous event, may cause your body's sodium to become so diluted that you become hyponatremic. |
third amendment explanation for kids | The third amendment was introduced into the United States Constitution as a part of the Bill of Rights on September 5, 1789 and was ratified or voted for by three fourths of the states on December 15, 1791. The Text of the Third Amendment. The text of the Third Amendment which is found in the United States Constitution and the Bill of Rights is the following: No soldier shall, in time of peace be quartered in any house, without the consent of the owner, nor in time of war, but in manner to be prescribed by law. History of the Third Amendment. The Third Amendment was introduced by James Madison. The Third Amendment said that no soldier could demand a place to stay during wartime, although a soldier of the United States government could ask someone for a place to stay. | The Third Amendment was introduced in Congress in 1789 by James Madison as a part of the United States Bill of Rights, in response to Anti-Federalist objections to the new Constitution. Congress proposed the amendment to the states on September 28, 1789, and by December 15, 1791, the necessary three-quarters of the states had ratified it. Secretary of State Thomas Jefferson announced the adoption of the amendment on March 1, 1792. | Here is a list of the first 10 amendments to the Constitution, the Bill of Rights: The First Amendment-states that Congress shall make no law preventing the establishment of religion or prohibiting its free exercise. Also protected are freedom of speech, freedom of the press, freedom of assembly, and the right to petition the Government for a redress of grievances. The Second Amendment-protects citizen's right to bear arms. The Third Amendment-prevents the government from placing troops in private homes. | From the Constitution. Here is the text of the Third Amendment from the Constitution: No Soldier shall, in time of peace be quartered in any house, without the consent of the owner, nor in time of war, but in a manner to be prescribed by law. 1 It is sometimes referred to as Amendment III. 2 Patrick Henry said that the quartering of soldiers was one of the principal reasons for dissolving the connection with Great Britain.. 3 The U.S. government quartered troops in private homes during the War of 1812 and the Civil War. | The Bill of Rights are the first 10 amendments to the United States Constitution. The idea behind the Bill of Rights was to insure certain freedoms and rights to the citizens of America. Also protected are freedom of speech, freedom of the press, freedom of assembly, and the right to petition the Government for a redress of grievances. The Second Amendment-protects citizen's right to bear arms. The Third Amendment-prevents the government from placing troops in private homes. |
what is estrogen dominance | Tweet Estrogen dominance refers to an excess of estrogen when progesterone levels are inadequate. This condition can occur in women during the reproductive years, but tends to be particularly symptomatic for women during perimenopause and in menopause. | Estrogen dominance is a term that describes a condition where a woman can have deficient, normal or excessive estrogen, but has little or no progesterone to balance its effects in the body. Even a woman with low estrogen levels can have estrogen dominance symptoms if she doesn't have enough progesterone. | Estrogen Dominance-An Elevated Estradiol to Progesterone Ratio. Estrogen dominance is a term coined by Dr. Lee in his first book on natural progesterone. It describes a condition where a woman can have deficient, normal or excessive estrogen, but has little or no progesterone to balance its effects in the body. | In fact, far more women suffer from the effects of “estrogen dominance” during the transition—that is, they have too much estrogen relative to progesterone. And some women can suffer from the symptoms of estrogen dominance for 10 to 15 years, beginning as early as age 35. | High estrogen or estrogen dominance can happen if estrogen levels are too great. These higher levels can occur naturally. Too much estrogen can also be the result of medication. For example, estrogen replacement therapy, a popular treatment during menopause, may cause the hormone to reach problematic levels. |
temperature of boiled water | Boiling water. The boiling point of a substance is the temperature at which the vapor pressure of the liquid equals the pressure surrounding the liquid and the liquid changes into a vapor. Similarly, a liquid at saturation pressure and temperature will tend to flash into its vapor phase as system pressure is decreased. There are two conventions regarding the standard boiling point of water: The normal boiling point is 99.97 °C (211.9 °F) at a pressure of 1 atm (i.e., 101.325 kPa). | Therefore, hard water boils at a higher temperature. The difference in the boiling point between typical supplies of hard and soft water is about a degree or two. Alcohol: Alcohol has a lower boiling point that water (about 175° F as compared with 212° F). High Altitude: Water boils at less than 212 F (approximately 96 F). Each 500 foot increase in altitude causes a drop of about 1 in the boiling point. Sea Level: Water boils at 212 F and simmers at 190 F. Tepid Water - 85 to 105 F. The water is comparable to the temperature of the human body. Warm Water - 115 to 120 F. The water is touchable but not hot | 100 212. 2nd answer: Water boils at 212 degrees on the Fahrenheit scale, which is 100 degrees on the Celsius scale, but only at sea level at a specific air pressure. If you boil water, say, half-way up Mount Everest, the boiling point temperature is so low that it is very difficult to cook food. At higher altitudes, the pressure is lower, and so water boils at a lower temperature. If the barometric pressure is not at the standard value, the boiling point will be different. For example, water boils at 72 degrees Celsius on Mount Everest. | The boiling point of water is 100°C or 212° F at 1 atmosphere of pressure (sea level), but water boils at a lower temperature as you gain altitude (e.g., on a mountain) and boils at a higher temperature if you increase atmospheric pressure (lived below sea level). Water which contains impurities (such as salted water) boils at a higher temperature than pure water. This phenomenon is called boiling point elevation, which is one of the colligative properties of matter. | 100°C, 212°F or 373.15 Kelvin Water boils at 100 degrees Celsius, 212 degrees Fahrenheit or 373.15 Kelvin under standard conditions at sea level (at one atmosphere of pressure). The boiling point of water and any other substance depends on the atmospheric pressure, which changes with elevation. At higher altitudes, the pressure is lower, and so water boils at a lower temperature. If the barometric pressure is not at the standard value, the boiling point will be different. For example, water boils at 72 degrees Celsius on Mount Everest. |
temperature of boiled water | You can compare this to the boiling point of water, which is 100 C (or 212 F). The boiling point of a liquid is the temperature where the liquid will change into a gas. The reason that different liquids boil at different temperatures is because of the chemical bonds that hold them together. | The boiling point of water also depends on the purity of the water. Water which contains impurities (such as salted water) boils at a higher temperature than pure water. This phenomenon is called boiling point elevation, which is one of the colligative properties of matter. | 212 degrees F (Fahrenheit). At standard pressure (the pressure of the earth's atmosphere at sea level), water boils at 100 degrees Celsius. (The same temperature as 212 degrees Fahrenheit and 373.15 Kelvin.). At lower atmospheric pressure (e.g. at higher altitudes), water will boil at a lower temperature. If under higher pressure (e.g. inside a pressure cooker), it will take higher temperature than 100 degrees Celsius to make water boil. 100 degrees Celsius | It is proper therefore to describe the temperature of the boiling point of water at sea level as being 373.15 Kelvin (not 373,15 degrees Kelvin), and the freezing point of water as 273.15 Kelvin (or 273.15 K). 26. The lower the pressure the lower will be the temperature at which water boils. At sea level water boils at 212 degrees Fahrenheit; At 12,087ft in Tibet, water boils at 188.6 degrees Fahrenheit; At the top of Mt. Everest water boils at 159.8 degrees Fahrenheit. | Therefore, hard water boils at a higher temperature. The difference in the boiling point between typical supplies of hard and soft water is about a degree or two. Alcohol: Alcohol has a lower boiling point that water (about 175° F as compared with 212° F). High Altitude: Water boils at less than 212 F (approximately 96 F). Each 500 foot increase in altitude causes a drop of about 1 in the boiling point. Sea Level: Water boils at 212 F and simmers at 190 F. Tepid Water - 85 to 105 F. The water is comparable to the temperature of the human body. Warm Water - 115 to 120 F. The water is touchable but not hot |
what does a gluten free diet mean | Definition. A gluten-free diet is a diet that excludes the protein gluten. Gluten is found in grains such as wheat, barley, rye, and a cross between wheat and rye called triticale. A gluten-free diet is primarily used to treat celiac disease. Gluten causes inflammation in the small intestines of people with celiac disease. | What foods contain gluten? A gluten free diet is a diet completely free of ingredients derived from gluten-containing foods: wheat (including Kamut and spelt), barley, rye, oats and triticale, as well as the use of gluten as a food additive in the form of a flavoring, stablizing or thickening agent. People wishing to follow a completely gluten free diet must also take into consideration the ingredients of any over-the-counter or prescription medications and vitamins. Also, cosmetics such as lipstick, lip balms, and lip chap may contain gluten and need to be investigated before use. | Gluten free means foods that do not have gluten. Commonly found in wheat, gluten is a type of protein. It is also found in barley and rye. Gluten is the ingredient that gives dough its elasticity. Some topical beauty treatments use gluten. Gluten is used extensively as a food additive. | Gluten (from Latin gluten, glue ) is a protein composite found in wheat and related grains, including barley and rye. Gluten gives elasticity to dough, helping it rise and keep its shape and often gives the final product a chewy texture. | A gluten-free diet is called a gluten-free diet because the grains that must be avoided all contain a protein called gluten. Most people who follow a gluten-free diet have celiac disease, a serious genetically-based autoimmune disease. A gluten-free diet does not include the grains wheat, barley, rye, or hybrids of these grains. This includes all varieties and forms of these grains, such as spelt (a type of wheat) and malt (made from barley) |
what is a tsunami? how are they produced? | A tsunami (plural: tsunamis or tsunami; from Japanese: 津波, lit. harbor wave; English pronunciation: /tsuːˈnɑːmi/) , also known as a seismic sea wave, is a series of waves in a water body caused by the displacement of a large volume of water, generally in an ocean or a large lake. Earthquakes, volcanic eruptions and other underwater explosions (including detonations of underwater nuclear devices), landslides, glacier calvings, meteorite impacts and other disturbances above or below water all have the potential to generate a tsunami. | An earthquake generates a tsunami if it is of sufficient force and there is violent movement of the earth to cause substantial and sudden displacement of a massive amount of water. A tsunami is not a single wave but a series of waves, also known as a wave train. The first wave in a tsunami is not necessarily the most destructive. Tsunamis are not tidal waves. Tsunami waves can be very long (as much as 60 miles, or 100 kilometers) and be as far as one hour apart. They are able to cross entire oceans without great loss of energy. | Tsunamis may also be caused by underwater landslides or volcanic eruptions. They may even be launched, as they frequently were in Earth’s ancient past, by the impact of a large meteorite plunging into an ocean. Tsunamis race across the sea at up to 500 miles (805 kilometers) an hour—about as fast as a jet airplane. Killer Waves. Photograph by Deshakalyan Chowdhury/AFP/Getty Images. A tsunami is a series of ocean waves that sends surges of water, sometimes reaching heights of over 100 feet (30.5 meters), onto land. These walls of water can cause widespread destruction when they crash ashore. | Tsunami are waves caused by sudden movement of the ocean due to earthquakes, landslides on the sea floor, land slumping into the ocean, large volcanic eruptions or meteorite impact in the ocean. | Tsunami is a set of ocean waves caused by any large, abrupt disturbance of the sea-surface. If the disturbance is close to the coastline, local tsunamis can demolish coastal communities within minutes. A very large disturbance can cause local devastation AND export tsunami destruction thousands of miles away. The word tsunami is a Japanese word, represented by two characters: tsu, meaning, harbor, and nami meaning, wave. Tsunamis rank high on the scale of natural disasters. |
why is a mushroom called a fruiting body | 99 pages on this wiki. The fruit body of a mushroom, formally known as a basidocarp, is only the reproductive organ of the greater mushroom organism. Because it is the only part of the mushroom which is externally visible and the only part which is consumed, it is commonly considered to be the mushroom itself. | To get more specific about the body parts of a mushroom, the fruiting body of the most common mushrooms have a stem (stipe), a cap (pileus), and gills (lamellae). Indeed, since we are getting technical about it, there are two kinds of sporocarp that most people recognize. | The fruiting body or fruit body in fungi is called the sporocarp. Details: When most people see a sporocarp … they call this a mushroom, but this fleshy fruiting body is only the visible part of the living organism that is popular for eating. | What we recognize as a mushroom or toadstool is the fruiting body. The fruiting body or fruit body in fungi is called the sporocarp. Details: When most people see a sporocarp they call this a mushroom, but this fleshy fruiting body is only the visible part of the living organism that is popular for eating. | Short Answer: The fruiting body or fruit body in fungi is called the sporocarp. Details: When most people see a sporocarp they call this a mushroom, but this fleshy fruiting body is only the visible part of the living organism that is popular for eating. The fruiting body only develops as part of the asexual phase of the fungal life cycle for spore production. To get more specific about the body parts of a mushroom, the fruiting body of the most common mushrooms have a stem (stipe), a cap (pileus), and gills (lamellae). |
how much did manziel make in nfl | General manager Ray Farmer on Tuesday announced that No. 22 overall pick Johnny Manziel has agreed to terms on a four-year contract. NFL Media Insider Ian Rapoport reported the deal to be worth approximately $8.3 million with a signing bonus of roughly $4.3 million, per a source who's seen the contract. | Breaking: Browns have agreed to terms with first-round draft pick Johnny Manziel pic.twitter.com/qIaRCAXCIV. Manziel will earn $8.247 million during the course of his four-year deal with a $4.32 million signing bonus, and the club holds an option for year No. 5. The Browns traded up to No. 22 in the first round in order to land Manziel in a move that won Twitter applause from CBSSports.com's Pete Prisco | Current Contract. Johnny Manziel signed a 4 year, $8,248,596 contract with the Cleveland Browns, including a $4,318,980 signing bonus, $7,998,596 guaranteed, and an average annual salary of $2,062,149. In 2015, Manziel will earn a base salary of $794,936. Manziel has a cap hit of $1,874,681 while his dead money value is $6,498,485. | The highest paid NFL star, in terms of sponsorship dollars, is Peyton Manning, who makes an estimated $12 million to $15 million per year. The sheer quantity of teams in need of a QB, though, means Manziel is unlikely to fall outside of the draft's top 10. In a best-case scenario, the total value of his contract could surpass $50 million if his fifth-year option is exercised come 2017. | Almost every analyst expects Manziel to be drafted in the first round, and he'll likely be taken off the board sooner rather than later. If he goes within the top 10 picks, his rookie deal should be worth between $12 million and $22 million over four years. The sheer quantity of teams in need of a QB, though, means Manziel is unlikely to fall outside of the draft's top 10. In a best-case scenario, the total value of his contract could surpass $50 million if his fifth-year option is exercised come 2017. |
are guinea hens wild | The guinea fowl is a fairly resilient and highly adaptable bird and the guinea fowl is therefore found naturally in range of habitats. Wild guinea fowl can be found inhabiting jungles, forests, shrublands, grasslands and even areas of desert, depending on the abundance of food. | The wild-guinea fowl of West Africa is regarded as the original of the domestic stock. There are two common varieties, the Pearl and the White. | The guinea fowl often has long, dark coloured feathers and a bald neck and head which makes the guinea fowl a very distinctive bird. The guinea fowl is a fairly resilient and highly adaptable bird and the guinea fowl is therefore found naturally in range of habitats. | A domestic guinea hen lays seasonally, just as her wild cousins do. Some time between March and May, when she is 26 to 28 weeks old, an average hen will lay about 100 eggs. She will continue laying that number each year until she is five years old (or even older). | In their native Africa, guinea fowl have been used as domestic animals for hundreds of years as the large size of the guinea fowl means that just one bird can provide a great deal of food. Today, guinea fowl are farmed around the world for their meat, eggs and feathers. |
what is the main spoken language in china | The Chinese language known as Mandarin is the most common language in the world. But there are many other languages spoken in China, including Wu, Hunanese, Jiangxinese, Hakka, Yue (including Cantonese-Taishanese), Ping, Shaojiang, and Min. Each region has its own particular style of Mandarin, including variations in pronunciation and grammar. Standard Mandarin, the official Chinese language, is based on the Beijing dialect. | The official Language is, of course, Chinese, and Mandarin is the official national spoken language except in Hong Kong and Macau; however, many different languages, as I have listed, are spoken due to China having so many different ethnic groups residing there. + 14 others found this useful. | Standard Chinese (Putonghua/Guoyu/Huayu) is a standardized form of spoken Chinese based on the Beijing dialect of Mandarin. It is the official language of China and Taiwan, as well as one of four official languages of Singapore. It is one of the six official languages of the United Nations. Min Nan, part of the Min group, is widely spoken in southern Fujian, in neighboring Taiwan (where it is known as Taiwanese or Hoklo) and in Southeast Asia (also known as Hokkien in the Philippines, Singapore, and Malaysia). | Shanghai, China, Asia. Image courtesy of Taiwanese Secrets. In Shanghai and throughout Mainland China, Mandarin Chinese is the official language. Regional dialects are spoken in different areas across China, and in Shanghai, you’ll hear people speaking Shanghainese. If you’ve spent some time studying Mandarin, a few similar-sounding words may pop out at you. | Standard Chinese (known in China as Putonghua), a form of Mandarin Chinese, is the official national spoken language for the mainland and serves as a lingua franca within the Mandarin-speaking regions (and, to a lesser extent, across the other regions of mainland China). The Languages of China are the languages that are spoken by China's 56 recognized ethnic groups. |
who wrote the book who was thomas edison | He is credited with num Thomas Alva Edison was an American inventor, scientist and businessman who developed many devices that greatly influenced life around the world, including the phonograph, the motion picture camera, and a long-lasting, practical electric light bulb. His advanced work in these fields was an outgrowth of his early career as a telegraph operator. Edison originated the concept and implementation of electric-power generation and distribution to homes, businesses, and factories – a crucial development in the modern industrialized world. | Thomas Edison’s Early Life. Thomas Alva Edison was born on February 11, 1847, in Milan, Ohio. He was the seventh and last child born to Samuel Edison Jr. and Nancy Elliott Edison, and would be one of four to survive to adulthood. In his 84 years, Thomas Edison acquired a record number of 1,093 patents (singly or jointly) and was the driving force behind such innovations as the phonograph, the incandescent light bulb and one of the earliest motion picture cameras. | Thomas Alva Edison (February 11, 1847 – October 18, 1931) was an American inventor and businessman. He developed many devices that greatly influenced life around the world, including the phonograph, the motion picture camera, and the long-lasting, practical electric light bulb. More significant than the number of Edison's patents was the widespread impact of his inventions: electric light and power utilities, sound recording, and motion pictures all established major new industries world-wide. Edison's inventions contributed to mass communication and, in particular, telecommunications. | Thomas Alva Edison, Jr. Thomas Alva, Junior, was born on January 10, 1876. Since his sister Marion was nicknamed “Dot,” he was nicknamed “Dash.” He boarded at St. Paul’s School in Concord, New Hampshire and the J.M.Hawkins School in Staten Island, New York. Theodore Miller Edison was born at Glenmont on July 10, 1898. Edison was 51 when his son was born. He was named after a beloved brother of Mina who had just died in the Spanish-American War. | Thomas Edison (1847 – 1931) was an American inventor and businessman who developed and made commercially available – many key inventions of modern life. His Edison Electric company was a pioneering company for delivering DC electricity directly into people’s homes. Thomas Edison was born in Milan, Ohio on Feb 11, 1847, the youngest of seven siblings. His parents were middle class, though they were not wealthy, especially when the railroad bypassed Milan, forcing the family to move to Port Huron, Michigan. |
who wrote the book who was thomas edison | Edison was also a great admirer of the enlightenment thinker Thomas Paine. He wrote a book praising Paine in 1925, he also shared similar religious beliefs to Thomas Paine – no particular religion, but belief in a Supreme Being. Thomas Edison was born in Milan, Ohio on Feb 11, 1847, the youngest of seven siblings. His parents were middle class, though they were not wealthy, especially when the railroad bypassed Milan, forcing the family to move to Port Huron, Michigan. | Thomas Edison’s Early Life. Thomas Alva Edison was born on February 11, 1847, in Milan, Ohio. He was the seventh and last child born to Samuel Edison Jr. and Nancy Elliott Edison, and would be one of four to survive to adulthood. In his 84 years, Thomas Edison acquired a record number of 1,093 patents (singly or jointly) and was the driving force behind such innovations as the phonograph, the incandescent light bulb and one of the earliest motion picture cameras. | Thomas Edison (1847 – 1931) was an American inventor and businessman who developed and made commercially available – many key inventions of modern life. His Edison Electric company was a pioneering company for delivering DC electricity directly into people’s homes. Thomas Edison was born in Milan, Ohio on Feb 11, 1847, the youngest of seven siblings. His parents were middle class, though they were not wealthy, especially when the railroad bypassed Milan, forcing the family to move to Port Huron, Michigan. | This section contains a summary about America's greatest inventor, Thomas Alva Edison. It highlights his life as an inventor, entrepreneur and businessman. The first practical incandescent light bulb is the invention for which he is most remembered, but he often said the. was his favorite invention. In 1868, Edison's close friend, Milton Adams was working at the Franklin Telegraph Company in Boston when he received a message from Tom who was then visiting home in Port Huron; Tom went home because his father had just died. | Thomas Alva Edison, Jr. Thomas Alva, Junior, was born on January 10, 1876. Since his sister Marion was nicknamed “Dot,” he was nicknamed “Dash.” He boarded at St. Paul’s School in Concord, New Hampshire and the J.M.Hawkins School in Staten Island, New York. Theodore Miller Edison was born at Glenmont on July 10, 1898. Edison was 51 when his son was born. He was named after a beloved brother of Mina who had just died in the Spanish-American War. |
is birdsfoot trefoil native | Native Range: Europe, Asia (BAIL); Birdsfoot trefoil is a low-growing, perennial forb with stems that can reach 2 ft. (0.6 m) long. Leaves are compound (with 5 oval to linear leaflets), stipulate and alternate. Leaflets (upper 3) are 0.5 in. (1.3 cm) long and less than 1/8 in. (0.3 cm) wide; the lower two resemble leaf-like stipules. (1.5-3.5 cm) long, contains up to 49 seeds and has a persistent style at the apex. Birdsfoot trefoil is native to Eurasia and North Africa and occurs in pastures, roadsides, wetlands, disturbed grasslands and riparian areas. | By: Vicki Medland | Published: June 26, 2012 | Comments Off. Lotus corniculatus (Birdsfoot Trefoil). It seems there is an abundance of Lotus corniculatus (Birdsfoot trefoil) along the edges of the paths in the Cofrin Arboretum right now. The name originates from the seed pods that fan out from the stem like a bird foot. The three-lobed trefoil leaves are found in many species in the pea family (Fabaceae). | Birdsfoot trefoil is a perennial that adapts well to production on poorly drained, low-pH soils. Figure 1. Birdsfoot trefoil. Producing high-quality forage for cattle and sheep has traditionally been difficult on marginal lands in Pennsylvania and New York. Soils with few limitations are generally sown to alfalfa. Soils with a low pH, poor drainage, poor native fertility, or fragipans prone to heaving are not suitable for alfalfa production. Birdsfoot trefoil (Lotus corniculatus L.) is a forage legume that is more tolerant of these adverse production conditions. Birdsfoot trefoil is a perennial that adapts well to production on poorly drained, low-pH soils (Table 1). It can reseed itself, is resistant to Phytophthora root rot and numerous alfalfa insects, responds well to fertilization, and does not cause bloat in animals. | Lotus corniculatus is a common flowering plant in the pea family Fabaceae, native to grassland in temperate Eurasia and North Africa. Common names include common bird's-foot trefoil and just bird's-foot trefoil, though the common name is often also applied to other members of the genus. It is also known in cultivation in North America as bird's-foot deervetch. It is a perennial herbaceous plant, similar in appearance to some clovers | Lotus corniculatus L., Birdsfoot Trefoil is a short-lived, non-bloating perennial legume which has the ability to reseed itself under proper management. Stems are smaller in diameter and less rigid than alfalfa stems and can grow to a height of 12 to 30 inches depending on whether it is a prostrate or erect variety. |
how far did the ottoman empire extend into europe | The Ottoman Empire lasted from 1299 to 1923, with the height being around the mid 1400s to mid 1500s. They were known for absorbing surrounding cultures, and making them p … art of their own. No, he believed it was his duty to protect Catholicism against the Muslims of the Ottoman Empire, the Protestant countries of Europe (England, Scotland, Netherlands, Switz … erland), and their allies (France). | In the century after the death of Osman I, Ottoman rule began to extend over the Eastern Mediterranean and the Balkans. Osman's son, Orhan, captured the city of Bursa in 1324 and made it the new capital of the Ottoman state. After its defeat at the Battle of Vienna in 1683, however, the empire began a slow decline, culminating in the defeat of the empire by the Allies in World War I. | In History of the Middle East. No, he believed it was his duty to protect Catholicism against the Muslims of the Ottoman Empire, the Protestant countries of Europe (England, Scotland, Netherlands, Switz … erland), and their allies (France). | Making the world better, one answer at a time. Ottoman Empire was at its peak during 16th and 17th century, particularly during the reign of Suleiman the Magnificent. It stretched from Southeast Europe to Western Asia and North Africa till Horn of Africa. It was a major world power in those days. The Ottoman Empire lasted from 1299 to 1923, with the height being around the mid 1400s to mid 1500s. They were known for absorbing surrounding cultures, and making them p … art of their own. | The Ottoman Empire was one of the greatest empires in world history, both in size and duration. The Ottoman Empire grew up in Anatolia (in modern Turkey) during the 13th and 14th centuries, and spread throughout south-western Europe, much of the Middle East and North Africa during the 14th, 15th and 16th centuries. Its extent, duration and impact made it one of the greatest empires in world history. |
what does the pancreas do for the human body | The pancreas has an endocrine function because it releases juices directly into the bloodstream, and it has an exocrine function because it releases juices into ducts. Enzymes, or digestive juices, produced by the pancreas are secreted into the small intestine to further break down food after it has left the stomach. The gland also produces the hormone insulin and secretes it into the bloodstream in order to regulate the body's glucose or sugar level. Knowledge center. The pancreas is a gland organ that is located in the abdomen. It is part of the digestive system and produces important enzymes and hormones that help break down foods. | It functions as an exocrine organ by producing digestive enzymes, and as an endocrine organ by producing hormones. Insulin is the most important hormone produced by the pancreas. The pancreas secretes its digestive enzymes, through a system of ducts into the digestive tract, while it secretes its variety of hormones directly into the bloodstream. The pancreas has both an exocrine and an endocrine secretion. The exocrine secretion is made up of a number of enzymes that are discharged into the intestine to aid in digestion. The endocrine secretion, insulin, is important in the metabolism of sugar in the body | The pancreas is a small (5 to 6 inches) gland that produces insulin and enzymes used for digestion. Insulin regulates the use of blood sugar throughout the body and is therefo … re necessary for life. The pancreas also produces a fluid that neutralizes stomach acid. The beta cells of the pancreas also make insulin which helps control blood glucose levels and allows glucose to enter the cells to be used for energy. Pancreas: Function The pancreas is a small organ, approximately six inches long, located in the upper abdomen, and adjacent to the small intestine. | In pancreatitis, enzymes of the exocrine pancreas damage the structure and tissue of the pancreas. Detection of some of these enzymes, such as amylase and lipase in the blood, along with symptoms and findings on X-ray, are often used to indicate that a person has pancreatitis. The pancreas is a secretory structure with a internal hormonal role (endocrine) and an external digestive role (exocrine) . It has two main ducts, the main pancreatic duct, and the accessory pancreatic duct. These drain enzymes through the ampulla of Vater into the duodenum. | The pancreas is also a digestive organ, secreting pancreatic juice containing digestive enzymes that assist digestion and absorption of nutrients in the small intestine. These enzymes help to further break down the carbohydrates, proteins, and lipids in the chyme. The pancreas is a secretory structure with a internal hormonal role (endocrine) and an external digestive role (exocrine) . It has two main ducts, the main pancreatic duct, and the accessory pancreatic duct. These drain enzymes through the ampulla of Vater into the duodenum. |
is river thames a estuary | View of the upper Thames estuary from Tilbury to Mucking Creek looking north from Shorne, which is 4 kilometres south of the river. The Thames Estuary is the estuary in which the River Thames meets the waters of the North Sea. It is not easy to define the limits of the estuary. | Below Teddington Lock (about 55 miles or 89 kilometres upstream of the Thames Estuary), the river is subject to tidal activity from the North Sea. Before the lock was installed, the river was tidal as far as Staines, about 16 miles (26 km) upstream. It is the longest river entirely in England and the second longest in the United Kingdom, after the River Severn. While it is best known for flowing through London, the river also flows alongside other towns and cities, including Oxford, Reading, Henley-on-Thames and Windsor. | The river gives its name to three informal areas: the Thames Valley, a region of England around the river between Oxford and west London; the Thames Gateway; and the greatly overlapping Thames Estuary around the tidal Thames to the east of London and including the waterway itself. It is the longest river entirely in England and the second longest in the United Kingdom, after the River Severn. While it is best known for flowing through London, the river also flows alongside other towns and cities, including Oxford, Reading, Henley-on-Thames and Windsor. | Back to top. The Thames Estuary is one of the United Kingdom’s major east-coast estuaries. It extends from the tidal limit of the River Thames at Teddington Lock in the west, through the heart of London, out to the North Sea. The character of the flooding changes from a fluvial dominance in the upstream reaches to the hazards posed by storm surges and waves in the downstream reaches. | chart of the Rivers of the Estuary. antique chart of the River Thames and The Estuary. If you want to be in the know about your user statistic and those of the other users of this site, click on this link to the webanalysis, log in under the user name I_m and the password informed and you'll be surprised. |
what is briwax used for | Briwax is a blend of beeswax and carnauba wax, two of the finest waxes known to man. Briwax is designed to protect all wood and any finish that may be applied to it. Use Briwax on all woods, leather, marble, concrete, metal and painted surfaces. | Known as The World's Premier Finishing Wax. Briwax is a blend of beeswax and carnauba wax, two of the finest waxes known to man. Briwax is designed to protect raw wood and can be applied to virtually any existing finish. Use Briwax on all woods, untreated leather, marble, concrete, metal and painted surfaces. | Briwax can be used as the only finish or over almost any finish. Just remember, Briwax is the FINAL finish – nothing goes over Briwax. Briwax is available in a one-pound can or a 7-pound trade size can known as a Trade Size can. The Trade Size looks very similar to a one-gallon paint can. | BRIWAX-Known as The World's Premier Finishing Wax is available at BLOOMFIELD TREASURES. BRIWAX is a blend of beeswax and carnauba wax, two of the finest waxes known to man. BRIWAX is designed to protect raw wood and can be applied to virtually any existing finish. | Known as The World's Premier Finishing Wax. Briwax is a blend of beeswax and carnauba wax, two of the finest waxes known to man. Briwax is designed to protect raw wood and can be applied to virtually any existing finish. Use Briwax on all woods, untreated leather, marble, concrete, metal and painted surfaces. |
how much does a teacher earn in duncan oklahoma | Nationwide, public school teachers earned a median salary of $44,690 while members of the other professions earned $50,784. 4 Of course, simple annual salary data do not furnish a full portrayal of teachers' monetary compensation, in large part because they do not account for actual time worked. Illinois has the highest adjusted salary at $55,283, Hawaii is lowest at $28,996, and the national average is $42,203. 2 California's salary drops from its unadjusted average of $64,424 to $41,692. | For the 959,770 secondary or high school level teachers, the mean annual salary is slightly higher at $57,770. The lowest ten percent make $36,930 and the top ten percent are compensated with a sizeable $85,690 each year. Industry of employment plays a prominent role in the annual salary of teachers at all levels. Teachers that hold positions as educational support only earn an average of $48,730, while those employed by state governments make an average of $59,070. Another factor that impacts salary for teachers is location. The 620,900 middle, intermediate, or junior high level teachers earn a mean annual salary of $56,280. The bottom ten percent makes $36,740, while the top ten percent earns $82,190 annually. | That same year, Oklahoma’s average salary for teachers was $44,128, which ranked 49th nationally and lowest in the region. The ranking was lower than it was more than 40 years ago, in 1969-1970, when Oklahoma was 46th in teacher pay, according to the center. In the 2012-2013 school year, Oklahoma spent $7,912 per student on average on public schools, ranking it 49th in the nation and last in the seven-state region, according to the National Center for Education Statistics. | Lyons, a Teacher of the Year candidate, said New York’s average teaching salary of $75,279 has made her contemplate leaving her friends and family for better economic opportunities. The average teacher pay in Oklahoma is $44,128. In the 2012-2013 school year, Oklahoma spent $7,912 per student on average on public schools, ranking it 49th in the nation and last in the seven-state region, according to the National Center for Education Statistics. | Salary Outlook. According to the BLS, in 2013, elementary school teachers earned a median average salary of $53,590. The best-paid earned about $83,600, while the lowest-paid made approximately $35,760 |
rabies genus name | Main article: Rabies virus. The rabies virus is the type species of the Lyssavirus genus, which encompasses other similar viruses. Lyssaviruses have helical symmetry, with a length of about 180 nm and a cross-sectional diameter of about 75 nm. | Rabies virus belongs to the order Mononegavirales, viruses with a nonsegmented, negative-stranded RNA genomes. Within this group, viruses with a distinct bullet shape are classified in the Rhabdoviridae family, which includes at least three genera of animal viruses, Lyssavirus, Ephemerovirus, and Vesiculovirus. | Rabies Virus Classification. Rabies virus belongs to the order Mononegavirales, which are viruses with a non-segmented, negative-stranded RNA genome. As stated above, the rabies virus is part of the Rhabdoviridae family of viruses, which includes at least three genera of animal viruses: | Scientific Name for Rabies: A Summary. The preferred scientific name for rabies is the rabies virus. The rabies virus, which is an RNA virus, is part of the Rhabdoviridae family of viruses. It appears that there are several variations of the rabies virus that are able to cause rabies. | The rabies virus has a cylindrical morphology and is the type species of the Lyssavirus genus of the Rhabdoviridae family. |
who, when and where did cubism begin | Cubism is an early-20th-century avant-garde art movement that revolutionized European painting and sculpture, and inspired related movements in music, literature and architecture. Cubism has been considered the most influential art movement of the 20th century. The term is broadly used in association with a wide variety of art produced in Paris (Montmartre, Montparnasse and Puteaux) during the 1910s and extending through the 1920s. Cubism began between 1907 and 1911. Pablo Picasso's 1907 painting Les Demoiselles d'Avignon has often been considered a proto-Cubist work. Georges Braque's 1908 Houses at L’Estaque (and related works) prompted the critic Louis Vauxcelles to refer to bizarreries cubiques (cubic oddities). | The first paintings in the style we call analytical cubism were painted in 1908 by Pablo Picasso and Georges Braque. They changed their style into synthetical cubism in 1912-1915. Other artists painted in styles that may be seen as cubism until about 1925. Cubism is a style of art created in 1908 by two famous painters Pablo Picasso and George Braque. They both used a lot of cubism in their paintings. | Cubism is a style of art created in 1908 by two famous painters Pablo Picasso and George Braque. They both used a lot of cubism in their paintings. - Many think that Cubism … is an art of transition, an experiment which is to bring ulterior results. Those who think that way have not understood it. They changed their style into synthetical cubism in 1912-1 … 915. Other artists painted in styles that may be seen as cubism until about 1925. There was two stages of cubism. they were the analytic cubism and synthetic cubism. analytic was the early form of cubism, it lasted from 1907 to 1911. | How did Cubism start? Cubism started in Paris (France) in the early 20th Century, when Pablo Picasso and Georges Braque started to cooperate very closely by visiting their ateliers daily and exchan … ging all their ideas and new visual inventions in the years 1907 - 1914. They changed their style into synthetical cubism in 1912-1 … 915. Other artists painted in styles that may be seen as cubism until about 1925. There was two stages of cubism. they were the analytic cubism and synthetic cubism. analytic was the early form of cubism, it lasted from 1907 to 1911. | Cubism started in Paris (France) in the early 20th Century, when Pablo Picasso and Georges Braque started to cooperate very closely by visiting their ateliers daily and exchan … ging all their ideas and new visual inventions in the years 1907 - 1914. Cubism is a style of art created in 1908 by two famous painters Pablo Picasso and George Braque. They both used a lot of cubism in their paintings. |
who, when and where did cubism begin | View Slideshow View Thumbnails. Cubism was one of the most influential visual art styles of the early twentieth century. It was created by Pablo Picasso (Spanish, 18811973) and Georges Braque (French, 18821963) in Paris between 1907 and 1914. | How did Cubism start? Cubism started in Paris (France) in the early 20th Century, when Pablo Picasso and Georges Braque started to cooperate very closely by visiting their ateliers daily and exchan … ging all their ideas and new visual inventions in the years 1907 - 1914. They changed their style into synthetical cubism in 1912-1 … 915. Other artists painted in styles that may be seen as cubism until about 1925. There was two stages of cubism. they were the analytic cubism and synthetic cubism. analytic was the early form of cubism, it lasted from 1907 to 1911. | Cubism is a style of art created in 1908 by two famous painters Pablo Picasso and George Braque. They both used a lot of cubism in their paintings. - Many think that Cubism … is an art of transition, an experiment which is to bring ulterior results. Those who think that way have not understood it. They changed their style into synthetical cubism in 1912-1 … 915. Other artists painted in styles that may be seen as cubism until about 1925. There was two stages of cubism. they were the analytic cubism and synthetic cubism. analytic was the early form of cubism, it lasted from 1907 to 1911. | Cubism began as an idea and then it became a style. Based on Paul Cezanne'cézanne s three main-ingredients, geometricity (simultaneity multiple) views and-Passage cubism tried to, describe in visual, terms the concept of The Fourth. dimension Cubism began as an idea and then it became a style. Based on Paul Cezanne'cézanne s three main-ingredients, geometricity (simultaneity multiple) views and-Passage cubism tried to, describe in visual, terms the concept of The Fourth. Dimension cubism is a kind Of. realism | The first paintings in the style we call analytical cubism were painted in 1908 by Pablo Picasso and Georges Braque. They changed their style into synthetical cubism in 1912-1915. Other artists painted in styles that may be seen as cubism until about 1925. Cubism is a style of art created in 1908 by two famous painters Pablo Picasso and George Braque. They both used a lot of cubism in their paintings. |
which cell type is most abundant in the retina | Rod photoreceptors are very sensitive to light and are responsible for night vision. These are the most abundant cell type in the human retina and are located closest to the back of the eye, near the retinal pigmented epithelium (RPE). Cone photoreceptors are responsible for high acuity vision (like reading) and color discrimination. | The retina is composed of neural tissue and is located in the back of the eye, between the retinal pigment epithelium (RPE) and the vitreous body. The retina is a highly complex tissue, and is the most accessible part of the central nervous system (CNS) (Yang, 2004). | Other cell types are present in the retina as well. The retina is perfused by blood vessels which form three layers (plexi). Two of the vascular plexi are deep inside the retina and one is near the inner surface of the retina (Figure 1). These vessels are made up of vascular endothelial cells and mural cells. | Retinoblastoma is a rare type of eye cancer that usually develops in early childhood, typically before the age of 5. This form of cancer develops in the retina, which is the specialized light-sensitive tissue at the back of the eye that detects light and color. | Retinoblastoma is a cancer that starts in the retina, the very back part of the eye. It is the most common type of eye cancer in children. Rarely, children can have other kinds of eye cancer, such as medulloepithelioma, which is described briefly below, or melanoma. |
who invented the vaccine for smallpox | Smallpox vaccine, the first successful vaccine to be developed, was introduced by Edward Jenner in 1798. He followed up his observation that milkmaids who had previously caught cowpox did not later catch smallpox by showing that inoculated cowpox protected against inoculated smallpox. Another early account was Dr John Fewster 's 1765 paper on Cowpox and its ability to prevent smallpox read to the London Medical Society. He reported that variolation induced no reaction in persons who had had cowpox. Fewster was a contemporary and friend of Jenner. | Jenner then infected an 8-year-old boy with the cowpox. After six weeks, he exposed the boy to the smallpox disease and the boy did not show any smallpox related symptoms. Sone fun facts: -Jenner coined the term 'vaccine': 'vaca' means cow in Latin. -Before the vaccine, the death rate of the disease was up to 35%. Dr Edward Jenner discovered the vaccine in 1796 and published his findings in 1798. Edward Jenner invented the vaccine for small pox in 1798. He prepared the vaccine f … rom the cow pox virus. | Initially, the terms vaccine / vaccination referred only to smallpox, but in 1881 Louis Pasteur proposed that to honour Jenner the terms be widened to cover the new protective inoculations being introduced. Another early account was Dr John Fewster 's 1765 paper on Cowpox and its ability to prevent smallpox read to the London Medical Society. He reported that variolation induced no reaction in persons who had had cowpox. Fewster was a contemporary and friend of Jenner. | Edward Jenner, an English physician, discovered the smallpox vaccine in 1796. He came upon this discovery by noticing that milkmaids who had the cowpox virus, a less threateni … ng disease, did not catch the dangerous smallpox. Dr Edward Jenner discovered the vaccine in 1796 and published his findings in 1798. Edward Jenner invented the vaccine for small pox in 1798. He prepared the vaccine f … rom the cow pox virus. | Edward Jenner, an English physician, discovered the smallpox vaccine in 1796. He came upon this discovery by noticing that milkmaids who had the cowpox virus, a less threateni … ng disease, did not catch the dangerous smallpox. Jenner then infected an 8-year-old boy with the cowpox. After six weeks, he exposed the boy to the smallpox disease and the boy did not show any smallpox related symptoms. Sone fun facts: -Jenner coined the term 'vaccine': 'vaca' means cow in Latin. -Before the vaccine, the death rate of the disease was up to 35%. |
bail bonds agent salary | Average Bail Bond Agent Salaries. The average salary for bail bond agent jobs is $34,000. Average bail bond agent salaries can vary greatly due to company, location, industry, experience and benefits. This salary was calculated using the average salary for all jobs with the term bail bond agent anywhere in the job listing. The bail bond agent salary comparisons feature allows job seekers to get the information required to make important career decisions and negotiate salary ranges. For additional bail bond agent salary information, we recommend visiting Payscale.com. | Bounty Hunter Salaries. There are about 15,500 bail agents (bail bondsmen) in the United States, according to the Professional Bail Agents of the United States. These numbers help highlight the career potential for those interested in becoming a bounty hunter. The majority of bail bond companies do not pay their bounty hunters a salary; instead, they earn a percentage of the bond, which is usually between 10 and 20 percent. | Typical Earnings Nationwide. According to Bail Yes, a national bail company, most new bail bondsmen earn an average yearly salary of $25,000. After several years in the field, however, agent salaries increase significantly. Career Bliss states that from 2009 to 2014, the average American bail bondsman earned a yearly salary of $55,300. | Most entry level people should expect $10-$15 per hour as a bail bond agent salary. As a person gets more knowledge and understanding of the business they can expect a salary up to $50,000 per year. Some bail bond salary’s can range up to $150,000 per year. As an owner / operator of your own bail bond company you might expect up to several hundred thousand dollars per year. Many companies’s pay commission and others are hourly and others are salary. Bail Bondsman Training. Bail bonds salaries vary between geographic areas and what job a person is doing for the company. There are some very successful bail bondsmen that make a great salary. | BailBonds101.com says that experienced bail bondsmen can earn from $50,000 to $150,000 annually. The CareerBliss website lists a number of bail bond companies and salaries of bondsmen within them. According to CareerBliss, the salary of an experienced bail bondsman at one Los Angeles, California, agency was $131,000 while bail bondsmen at a San Jose, California, agency earned about $61,000. New Bondsman Salaries. Bail bondsmen are licensed by their respective states' departments of insurance to underwrite bail bonds. According to the Bail Yes website, new bail bondsmen can expect to earn about $25,000 annually. Bail bondsman Greg Rynerson says that newly licensed bail bond agents working for a company make from $10 to $15 hourly. New bail bondsmen tend to work for established bail companies and they're mostly paid from commissions based on the number of clients they bring to their companies |
why superdelegates | In some presidential elections, superdelegates can play a major role in determining the Democratic nominee. Unlike delegates, superdelegates are not bound to represent the popular vote of a region at the Democratic National Convention; they are free to support any candidate for the nomination. The Republican Party does not have superdelegates. | So-called superdelegates, unique to the Democratic party, are drawn from the Democratic National Committee, members of Congress, governors and distinguished party leaders -- like former presidents, vice presidents, and congressional leaders. | Over 80 percent of the total delegate votes at the convention are from these pledged delegates. In caucus states, pledged delegates are elected through a series of local-level meetings and conventions and then are allocated to the candidates based on the candidate's showing in the caucuses. | WASHINGTON (CNN) -- As the Democratic primary race heats up between Sens. Hillary Clinton and Barack Obama, the delegate estimate between the two remains extremely close. For the first time, Democratic superdelegates may decide their party's nominee. | The Democratic party also has a third type: super-delegates. A super-delegate is a leader in the National Democratic Party who has a vote at the national convention; they not selected by state party members. A candidate needs 2,025 delegates for the nomination. |
how to make yogurt in the dehydrator | How to make Yogurt in a Dehydrator: Open your container of milk and pour it into a saucepan. I normally make a gallon of yogurt at a time so I use a big pot. Place the pot on the stove and heat over medium heat until the temperature reaches 185-195 degree. If you are using store bought milk I would scald it, if using raw milk, do what you are comfortable with. Milk at the right temperature. Milk at the right temperature. When the milk reaches 110 degrees, whisk in 2 to 3 tablespoons of yogurt with active yogurt cultures. | Previously made yogurt. Previously made yogurt. Make sure the yogurt is well mixed with the warm milk. I use yogurt that I’ve made previously or Dannon plain yogurt. Use any yogurt that contains active yogurt cultures not all do. Transfer the milk/yogurt mixture to jars. Place lids on jars. If you are using store bought milk I would scald it, if using raw milk, do what you are comfortable with. Milk at the right temperature. Milk at the right temperature. When the milk reaches 110 degrees, whisk in 2 to 3 tablespoons of yogurt with active yogurt cultures. | You can make 8 quarts of yogurt all at once in the Excalibur dehydrator. You use glass canning jars to hold the yogurt and put lids on the cans to keep the temperature even. First make yogurt with water to test the right temperature. | 2 quarts of milk. 1/3 cup of powdered milk (if you want; it makes for a thicker yogurt). 1/2 cup of yogurt starter (you can use an organic purchased yogurt for your first batch and then reserve a 1/2 cup from each batch you make there after.). 1/3 cup - 1/2 cup sweetener if you choose-I have used maple syrup, strawberry syrup, honey, sorghum syrup. | If you aren’t making a lot of yogurt use pint jars if you have them. I prefer glass containers; use what you’re comfortable with. Just make sure it’s clean and you can cover it. Remove all the trays from your dehydrator. Preheat your dehydrator to 105 degrees. If you are using store bought milk I would scald it, if using raw milk, do what you are comfortable with. Milk at the right temperature. Milk at the right temperature. When the milk reaches 110 degrees, whisk in 2 to 3 tablespoons of yogurt with active yogurt cultures. |
what is hyperkyphosis | Hyperkyphosis is a spinal deformity causing a forward-curved posture of the upper back or thoracic spine. Your posture is the characteristic way you position your body; normal posture changes many times throughout the day. Sometimes, however, a person's body curvature can become excessive and unchanging. Hyperkyphosis can result from conditions such as osteoporosis or thinning bones, and fractures of the vertebrae that result from thin bones. However, research has found that two thirds of people with hyperkyphosis do not have spinal fractures. | INTRODUCTION. Hyperkyphosis is excessive curvature of the thoracic spine, commonly known as the dowager's hump.. Although it is also referred to as kyphosis, the term kyphosis is meant to describe the sagittal convexity, or forward curvature, of the normal thoracic spine which can range from normal to abnormal. Kyphosis tends to progress with age [ 1 ]. | Definition/Description. Thoracic hyperkyphosis can be defined as an increase in the flexion curve in the thoracic region and can be characterized by an excessive thoracic curve. This kind of curvature is commonly referred to as hunchback. A kyphosis angle over 50° is currently the standard for defining hyperkyphosis. Thoracic hyperkyphosis is a defect that is easy to see from the side, in a lateral point of view. A normal standing alignment of the thoracic spine is a flexion curve of ± 40° . The shape of this curvature is attributed to a slight wedging of the vertebrae. | Hyperkyphosis is the term given to an accentuated thoracic spinal curvature. Hyperkyphosis in children is usually due to the disease known as “Scheuermann’s Kyphosis” or it can be postural (wedging of 3 or more vertebral bodies and discs). In children, a thoracic curve greater than 50° is termed as “hyperkyphosis”. Hyperkyphosis in adults can have many contributory factors, the most notable being vertebral fractures and/or osteoporosis as well as posture. In adults, a thoracic curve above 60° is generally classed as “Hyperkyphosis”. | Hyperkyphosis is a spinal deformity that looks like a forward-curved posture of the head, upper back or thoracic spine. It can become excessive over time. The worsening of the curvature is associated with a higher risk of health problems. Hyperkyphosis can result from conditions such as osteoporosis or thinning bones, and fractures of the vertebrae that result from thin bones. However, research has found that two thirds of people with hyperkyphosis do not have spinal fractures. |
how fast do mud crabs grow | When eating food, mud crabs use their extremely powerful claws-the larger claw as a ‘crusher’ and the smaller claw as a ‘cutter’. Mud crabs also use their claws to defend themselves and can even drop a claw to facilitate escape. A new, fully functional claw will grow back in three to four months. Reproduction. The male can only mate with a female while her shell is soft, a period of about 48 hours after moulting. The megalopa later moults into a stage one crab. Stage one crabs are only about 4 mm wide, but frequent moults mean that they grow very quickly. It is thought that wild mud crabs grow to around 10 cm in width in about a year and become sexual mature in about two years. The typical life span of a mud crab is thought to be three to four years | Guest. Re:How fast do crabs grow. « Reply #1 on: September 01, 2003, 05:59:20 PM ». Every time they shed they grow about 25% on size, but the time on the intermolt (hard) stage depends on the size of the crab, lets say that a 10cm crab will take about a month to shed again and become a 13cm crab. more less | Molting: How Crabs Grow. Crabs (and other crustaceans) cannot grow in a linear fashion like most animals. Because they have a hard outer shell (the exoskeleton) that does not grow, they must shed their shells, a process called molting. Just as we outgrow our clothing, crabs outgrow their shells. The time between molting (the inter-molt period) gets longer with every molt. A 2-year old crab may molt only 3 times, a 3-year old only twice. By the time they are 4 years old, king crabs will molt only once per year. They become sexually mature at about 5 years of age. | The species Scylla olivacea can grow up to 150 millimetres in shell width and 1.5 kilograms.Known for their big claws, mud crabs belong to a group of crabs that have the last pair of legs flattened for swimming. Page 1 of 4 The magnificent ‘muddy’ Mud crabs are prized by recreational fishers for their impressive size and delicious taste. Their powerful claws can be dangerous and mud crabs need to be handled with care. Females are often called ‘jennies’ and males, ‘bucks’. In Western Australia there are two species of mud crab. Mud crabs are found in Western Australia’s north-west from Shark Bay to the Northern Territory border.The mud crab species Scylla serrata can grow up to 300 millimetres in shell width and 2.5 kilograms | Re:How fast do crabs grow. « Reply #1 on: September 01, 2003, 05:59:20 PM ». Every time they shed they grow about 25% on size, but the time on the intermolt (hard) stage depends on the size of the crab, lets say that a 10cm crab will take about a month to shed again and become a 13cm crab. |
name of truck carrying breakdown vehicles | Flatbed recovery vehicle. A tow truck (also called a wrecker, a breakdown truck, recovery vehicle or a breakdown lorry) is a truck used to move disabled, improperly parked, impounded, or otherwise indisposed motor vehicles. The tow truck was invented in 1916 by Ernest Holmes, Sr., of Chattanooga, Tennessee, a garage worker inspired after needing blocks, ropes, and six men to pull a car out of a creek. | Compare multiple recovery vehicle insurance quotes from specialist UK brokers. Recovery Truck Insurance-get great competitive quotes from brokers that specialise in insuring all kinds breakdown/recovery vehicles. Our short one-page form makes getting quotes quick and easy ... - We'll search our network of brokers and insurers for you | Vehicle recovery is the recovery of any vehicle to another place, generally speaking with a commercial vehicle known as a recovery vehicle, tow truck or spectacle lift. Some recovery vehicles are equipped as mobile workshops or service vans. They will carry a large selection of tools, spares and garage equipment, such as jacks and vehicle stands. In recent years many have also been equipped with spectacle lifts that fold away inside the rear doors. | In the case of cars and light vans, the towing vehicle can be used for braking, if the bar is kept straight. With commercial vehicles, it is common to connect an air feed to the casualty to allow the tow vehicle's brakes to also operate the casualty's brakes. Some recovery vehicles are equipped as mobile workshops or service vans. They will carry a large selection of tools, spares and garage equipment, such as jacks and vehicle stands. In recent years many have also been equipped with spectacle lifts that fold away inside the rear doors. | There are many types of organisations that carry out the recovery of disabled vehicles; however, they can be divided into two distinct areas: Recovery Operators (who undertake the recovery) and Motoring Organisations. Some recovery vehicles are equipped as mobile workshops or service vans. They will carry a large selection of tools, spares and garage equipment, such as jacks and vehicle stands. In recent years many have also been equipped with spectacle lifts that fold away inside the rear doors. |
name meaning for dahlia | Dahlia /dah-lia/ [3 sylls.] as a girls' name is pronounced DAL-yah. It is of Swedish and Scandinavian origin, and the meaning of Dahlia is valley. Also the flower named for 18th-century Swedish botanist Anders Dahl. Kreatif forms: Daihlia, Dehlia, Dohlia. Shown below is the baby name popularity of Dahlia for girls. Dahlia was first listed in 2006 and reached its highest rank of #438 in the U.S. in 2013, and is at #445 currently. | Dahlia is a somewhat prominent first name for women (#2344 out of 4276, Top 55%) but an uncommon last name for both adults and children. (2000 U.S. Census). Shown below is the baby name popularity of Dahlia for girls. Dahlia was first listed in 2006 and reached its highest rank of #438 in the U.S. in 2013, and is at #445 currently. | What does Dahlia mean, popularity, numerology and more. The name Dahlia is of Scandinavian origin. The meaning of Dahlia is flower name. It is also of English origin, where its meaning is dahlia flower. | The Bulgarian variant of Dahlia and Dalia is Daliya. In Bulgarian daliya means dahlia. That is why Daliya has a nameday on Palm Sunday (the Sunday before Easter) - the day of flowers and willows (the names of the other trees also have a nameday). In the Victorian language of flowers, the Dahlia signified elegance and/or dignity. Fitting-I think the name itself conveys both elegance and dignity as well. -- SeaHorse15 4/9/2009. I met a very fortunate person with this name. | Notes: Black Dahlia was the name of a famous murder case in 1940's Los Angeles. The flower was named after a famous botanist who discovered it named A. Dahl. Dahlia Stats. |
do plant cells have centrioles | 1 Centrioles are found as single structures in cilia and flagella in animal cells and some lower plant cells. 2 Centrioles are constructed of microtubules. 3 In animal cells centrioles organise the pericentriolar material to produce microtubules including mitotic spindle fibres. Centrioles are absent from the cells of higher plants. When animal cells undergo mitosis they are considered by some to benefit from the presence of centrioles which appear to control spindle fibre formation and which later has an effect on chromosome separation. | Rating Newest Oldest. Best Answer: apparently centriloes are the bits that make the spindle fibres for cell division-and no one seems to know why plant cells dont have them, because they do have spindle fibres too! so-no. Source(s): prickle13 · 7 years ago. Thumbs up. | Plant and animal cells have several differences and similarities. For example, animal cells do not have a cell wall or chloroplasts but plant cells do. Animal cells are round and irregular in shape while plant cells have fixed, rectangular shapes. Shape. 1 Another difference between plant cells and animal cells is that animal cells are round whereas plant cells are rectangular. 2 Further, all animal cells have centrioles whereas only some lower plant forms have centrioles in their cells. | All animal cells have two small organelles known as centrioles. The centrioles help the cell to divide. Centrioles are seen the process of mitosis and meiosis. The centrioles together are typically located near the nucleus in the centrosome. Centrioles are made of nine bundles of microtubules, that are arranged in a ring. The centrioles play a major role in cell division. In animal cells the centrioles play a major role in cell division but the plant cells have the ability to reproduce even without the centrioles. | Chloroplasts. Plants are autotrophs; they produce energy from sunlight through the process of photosynthesis, for which they use cell organelles called chloroplasts. Animal cells do not have chloroplasts. In animal cells, energy is produced from food (glucose) via the process of cellular respiration. Shape. 1 Another difference between plant cells and animal cells is that animal cells are round whereas plant cells are rectangular. 2 Further, all animal cells have centrioles whereas only some lower plant forms have centrioles in their cells. |
do plant cells have centrioles | Plant cells do not have centrioles. Hence, the structure of the poles is different to that of the cells that possess centrioles. The poles of the cells of plants are broader when compared to the cells of animals. This is probably because of the absence of a cellular organelle that is defined to act as a f ocal point. Centrioles are made of nine bundles of microtubules, that are arranged in a ring. The centrioles play a major role in cell division. In animal cells the centrioles play a major role in cell division but the plant cells have the ability to reproduce even without the centrioles. | Animals have centrioles to form spindle fibers during prophase. The centriole divides cells. Plants do not have them because they have microtubules instead; they do not need centrioles. Plants are capable of forming a circular loop of microtubules around the future plane of division prior to prophase called the preprophase band, rather than centrosome. Basically-plants don't need it. | Rating Newest Oldest. Best Answer: apparently centriloes are the bits that make the spindle fibres for cell division-and no one seems to know why plant cells dont have them, because they do have spindle fibres too! so-no. Source(s): prickle13 · 7 years ago. Thumbs up. | Within an animal cell centrosome there is a pair of small organelles, the centrioles, each made up of a ring of nine groups of microtubules. There are three fused microtubules in each group. The two centrioles are arranged such that one is perpendicular to the other. The centriole divides cells. Plants do not have them because they have microtubules instead; they do not need centrioles. Plants are capable of forming a circular loop of microtubules around the future plane of division prior to prophase called the preprophase band, rather than centrosome. Basically-plants don't need it. | Plant and animal cells have several differences and similarities. For example, animal cells do not have a cell wall or chloroplasts but plant cells do. Animal cells are round and irregular in shape while plant cells have fixed, rectangular shapes. Shape. 1 Another difference between plant cells and animal cells is that animal cells are round whereas plant cells are rectangular. 2 Further, all animal cells have centrioles whereas only some lower plant forms have centrioles in their cells. |
what does I olfactory do for smell | The olfactory system is the sensory system used for olfaction, or the sense of smell. Most mammals and reptiles have two distinct parts to their olfactory system: a main olfactory system and an accessory olfactory system. Olfactory neurons transduce receptor activation into electrical signals in neurons. The signals travel along the olfactory nerve. The olfactory nerve, similar to the optic nerve, is not part of the peripheral nervous system but is defined as a part of the brain. | Overview. The olfactory nerve is the shortest cranial nerve and is the nerve which transmits special sensory information, allowing us to have a sense of smell. It is one of two nerves that do not join with the brainstem, the other being the optic nerve. | Olfaction, along with taste, is a form of chemoreception. The chemicals themselves that activate the olfactory system, in general at very low concentrations, are called odorants. Although taste and smell are separate sensory systems in land animals, water-dwelling organisms often have one chemical sense. The sensory receptors of the accessory olfactory system are located in the vomeronasal organ. As in the main olfactory system, the axons of these sensory neurons project from the vomeronasal organ to the accessory olfactory bulb, which in the mouse is located on the dorsal-posterior portion of the main olfactory bulb. | The olfactory nerve is sensory in nature and originates on the olfactory mucosa in the upper part of the nasal cavity. From the olfactory mucosa, the nerve (actually many small nerve fascicles) travels up through the cribriform plate of the ethmoid bone to reach the surface of the brain. Lesions to the olfactory nerve can occur because of blunt trauma, such as coup-contra-coup damage, meningitis, and tumors of the frontal lobe. They often lead to a reduced ability to taste and smell. However, lesions of the olfactory nerve do not lead to a reduced ability to sense pain from the nasal epithelium | 1 Odorant molecules (molecules that we can smell) dissolve in the mucus and. 2 bind to receptors on the cilia. 3 These are 7-pass transmembrane proteins. 4 Binding of the odorant activates a G protein coupled to the receptor on its cytoplasmic side. 1 The cilia of the sensory neurons are immersed in a layer of mucus. 2 Odorant molecules (molecules that we can smell) dissolve in the mucus and. 3 bind to receptors on the cilia. 4 These are 7-pass transmembrane proteins. 5 |
who is howard carter | Howard Carter. Howard Carter (1874-1939), the renowned archaeologist who discovered the tomb of King Tutankhamun, was a private and stubborn man whose perfectionism frequently got him into trouble. COPYRIGHT 2004 The Gale Group Inc. Howard Carter (1874-1939), the renowned archaeologist who discovered the tomb of King Tutankhamun, was a private and stubborn man whose perfectionism frequently got him into trouble. | Early life [edit]. Howard Carter was born in Kensington, London, the son of Samuel Carter, an artist, and Martha Joyce Carter. His father trained and developed Howard's artistic talents. Howard Carter spent much of his childhood with relatives in the Norfolk market town of Swaffham, the birthplace of both his parents. In 1907, after three hard years for Carter, Lord Carnarvon employed him to supervise Carnarvon's Egyptian excavations in the Valley of the Kings. The intention of Gaston Maspero, who introduced the two, was to ensure that Howard Carter imposed modern archaeological methods and systems of recording. | Here are some facts about Howard Carter, the English archaeologist who discovered the tomb of Tutankhmun. 1 Howard Carter was born on 9th May 1874 in Kensington, London. 2 His father, Samuel John Carter, was an artist. 3 As a child, Howard Carter was often unwell, and he spent a lot of time in Swaffham in Norfolk. 1 Howard Carter was born on 9th May 1874 in Kensington, London. 2 His father, Samuel John Carter, was an artist. 3 As a child, Howard Carter was often unwell, and he spent a lot of time in Swaffham in Norfolk. 4 He was home-schooled. 5 When he was 17 years old, Carter worked in Egypt as an archaeological artist. | Howard Carter was born on May 9th, 1874 in the small town of Kensington, London, England. His father, an artist named Samuel John Carter who drew portraits (mostly of animals) for local landowners, trained Howard in the fundamentals of drawing and painting. He was Samuel Carter's youngest son. But Howard Carter developed an early interest in Egypt, so when he was 17 years old, under the influence of Lady Amherst, a family acquaintance, he set sail for Alexandria, Egypt. | Through his father's connections, Howard Carter found a job working for an archaeologist who needed an artist to draw his findings. Howard headed to Egypt in 1891, at the age of 17, where he was to work on the Egypt Exploration Fund's excavation of the Middle Kingdom tombs at Beni Hassan. Early Life. Howard Carter was born on May 9, 1874, in Kensington, London. His father Samuel Carter was a successful artist. Howard was a sickly child, and was sent to live with his aunts in Norfolk. He had private home schooling, and had an artistic streak from an early age. |
what does chohan | Chauhan, Chouhan or Chohan is a community sometimes described as a tribe and sometimes as a caste. In the medieval period some those associated with it ruled parts of Northern India and one, Prithviraj Chauhan, was the king of Delhi. Rajput bardic accounts, which are based on mythology, describe the Chauhans as one of the four Agnikula Rajput clans who claim to have originated from a sacrificial fire-pit (agnikunda) at Mount Abu. These claims of supernatural origin are clearly improbable and unacceptable to the modern mind. | The Maha Chohan is the head, or hierarch, of the seven chohans of the rays. His name means the Great Lord, which is an office in the hierarchy of the Great White Brotherhood. Maha Chohan. Alice Bailey's definition. Mahachohan The Head of the third great department of the Hierarchy. This great being is the Lord of Civilization, and the flowering forth of the principle of intelligence. | The Comforter referred to is the Lord Maha Chohan. The first Maha Chohan Who came with the first root race in the beginning established the Flame of the Holy Spirit and the Comfort Flame here on Earth. The three Maha Chohans of the first root races have each gone on with Their race. The Maha Chohan also fills the role of Teacher. The Father-Mother God and the Son have deferred to the Maha Chohan as the supreme teacher of our souls. He is the one sent to us to teach us the commandments of God the Father and the Word of the Divine Mother. | El Morya. He is the chohan of the first ray of the will of God. El Morya represents the godly attributes of courage, certainty, power, forthrightness, self-reliance, dependability, faith and initiative. Hilarion is the chohan of the fifth ray and a healing master on the green ray of health, precipitation and truth. He instructs us on the relationship between science and religion, both of which are aspects of the green ray of Truth. | El Morya was Melchior (one of the three wise men), Thomas Becket (the Lord Chancellor of England), and Sir Thomas More (the man for all seasons). One of his most recognizable lifetimes was King Arthur of Camelot. The First Ray is the blue ray and the Chohan is El Morya. The blue ray is the ray of power but it also has other qualities like faith, protection, will, and strength flowing through it. El Morya teaches us what it means to follow God’s Will, the wisdom behind it, and how to come into alignment with our Higher Self. The Second Ray is the yellow ray and the Chohan is Lord Lanto. This is the ray of wisdom, illumination, and enlightenment. Lanto guides us on our personal quest for knowledge, wisdom, and enlightenment and helps us to understand many of the wisdom teachings. |
whooping cough bacteria name | Causes. Pertussis, a respiratory illness commonly known as whooping cough, is a very contagious disease caused by a type of bacteria called Bordetella pertussis. These bacteria attach to the cilia (tiny, hair-like extensions) that line part of the upper respiratory system. | Definition. Whooping cough, also known as pertussis, is a highly contagious disease which causes classic spasms (paroxysms) of uncontrollable coughing, followed by a sharp, high-pitched intake of air which creates the characteristic whoop of the disease's name. | Pertussis (or whooping cough) is an infection of the respiratory system characterized by a “whooping” sound when the person breathes in. Pertussis [edit]. Pertussis (or whooping cough) is an infection of the respiratory system characterized by a “whooping” sound when the person breathes in. In the US, it killed between 10,000 and 20,000 people per year before a vaccine was available. | Whooping cough, also known as pertussis, is a bacterial infection of the respiratory tract that causes severe coughing. Whooping cough is caused by the bacterium Bordetella pertussis. The microbes attach to tiny hairs in the respiratory tract called cilia, and release toxins that can cause swelling and damage cilia, according to the CDC. | Bordetella pertussis is a Gram-negative, aerobic coccobacillus capsulate of the genus Bordetella, and the causative agent of pertussis or whooping cough. Unlike B. bronchiseptica, B. pertussis is not motile. Pertussis [edit]. Pertussis (or whooping cough) is an infection of the respiratory system characterized by a “whooping” sound when the person breathes in. In the US, it killed between 10,000 and 20,000 people per year before a vaccine was available. |
definition of phycology | Definition of PHYCOLOGY. : the study or science of algae —called also algology. — phy·co·log·i·cal \ˌfī-kə-ˈlae-ˈlä-ji\ kəl. adjective | Medical Definition of PHYCOLOGY. : the study or science of algae. | Full Definition of PSYCHOLOGY. 1. : the science of mind and behavior. 2. a: the mental or behavioral characteristics of an individual or group b: the study of mind and behavior in relation to a particular field of knowledge or activity. 3. — psy·chol·o·gist \-jist\ noun. See psychology defined for English-language learners. | Medical Definition of PHYCOLOGY. : the study or science of algae. | Full Definition of PSYCHOLOGY. 1. : the science of mind and behavior. 2. a: the mental or behavioral characteristics of an individual or group b: the study of mind and behavior in relation to a particular field of knowledge or activity. 3. — psy·chol·o·gist \-jist\ noun. See psychology defined for English-language learners. |
what are the boundaries of the superficial inguinal ring | Deep inguinal ring is an oval opening in the transversalis fascia (fascia lining the transversus abdominis muscle). It is the entrance to the inguinal canal and lies about half inch above the inguinal ligament near its midpoint. Boundaries of deep inguinal ring: 1 The ring is bounded above and laterally by the arched lower margin of transversalis fascia. 2 Below and medially, it is bound by the inferior epigastric vessels. | Deep inguinal ring transmits the spermatic cord (in males) or the round ligament of the uterus (in females). The deep inguinal ring is of an oval form, with its long axis being vertical. Boundaries of deep inguinal ring: 1 The ring is bounded above and laterally by the arched lower margin of transversalis fascia. 2 Below and medially, it is bound by the inferior epigastric vessels. | The inguinal canal is a passage in the anterior abdominal wall that in men conveys the spermatic cord and in women the round ligament of uterus. The inguinal canal is larger and more prominent in men. There is one inguinal canal on each side of the midline. | 1 deep inguinal ring: a round opening in the transversalis fascia found 1cm superior to the inguinal ligament and 1 cm lateral to the inferior epigastric arteries. 2 superficial inguinal ring: a V-shaped opening in the external oblique aponeurosis that is superior and medial to the pubic tubercle 1, 2. Gross anatomy. The inguinal canal has an oblique course, is 4cm in length and has two openings: 1 | The inguinal canal is a short passage that extends inferiorly and medially, through the inferior part of the abdominal wall. It is superior and parallel to the inguinal ligament. It acts as a pathway by which structures can pass from the abdominal wall to the external genitalia. |
what is physical deconditioning | Deconditioning is a complex process of physiological change following a period of inactivity, bedrest or sedentary lifestyle. It results in functional losses in such areas as mental status, degree of continence and ability to accomplish activities of daily living. The authors describe a three-pronged strategy to combat deconditioning that includes a model of care appropriate to the growing population of elderly clients, the creation of an elder-friendly hospital environment and an exercise program. | As we can see from the literature, there are considerable benefits to alleviating deconditioning. It is recommended that individuals should stretch muscles that are tight and that restrict mobility. It is essential that therapists accurately assess strength and strengthen any muscles that demonstrate weakness. Finally, remember that reconditioning takes twice as long as deconditioning; therefore, we need to inform our patients that if it has taken them three months to get to this low level, it will take them six months of diligent work to get back to their prior level of function and conditioned status. | Levels of Deconditioning Mild-difficulty with maximal activity i.e. swimming, running, or “exercising” Moderate – difficulty with normal activity i.e. walking down the street, shopping, mowing the lawn Severe – difficulty with minimal activity & self care. Objectives Discuss deconditioning as a clinical entity resulting in a reduced functional capacity of multiple body systemsDiscuss the pathophysiology of prolonged bed restList key interventions that prevent and treat the consequences of bed rest. | Deconditioning. A decrease in the responsiveness of heart muscle that sometimes occurs after long periods of weightlessness and may be marked by decrease in blood volume and pooling of the blood in the legs upon return to normal conditions. Classic Signs: Fatigue, weakness, breathlessness, pain. Offsite Research: | physical deconditioning. Medtalk The deterioration of heart and skeletal muscle, related to a sedentary lifestyle, debilitating disease, or prolonged bed rest Clinical ↓ lean body mass, maximum O 2 uptake, exercise-induced cardiac output, stroke volume, impaired vasodilation, exercise intolerance, especially in CHF. |
which part of brain does what | The brain is made of three main parts: the forebrain, midbrain, and hindbrain. The forebrain consists of the cerebrum, thalamus, and hypothalamus (part of the limbic system). The midbrain consists of the tectum and tegmentum. The hindbrain is made of the cerebellum, pons and medulla. Often the midbrain, pons, and medulla are referred to together as the brainstem. The Cerebrum: The cerebrum or cortex is the largest part of the human brain, associated with higher brain function such as thought and action. The cerebral cortex is divided into four sections, called lobes: the frontal lobe, parietal lobe, occipital lobe, and temporal lobe. | Your brain is your most powerful organ, yet weighs only about three pounds. It has a texture similar to firm jelly. It has three main parts: 1 The cerebrum fills up most of your skull. 2 It is involved in remembering, problem solving, thinking, and feeling. 3 It also controls movement. It has three main parts: 1 The cerebrum fills up most of your skull. 2 The cerebellum sits at the back of your head, under the cerebrum. 3 The brain stem sits beneath your cerebrum in front of your cerebellum. | The hindbrain includes the upper part of the spinal cord, the brain stem, and a wrinkled ball of tissue called the cerebellum (1). The hindbrain controls the body’s vital functions such as respiration and heart rate. The cerebellum coordinates movement and is involved in learned rote movements. The brain is like a committee of experts. All the parts of the brain work together, but each part has its own special properties. The brain can be divided into three basic units: the forebrain, the midbrain, and the hindbrain. | The brain is the most complex organ in the body. It is the organ that allows us to think, have emotions, move, and even dream. Given this complexity, it should not be surprising that there are many ways to separate the parts of the brain. The Thalamus is THE relay station in the brain. Most of the sensory signals, auditory (sound), Visual, Somatosensory (from your skin and internal organs), go through this organ on their way to other parts of the brain for processing. It also plays a function in motor control. | The brain is the most complex organ in a vertebrate's body. In a typical human, the cerebral cortex (the largest part) is estimated to contain 15–33 billion neurons, each connected by synapses to several thousand other neurons. The cerebral cortex is the part of the brain that most strongly distinguishes mammals. In non-mammalian vertebrates, the surface of the cerebrum is lined with a comparatively simple three-layered structure called the pallium. |
what are dragon passes | Dragon Pass (Chinese: 龍隘之戰) is a map featured in the Battlefield 4 expansion, China Rising. | With the Titan Pass you not only unlock every dragon we have ever made, but all the new dragons we will release for one year from the time your purchase the pass. We feel this incredible value and the simplicity that there is nothing else to buy is the best decision for the game. With this purchased you receive all the content we have built since the game was created and additionally you receive all the new content we release for 1 year after your purchase. In addition players will receive 4x the crystal rewards from playing matches for the year after purchasing the Titan Pass as well. | The Titan Pass is the single purchasable item in Dragons and Titans. With this purchased you receive all the content we have built since the game was created and additionally you receive all the new content we release for 1 year after your purchase. In addition players will receive 4x the crystal rewards from playing matches for the year after purchasing the Titan Pass as well. | Group rates are $5 off the current membership price. A group is 10 or more people sending in their memberships (by mail or fax) to the office at one time in one envelope or one fax. Include the names and addresses of all new members; confirmation postcards will be sent separately to each member. The specific information you need to enter is listed in that section. If you are buying 10 or more memberships and would like to take advantage of our group discount program, all details must be submitted by mail or fax to our office. 1 Back to Top. | If you are ordering less than 10 memberships, order all memberships at once through our online store. On page 1 of check out add the information for all passes to the Special Instructions or Comments about Your Order section of the page. The specific information you need to enter is listed in that section. If you are buying 10 or more memberships and would like to take advantage of our group discount program, all details must be submitted by mail or fax to our office. 1 Back to Top. |
can i sue the school for not letting my daughter into prom | 8 photos: You can't wear that to the prom. You can't wear that to the prom – Constance McMillen, seen here at the 21st Annual GLAAD Media Awards in 2010, wanted to take her girlfriend to the Itawamba Agricultural High School prom in Fulton, Mississippi, and she wanted to wear a tux to the dance. 8 photos: You can't wear that to the prom. You can't wear that to the prom – Omar Bonilla ran for prom queen at Flanagan High in Pembroke Pines, Florida, in 2010. He was ranked in the top three finalists, but school officials told Bonilla he couldn't wear a gown to the prom because they worried for his safety. | She was all set for the dance, having bought the tickets, the dress, and everything else, when her date backed out earlier this week. Now, she's being told by the Archdiocese that's in charge of her school, Archbishop John Carroll High School, that she is not allowed to attend the dance without a date. Being a teen is hard enough without being shamed by your school for not having a date to a dance, but that's what's happening to one girl in Glenolden, Pennsylvania. Amanda Dougherty, 17, has been looking forward to her junior prom for years. | “It’s April,” she said she told them. “I will find someone for you to take my child’s spot.” The school told her that was not how things were done. Then, in September, Mandell sued. For most parents, getting their child into a private school is a moment of joy, or at least relief. | If you think you can sue a school, or you are involved in a lawsuit against a school, it is highly recommended for you to contact an attorney. Only they will be able to explain the issues, protect your rights, and defend you if necessary. Consult a Lawyer-Present Your Case Now! | In most cases, educational decisions are to be mutually agreed on if the parents share joint legal custody. In situations where one parent has sole legal custody, he or she can make decisions about school issues without consulting the other parent. Generally, where a child will attend school is determined by where the residential parent lives. In cases where the parents have joint physical custody, you can read through this discussion about school decisions and shared custody. These are just general guidelines and many parents have questions about their rights when it comes to school issues after divorce. |
what does the menorah represent in judaism | One of the oldest symbols of the Jewish faith is the menorah, a seven-branched candelabrum used in the Temple. It has been said that the menorah is a symbol of the nation of Israel and its mission to be a light unto the nations.. (Isaiah 42:6). | Originally, the Menorah was a seven-branched candelabra beaten out of a solid piece of gold that served as one of the sacred vessels in the Holy Temple. It stood in the southern part of the Temple and was lit every day by the High Priest. | The menorah is a religious symbol in Judaism. The original 7-branch menorah was placed in the Temple and its flames burned at night (Leviticus ch.24). In modern synagogues, a single flame (usually electric) represents this ancient mitzvah. | Tweet. One of the oldest symbols of the Jewish faith is the menorah, a seven-branched candelabrum used in the Temple. It has been said that the menorah is a symbol of the nation of Israel and its mission to be a light unto the nations. (Isaiah 42:6). | The noun MENORAH has 2 senses: 1. (Judaism) a candelabrum with seven branches used in ceremonies to symbolize the seven days of creation. 2. (Judaism) a candelabrum with nine branches; used during the Hanukkah festival. Familiarity information: MENORAH used as a noun is rare. Dictionary entry details. |
what is meant by a displacement reaction | A displacement reaction is one in which an element or group is displaced from a chemical compound by another element or group. In single displacement reactions, the more reactive element displaces the less reactive one. Single displacement reactions include the replacement of a metal in a salt with a more reactive metal. For example, iron will displace copper from a copper sulfate solution because it is more reactive: Fe+ CuSO 4 4. This type of reaction can be used for metal plating. | Due to the free state nature of A and B, all single displacement reactions are also oxidation-reduction reactions, where the key event is the movement of electrons from one reactant to another. When A and B are metals, A is always oxidized and B is always reduced. All simple metal with acid reactions are single displacement reactions. For example the reaction between magnesium, Mg, and hydrochloric acid, HCl, forms magnesium chloride, MgCl 2, and hydrogen, H 2. | A single-displacement reaction, also known as a single-replacement reaction, is a type of chemical reaction where an element reacts with a compound and takes the place of another element in that compound. This type of reaction is typically pictured like this: Here, A replaces B in the compound BC. | Share. A single displacement reaction or substitution reaction is a common and important type of chemical reaction. A substitution or single displacement reaction is characterized by one element being displaced from a compound by another element. A + BC → AC + B. An example of a substitution reaction occurs when zinc combines with hydrochloric acid. | A single-displacement reaction, also named single-replacement reaction, is a type of oxidation-reduction chemical reaction when an element or ion moves out of one compound and into another-that is, one element is replaced by another in a compound. This is represented by the general reaction scheme: All simple metal with acid reactions are single displacement reactions. For example the reaction between magnesium, Mg, and hydrochloric acid, HCl, forms magnesium chloride, MgCl 2, and hydrogen, H 2. |
what does it mean when tree leaves curl | From Wikipedia, the free encyclopedia. Leaf curl is a plant disease characterized by curling of leaves, and caused by a fungus, genus Taphrina, or virus, especially genus Begomovirus of the family Geminiviridae. One of the most notable types is peach leaf curl, caused by the fungus Taphrina deformans, which infects peach, nectarine, and almond trees. Taphrina deformans is found in America, Europe, Asia, Africa, Australia, and New Zealand. It was first introduced in America in 1852 and has now spread all over the country. | Environmental issues. Drought stress is the most common cause of leaf curl in citrus, but also the easiest to remedy. If leaves begin to curl inward while retaining their green coloration and the soil around your tree feels dry to the touch, you’re not watering enough. Stepping up watering efforts and applying two to four inches of an organic mulch to the ground around your citrus plant will help it recover. | 1. What's causing the leaves of my citrus trees to be curled and crinkled? Two Possibilities: Citrus Leaf Miner Damage This insect is the maggot of a tiny fly that lays eggs into the leaves. Maggots hatch from the eggs and mine their way through the leaves causing them to cup and crinkle. Squiggly lines can also be seen in the affected leaves. This insect is not harmful to the health or fruit production of established trees. Young citrus trees may benefit from sprays of horticulture oil which interfere with the fly's ability to lay eggs into the leaf. | Leaf Curl. Leaf curl is a fungal disease that can attack various fruit tree varieties, but is most prevalent on peach and nectarine trees. Leaf curl is caused by the fungus Taphrina deformans. Early in the spring, shortly after the leaves emerge, the leaves appear thickened, puckered and curled and often a yellow, pink and red color. As the season progresses, the growth of new shoots is stunted and a whitish-gray powdery substance appears on the leav | Several fungal diseases will cause the leaves of citrus tree to curl, distort, yellow, wilt and drop prematurely from the tree. Bacterial blast and botrytis disease are two of these fungal diseases that lead to leaf curling. Bacterial blast starts out as black lesions on the petiole and moves to the axil. Aphids, spider mites, citrus leaf miners, scale insects and mealybugs are a few of these sap-sucking pests that will cause the leaves to curl, wilt and die. Introducing predatory insects that feed on the sap-sucking pests will help keep their numbers in check. |
Synchrony Credit Cards List | This means that if you have one of these cards, it is Synchrony Bank that is extending you credit and it is Synchrony you will be dealing with in the future, not the company whose name is on the front of the card. Synchrony Bank credit cards include: 1 ABC Warehouse Credit Card. 2 Abt Electronics | A list of Synchrony Bank credit cards can be found here. However, you may have a Synchrony Bank credit card or financing arrangement that requires you to deal with Synchrony Bank directly through their main site. In that case, the following information is for you: 1 If you want to make a Synchrony Bank payment online, go here to log in and pay your bill. | Chevron / Texaco Credit Cards – Gas credit cards from Chevron and Texaco are also issued by Synchrony Bank / GE Capital. Click through for details on the cards and to apply online. | American Eagle Credit Card – Popular clothing retail chain offers its credit card in partnership with Synchrony Bank / GE Capital Retail Bank. (www.ae.com). 9. Belk Credit Card – The credit card of this department store chain is issued by Synchrony Bank / GE Capital. | Synchrony Bank’s private label credit cards are simply store credit cards with upgraded financing features. A store credit card, unlike traditional credit cards, is usually applied for in a store and is processed through the bank that issues the card. |
how much does uber make per ride | Uber drivers make the most money (pretax) per ride, on average – $15.97, compared with $13.35 for Sidecar and $11.48 for Lyft. | Uber has made some lofty claims about just how much its drivers can make a year. Uber has said its UberX drivers can make a median income of $90,000 a year in New York, as long as they drive over 40 hours per week. It s ays drivers can make up to $60,000 per year in Dallas. UberX is the startup's cheaper tier service. | (click to enlarge). Drivers can earn close to $30 per ride in New York City, but only just over $10 a ride in cities like Nashville, Chicago, Los Angeles and San Francisco. According to Business Insider, the most recent reports from Uber reveal that drivers earn an hourly wage of $30. | uberXL: Seats 6. In San Francisco the fare is $5 plus $0.45 per minute plus $2.15 per mile. In New York City the fare is $4.50 plus $0.60 per minute plus $3.25 per mile. uberTAXI: A normal taxi ride, except requests and payment are done via Uber. | Uber driver pay varies depending on where you live and how many hours you drive. I make between $20 and $25 an hour in Los Angeles. Studies across the nation show that Uber drivers make over $19 an hour on average. In New York City, the average Uber driver makes over $30 an hour. |
what is protein deficiency disease | Protein Deficiency Diseases. Protein deficiency diseases are serious health conditions that arise due to insufficient amounts of protein in the body. Protein is an important nutrient needed by the human body to replenish and repair tissues and muscles. It also plays an important role in transporting oxygen to the various muscles and organs. Protein deficiency is chiefly caused by malnutrition. Since protein is taken from the food we eat, when there is a significant lack of nourishment and foods rich in protein, the person can develop protein deficiency disease. | Mitochondrial trifunctional protein deficiency is a rare condition that prevents the body from converting certain fats to energy, particularly during periods without food (fasting). Signs and symptoms of mitochondrial trifunctional protein deficiency may begin during infancy or later in life. Features that occur during infancy include feeding difficulties, lack of energy (lethargy), low blood sugar (hypoglycemia), weak muscle tone (hypotonia), and liver problems. | Protein S deficiency is a blood disorder that increases the risk of developing abnormal blood clots. It may be an inherited disorder or an acquired disorder due to vitamin K deficiency or treatment with certain medications, pregnancy, liver disease, and certain chronic infections. | Protein Deficiency Diseases. Proteins are body building elements required by the human body. They provide the required energy for the body to function properly and are crucial for the development of muscles. Proteins also facilitate the development of nails, a healthy skin and promote hair growth. Protein Deficiency Symptoms. Lack of Protein has signs and symptoms depicted in the body changes. In case you experience any of the symptoms or you notice someone with the signs, it is advisable to seek immediate medical attention. Some of these symptoms include: 1 Weak and sore muscles. 2 Increased water retention. | Kwashiorkor is a disease caused by a severe deficiency of protein in diets that contain calories mostly from carbohydrates such as yams, rice and bananas. It usually affects older children. Marasmus. Marasmus is a disease caused by a severe deficiency of protein and calories that affect infants and very young children, often resulting in weight loss and dehydration. Marasmus can develop into starvation and cause fatality caused by a lack of essential nutrients |
where is wineglass bay located | Wineglass Bay is part of the Freycinet Peninsula, an outcrop of wild, pristine coastland on Tasmania's east coast. The entire peninsula, comprising Friendly Beaches, Wineglass Bay and Schouten Island, is encompassed within the Freycinet National Park. Wineglass Bay. Wineglass Bay, on Tasmania's Freycinet Peninsula, is considered one of the top ten beaches in the world. This flawless crescent of dazzling white sand and sapphire-coloured sea set against pink and grey granite peaks is one of Australia's most beautiful natural environments. | Freycinet on the Bay is in the heart of Coles Bay with easy access to the Freycinet National Park, beaches and dining. The Freycinet Peninsular on Tasmanian East Coast is renowned for its long white beaches, rugged scenic coastline, brilliant blue seas and mild climate. | Coles Bay sits at the foot of the granite mountains known as the Hazards and on the edge of the world-renowned Freycinet National Park and Wineglass Bay, about two and 1/2 hours drive from Hobart and Launceston on the east coast of Tasmania. The weather is fine. There is lots to do. Take the cruise around the Peninsula. Have a leisurely walk in Freycinet National Park. Kayak around the Bay. Go bush on a quad bike. See Wineglass Bay from the air. Or if you want to, chill out, relax and read a book. Whatever your idea of a holiday, this is the place. | From Wikipedia, the free encyclopedia. Freycinet is a national park on the east coast of Tasmania, Australia, 125 km northeast of Hobart. It occupies a large part of the Freycinet Peninsula, named after French navigator Louis de Freycinet, and Schouten Island. Freycinet contains part of the rugged Tasmanian coastline and includes the secluded Wineglass Bay, voted by several travel authorities as one of the world's ten best beaches. Famous features of the park include its red and pink granite formations and a series of jagged granite peaks in a line, called The Hazards . | page_location_3. The Freycinet Peninsula extends south-eastwards from Tasmania’s coastline and is a fully protected national park, including the internationally acclaimed Wineglass Bay. Saffire is located on the inside of the gentle curve of sandy coastline that joins the peninsula to mainland Tasmania. |
where is wineglass bay located | Discover Wineglass Bay, one of the top 10 beaches in the world, located near Hobart, Tasmania. Find things to do at this spectacular coastal destination. Wineglass Bay, on Tasmania's Freycinet Peninsula, is considered one of the top ten beaches in the world. This flawless crescent of dazzling white sand and sapphire-coloured sea set against pink and grey granite peaks is one of Australia's most beautiful natural environments. Wineglass Bay. Wineglass Bay, on Tasmania's Freycinet Peninsula, is considered one of the top ten beaches in the world. This flawless crescent of dazzling white sand and sapphire-coloured sea set against pink and grey granite peaks is one of Australia's most beautiful natural environments. | From Wikipedia, the free encyclopedia. Freycinet is a national park on the east coast of Tasmania, Australia, 125 km northeast of Hobart. It occupies a large part of the Freycinet Peninsula, named after French navigator Louis de Freycinet, and Schouten Island. Freycinet contains part of the rugged Tasmanian coastline and includes the secluded Wineglass Bay, voted by several travel authorities as one of the world's ten best beaches. Famous features of the park include its red and pink granite formations and a series of jagged granite peaks in a line, called The Hazards . | Coles Bay sits at the foot of the granite mountains known as the Hazards and on the edge of the world-renowned Freycinet National Park and Wineglass Bay, about two and 1/2 hours drive from Hobart and Launceston on the east coast of Tasmania. The weather is fine. There is lots to do. Take the cruise around the Peninsula. Have a leisurely walk in Freycinet National Park. Kayak around the Bay. Go bush on a quad bike. See Wineglass Bay from the air. Or if you want to, chill out, relax and read a book. Whatever your idea of a holiday, this is the place. | Freycinet on the Bay is in the heart of Coles Bay with easy access to the Freycinet National Park, beaches and dining. The Freycinet Peninsular on Tasmanian East Coast is renowned for its long white beaches, rugged scenic coastline, brilliant blue seas and mild climate. | Bordering the national park is the small settlement of Coles Bay, and the largest close town is Swansea. Freycinet contains part of the rugged Tasmanian coastline and includes the secluded Wineglass Bay, voted by several travel authorities as one of the world's ten best beaches. Famous features of the park include its red and pink granite formations and a series of jagged granite peaks in a line, called The Hazards . |
how long till eyelashes fully grow back | They grow back: If you just pull out an eyelash, it will grow back in about 3 to 4 weeks. If you break an eyelash while trying to pull it out, the broken eyelash will continue to grow. The only time an eyelash will not grow back is when the hair bulb is damaged, either by disease or injury. ...Read more. 3 months: Eyelashes grow out in the 3 month cycle. If you cut one it will not grow by itself but new replcement ones grow alll the time. It will take a maximum of three months to get a whole new set | Eyelash loss can happen for a number of reasons, some perfectly normal and some a sign of serious health problems. It is normal for one or two lashes to fall out per day, because your hair is constantly renewing, but they should also grow back over time. This is considered your normal lash cycle. 1. Expect normal growth. There is very little you can actually do to make your eyelashes grow faster. Your best bet will be to simply keep the eyelashes from falling back out again, which means your focus should be on prevention and maintenance. | When your eye lash falls out or you pluck it out, it will grow back. The eyelash growth cycle takes about four to eight weeks to fully replace an eyelash. If you lose a large clump of eyelashes, it is likely to take longer for them all to be replaced as it can take up to four weeks for replacements to come in fully. (BS) well they didnt last at all, and well when they fell off they took my eyelashes as well. So now i do have eyelashes, but less than before, and well i was wondering how long it will take, i thnkin of buyin the fake ones, but the ones that come on and off till they | Similarly to head hair loss, your chances of losing your eyelashes and brows largely depends on the type of chemotherapy you receive. eyelashes will grow back but it take a time to grow back. read more about this topic here .. Ten years ago I lost lashes and brows after taxol. Yes, they did grow back in slowly. They never have been as full as before, maybe due to my post menopausal age or maybe due to arimidex. Estrogen helps hair quality and we can't do that. | How long it takes to grow back a full head of hair (and pubic hair, lashes, and brows if you lost them too) varies from person to person. Generally, the hair most likely to fall out is the hair that tends to grow back the fastest. The hair on the top of your head grows faster than your eyebrows or eyelashes. Your new hair may be just like your old hair, or it may be thicker and curlier, or straighter, than your original hair. |
what is a holding company used for | Holding companies can be used to reduce tax as well as provide important non-tax related benefits. While each situation may be different, as your company’s annual revenues and income increase, a holding company is likely something you should consider. | One benefit of forming a holding company is that the holding company itself is protected from the losses. If one of their companies goes bankrupt, the holding company experiences a capital loss and a decline in net worth, but the bankrupt company’s debtors and creditors can’t pursue the holding company for remuneration. | Effective Use of the Operating Entity. When using holding and operating companies in a multiple-entity business structure, your operating entity is your primary business entity. All business functions occur within that company. Likewise, all of the risks to the business will occur within that entity as well. | Using holding and operating companies is an asset protection planning strategy that helps to limit liability risks in your business structure. An ideal business structure consists of an operating entity that does not own any vulnerable assets and a holding entity that actually owns the business's assets. | A holding company is a company that owns shares in another company. If the holding company owns the majority of shares of another company, it is also referred to as a parent company. It generally does not produce goods or services itself. The sole purpose of a holding company is usually to own |
where does france get its oil | France is the third-largest oil-consuming country in Europe, and has very little petroleum reserves. Almost all of its oil is imported, primarily from the Middle East, Norway and the United Kingdom. Purely on the basis of electricity, France is a net energy exporter. France, the third-largest generator and consumer of electricity in all of Europe, generates more electricity than it consumes. (corrected) Nicolas Sarkozy cited 50 percent as the amount of nuclear energy in France. Segolene Royal cited 17 percent. Neither cited the more popular 78 percent figure. Analysts spent the day searching for the truth. | • Libya supplies the oil for China. Libya does supply some oil to China, but it’s not as large as Trump’s statement implies. The EIA showed that Libya’s No. 1 customer is Italy, which bought 28 percent of Libya’s exports in 2010. Italy was followed by France, at 15 percent, then China, at 11 percent. Trump said, Libya supplies the oil for China. We get no oil from Libya.. His point in the first sentence was clearly that Libya was a major supplier of oil for China. But the data do not support his claim. | In practice, some European countries depend heavily on energy imports and are highly vulnerable to global energy shocks. The EU is the world's largest importer of oil and gas. It imports 82 percent of its oil and 57 percent of its gas. With Russia consolidating its control of European and Central Asian energy, and in view of Europe's dependence on the Persian Gulf, Europe desperately needs to cooperate on energy security. Europe and the U.S. should work together to mitigate the adverse effects of Europe's strategic dependence on Russia. | Crude oil prices have decline from over a 100 dollars a barrel in 2014 to below 50 US dollars in 2015. Russia tried and failed to get OPEC support for production cutbacks and is now ramping up its oil production to reduce the drop in oil revenues. OPEC's oil glut supply policy has affected the Russian economy. The Energy policy of Russia is contained in an Energy Strategy document, which sets out policy for the period up to 2020. | Russia is consolidating its grip on oil and gas-the economic lifeblood of Europe. Moscow is pursuing a comprehensive strategy that could increase Europe's political and economic dependence on Russian energy. With Russia consolidating its control of European and Central Asian energy, and in view of Europe's dependence on the Persian Gulf, Europe desperately needs to cooperate on energy security. Europe and the U.S. should work together to mitigate the adverse effects of Europe's strategic dependence on Russia. |
how long it takes starlight to reach earth | In our Solar System, we see light from our sun reflected off the planets. In more distant galaxies, light from many millions of stars takes a long time to reach the Earth. It takes light 4 years to reach the Earth from Sirius, a near neighbouring star. Using the Hubble telescope, we can see the light from the Eagle Nebula, which takes 7,000 years to reach the Earth. | Report Abuse. That depends. Distance from the earth to stars is measured in light years. It takes a ray of light (light travels at 186,200 miles per second) one year to reach the earth. So a star that is 10 million light years away...it takes 10 million years to reach earth. That is why you'll hear astronomers say that when we are looking at stars, we are looking back into the past. Report Abuse. That depends on how far away the star is. The closest star is Alpha Centauri, which is about 4.37 light years away. So it takes 4 years and 3 months for light to reach us from Alpha Centauri. | Report Abuse. All stars are different in distance and the closest is 4 light years away, that means if you pointed a red laser light at it, it would take 4 years for that light to reach that star, if the sun died suddenly it would take 8 minutes for us to realize this since the sun is 8 light minutes away from us. Report Abuse. That depends on how far away the star is. The closest star is Alpha Centauri, which is about 4.37 light years away. So it takes 4 years and 3 months for light to reach us from Alpha Centauri. | The short answer is that it takes sunlight an average of 8 minutes and 20 seconds to travel from the Sun to the Earth.……..Here's the math. We orbit the Sun at a distance of about 150 million km. Light moves at 300,000 kilometers/second. vacuum-mechanics. The short answer is that it takes sunlight an average of 8 minutes and 20 seconds to travel from the Sun to the Earth.……..Here's the math. We orbit the Sun at a distance of about 150 million km. Light moves at 300,000 kilometers/second. Divide these and you get 500 seconds, or 8 minutes and 20 seconds. | Asker's rating. Report Abuse. It depends on the distance between the earth and the star, the sun's light takes only 8 minutes to reach us, but other stars are much further away and take years at least for their light to reach us. superpsychicman · 9 years ago. Thumbs up. the distance between stellar objects is measured in light years which is the distance light travels through vacumn in a year. So if a star is four light years away it would take 4 years for the light to reach earth. |
what is biotin deficiency | Biotin deficiency is a rare nutritional disorder which can become serious, even fatal, if allowed to progress untreated. It can occur in people of any age, ancestry, or gender. Biotin is part of the B vitamin family. Genetic disorders such as Biotinidase deficiency, Multiple carboxylase deficiency, and Holocarboxylase synthetase deficiency can also lead to inborn or late-onset forms of biotin deficiency. In all cases – dietary, genetic, or otherwise – supplementation with biotin is the primary method of treatment. | Background. Biotin deficiency is a rare nutritional disorder caused by a deficiency of the water-soluble B vitamin termed biotin. This article discusses biotin deficiency caused by deficiency of the enzyme biotinidase (see also Biotinidase Deficiency). Over 140 different genetic defects have been noted with biotinase. Biotin deficiency rarely, if ever, occurs in healthy individuals who consume a regular diet unless they are being treated either with certain anticonvulsants or with broad-spectrum antibiotics. The extremely low prevalence of biotin deficiency is probably the result of a combination of factors | Overview. Vitamin H, more commonly known as biotin, is part of the B complex group of vitamins. All B vitamins help the body to convert food (carbohydrates) into fuel (glucose), which is used to produce energy. These B vitamins, often referred to as B complex vitamins, also help the body metabolize fats and protein. It’s rare to be deficient in biotin. Symptoms include hair loss, dry scaly skin, cracking in the corners of the mouth (called cheilitis), swollen and painful tongue that is magenta in color (glossitis), dry eyes, loss of appetite, fatigue, insomnia, and depression. | Biotin deficiency rarely occurs among healthy people because the daily requirement of biotin is low, many foods provide adequate amounts of it, intestinal bacteria synthesize small amounts of it, and the body effectively scavenges and recycles it from bodily waste. Genetic disorders such as Biotinidase deficiency, Multiple carboxylase deficiency, and Holocarboxylase synthetase deficiency can also lead to inborn or late-onset forms of biotin deficiency. In all cases – dietary, genetic, or otherwise – supplementation with biotin is the primary method of treatment. | 6 Signs of Biotin Deficiency. Biotin is a form of Vitamin B complex, and it is a crucial vitamin required for synthesizing carbohydrates and fatty acids in the human body. This vitamin is manufactured from food by bacteria that is present in the intestinal track of the body. Skin inflammation is one of the common symptoms of biotin deficiency. The common form of dermatitis that is found in people who are suffering from biotin deficiency is seborrhoeic dermatitis. |
brat diet is grits good for diarrhea | the BRAT diet: bananas, rice, apple sauce, and toast. The BRAT diet is a diet for patients with gastrointestinal distress such as diarrhea, indigestion, and/or gastroenteritis. The BRAT diet is a bland diet that consists of foods that are low in fiber. Low-fiber foods were recommended as it was thought that foods high in fiber cause gas and possibly worsen gastrointestinal upset. An acronym, BRAT is a mnemonic for bananas, rice, apple sauce, and toast, the staples of the die | Physicians often recommend the BRAT method when someone is suffering from acute diarrhea, which is diarrhea that last for less than 14 days. This method, which is a diet of bland foods incorporated into your diet, helps settle your stomach and helps you recover from a gastrointestinal infection that causes diarrhea. BRAT stands for bananas, rice, applesauce, and toast. Many of the infectious causes are common viruses, rotavirus, and norwalk virus. Diarrhea can be a condition of loose stools or frequent stools, but most Clinicians interpret diarrhea to be loose stools. One of the most popular ways to treat diarrhea is the BRAT method, which is a food based home remedy. | Eat bananas. The first step in the BRAT method is to eat bananas. Bananas are great when you are suffering from diarrhea because they are bland and easy on the stomach. They are also helpful because they are rich in potassium, which will help counter the loss of nutrients from diarrhea. Many of the infectious causes are common viruses, rotavirus, and norwalk virus. Diarrhea can be a condition of loose stools or frequent stools, but most Clinicians interpret diarrhea to be loose stools. One of the most popular ways to treat diarrhea is the BRAT method, which is a food based home remedy. | The stomach flu is a viral infection that causes excessive diarrhea for one to three days and is treated with rest and diet modification. Food poisoning, another common condition, is caused by ingesting beverages or foods contaminated with bacteria, viruses or parasites. BRAT Diet. The BRAT diet is an acronym that will help you remember which foods you need to eat if you develop diarrhea. The foods you eat while you have diarrhea can help shorten or prolong the condition, according to MedlinePlus. | If you have recently had an upset stomach or diarrhea, your doctor may suggest that you limit your diet to bland foods that won’t irritate your stomach. The BRAT diet is a bland-food diet that is often recommended for adults and children. BRAT stands for B ananas, R ice, A pplesauce and T oast. The BRAT diet can help you recover from an upset stomach or diarrhea for the following reasons: 1 It includes “binding” foods. 2 These are low-fiber foods that can help make your stools firmer. 3 It includes bananas, which are high in potassium and help replace nutrients your body has lost because of vomiting or diarrhea. The BRAT diet can help you recover from an upset stomach or diarrhea for the following reasons: 1 It includes “binding” foods. 2 |
brat diet is grits good for diarrhea | 1 Feed an infant or child easily digested foods; the BRAT diet (bananas, rice, applesauce, and toast) is a good choice as soon as they can tolerate food. 2 For an adult, add semisolid and low-fiber foods gradually as diarrhea stops. 3. Ease Into Eating. 1 | Diarrhea and the BRAT Diet. The T in BRAT is for toast. If you find yourself running to the bathroom several times an hour with loose stools and the problem lasts a few days, you have diarrhea. Diarrhea is a sign something is causing irritation in your gastrointestinal tract. BRAT Diet. The BRAT diet is an acronym that will help you remember which foods you need to eat if you develop diarrhea. The foods you eat while you have diarrhea can help shorten or prolong the condition, according to MedlinePlus. | Physicians often recommend the BRAT method when someone is suffering from acute diarrhea, which is diarrhea that last for less than 14 days. This method, which is a diet of bland foods incorporated into your diet, helps settle your stomach and helps you recover from a gastrointestinal infection that causes diarrhea. BRAT stands for bananas, rice, applesauce, and toast. Many of the infectious causes are common viruses, rotavirus, and norwalk virus. Diarrhea can be a condition of loose stools or frequent stools, but most Clinicians interpret diarrhea to be loose stools. One of the most popular ways to treat diarrhea is the BRAT method, which is a food based home remedy. | If you have recently had an upset stomach or diarrhea, your doctor may suggest that you limit your diet to bland foods that won’t irritate your stomach. The BRAT diet is a bland-food diet that is often recommended for adults and children. BRAT stands for B ananas, R ice, A pplesauce and T oast. The BRAT diet can help you recover from an upset stomach or diarrhea for the following reasons: 1 It includes “binding” foods. 2 These are low-fiber foods that can help make your stools firmer. 3 It includes bananas, which are high in potassium and help replace nutrients your body has lost because of vomiting or diarrhea. The BRAT diet can help you recover from an upset stomach or diarrhea for the following reasons: 1 It includes “binding” foods. 2 | The BRAT diet is a unique approach to weight loss. An age old remedy for babies and toddlers with diarrhea, BRAT stands for Bananas, Rice, Applesauce and Toast (plain, no butter). |
lil romeo net worth | Lil Romeo net worth: $5 Million. Lil Romeo Net Worth: Lil Romeo is an American rapper, actor, basketball player, entrepreneur and model who has a net worth of $5 million dollars. Miller. In 2002, Lil' Romeo saw the release of his second album, Gametime, after which he jumped into the world of movie and TV deals. In 2003 he appeared in the feature film Honey (starring Jessica Alba) and then he signed with Nickelodeon to co-star with his father in the series Romeo! . | Lil Romeo started his acting career with a cameo appearance in the 2001 film Max Keeble’s Big Move. He later co-starred with Jessica Alba, Mekhi Phifer and Zachary Isaiah Williams in the film Honey (2003). In Honey, his supporting character was Benny, a young boy looking for a break. Lil Romeo released his debut album seven years later, titled after his original alias Lil’ Romeo. This offering contained the hit single “My Baby” that charted No. 1. R&B/Hip-hop Singles. In 2002, a year later after his debut album, Miller put out his second studio album, Game Time. | About Romeo Miller. Percy Romeo Miller Jr., is the son of Sonya C. Miller and hip hop mogul Master P, his net worth is estimated at $5 million. An entertainment entrepreneur, mogul and former rapper. | Percy Romeo Miller, Jr. (born August 19, 1989), better known by his stage name Maserati Rome (formerly Lil' Romeo & Romeo) or his acting/business name Romeo Miller, is an American rapper, actor, basketball player, entrepreneur, and model. | 7.4k. Share Tweet Share Email Follow. Romeo Miller, also known as Lil Romeo, has appeared on The Millionaire Matchmaker and the episode synopsis reads: Patti clears her schedule to coach actor-rapper Romeo Miller who has been looking for love in all the wrong places. Lil Romeo has a net worth of $5 million and he was also a basketball player for USC |
what is a pilot rollout | 1. Define Success. First, define what success of the pilot program looks like. This gives you a benchmark to compare against later, and helps you judge at the program’s completion if the technology is indeed ready for organization-wide rollout. For many organizations, success is defined as time saved. Posted by Jason Haddad on Tue, Feb 04, 2014 @ 08:32 AM. A newly introduced technology will not succeed if user adoption is low. Pilot programs offer organizations the ability to rollout new technology in small numbers before attempting large-scale implementation. In doing so, you can: 1 Define best practices when using the new solution. 2 Identify kinks, challenges and onboarding issues | 1 o Create a summary of the strategy used to pilot the solution and communicate the results achieved. 2 Solicit Stakeholder Feedback: 3 Change management is a key part of project success. 4 Soliciting feedback during stakeholder interviews gives you access to thoughts from those impacted by the project. 1 Lower Risk. 2 Lowers risk of failure by limiting resource usage. 3 Assess true performance in controlled-but-live experiments. 4 Learn. 5 Confirm or disprove expected results and relationships. 6 To test and validate the benefit of the proposed solutions before roll out. | A proof of concept pilot project is an opportunity to demonstrate the capabilities of Electronic Records Management (ERM) software on a small area and in a controlled manner. A pilot project is an excellent risk mitigation strategy for an agency planning to implement a ERM system. | It is therefore advisable that you try to design the pilot deployment program so that the new software is installed on a wide variety of different hardware and that any software that could potentially conflict with the new software is in use on at least some of the machines in the pilot deployment program. Conclusion. As you can see, a pilot deployment program should be an essential part of any new software deployment. In this article, I have given you hints based on my real world experience in an effort to try to help you to make deploying Windows Vista and Microsoft Office 2007 as painless as possible. | Participant selection. A pilot deployment will consist of rolling out the new software to a select group of users in your organization. Choosing which users to include in the pilot deployment is an art form of its own. The first trick will be to figure out how many users to include in your pilot deployment. Conclusion. As you can see, a pilot deployment program should be an essential part of any new software deployment. In this article, I have given you hints based on my real world experience in an effort to try to help you to make deploying Windows Vista and Microsoft Office 2007 as painless as possible. |
good sources of monounsaturated fatty acids | Monounsaturated fats benefit your cardiovascular system -- they lower LDL, the type of harmful cholesterol linked to heart disease, while raising the level of HDL, or good cholesterol. Foods rich in monounsaturated fats include nuts, oils, fish and other plant foods. | Fish high in omega-3 fatty acids include salmon, tuna, trout, mackerel, sardines and herring. Plant sources of omega-3 fatty acids include flaxseed (ground), oils (canola, flaxseed, soybean), and nuts and other seeds (walnuts, butternuts and sunflower). | The only breakfast cereal considered to be a very good food source of monounsaturated fat is ready-to-eat, commercially prepared granola. Butter, eggs and many varieties of cheese, such as Roquefort, muenster, Monterey jack, Parmesan, Cheshire, cream and limburger, are good food sources of monounsaturated fat. | It also lowers triglycerides. Good sources of omega-3 fatty acids include fatty fish such as salmon, mackerel, and sardines, flaxseeds, walnuts, canola oil, and unhydrogenated soybean oil. Omega-3 fatty acids may help prevent and even treat heart disease and stroke. | Monounsaturated fatty acids most frequently occur in higher concentrations in plant foods such as olive oil, most nuts, and avocados. Although marrow from animal bones is infrequently consumed in the U.S., it is also a good source of monounsaturated fats. |
who is affected by salinity in the murray | In the Murray River valley irrigation has caused salinity problems. Land surrounding the town of Werrimull in the northwest of Victoria have been affected by salinity due to land clearing. The Eastern Mallee and the Western Mallee of Western Australia are areas that are prone to salinity with little remedial action being undertaken to rectify the problem. Lands surrounding Lake Bryde-East Lake Bryde and Dumbleyung Lake have also been affected. | Historically the areas around Waikerie and Woolpunda in South Australia contribute close to 350 tonnes of salt a day between them. In South Australia the development of salt interception schemes has reduced this figure by more than 85%. That’s over 300 tonnes of salt that is no longer going into the Murray every day. The inception schemes have lowered the average salinity at Morgan by 22 EC units. At that time the whole land mass started to rise out of the sea (about 100 million years ago). Salt water flowed away from the emerging land back into the ocean, and a river was born which would eventually become the present-day Murray (see the beginnings). | The Murray-Darling Basin Commission (MDBC) is responsible for the provision of advice to the Ministerial Council on Basin-wide land, water and environmental management issues and for managing the River-Murray. The Commission 11as a two part role in the management of dryland salinity: The provision of a Basin-wide context within which current and future management of dryland salinity is undertaken, particularly with regard to water resources (ground and surface). | The Murray-Darling Basin Salinity Audit reports that the threshold of 1500 EC units is currently exceeded in the Macquarie Marshes four per cent of the time. But this is predicted to rise to 23 per cent of the time by 2100, unless changes are made to the way natural resources are managed. Natural environment. There is a natural variation in the ability of plant and animal species and ecosystems to tolerate salinity. The ecosystems most likely to be affected by salinity are rivers and riverbanks, wetlands, and vegetation in lower parts of the landscape. | The Murray–Darling River Basin. The Murray River and its main tributary, the Darling River, are the two main rivers in the Murray–Darling River Basin. A river catchment is the area of land that surrounds a river and all of its tributaries, from the headwaters to the mouth. The river basin includes all the underwater aquifers and related springs. 1 National Museum of Australia, the Murray-Darling Basin Commission and the Museum of the Riverina, Pass the Salt. 2 Pass the Salt explores places, examines objects and tells people's stories about salinity in the Wagga Wagga region, New South Wales. |
what is an Promotional dealer | Clarence Young Autohobby: Facebook Edition. Auto dealer promotional models are the primary emphasis here. Promotional auto sales catalogs, showroom visuals, obsolete model car kits and toy cars are also here. One-of-a-kind items are a specialty. Current and common items are left for the mass marketers. | $0.00. Gallagher Promotional Products, Inc. offers promotional car dealership supplies and promotional material including promotional flags, streamers, dealer plates, custom license plate frames, banners, key fobs, advertising balloons and other promotional items. | $0.00. Gallagher Promotional Products, Inc. offers promotional car dealership supplies and promotional material including promotional flags, streamers, dealer plates, custom license plate frames, banners, key fobs, advertising balloons and other promotional items. | Sales promotion includes several communications activities that attempt to provide added value or incentives to consumers, wholesalers, retailers, or other organizational customers to stimulate immediate sales. | $0.00. Gallagher Promotional Products, Inc. offers promotional car dealership supplies and promotional material including promotional flags, streamers, dealer plates, custom license plate frames, banners, key fobs, advertising balloons and other promotional items. |
what is an Promotional dealer | In the United States and Canada, these distributors are called Promotional Consultants or promotional product distributors. Promotional products by definition are custom printed with a logo, company name or message usually in specific PMS colors. | For over 70 years Sid Savage Auto Dealer Supply has been the number one source for auto dealer supplies including auto key tags, dealer license plates, license plate frames, advertising balloons, banners and other promotional products for car dealerships. | Sales promotion includes several communications activities that attempt to provide added value or incentives to consumers, wholesalers, retailers, or other organizational customers to stimulate immediate sales. | Sales promotion includes several communications activities that attempt to provide added value or incentives to consumers, wholesalers, retailers, or other organizational customers to stimulate immediate sales. | Sales promotion includes several communications activities that attempt to provide added value or incentives to consumers, wholesalers, retailers, or other organizational customers to stimulate immediate sales. |
Webmd is melatonin good for insomnia | BY MOUTH: View Sources. 1 For insomnia: 2 0.3-5 mg at bedtime is a typical dose. 3 In children with insomnia due to delayed sleep onset, melatonin 5 mg at 6:00 PM daily. 4 In children with developmental disorders (including cerebral palsy, autism, and mental retardation), melatonin 5 mg at 8:00 PM daily. 1 For insomnia: 2 0.3-5 mg at bedtime is a typical dose. 3 In children with insomnia due to delayed sleep onset, melatonin 5 mg at 6:00 PM daily. | During health exams, tell your doctor if you are taking melatonin. And tell your doctor if you are having trouble sleeping (insomnia), because it may be related to a medical problem. In adults, melatonin is taken in doses from 0.2 mg to 20.0 mg, based on the reason for its use. In most cases, melatonin supplements are safe in low doses for short-term and long-term use. But be sure to talk with your doctor about taking them. Children and pregnant or nursing women should not take melatonin without talking to a doctor first. Melatonin does have side effects. | 1 0.3-5 mg at bedtime is a typical dose. 2 In children with insomnia due to delayed sleep onset, melatonin 5 mg at 6:00 PM daily. 3 In children with developmental disorders (including cerebral palsy, autism, and mental retardation), melatonin 5 mg at 8:00 PM daily. 1 For insomnia: 2 0.3-5 mg at bedtime is a typical dose. 3 In children with insomnia due to delayed sleep onset, melatonin 5 mg at 6:00 PM daily. | Melatonin is a hormone found naturally in the body. Melatonin used as medicine is usually made synthetically in a laboratory. It is most commonly available in pill form, but melatonin is also available in forms that can be placed in the cheek or under the tongue. Melatonin is also used for some of the side effects of cancer treatment (chemotherapy) including weight loss, nerve pain, weakness, and a lowered number of clot-forming cells (thrombocytopenia). It is also used to calm people before they are given anesthesia for surgery. | Melatonin is a hormone made by the pineal gland, a small gland in the brain. Melatonin helps control your sleep and wake cycles. Very small amounts of it are found in foods such as meats, grains, fruits, and vegetables. You can also buy it as a supplement. In most cases, melatonin supplements are safe in low doses for short-term and long-term use. But be sure to talk with your doctor about taking them. Children and pregnant or nursing women should not take melatonin without talking to a doctor first. Melatonin does have side effects. |
Webmd is melatonin good for insomnia | Melatonin supplements are sometimes used to treat jet lag or sleep problems (insomnia). Scientists are also looking at other good uses for melatonin, such as: 1 Treating seasonal affective disorder (SAD). 2 Helping to control sleep patterns for people who work night shifts. In most cases, melatonin supplements are safe in low doses for short-term and long-term use. But be sure to talk with your doctor about taking them. Children and pregnant or nursing women should not take melatonin without talking to a doctor first. Melatonin does have side effects. | 1 0.3-5 mg at bedtime is a typical dose. 2 In children with insomnia due to delayed sleep onset, melatonin 5 mg at 6:00 PM daily. 3 In children with developmental disorders (including cerebral palsy, autism, and mental retardation), melatonin 5 mg at 8:00 PM daily. 1 For insomnia: 2 0.3-5 mg at bedtime is a typical dose. 3 In children with insomnia due to delayed sleep onset, melatonin 5 mg at 6:00 PM daily. | Melatonin is POSSIBLY SAFE when used by mouth appropriately, long-term. Melatonin has been used safely for up to 2 years in some people. However, it can cause some side effects including headache, short-term feelings of depression, daytime sleepiness, dizziness, stomach cramps, and irritability. Do not drive or use machinery for four to five hours after taking melatonin. Melatonin is also used for some of the side effects of cancer treatment (chemotherapy) including weight loss, nerve pain, weakness, and a lowered number of clot-forming cells (thrombocytopenia). It is also used to calm people before they are given anesthesia for surgery. | 1 For benzodiazepine withdrawal in elderly people with insomnia: 2 mg of controlled-release melatonin taken at bedtime for 6 weeks (the benzodiazepine dosage is reduced 50% during the second week, 75% during weeks 3 and 4, and stopped during weeks 5 and 6) and continued up to 6 months. 1 For insomnia: 2 0.3-5 mg at bedtime is a typical dose. 3 In children with insomnia due to delayed sleep onset, melatonin 5 mg at 6:00 PM daily. | Melatonin is a hormone found naturally in the body. Melatonin used as medicine is usually made synthetically in a laboratory. It is most commonly available in pill form, but melatonin is also available in forms that can be placed in the cheek or under the tongue. Melatonin is also used for some of the side effects of cancer treatment (chemotherapy) including weight loss, nerve pain, weakness, and a lowered number of clot-forming cells (thrombocytopenia). It is also used to calm people before they are given anesthesia for surgery. |
what is curcuma | Curcumin, is an anti-inflammatory molecule in the turmeric root, a relative of ginger. Turmeric has been used for thousands of years as a medicinal preparation and a preservative and coloring agent in foods. Curcumin was isolated as the major yellow pigment in turmeric; chemically diferulomethane, and has a polyphenolic molecular structure similar to other plant pigments (eg. Some people attribute the low incidence of Alzheimer's to a high intake of turmeric in Asia. As turmeric contains an average of 5-10% curcumin, the daily intake of curcumin is approximated in India is thought be about 125 mg. | Curcumin (/ˈkərkjuːmən/) is a diarylheptanoid. It is the principal curcuminoid of turmeric, which is a member of the ginger family (Zingiberaceae). It was first discovered about two centuries ago when Vogel and Pelletier reported the isolation of a “yellow coloring-matter” from the rhizomes of Curcuma longa (turmeric) and named it curcumin. The curcuminoids are natural phenols that are responsible for the yellow color of turmeric. Curcumin can exist in several tautomeric forms, including a 1,3-di keto form and two equivalent enol forms. The enol form is more energetically stable in the solid phase and in solution. | The plant turmeric (Curcuma longa) is very well known in India. The root is harvested, cleaned, dried, and powdered to be used as a spice (turmeric gives curry its beautiful golden yellow color) and as a medicine. Traditionally, turmeric was used for nearly every health condition known-from smallpox to a sprained ankle. Additionally, curcumin is poorly absorbed from the gastrointestinal tract. While turmeric is excellent when used as a spice, a curcumin extract is a better choice for health benefits. As a separate, identifiable substance, curcumin was first isolated in 1815. | By Dr Ananya Mandal, MD. Curcumin is a component of the Indian spice turmeric (Curcumin longa), a type of ginger. Curcumin is one of three curcuminoids present in turmeric, the other two being desmethoxycurcumin and bis-desmethoxycurcumin. | Turmeric is the dried rhizome (root) of the Curcuma longa plant and is one of the most widely used spices (curry) in India. Used for its flavor, as a food color and as an medicinal herb. |
how much cost for concrete driveway | 1 A plain concrete driveway can cost $3 -$10 or more a square foot, or $900 -$3,000 for 12'x25' or $2,900 -$9,600 for 24'x40', while a customized concrete driveway with multiple decorative elements can cost $15 -$25 or more a square foot, or $4,500 -$7,500 for 12'x25' or $14,400 -$24,000 for 24'x40'). 1 A gravel driveway starts at roughly $0.75 -$3 or more a square foot, or $300 -$1,000 for a 12'x25' single-car driveway. 2 Costs can double for a roadway-quality driveway. 3 Loose gravel will need replenishing periodically, but a correctly designed, installed and maintained gravel driveway can last 50-100 years or more. | Cost of a Concrete Driveway. Longer-lasting, less maintenance, and cost-effective are the top three attributes of driveways installed with decorative concrete. Driveway costs can range from $6 per square foot to more than $15 per square foot depending upon the design and coloring effects desired. | 1 Also called tar and chip or oil and stone, macadam driveway can cost $1 -$3 or more a square foot on an existing driveway, or $600 -$1,800 for 12'x50'; and $2 -$4 or more a square foot for a completely new driveway with gravel base, or $1,200 -$2,400 for 12'x50'. 1 A gravel driveway starts at roughly $0.75 -$3 or more a square foot, or $300 -$1,000 for a 12'x25' single-car driveway. 2 Costs can double for a roadway-quality driveway. 3 Loose gravel will need replenishing periodically, but a correctly designed, installed and maintained gravel driveway can last 50-100 years or more. | 1 Therefore, a driveway that is 1000 square feet will cost $4,000-$15,000 to complete. 2 This price depends on the extent of the job and the type of concrete selected. 3 The higher the quality of the concrete, the more expensive it will be per square foot. 1 The cost of concrete drive will be between $4-$15 per square foot. 2 Therefore, a driveway that is 1000 square feet will cost $4,000-$15,000 to complete. 3 This price depends on the extent of the job and the type of concrete selected. 4 | Multiplied by the cost of concrete, you’re total concrete driveway cost will be $3,500-$5,600. If you are interested in knowing how much concrete you will use, here’s how to do that. One yard of concrete will cover 81 square feet of ground 4 inches deep. In other words, if your driveway is 50 feet long and you’re going to but stone or brick along each edge, that would come to 100 feet, or about 100 square feet. This would increase the cost of concrete driveway installation by $200-$500. Tinting concrete is popular in some areas. |
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