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nikon dslr price in india | Find All Nikon DSLR Cameras price in India updated on 2015 Oct 15th. Prices of all Nikon DSLR Cameras are compiled and compared from Leading Online Shops. We have selected the best selling Nikon DSLR Cameras in this page. Click the menu to find all Nikon DSLR Cameras and their respective prices in India. Currently 63 Nikon DSLR Cameras are available in the price range of Rs. 18490 to Rs. 480943. | For your navigational ease, Nikon DSLR Cameras price list has been categorized by brands, features and prices. There are 88 Nikon DSLR Cameras models in this list as on 13 September 2015 and the best DSLR Cameras price is shown from over 15 major online stores. | Price Range of Nikon Cameras. View the latest prices of Nikon Cameras in India with product description, specifications, reviews & ratings, photos etc. PriceDekho compiles the most updated list of 262 Nikon Cameras in India as on 22 October 2015 to help you get the best prices. Choose from a wide range of Point & shoot cameras, DSLR, Digital cameras with different types of lens as per requirement. | Price Range of Nikon Cameras. View the latest prices of Nikon Cameras in India with product description, specifications, reviews & ratings, photos etc. PriceDekho compiles the most updated list of 262 Nikon Cameras in India as on 22 October 2015 to help you get the best prices. Choose from a wide range of Point & shoot cameras, DSLR, Digital cameras with different types of lens as per requirement. | Price Range of Nikon Cameras. View the latest prices of Nikon Cameras in India with product description, specifications, reviews & ratings, photos etc. PriceDekho compiles the most updated list of 262 Nikon Cameras in India as on 22 October 2015 to help you get the best prices. Choose from a wide range of Point & shoot cameras, DSLR, Digital cameras with different types of lens as per requirement. |
amherst virginia zip codes | Zip Code 24521 Core Based Statistical Area. 24521 is located in the state of Virginia in the Roanoke metro area. Zip code 24521 is primarily located in Amherst County. Portions of 24521 are also located in Nelson County. The official postal service name used for 24521 is AMHERST, Virginia. Portions of the 24521 zip code are contained within or border the city limits of Amherst, VA, . | 1 The AMHERST County VA ZIP Code Map shows all 5 digit zip code boundaries for AMHERST County VA. | Zip Code 24521 Adjacent Zip Codes. 24521 is located in the state of Virginia in the Roanoke metro area. Zip code 24521 is primarily located in Amherst County. Portions of 24521 are also located in Nelson County. The official postal service name used for 24521 is AMHERST, Virginia. Portions of the 24521 zip code are contained within or border the city limits of Amherst, VA, . | 64% of the 24521 zip code residents lived in the same house 5 years ago. Out of people who lived in different houses, 53% lived in this county. Out of people who lived in different counties, 50% lived in Virginia. 90% of the 24521 zip code residents lived in the same house 1 year ago. Out of people who lived in different houses, 65% moved from this county. Out of people who lived in different houses, 21% moved from different county within same state. | 1 VA ZIP Code Map. 2 The VA ZIP Code Map shows all 5 digit zip code boundaries for VA using clean, practical map colors and styles. 3 AMHERST County, VA ZIP Code Map. 4 The AMHERST County VA ZIP Code Map shows all 5 digit zip code boundaries for AMHERST County VA. |
why is the ganges river flooding | * Flooding in the Ganges basin-human factors. Deforestation in many parts of the river basin, e.g. Nepal, Bhutan and Northern India. This is a result of population growth (more wood is needed for cooking and heating. Also more forests are cleared for farm land). This has led to increased flooding. Deforestation in many parts of the river basin, e.g. Nepal, Bhutan and Northern India. This is a result of population growth (more wood is needed for cooking and heating | LEDC case study: coping with flooding in Bangladesh. Bangladesh is an LEDC. The land is densely populated. Most of the land forms a delta from three main rivers-Ganges, Brahmaputra and Meghna-and 25 per cent of Bangladesh is less than 1 m above sea level. Flooding is an annual event as the rivers burst their banks. | The river known as the Ganges is officially and popularly known by its Hindu name, Ganga. The river has its source in the Himalayas, at Gaumakh in the southern Himalayas on the Indian side of the Tibetan border. It is 1 560 miles (2 510 km) long and flows through China, India, Nepal and Bangladesh. | Ganges Delta. The Ganges Delta (also known as the Ganges–Brahmaputra Delta, the Sunderbans Delta, or the Bengal Delta) is a river delta in the South Asia region of Bengal, consisting of Bangladesh and the state of West Bengal, India. It is the world's largest delta, and empties into the Bay of Bengal. The Ganges Delta has the shape of a triangle, and is considered to be an arcuate delta (arc-shaped). It covers more than 105,000 km 2 (41,000 sq mi), and although the delta lies mostly in Bangladesh and India, rivers from Bhutan, China, India, and Nepal drain into it from the north. | · just now. Report Abuse. * The Ganges is 1557 miles long (2506 km) * The Ganges Valley, or basin, is 200 to 400 miles (322 to 644 km) wide * The river starts in an ice cave on the southern slopes of the Himalayas, some 10,300 feet (3,140 meters) above sea level. * It flows eastward and empties into the Bay of Bengal. |
why is the ganges river flooding | Text: Agencies. With heavy monsoon rains causing water in River Ganges to swell, many parts of Uttar Pradesh are facing problems with floods. The swollen river water has displaced many in Allahabad. The continuous rise in the water level has forced the locals to pack their belongings and move to higher safer plac | Case Study-Ganges/Brahmaputra River Basin. Flooding is a significant problem in the Ganges/Brahmaputra river basin. They cause large scale problems in the low lying country of Bangladesh. There are both human and natural causes of flooding in this area | LEDC case study: coping with flooding in Bangladesh. Bangladesh is an LEDC. The land is densely populated. Most of the land forms a delta from three main rivers-Ganges, Brahmaputra and Meghna-and 25 per cent of Bangladesh is less than 1 m above sea level. Flooding is an annual event as the rivers burst their banks. | Ganges Delta. The Ganges Delta (also known as the Ganges–Brahmaputra Delta, the Sunderbans Delta, or the Bengal Delta) is a river delta in the South Asia region of Bengal, consisting of Bangladesh and the state of West Bengal, India. It is the world's largest delta, and empties into the Bay of Bengal. The Ganges Delta has the shape of a triangle, and is considered to be an arcuate delta (arc-shaped). It covers more than 105,000 km 2 (41,000 sq mi), and although the delta lies mostly in Bangladesh and India, rivers from Bhutan, China, India, and Nepal drain into it from the north. | * Less interception of rain fall by vegetation cover. Positive impact of flooding in Ganges/Brahmaputra river basin Regular annual flooding is essential to people who live on the flood plain of these rivers, the farming season is planned around the floods, rice is a main crop and requires large quantities of water. Deforestation in many parts of the river basin, e.g. Nepal, Bhutan and Northern India. This is a result of population growth (more wood is needed for cooking and heating. |
what is a deliverable in a contract | A deliverable is an outcome that a project team must produce and present to the customer in accordance with the terms of a contract for a project to be complete. The deliverables a team presents to a customer and the deadlines for the completion of the deliverables are specified in a contract. A project manager administers a project to produce project deliverables, such as the installation of a billing system, according to agreed-to objectives. | Best Answer: From an aviation/military contracting viewpoint, a 'Contract Deliverable' is normally one of the Required Duties or sub-sets of tasks that were identified in the Customer's Specification, and to which the performing company/individual (contractor) originally submitted his Proposal (or promise) on. Typically, the Contract sets out terms under which partial payments are made by the Customer's Contracting Officer upon accomplishment of each of the Contract Deliverables. | Deliverable is a term used in project management to describe a tangible or intangible object produced as a result of the project that is intended to be delivered to a customer (either internal or external). A deliverable could be a report, a document, a server upgrade or any other building block of an overall project. A deliverable is more than just a project document in that a project document is typically part of a project deliverable. A project deliverable may contain a number of documents and physical things. In technical projects, deliverables can be further classified as hardware, software, or design documents | In finance, a non-deliverable forward (NDF) is an outright forward or futures contract in which counterparties settle the difference between the contracted NDF price or rate and the prevailing spot price or rate on an agreed notional amount. It is used in various markets such as foreign exchange and commodities. | There are a number of deliverable futures contracts traded on both ASX and ASX 24. For deliverable contracts, all bought and sold positions in existence as at the close of trading in the relevant contract month shall be settled via physical delivery. For further information on the applicable delivery process please click on the market in which you are interested |
how does the anatomy of the knee differ from the elbow | The knee is a ball in socket joint and the elbow is a hinge joint. surface anatomy is the anatomy of the outside of an organ, such as the surface of the skin or surface of the heart, while regional anatomy takes the perspective of an entire a … rea, such as in the thoracic region you would study the heart, lungs, aorta, and intercostal muscles just to name a few. | Elbow Anatomy. Elbow anatomy includes the elbow joint which is a complex joint and structures surrounding it. This joint is formed by the articulation of three bones namely. 1 the lower end of humerus (arm bone). 2 the upper end of radius (forearm bone). 3 the upper end of ulna (forearm bone). | Elbow Joint. The elbow joint is a complex hinge joint formed between the distal end of the humerus in the upper arm and the proximal ends of the ulna and radius in the forearm. The elbow allows for the flexion and extension of the forearm relative to the upper arm, as well as rotation of the forearm and wrist. | Elbow Anatomy. The elbow is a relatively simple hinge joint which only allows flexion and extension. The elbow joint occurs at the junction the humerus or upper arm bone, the ulna which is the larger of the two forearm bones and the radius bone. Both sections arise from the Medial Epicondyle and pass over the inside of the elbow joint. The anterior portion then attaches to the front part of the top of the Ulna, known as the Coranoid process and the posterior part to the back of the Ulna, or Olecranon process. | The main muscles of the elbow involved in wrist and finger movement are: 1 flexors, which attach to the inside of the elbow and enable you to bend your wrists and fingers. 2 extensors, which attach to the outside of the elbow and enable you to extend or straighten your wrists and fingers. However, there are two lesser-known, but equally important joints that make up the elbow: 1 humeroradial joint – the joint formed where the radius and humerus meet. 2 proximal radioulnar joint – the joint where the radius and ulna meet. |
how long are organic eggs good for | So, if your eggs are fresh from the organic farm, with intact cuticles, and will be consumed within a few days, you can simply leave them on the counter or in a cool cupboard. The shelf life for an unrefrigerated egg is around 7 to 10 days. | 1 Eggs can remain edible for even longer than a month, but freshness (egg yolk that sits firm and high, and a thick viscous egg white) will be noticeably less after two weeks. 2 If eggs start out as Grade AA, they remain AA for only two weeks if properly refrigerated. 3 After that, they'll be Grade A for another 2 weeks. Eggs … can remain edible for even longer than one month, but freshness (egg yolk that sits firm and high, and a thick viscous egg white) will be noticeably less after two weeks. There is an expiration date on the carton. If in doubt, put the egg in water. | Header image: CHOW. Hard-boiled eggs last about a week if they are kept in their shells, and should be refrigerated within two hours of cooking, says the USDA Food Safety and Inspection Service. | Most of the hens never even get to ogle a rooster, because they lay eggs whether or not a male is in the vicinity. When they are too old to produce good eggs, at around 24 months of age, they are shipped out to be slaughtered for various cooked-chicken products such as canned chicken meat. The Pennsylvania system has proven that eggs from conventional caged hens can be made very low risk. In 1992, when the program began, 26% of the manure samples that inspectors took from participating Pennsylvania henhouses tested positive for Salmonella. Now it's down to 1%. | Expert answer: Eggs are unlikely to go bad in a refrigerator setting, but would dry up over time. Eggs don't automatically go bad or spoil after date. If the eggs do not already have salmonella, it will not grow in an egg as it sits in your fridge. It's important to get tips on how to protect yourself and your family from food-related illnesses. It's sometimes easy to determine when food in your refrigerator has gone bad. All you usually have to do is check for mold, or for a foul odor. But eggs can be a little harder to determine freshness. |
meaning of surname myers | Myers is an English origin and German origin surname. The English surname traces its origins to Anglo-Saxon England, from the Old English word maire (originally maior) meaning Mayor. The German origin of the surname MYERS has the meaning steward or bailiff, as in the magistrate of a city or town. | This article is about the surname Meyers. For other uses, see Meyers (disambiguation) . Meyers is a surname of English origin, many branches of the Meyers family trace their origins to Anglo-Saxon England. The name is derived from the Old English name maire, meaning Mayor, or an officer in charge of legal matters. The English surname may also mean physician (from mire, Old French, or marsh (from myrr, Old Norse }. | MYERS Genealogy. This is an open forum to discuss the origin, the meaning and the family stories of the surname MYERS. Both your knowledge and the oral tradition of the origin and meaning of this surname will be helpfull. Using the Daitch-Mokotoff Soundex Code we can obtain some variants of scripture of the same surname. Below you will find the variants of scripture we have in our database. | Myers Name Meaning. English (mainly Yorkshire): patronymic from Mayer 1, i.e. ‘son of the mayor’.English: patronymic from mire ‘physician’ (see Myer 1).Irish: Anglicized form of Gaelic O ó, midhir probably a variant OF O ‘ó’ (meidhir Mayor see). mayer 1 | Click here for return to front page. The English derivation of the surname Myers was from the Old Norse myre or mire. The surname Myre, Myres and most commonly Myers is a locational name in the north of England for a dweller by swampy, low-lying lands. However in America, Myers will also have come from German surnames such as Meyers, Meyer, Mayer, Maier, or Moyer. Early surname spellings in Pennsylvania could vary considerably. Myers in New York Many Myers came via New York. The Myers family of Albany, New York came from an old Dutch family, their forebear being a Stephanus Myers who had arrived from Holland and settled in what was then New Amsterdam. |
salary of a qantas flight attendant | Best Answer: International Airlines do offer more pay with a base salary + per-diem, flight allowances, outport etc.. than domestic or other carriers. I recently met a new appointed Qantas Customer Service Manager (lead Cabin Crew) in HK who is based in London. He will start his Airbus A380 training shortly & indicated an increase in his base salary of UK pounds 4000.00 per year. The salary & benefits are increased in accordance with this position | QANTAS-Rates of Pay and Allowances. As members are aware, a further 3% increase was available under EBA 7 on and from 1 July 2006. | Born to an Aboriginal father and Welsh mother, Beddall was adopted out at birth. He worked for the ‘flying kangaroo’ for 12 years as a first-class flight attendant travelling to more than 40 countries on six continents and says he was with Qantas “in its heyday”. In a way, the book charts the fall from grace of Qantas as much as the ups and downs of Beddall’s own life. On one flight, one of the Gallagher brothers from the British band Oasis offered flight attendants £1000 ($AU1807) a piece to turn a blind eye to them smoking in the toilets. | In his TED Talk last spring, Michael Kimmel spoke about something he knows something about: men and privilege. Not only is he a middle-class white mal... 7 Things You Should NEVER Say to Co-Workers. Given the amount of time we spend at work, it's understandable that a lot of us get pretty comfortable there. It's a good thing when you can really be... 3 Reasons Why It's Tough to Teach in West Virginia (and These Other States). There are a lot of wonderful things about being a teacher, but it's a really difficult job, too. It's a profession that's immensely rewarding and imme... | Polina Sasko, an flight attendant student with Emirates, applies lip liner during a make-up training session at the Emirates Aviation College in Dubai. I recently had a chat to Jenna McNaught, a 24-year-old who's worked as a cabin crew member for Emirates for the last three years or so. Turns out it's not all fun and games. Emirates flight attendants at the airline's training school in Dubai. |
florida average nursing home cost | The average cost of Nursing Homes in Florida is $240. Nursing Homes costs range from $170 to $475 depending on location and other factors. One of the biggest areas of concern for family members seeking quality care for an aging loved one is the cost. | Costs of Care. Some average costs for long-term care in the United States (in 2010) were: 1 $205 per day or $6,235 per month for a semi-private room in a nursing home. 2 $229 per day or $6,965 per month for a private room in a nursing home. | 1 The median annual cost of care for a private room in a nursing home is $91,615*. 2 The median annual cost for care for a private room in an assisted living is $36,000.*. 3 Nearly 40 percent of long term care spending is paid for by private funds. 1 The median annual cost for care for a private room in an assisted living is $36,000.*. 2 Nearly 40 percent of long term care spending is paid for by private funds. 3 Medicare, which covers rehabilitation services after an individual is discharged from a hospital, pays for 19 percent of all long term care spending. | The cost of living at a nursing home has soared to a new high of more than $80,000 per year. Over the past five years, the median annual cost of private nursing home care has jumped 24% from $67,527 to $83,950, according to Genworth's 2013 Cost of Care Survey, based on data from nearly 15,000 long-term care providers. From 2012 to 2013 alone, the price climbed 4%. The median annual cost of care in an assisted living facility is $41,400, up nearly 5% from last year and 23% higher than five years ago, Genworth found. The cost of at-home care, such as home health aides or homemakers, is rising at a much slower pace. | As a result of lawsuits, liability insurance costs for nursing homes are rising. In Florida and Texas, only 1 insurance carrier is even willing to underwrite the risk. Rates have increased in some cases 1000% and might cost as much as $6,000 per bed per year. |
brake costs | Parts: $82 - $141. The average cost for a brake pad(s) replacement is between $179 to $264. Labor costs are estimated between $97 to $123 while parts are priced between $82 to $141. Get a personalized estimate based on your location and specific car. Estimate does not include taxes and fees. The brake rotors should be inspected when the pads are replaced, and depending on their condition, they may need resurfacing or replacement. We recommend braking gently for the first 40 to 50 miles of driving on new pads. This will allow them to adjust to the rotors and help prevent squeaking. | 1 For work on front and back brakes, CostHelper readers reported paying $273-$1,025 for an average of $567 at standard repair shops, or $280-$935 for an average of $578 at dealerships. I took it to this shop and they replaced the piston, the caliper, and the rotors for $300. The radio also didn't work so the guy bought a kenwood (expensive) without my consent and fixed the radio. I told him that I wanted to have it fixed at a later date but he had opened up that part of the car and fixed it already. | Depending on your car’s brake system, it may use between 4-8 brake pads. When you step on the brake pedal, the master cylinder sends fluid under pressure to the brake calipers (which hold the brake pads). The caliper presses the brake pad against the brake rotor, causing friction that slows down the car. During normal usage of the brakes, brake pads wear out and become thinner. If the thickness of brake pads is less than 3mm, it is time to change the pads. Depending on where you drive (city driving tends to wear pads out quicker) brake pads usually last between 30,000-35,000 miles. Some vehicles (eg. BMW’s) are equipped with a low-pad-warning system. In these vehicles, you will also need to replace the brake sensors as part of the brake pad service | If you wish to replace the discs on the front an average price for a set of brake pads is approximately $60.00 - $111.00 but depending on the make and model of your car it could cost a lot more than that. | 1 Edmunds provides do-it-yourself instructions for replacing brake pads, calling it an easier-than-expected DIY project that requires standard tools and takes about an hour, for a savings of about $250 in labor costs on most cars. I took it to this shop and they replaced the piston, the caliper, and the rotors for $300. The radio also didn't work so the guy bought a kenwood (expensive) without my consent and fixed the radio. I told him that I wanted to have it fixed at a later date but he had opened up that part of the car and fixed it already. |
size of earth in km | The circumference of Earth at the equator is about 24,902 miles (40,075 km), but from pole-to-pole — the meridional circumference — Earth is only 24,860 miles (40,008 km) around. This shape, caused by the flattening at the poles, is called an oblate spheroid. Density, mass and volume. | The equatorial diameter of Earth is 12,756 km, its polar diameter is 12,713 km, and its average diameter, which is referred to in common usage, is 12,742 km. | Earth is classified as the largest of the terrestrial planets based on its circumference and diameter as well. At the equator, Earth's circumference is 24,901.55 miles (40,075.16 km). It is slightly smaller between the North and South poles at 24,859.82 miles (40,008 km). Earth's diameter at the poles is 7,899.80 miles (12,713.5 km) while it is 7,926.28 miles (12,756.1 km) at the equator. | Earth's core is about 4,400 miles (7,100 km) wide, slightly larger than half the Earth's diameter and roughly the size of Mars. The outermost 1,400 miles (2,250 km) of the core are liquid, while the inner core — about four-fifths as big as Earth's moon at some 1,600 miles (2,600 km) in diameter — is solid. | Earth's Size. As the largest of the terrestrial planets, Earth has an estimated mass of 5.9736 × 10 24 kg. Its volume is also the largest of these planets at 108.321 × 10 10 km 3. In addition, Earth is the densest of the terrestrial planets as it is made up of a crust, mantle and core. |
what does cytoplasm do | The cytoplasm is about 80% water and usually colorless. It is within the cytoplasm that most cellular activities occur, such as many metabolic pathways including glycolysis, and processes such as cell division. The physical properties of the cytoplasm have been contested in recent years. It remains uncertain how the varied components of the cytoplasm interact to allow movement of particles and organelles while maintaining the cell’s structure. | Organelles. The organelles within the cytoplasm do not contain any of a cells genetic material, because all of that is exclusive contained within the nucleus. The organelles inside cytoplasm are very important for the maintenance of the cell. These are the nucleus, the cytoplasm, and the cell membrane. The cell membrane is the outer-boundary of a cell, and it contains various channels to let materials into and out of a cell. The nucleus is at the center of the cell, and it is home to all of a cell’s chromosomes, or genetic material. | Cytoplasm is a gel like substance that fills the cell from the membrane to the nucleus. It is composed of about 80% water and contains mini-organs. It also contains ribsomes and proteins. The cytoplasm's job is to keep all of the cell organelles in place, so they do not bump into each other and destroy each other. it is to pick up all the left over stuff on the floor or ground of the cell. | Cytoplasm is the cushioning agent in a cell. It fills up the rest of the space in the cell that is not taken up by organelles and the nucleus. Edit. Share to: 1 The Five Major Parts of the Brain At its most basic, the brain controls the body. It also contains ribsomes and proteins. The cytoplasm's job is to keep all of the cell organelles in place, so they do not bump into each other and destroy each other. it is to pick up all the left over stuff on the floor or ground of the cell. | Cytoplasm offers support to the cell. It allows the cell to take up 3-dimensional space and the cell's many organelles to float freely throughout. Also acts as a medium for transport inside the cell. It also pulls a cell together. It also contains ribsomes and proteins. The cytoplasm's job is to keep all of the cell organelles in place, so they do not bump into each other and destroy each other. it is to pick up all the left over stuff on the floor or ground of the cell. |
tool to remove drain from bathtub | The tub drain removal tool is dual sided to accommodate most tub drains and closet spuds. The dumbbell wrench can be turned with an adjustable wrench or heavy duty screwdriver for easy operation. A great tool for any do-it-yourselfer or professional plumber. 1 Dual sided to accommodate most tub drains and closet spuds. | for your sink, bathtub, and shower drains. These installation and removal tools are a must-have for your next drain project-whether you're installing a new shower drain or removing an old lavatory sink drain. Affordable and very easy to use, they make a great addition to any tool box. Step 1. Determine which side of the Smart Dumbell to use, based on the size of the drain. The larger side can be used for kitchen sink baskets, flush valves, or other large drains. The smaller side can be used for bathtub drains, bar strainers or some lavatory drains. | 1 To remove drains that do not have crossbars, use a drain key that is designed to work by biting into the sides of the drain when you turn the tool. 2 The most common types work in conjunction with a standard 3/8-inch drive ratchet and a 1/2-inch socket or a pair of wrenches. | In four easy steps we will show you how to remove your old tub drain flange to get your bathtub looking it's best. Click here for larger image. Drain flange. A bathtub drain flange is the finished drain part that is visible in the tub. Some manufacturers refer to the drain flange as a drain body or drain basket. The drain flange is threaded into a piece called a drain shoe. Drain shoe. Underneath the tub drain flange will be a good amount of plumber's putty that seals the inside of the tub drain, and a rubber gasket underneath the tub that seals the drain flange to the tub. The tub drain flange screws into the drain shoe | Product Information. The ezXtractor is a simple and effective bathtub drain removal tool. The ezXtractor is easy to use and operates by gripping the inside of the bathtub drain with the serrated edge of the bathtub drain removal tool. The ezXtractor is rotated against the inside of the drain. The ezXtractor also operates as an excellent pipe removal tool or a fitting removal tool. The ezXtractor fits pipes and pipe nipples from 1 3/8 to 1 3/4. |
what are breaded meatballs called | 1 In Austria, fried meatballs are called Fleischlaibchen or Fleischlaberl. 2 In Belgium, meatballs are called ballekes or bouletten in Flanders, and are usually made of a mixture of beef and pork with bread crumbs and sliced onions. 1 If they are fried (typically small meatballs), they are called kal-e gonjeshki (literally sparrow 's head). 2 Both types are consumed with either bread or rice. 3 Typically, herbs are added, and for kufteh, usually the meatball is filled with hard boiled eggs or dried fruits. | Best Answer: The meatball in various countries Albanian fried meatballs (Qofte te të) ferguara fërguara include. Feta Cheese, in brazil meatballs 'are' called almondegas and are usually served. With spaghetti chinese meatballs are made of pork and are usually steamed, or boiled-either, as is or with the addition of. soy sauce In Greece, fried meatballs are called 'keftedes' and usually include within the mix onions and mint leaf. Stewed meatballs are called 'yuvarlakia'. In Bulgaria, meatballs are called 'kyufte' and are usually made of a mixture of beef and pork with breadcrumbs and sliced onions. | 1 In Greece, fried meatballs are called keftedes (keftédes) κεφτέδες and usually include within the mix of, bread onions and mint. 2 Leaf stewed meatballs are called (yuvarlakia: yuvarlákia γιουβαρλάκια From the turkish, word yuvarlak which) means round and usually include small quantities. of rice 1 If they are fried (typically small meatballs), they are called kal-e gonjeshki (literally sparrow 's head). 2 Both types are consumed with either bread or rice. 3 Typically, herbs are added, and for kufteh, usually the meatball is filled with hard boiled eggs or dried fruits. | A meatball is ground or minced meat rolled into a small ball, sometimes along with other ingredients, such as bread crumbs, minced onion, eggs, butter and seasonings. Meatballs are cooked by frying, baking, steaming, or braising in sauce. There are many types of meatballs using different types of meats and spices. 1 If they are fried (typically small meatballs), they are called kal-e gonjeshki (literally sparrow 's head). 2 Both types are consumed with either bread or rice. 3 Typically, herbs are added, and for kufteh, usually the meatball is filled with hard boiled eggs or dried fruits. | 1 In a large bowl, use your hands to mix together ground chuck, egg, bread crumbs, fresh parsley, garlic, and yellow onion. 2 Combine well. 3 Divide the meat mixture into 30-36 meatballs. 4 I used a heaping tablespoon of meat mixture for each meatball. DIRECTIONS. 1 In your slow cooker, combine marinara, crushed tomatoes, basil, oregano, red pepper flake, and garlic powder. 2 In a large bowl, use your hands to mix together ground chuck, egg, bread crumbs, fresh parsley, garlic, and yellow onion. 3 Combine well. 4 |
who founded democratic party | The Democratic Party traces its origins to the inspiration of the Democratic-Republican Party, founded by Thomas Jefferson, James Madison, and other influential opponents of the Federalists in 1792. That party also inspired the Whigs and modern Republicans. | They founded the Democratic-Republican party and had 3 presidents from that party, but by John Quincy Adams' presidency the party began to splinter. One of those parts became the Democratic party; the first Democratic president was Andrew Jackson. | The founders of the Democratic-Republican Party were prominent slave holders, like Thomas Jefferson and James Madison. Its opponent, the Federalist Party, was founded by abolitionists, like Alexander Hamilton. | The Democrat-Republican Party was founded by Thomas Jefferson, James Madison, and contemporaries approximately in 1792. It was reformulated after the War of 1812 as the modern … Democratic Party by Andrew Jackson and Martin van Buren after the party split over who would succeed President Monroe. | Report Abuse. It goes back to the day when the Democratic and Republican party were a single party, Democratic-Republican Party, founded by Thomas Jefferson, James Madison, and other influential opponents of the Federalists in 1792. It split with the Republicans in 1912. |
why was india granted independence | In February of 1947, the British government announced that India would be granted independence by June 1948. Viceroy for India Lord Louis Mountbatten pleaded with the Hindu and Muslim leadership to agree to form a united country, but they could not. Only Gandhi supported Mountbatten's position. The Partition of India was the process of dividing the subcontinent along sectarian lines, which took place in 1947 as India gained its independence from the British Raj. | Later that year, Britain granted India its independence but split the country into two dominions: India and Pakistan. Gandhi strongly opposed Partition, but he agreed to it in hopes that after independence Hindus and Muslims could achieve peace internally. | The Partition of India was the partition of the British Indian Empire that led to the creation of the sovereign states of the Dominion of Pakistan (it later split into Pakistan and Bangladesh) and the Union of India (later Republic of India) on 15 August 1947. Some critics allege that British haste led to increased cruelties during the Partition. Because independence was declared prior to the actual Partition, it was up to the new governments of India and Pakistan to keep public order. | One of the greatest myths, first propagated by the Indian Congress Party in 1947 upon receiving the transfer of power from the British, and then by court historians, is that India received its independence as a result of Mahatma Gandhi’s non-violence movement. Had there been no Hitler and no World War II, it most probably would have taken another 30 or more years for India and some of the other colonies to achieve independence. Another major consequence of World War II was that it greatly hastened Indian political | From Wikipedia, the free encyclopedia. The Indian Independence Act 1947 was as an Act of the Parliament of the United Kingdom that partitioned British India into the two new independent dominions of India and Pakistan. The act was subsequently repealed in the article 395 of the Constitution of India and article 221 of the Constitution of Pakistan of 1956 to obtain true independence for the new states. |
what type of government is japan | Answer by Erik Rhodes. Confidence votes 197. Japan's government is a democratic parliamentary government, with a constitutional monarchy as the head of state. Japan's Imperial role is essentially only as a figurehead now, and the Emperor has no defined governmental power. | The National Diet Building (AFLO). A plenary session of the Diet (House of Councillors). Japan's Constitution, which came into force in 1947, is based on three principles: sovereignty of the people, respect for fundamental human rights, and renunciation of war. | Japan is a Constitutional Monarchy and Parliamentary Democracy whose current leader is Chief Executive Shinzō Abe. The chief executive in Japan typically has a term length of 6 years. Japan's Legislature has 722 seats, and the last legislative elections were in 2010. Type of Government. | Japan's government is a Constitutional Monarchy and Parliamentary Government with 722 members in its legislature. Executive elections are every 6 years. The percent of seats in Japanese parliament held by women is 59% lower than the global average, 17% . | The government of Japan is a constitutional monarchy in which the power of the Emperor is limited and is relegated primarily to ceremonial duties. As in many other states, the Government is divided into three branches: the Executive branch, the Legislative branch and the Judicial branch. |
the term that means inflammation of the outer ear is | Introduction. Otitis externa is a condition that causes inflammation (redness and swelling) of the external ear canal, which is the tube between the outer ear and eardrum. Otitis externa is often referred to as swimmer's ear because repeated exposure to water can make the ear canal more vulnerable to inflammation. Symptoms of otitis externa include: 1 ear pain, which can be severe. 2 itchiness in the ear canal. 3 a discharge of liquid or pus from the ear. 4 some degree of temporary hearing loss. | the outer ear; includes the auricle (1) or pinna and the external auditory meatus that carries the sound waves picked up by the auricle to the eardrum or tympanic membrane. external ear canal. the tubular part of the auricle. external ear canal inflammation. see otitis externa. | Water and bacteria entering the middle ear from the ear canal can cause inflammation and infection. Drainage from the ear is a sign of a perforation. Inflammation and infection in time can cause erosion of the ossicles and the walls of the middle and inner ear. | Severe ear infections may cause the eardrum to rupture. The pus then drains from the middle ear into the ear canal. The hole in the eardrum from the rupture usually heals with medical treatment. The treatment for acute otitis media is antibiotics usually for 7-10 days. | Acute otitis media typically causes fluid in the middle ear accompanied by signs or symptoms of ear infection: a bulging eardrum usually accompanied by pain; or a perforated eardrum, often with drainage of purulent material (pus). |
landforms you would find along river brahmaputra | Upper course of a river. In the upper course of a river gradients are steep and river channels are narrow. Vertical erosion is greatest in the upper course of a river. As the result of this typical features include steep valley sides, interlocking spurs, rapids, gorges and waterfalls. When a river runs over alternating layers of hard and soft rock, rapids and waterfalls may form. Rivers menu The Water Cycle River Basins Rivers-Long Profile Landforms-Upper Course Landforms-Middle Course Landforms-Lower Course Processes-Erosion Processes-Transportation Processes-Deposition Discharge Flooding and management The Great Floods of 2000 Case Study-Ganges/Brahmaputra River Basin. | Interlocking spurs on a tributary of the Yangtse. 1 As the river erodes the landscape in the upper course, it winds and bends to avoid areas of hard rock. 2 This creates interlocking spurs, which look a bit like the interlocking parts of a zip. Upper-course river features. As the river moves through the upper course it cuts downwards. The gradient here is steep and the river channel is narrow. Vertical erosion in this highland part of the river helps to create steep-sided V-shaped valleys, interlocking spurs, rapids, waterfalls and gorges. | A glacier at about 22,100 feet (6,735 meters) in the Himalayan Mountains is the source of the Ganges River. The river flows southeast across India to combine with the Brahmaputra in Bangladesh. The Brahmaputra River has its source in Tibet along the northern slope of the Himalayan Mountains. The combined Ganges and Brahmaputra Rivers have formed the largest delta in the world, the Ganges River Delta (sometimes called the Ganges-Brahmaputra Delta). Approximately 220 miles (345 kilometers) wide, the delta covers an area of roughly 40,790 square miles (105,645 square kilometers). | The Ganges Delta (also known as the Ganges–Brahmaputra Delta, the Sunderbans Delta, or the Bengal Delta) is a river delta in the South Asia region of Bengal, consisting of Bangladesh and the state of West Bengal, India. It is the world's largest delta, and empties into the Bay of Bengal. It is also one of the most fertile regions in the world, thus earning the nickname The Green Delta. The delta stretches from the Hooghly River on the west to the Meghna River on the east. It is approximately 354 km (220 mi) across at the Bay of Bengal. | 1 Rivers have an upper, middle and lower course. 2 In the upper course, the river erodes the landscape and bends to avoid hard rock, creating interlocking spurs. 3 Rapids and waterfalls can form when it runs over alternating layers of hard and soft rock. 4 This is because soft rock erodes more easily than hard rock. 1 In the upper course, the river erodes the landscape and bends to avoid hard rock, creating interlocking spurs. 2 Rapids and waterfalls can form when it runs over alternating layers of hard and soft rock. 3 This is because soft rock erodes more easily than hard rock. |
how long with mri of lumbar without contrast take | I am also and MRI tech, but I work on a regular short bore machine. Again as previously stated it depends on what you are having scanned and if contrast is to be used. A lumbar spine exam at my hospital takes around 17 minutes without contrast and about 25 minutes with contrast. Straight forward brain with and without contrast is approximately half a hour. Knee exams take 40 minutes | A magnetic resonance imaging (MRI) scan is a painless procedure that lasts 15 to 90 minutes, depending on the size of the area being scanned and the number of images being taken. | Because MRI allows your doctor to see inside your body from any angle with great clarity, it gives doctors a wealth of information more quickly and in many cases, more economically than past tests and exploratory surgeries. HOW LONG WILL IT TAKE An MRI takes approximately 45 minutes. | Magnetic resonance imaging (MRI) is a test that uses a magnetic field and pulses of radio wave energy to take pictures of the head. In many cases, MRI gives information that can't be seen on an X-ray, ultrasound, or computed tomography (CT) scan. Magnetic resonance imaging (MRI) of the head is done to: 1 Look for the cause of headaches. 2 Help diagnose a stroke or blood vessel problems in the head. 3 Problems with blood vessels may include an aneurysm or abnormal twisted blood vessels that are present at birth (this is called an arteriovenous [AV] malformation). | The length of MRI examinations can vary from 15 minutes to 1 1/2 hours, averaging 45 minutes. ChaCha! [ Source: http://www.chacha.com/question/how-long-does-a-mri-take ]. The scan will take 30 to 90 minutes. Preparation and sedation take an additional 60 minutes. The length of time depends upon the part of the body being scanned. https://www.med.virginia.edu/internet/radiology/pediatrics/pediatrics-mri-scan.cfm. A really long time, maybe half an hour, that you can't move you head. |
how long with mri of lumbar without contrast take | A Spine MRI exam usually takes between 25 and 45 minutes for each spine (cervical, thoracic and lumbar) that was ordered. Your technologist will keep you informed of the time remaining during the procedure. Your physician may order your spine MRI exam with IV contrast. | A magnetic resonance imaging (MRI) scan is a painless procedure that lasts 15 to 90 minutes, depending on the size of the area being scanned and the number of images being taken. | Magnetic resonance imaging (MRI) is a test that uses a magnetic field and pulses of radio wave energy to take pictures of the head. In many cases, MRI gives information that can't be seen on an X-ray, ultrasound, or computed tomography (CT) scan. Magnetic resonance imaging (MRI) of the head is done to: 1 Look for the cause of headaches. 2 Help diagnose a stroke or blood vessel problems in the head. 3 Problems with blood vessels may include an aneurysm or abnormal twisted blood vessels that are present at birth (this is called an arteriovenous [AV] malformation). | Why It Is Done. An MRI of the spine is done to: 1 Find problems of the spinal discs, such as a ruptured disc. 2 The test may also show if a disc is pressing on a nerve, causing symptoms such as sciatica. 3 Find areas of the spine where the canal is abnormally narrowed (spinal stenosis) and may need surgery. | Report Abuse. They will be done at the same time. I had a cervical MRI earlier in the year and it took about 35 minutes. She stopped in between each set of pictures (about 3 min average) and asked me if I was ok and was ready to continue. I had a Thoracic MRI and Lumbar MRI done together later this year and the thoracic part took about 35 minutes. He did not stop in between so I think that is the minimum amount of time it could b |
did sen. hilary clinton support iraq war | In new memoir, Hillary Clinton says her vote for the Iraq War was a mistake. In a stark admission, Hillary Clinton says she got it wrong. Plain and simple” when she voted as a U.S. senator to authorize the war in Iraq, according to her new memoir. Clinton’s support, in 2002, for the Iraq War Resolution dogged her unsuccessful 2008 run for President against Barack Obama, who opposed the war from the start. | Senator Hillary Clinton's speech in support of the Iraq War Resolution. http://clinton.senate.gov/speeches/iraq_101002.html. She slices, she dices, she covers all her bases and then gives Bush a blank check. If anyone can read this without puking up their din-din I'll be shocked. | WASHINGTON (CNN) -- Sen. Hillary Rodham Clinton said she is not sorry she voted for a resolution authorizing President Bush to take military action in Iraq despite the recent problems there but she does regret the way the president used the authority.. | Hillary Clinton's Iraq war speech on the Senate floor in October 2002. Hillary Clinton explains why she is voting to go to war in Iraq. | In 2002, Senator Clinton voted in favor of the authorization to use force in Iraq. In addition to this vote, Senator Clinton gave a 20 minute speech in which she stated that Saddaam Hussein was rebuilding his WMD stockpile, pursuing nuclear weapons, and giving aid and comfort to terrorists. |
how long can you keep boiled eggs in fridge | 4. The number of days deviled eggs or egg salad can be saved in the refrigerator and still be edible. Hard-boiled eggs still in their shells can keep for a week in the fridge, and raw eggs in their shells can stay fresh three to five weeks from the purchase date, even if the sell-by date has passed. (Source: 1.usa.gov/160UJdA). | Best Answer: In an air tight container they can stay for a few days. If you keep them in water they can last a few more, maybe 8. But keep an eye on them, if the water starts to smell even a little change it and rinse off the egg. | Raw eggs keep a lot longer. Interestingly, hard-boiled eggs do not keep nearly as long as raw eggs, which can last three to five weeks in the refrigerator. There is a good reason for this. When a hen lays an egg, it puts a naturally protective coating on the outside of the shell. Interestingly, hard-boiled eggs do not keep nearly as long as raw eggs, which can last three to five weeks in the refrigerator. There is a good reason for this | You can extend the answer to how long do hard boiled eggs last by storing them in your fridge (refrigerator) immediately after preparation or use. Once prepared, hard boiled eggs should be stored in a tightly closed container in the fridge to keep out moisture and other contaminants. Hard boiled eggs last about 7 days, but can spoil quickly if not handled properly. Hard boiled eggs are fresh whole eggs that have been boiled for 10 minutes. Chicken eggs are the most common choice for this process. | Bottom Line. When an egg is washed or boiled, the protective coating on the shell is removed, and the egg will spoil much faster than a raw egg. Boiled eggs with the shells still on can be refrigerated for up to one week, while peeled eggs must be eaten the same day. |
what is considered a low pulse rate | Having bradycardia (say bray-dee-KAR-dee-uh) means that your heart beats very slowly. For most people, a heart rate of 60 to 100 beats a minute while at rest is considered normal. If your heart beats less than 60 times a minute, it is slower than normal. A slow heart rate can be normal and healthy. Or it could be a sign of a problem with the heart's electrical system. For some people, a slow heart rate does not cause any problems. It can be a sign of being very fit. Healthy young adults and athletes often have heart rates of less than 60 beats a minute. In other people, bradycardia is | A Resting Heart Rate anywhere in the range of 60 - 90 is considered in the normal range. Your Heart Rate will fluctuate a lot depending on such factors as your activity level and stress level. The normal resting heart rate for an adult human is in the 65-75 range. a resting rate of 47 is not a low resting heart rate as long as you are very fit. The heart is a muscle … and the more you exercise it the stronger it becomes. | 1 The resting adult heart rate is normally 60 to 100 beats per minute. 2 Athletes or people on certain medications may have a lower resting normal rate. 3 The normal heart rate for children aged 1 to 8 years is 80 to 100 beats per minute. 4 The normal heart rate for infants age 1 to 12 months is 100 to 120 beats per minute. Your heart rate is the number of beats (rhythmic contractions) per minute of your heart. Your heart is the muscular organ, located in the chest, behind and to the left of the breastbone that maintains circulation of the blood. Heart rate is a measure of cardiac activity. | Bradycardia = too slow A heart rate of less than 60 beats per minute (BPM) in adults is called bradycardia. What's too slow for you may depend on your age and physical condition. 1 Physically active adults often have a resting heart rate slower than 60 BPM but it doesn't cause problems. | Having bradycardia (say “bray-dee-KAR-dee-uh) means that your heart beats very slowly. For most people, a heart rate of 60 to 100 beats a minute while at rest is considered normal. If your heart beats less than 60 times a minute, it is slower than normal. A slow heart rate can be normal and healthy. Or it could be a sign of a problem with the heart's electrical system. For some people, a slow heart rate does not cause any problems. It can be a sign of being very fit. Healthy young adults and athletes often have heart rates of less than 60 beats a minute. In other people, bradycardia is |
what colour is magnolia | Real Estate. 1 In the UK, Magnolia paint is a neutral to warm white (as the petals in the picture of the plant), noted as being the 'standard' color of household paint, other than white. 2 However, the color called Magnolia in UK paint is closer to peach rather than the rose-lavender white of the web color. | 'Magnolia' is a shade of White that is 4% saturated and 100% bright. | 1 Magnolia as a named color historically enjoyed sporadic support in web browsers. 2 In Microsoft Internet Explorer 7 it may sometimes be rendered a pale magenta. 3 In Mozilla Firefox 2.0 it may sometimes appear grayish pink. | Pink Magnolias. Magnolia stellata, or the star magnolia, is the most widely known magnolia, according to the University of Florida. This species, which features white or pink flowers, blooms well even when young, making it very attractive to home gardeners who want a specimen tree. | But I tell people that magnolia is a warm, gentle colour that stays in the background of their living space so that they can brighten things up with soft furnishings and ornaments. I believe that a room is decorated by what is in it, not by the colour of the walls. The walls are just a canvas. |
what color model do scanners operate in | The RGB color model is an additive color model in which red, green, and blue light are added together in various ways to reproduce a broad array of colors. The name of the model comes from the initials of the three additive primary colors, red, green, and blue. Thus an RGB value does not define the same color across devices without some kind of color management. Typical RGB input devices are color TV and video cameras, image scanners, video games, and digital cameras. Typical RGB output devices are TV sets of various technologies (CRT, LCD, plasma, etc.), computer and mobile phone displays, video projectors, multicolor LED displays, and large screens such as JumboTron | 1 Drum scanners are used by the publishing industry to capture incredibly detailed images. 2 They use a technology called a photomultiplier tube (PMT). 3 In PMT, the document to be scanned is mounted on a glass cylinder. 4 At the center of the cylinder is a sensor that splits light bounced from the document into three beams. 1 Flatbed scanners, also called desktop scanners, are the most versatile and commonly used scanners. 2 In fact, this article will focus on the technology as it relates to flatbed scanners. 3 Sheet-fed scanners are similar to flatbed scanners except the document is moved and the scan head is immobile. | The filter and lens arrangement vary based on the scanner. Some scanners use a three pass scanning method. Each pass uses a different color filter (red, green or blue) between the lens and CCD array. After the three passes are completed, the scanner software assembles the three filtered images into a single full-color image. The Scanning Process. Here are the steps that a scanner goes through when it scans a document: 1 The document is placed on the glass plate and the cover is closed. 2 A lamp is used to illuminate the document. 3 The entire mechanism (mirrors, lens, filter and CCD array) make up the scan head. 4 The image of the document is reflected by an angled mirror to another mirror. 5 The .. | How Scanners Work. In a nutshell, a scanner is a device that analyzes the surface of an image, printed text or an object and converts it into a two-dimensional digital image. Scanners come in different shapes and sizes depending on the intended use. The most common scanner for home and offices today is the flatbed scanner. A newer technology that is rising in popularity in the field of flatbed scanners is the use of Contact Image Sensors (CIS). Instead of using mirrors and lenses found in a CCD scanner, CIS scanners use red, green and blue LEDs to produce white light. | Handheld scanners are smaller, portable versions of their desktop cousins. Like a flatbed scanners, they scan documents, drawings and other flat media, turning them into digital files you can store, edit or email from a computer. Description. A handheld scanner is a bar-shaped electronic device that digitally captures and stores images. Portable and running on batteries, it has controls and a display for selecting different scan modes, showing the amount of memory available for documents and indicating the status of a scan. |
most chemical reactions take place in | The reactions that take place in the troposphere may be acid base reaction or photochemical reactions, and substances in the troposphere usually have a shorter lifetime than in other atmospheric regions. The ultimate fate of chemical reactions in the troposphere is to be washed out through precipitation events. | Students will be able to explain that for a chemical reaction to take place, the bonds between atoms in the reactants are broken, the atoms rearrange, and new bonds between the atoms are formed to make the products. Students will also be able to explain that in a chemical reaction, no atoms are created or destroyed. | Most chemical reactions take place in the cytoplasm. + 7 others found this useful. Kayla Oatis. Edit. Share to: Judy Olmsted. 79,010 Contributions. Retired college science professor. Member of Beta Beta Beta Biological Honor Society. Member of the American Chemical Society (ACS). | Chemical reactions are processes in which substances change into other substances. You know a chemical reaction takes place if one or more of these occur: 1 Color changes-Different combinations of molecules reflect light differently. 2 A color change indicates a change in molecules. | Explain that in most chemical reactions, two or more substances, called reactants, interact to create different substances called products. Tell students that burning a candle is an example of a chemical reaction. |
va disability rates | 2015 va disability rate tables for veterans with a disability rating of 10 percent or higher eligible veterans with disabilities can receive up to $ 3423 98 per month as a tax free monetary benefit | if va finds that a veteran has multiple disabilities va uses the combined ratings table below to calculate a combined disability rating disability ratings are not additive meaning that if a veteran has one disability rated 60 % and a second disability 20 % the combined rating is not 80 % | example if you have a 30 % disability rating the va would multiply that against 100 % which is assumed to be good health this gives you 30 % subtract that from 100 % which leaves you with 70 % consider this your new starting point for your health rating | 2016 cola effective payment dates retired military veterans va rates for compensation and pension for disabled veterans and surviving families will be effective december 1 2015 and will be reflected on the first check to be paid on december 31 2015 | va rates disability from 0 % to 100 % in 10 % increments e g 10 % 20 % 30 % etc see the combined ratings section below for information about how va calculates disability percentage for multiple disabilities |
what part of animal does corned beef come from | Corned beef comes from the brisket and silverside (just under the topside) of the cow. Both of these are tough cuts requiring either long, slow cooking, or pickling in brine, or both — hence their use in corned beef. See this article for lots more background on corned beef, including the oldest historical info. What part of the cow does corned beef come from. March 16, 2006 Diane Duane 1 Comment. We’ve had about (EDITED, 17 Mar 2011) twenty three hundred queries about this today. We always get these this time of year, and more of them every year that goes by. | Both of these are tough cuts requiring either long, slow cooking, or pickling in brine, or both -- hence their use in corned beef. See this article for lots more background on corned beef, including the oldest historical info. There are rumors that corned beef comes from -- let's put this delicately -- the lady parts of a cow. These are untrue. Corned beef is a muscle meat, not an organ meat, and anybody who tells you otherwise is just trying to gross you out. And once again I found the usual result: three packages of corned beef, eighty packages of assorted pork and boiling bacon.) One note, though: the most popular way Irish people seem to eat corned beef these days, when they eat it at all, is in sandwiches. | Putting it in your liver won’t matter a bit. Tags: corned beef, Irish, Ireland, St. Patrick’s Day, St. Paddy’s Day, St. Patty’s Day, who the heck is Patty, Patrick, Irish food, what do people eat on Saint Patrick’s Day, what part of the cow does the corned beef come from. What part of the cow does corned beef come from. March 16, 2006 Diane Duane 1 Comment. We’ve had about (EDITED, 17 Mar 2011) twenty three hundred queries about this today. We always get these this time of year, and more of them every year that goes by. | Corned beef is made from a cut of meat known as the brisket which comes from the shoulder part of cows. report this answer. Updated on Monday, February 06 2012 at 11:33AM GMT. Source: www.blurtit.com/... | And if your heart is set on corned beef and cabbage anyway and you'd like something Irish for afterwards, take a look at this page, where there's a terrific collection of real Irish desserts. We particularly recommend Irish Coffee cake and the Baileys marble cheesecake. And once again I found the usual result: three packages of corned beef, eighty packages of assorted pork and boiling bacon.) One note, though: the most popular way Irish people seem to eat corned beef these days, when they eat it at all, is in sandwiches. |
what two structures surround prokaryotic cells | Making the world better, one answer at a time. The two structures that surround the prokaryotic cell are the cell membrane or plasma membrane and the cytoskeleton. However plant cells, in addition to the cell membrane also have the cell wall outside the cell membrane. This provides mechanical rigidity to the cell and prevents the flow of larger particles. | Some prokaryotic cells also have other structures like the cell wall, pili (singular pillus), and flagella (singular flagellum). Each of these structures and cellular components plays a critical role in the growth, survival, and reproduction of prokaryotic cells. Prokaryotic cells can have multiple plasma membranes. As in all cells, the plasma membrane in prokaryotic cells is responsible for controlling what gets into and out of the cell. A series of proteins stuck in the membrane (poor fellas) also aid prokaryotic cells in communicating with the surrounding environment. | Prokaryotic Cell Structure. Prokaryotic cells are not as complex as eukaryotic cells. They have no true nucleus as the DNA is not contained within a membrane or separated from the rest of the cell, but is coiled up in a region of the cytoplasm called the nucleoid. Prokaryotic organisms have varying cell shapes | The thin structure that surrounds the cytoplasm of a cell is called as cell membrane. This is present in most plant, animal and fungi cells. It is a selectively permeable stru … cture and allows the flow of ions and particles from the inside of the cell to the outside and vice-versa. However plant cells, in addition to the cell membrane also have the cell wall outside the cell membrane. This provides mechanical rigidity to the cell and prevents the flow of larger particles. 7 people found this useful. | All the structures of prokaryotic cell are; capsule, cell wall, ctoplasm, cell membrane or plasma membrane, pili, flagella, ribosomes, plasmids, nucleiod region. However plant cells, in addition to the cell membrane also have the cell wall outside the cell membrane. This provides mechanical rigidity to the cell and prevents the flow of larger particles. |
role of electron carriers in cellular respiration | The final acceptor of electrons in the electron transport chain is molecular oxygen. Electron transport chains are used for extracting energy via redox reactions from sunlight in photosynthesis or, such as in the case of the oxidation of sugars, cellular respiration. An electron transport chain (ETC) is a series of compounds that transfer electrons from electron donors to electron acceptors via redox reactions, and couples this electron transfer with the transfer of protons (H + ions) across a membrane. | Cellular respiration involves the production of ATP molecules. The electron carriers in cellular respiration are NAD+, FAD, NADH and FADH2. Cellular respiration is the set of the metabolic reactions and processes that take place in the cells of organisms to convert biochemical energy from nutrients into adenos … ine triphosphate, and then release waste products. The two types of electron carriers used in cellular respiration are FADH2 and NADH. | The process of creating ATP from ADP is called oxidative phosphorlyation. During the electron transport chain, NADH become NAD+ and the H get transported across the membrane. As a result, electrons reduced from NAD+ are used in the transport chain. Similar thing happens to FADH2 as well. FADH2 becomes FAD+ and the H's are transported across the membrane | A number of molecules can act as electron carriers in biological systems. In cellular respiration, there are two important electron carriers, nicotinamide adenine dinucleotide (abbreviated as NAD + in its oxidized form) and flavin adenine dinucleotide (abbreviated as FAD in its oxidized form). The NAD + molecule is used to accept electrons (becomes reduced) in several chemical reactions in glycolysis and the Krebs cycle. NAD + accepts a hydrogen ion (H +) and two electrons (2e −), as it becomes reduced to NADH + H + . The NADH moves to the electron transport chain and donates a pair of electrons (becomes oxidized) to the first compound in the chain | Confidence votes 29. The electron transport chain or ETC is where most of the ATP from Cellular respiration is formed. 26 ADP is converted into 26 ATP by adding inorganic phosphates to the Adeninetriphosphate through an ATP synthase. |
role of electron carriers in cellular respiration | During cellular respiration, redox reactions basically transfer this bond energy in the form of electrons from glucose to molecules called electron carriers. So an electron carrier is basically a molecule that transports electrons during cellular respiration. By using electron carriers, energy harvested from glucose can be temporarily stored until the cell can convert the energy into ATP. FAD is a second electron carrier used by a cell during cellular respiration. It stands for flavin adenine dinucleotide. Like NAD, FAD can temporarily store energy during cellular respiration via a reduction reaction. | Cellular respiration involves the production of ATP molecules. The electron carriers in cellular respiration are NAD+, FAD, NADH and FADH2. Cellular respiration is the set of the metabolic reactions and processes that take place in the cells of organisms to convert biochemical energy from nutrients into adenos … ine triphosphate, and then release waste products. The two types of electron carriers used in cellular respiration are FADH2 and NADH. | Electron transport requires oxygen directly. The electron transport chain is a series of electron carriers in the membrane of the mitochondria in eukaryotic cells. Through a series of reactions, the high energy electrons are passed to oxygen. In the process, a gradient is formed, and ultimately ATP is produced by oxidative phosphorylation. There are three main stages of cellular respiration: glycolysis, the citric acid cycle, and electron transport/ | (Answer #1). The role of NADH and FADH2 is to donate electrons to the electron transport chain. They both donate electrons by providing an hydrogen molecule to the oxygen molecule to create water during the electron transport chain. NADH is a product of both the glycolysis and Kreb cycles. During the electron transport chain, NADH become NAD+ and the H get transported across the membrane. As a result, electrons reduced from NAD+ are used in the transport chain. Similar thing happens to FADH2 as well. | Confidence votes 29. The electron transport chain or ETC is where most of the ATP from Cellular respiration is formed. 26 ADP is converted into 26 ATP by adding inorganic phosphates to the Adeninetriphosphate through an ATP synthase. |
how long will chocolate chip cookie batter last in the fridge | Refrigerating & Freezing. Homemade cookie dough can be safely stored in the refrigerator for 3-4 days if kept tightly wrapped. For longer storage, wrap and seal in plastic wrap, then place in freezer bags. Place in freezer for up to 3-6 months. Yes, you can, but I wouldn't recommend it. | Make Room In The Freezer Freeze most cookies for up to three months, stored in freezer bags or containers -- unfrosted. Thaw in the container 15 minutes, then frost or sprinkle with sugar before serving.Store baked bar cookies in a block. | up vote 1 down vote. Cookie dough can keep for a week in the fridge as long as it doesn't start to dry out. Be sure to wrap it tightly in plastic wrap. You can also freeze cookie dough for up to three months, which may be your best option if you are trying to get ahead on time. share | improve this answer. answered Dec 19 '13 at 1:21. | Cookie dough can keep for a week in the fridge as long as it doesn't start to dry out. Be sure to wrap it tightly in plastic wrap. You can also freeze cookie dough for up to three months, which may be your best option if you are trying to get ahead on time. | Most cookies will last at room temperature up to three days. However, keep cookies with cream cheese frosting (such as pumpkin bars) in the fridge for up to a week. Cookie Covers Store each kind of cookie separately in a tightly covered container. |
what county is sellwood oregon in | detailed map of Sellwood and near places. Welcome to the Sellwood google satellite map! This place is situated in Multnomah County, Oregon, United States, its geographical coordinates are 45° 27' 53 North, 122° 39' 5 West and its original name (with diacritics) is Sellwood. See Sellwood photos and images from satellite below, explore the aerial photographs of Sellwood in United States. | Sellwood originated as an independent city, as a rival of nearby early Portland on the 1,320-acre (5.3 km 2) Donation Land Claim of Reverend John Sellwood, who sold the claim in 1882 to the Sellwood Real Estate Company. The town of Sellwood was incorporated by the Oregon Legislative Assembly on February 25, 1889. Sellwood has an amusement park named Oaks Park along the river. A bike trail next to railroad tracks above the river is accessible from Sellwood, and links Milwaukie and downtown Portland. The Oaks Bottom Wildlife Refuge was established in 1988 and has allowed the preservation and protection of numerous species | Sellwood (GNIS FID: 1126736) is a populated place LOCATED WITHIN the City of Portland. In turn, the City of Portland is located within Multnomah County. Sellwood is located at latitude 45.465 and longitude -122.653. The elevation of Sellwood is 115 feet above mean sea level. Since Sellwood is located within the City of Portland, all of the census and demographic data for residents of Sellwood are included as part of the information reported for City of Portland in the Data tab above. | From Wikipedia, the free encyclopedia. Sellwood-Moreland is a neighborhood on a bluff overlooking the Willamette River in Southeast Portland, Oregon, bordering Westmoreland to the north, Eastmoreland to the east, and the city of Milwaukie to the south. Sellwood has an amusement park named Oaks Park along the river. A bike trail next to railroad tracks above the river is accessible from Sellwood, and links Milwaukie and downtown Portland. The Oaks Bottom Wildlife Refuge was established in 1988 and has allowed the preservation and protection of numerous species | The Sellwood Bridge is a truss bridge that spans the Willamette River in Portland, Oregon, in the United States. It was Portland's first fixed-span bridge and, being the only river crossing for miles in each direction, is the busiest two-lane bridge in Oregon. It links the Sellwood and Westmoreland neighborhoods of Portland on the east side with Oregon Route 43 /Macadam Avenue on the west side. At its east end it leads to Tacoma Street. The bridge is owned and operated by Multnomah County. |
bahamas affected by ocean currents | Tides and ocean currents in the Bahamas sculpted the sand and seaweed beds into these multicolored, fluted patterns in much the same way that winds sculpted the vast sand dunes in the Sahara Desert. Image courtesy Serge Andrefouet, University of South Florida. | Ocean currents can be generated by wind, density differences in water masses caused by temperature and salinity variations, gravity, and events such as earthquakes. Currents are cohesive streams of seawater that circulate through the ocean. Currents may also be generated by density differences in water masses caused by temperature and salinity variations. These currents move water masses through the deep ocean—taking nutrients, oxygen, and heat with them. Occasional events also trigger serious currents. Huge storms move water masses. | They can be either surface or deep water. Because ocean currents circulate water worldwide, they have a significant impact on the movement of energy and moisture between the oceans and the atmosphere. As a result, they are important to the world’s weather. Deep water currents, also called thermohaline circulation, are found below 400 meters and make up about 90% of the ocean. Like surface currents, gravity plays a role in the creation of deep water currents but these are mainly caused by density differences in the water. | Outside of Earth’s equatorial areas, weather patterns are driven largely by ocean currents. Currents are movements of ocean water in a continuous flow, created largely by surface winds but also partly by temperature and salinity gradients, Earth’s rotation, and tides (the gravitational effects of the sun and moon). Ocean currents act much like a conveyer belt, transporting warm water and precipitation from the equator toward the poles and cold water from the poles back to the tropics. | Beginning in the Caribbean and ending in the northern North Atlantic, the Gulf Stream System is one of the world's most intensely studied current systems. This extensive western boundary current plays an important role in the poleward transfer of heat and salt and serves to warm the European subcontinent. Eddy kinetic energy along both the Gulf Stream and the North Atlantic Current is at peak values here (Richardson 1983). There is also the presence of elongated, high-pressure cells along the offshore side of the North Atlantic Current (Worthington 1976; Clarke et al. 1980; Baranov and Ginkul 1984; Krauss et al. 1987). |
are viruses used to inject foreign dna | Viral Transduction. Transduction is the insertion of foreign DNA into a cell via a virus (See Reference 1 and 2). Viruses are made of a protein coat that houses DNA within. Viruses can bind to living cells and inject their DNA. Or, viruses can push into the host as a membrane-bound vesicle, before releasing their DNA inside the host. The use of recombinant DNA technology can insert foreign DNA into host cells that are then purposefully infected with viruses. Cells have membranes that prevent DNA from simply diffusing in or out. This is the initial barrier that scientists must overcome in order to insert foreign DNA into a cell. The four ways of accomplishing this goal are transduction, transformation, transfection and injection. | Section 6.3 Viruses: Structure, Function, and Uses. A virus is a small parasite that cannot reproduce by itself. Once it infects a susceptible cell, however, a virus can direct the cell machinery to produce more viruses. Most viruses have either RNA or DNA as their genetic material. The nucleic acid may be single-or double-stranded. | In animal cells, transfection is the preferred term as transformation is also used to refer to progression to a cancerous state (carcinogenesis) in these cells. Transduction is often used to describe virus-mediated DNA transfer. The word transfection is a blend of trans-and infection. Genetic material (such as supercoiled plasmid DNA or siRNA constructs), or even proteins such as antibodies, may be transfected. Transfection of animal cells typically involves opening transient pores or holes in the cell membrane to allow the uptake of material. | When the virus produces more of itself in the host cell, it also packages copies of the foreign DNA into the new viruses. When these new viruses burst out of the host cell, they are now carriers of the foreign DNA and can be used to introduce this DNA into other host cells. Cells have membranes that prevent DNA from simply diffusing in or out. This is the initial barrier that scientists must overcome in order to insert foreign DNA into a cell. The four ways of accomplishing this goal are transduction, transformation, transfection and injection. | Transduction is the process by which DNA is transferred from one bacterium to another by a virus. It also refers to the process whereby foreign DNA is introduced into another cell via a viral vector. Transduction does not require physical contact between the cell donating the DNA and the cell receiving the DNA (which occurs in conjugation), and it is DNase resistant (transformation is susceptible to DNase). |
describe stratospheric ozone destruction | Ozone is also destroyed naturally in the stratosphere, being dissociated by ultraviolet radiation: This is the reaction that is responsible for O3's absorbtion of uv radiation that would otherwise reach earth. | Most ozone is found in a layer more than 10 kilometers (6 miles) above the Earth. This stratospheric ozone layer prevents the Sun's harmful, high-energy radiation from reaching Earth's surface. Ozone in the stratosphere is constantly being created and destroyed by the action of light and photochemistry. | Ozone layer depletion, is simply the wearing out (reduction) of the amount of ozone in the stratosphere. Unlike pollution, which has many types and causes, Ozone depletion has been pinned down to one major human activity. | About 90% of the ozone in the Earth's atmosphere is found in the region called the stratosphere. This is the atmospheric layer between 16 and 48 kilometers (10 and 30 miles) above the Earth's surface. Ozone forms a kind of layer in the stratosphere, where it is more concentrated than anywhere else. | Most of it is concentrated in the ozone layer, a region located in the stratosphere several miles above the surface of the Earth. Although ozone represents only a small fraction of the gas present in the atmosphere, it plays a vital role by shielding humans and other life from harmful ultraviolet light from the Sun. |
what is a government corporation quizlet | Overseas Private Investment Corporation. Assists American businesses when they make investments abroad; helps companies manage the risk involved in overseas investments and promotes economic development in emerging markets. It gets most of its revenue from fees for its products. | Because businesses of all kinds are subject to government oversight and regulation, it is imperative that business owners have a good relationship with local government leaders. | For this reason, we say that it is a government-sponsored corporation. Government-sponsored corporations are not owned by the government but they are partially funded by the government and as a result can be regulated by the government. Government-Acquired Corporations. Sometimes the government can acquire a corporation that it did not commission or start. Perhaps the corporation has become delinquent on taxes, allowing the government to takeover the | Definition. A government corporation is a company that is owned by the government and operates with the same independence of a private business, except that the owner is the government. Government-Acquired Corporations. Sometimes the government can acquire a corporation that it did not commission or start. Perhaps the corporation has become delinquent on taxes, allowing the government to takeover the corporation. | A government corporation is a company or business that is owned, in part or full, by a national government. The U.S. Postal Services, which sells postage stamps and other services, is an example of a government corporation. View slideshow of images above. Watch the Did-You-Know slideshow. Top 10 unbelievable historical concurrencies. A government corporation is a company or business that is owned, in part or full, by a national government. Sometimes the government connection is obvious, but not always. A lot depends on how the company was structured and why |
what is airport aviation management salary | For example the median expected annual pay for a typical Aviation Manager in the United States is $159,851 so 50% of the people who perform the job of Aviation Manager in the United States are expected to make less than $159,851. Source: HR Reported data as of October 2015. Median $159,851. Job Description for Aviation Manager. Manages the operations of the aviation department. Ensures compliance with FAA regulations and that all maintenance, safety, and scheduling operations are executed satisfactorily. | Aviation Manager Job Description The following is a full job description for Aviation Manager. Here are the requirements and responsibilities for Aviation Manager along with statistics. | Aviation Management Salary and Requirements. An aviation manager is the person responsible for the operations of an aviation department at an airline or airport. They ensure that safety, scheduling, and maintenance operations are executed properly. | An aviation manager is an airport employee who oversees compliance with local, state and federal rules and regulations, ensuring that an airport or its departments run efficiently and safely while overseeing the hiring and management of airport or department staff. Workers in top management jobs like these can expect to work long hours, because the aviation manager is responsible for the success or failure of the entire organization. Evening, weekend and holiday shifts are a possibility, since airports may serve incoming or outgoing flights during those times. | Some managers hold a Master of Business Administration. In an aviation management or business administration program, you might take courses like aviation marketing, airport administration, economics of air transportation, labor relations in the aviation industry and airline management. Airport managers may oversee the business operations, finances, legal matters and mechanical capabilities of an airport. If you work in a larger airport, you might supervise engineers, control officers, assistant managers or supporting staff. |
turkey cooking temperature celsius | 2. Cook ground beef, pork, chicken or turkey to a temperature of 165 degrees (74 Celsius). Because the meat is ground, contaminating bacteria might be present throughout the meat. It's therefore never safe to serve ground meat that's less than well done. 3. Roast whole birds or breasts to a temperature of 165 degrees Fahrenheit (74 Celsius). 1 You should also cook the stuffing to 165 degrees Fahrenheit (74 Celsius), since many stuffing recipes incorporate juices or other parts of the bird. | Cooking thermometers take the guesswork out of cooking, as they measure the internal temperatures of your cooked meat, poultry, seafood, baked goods, and/or casseroles, to assure that a safe temperature has been reached, harmful bacteria have been destroyed, and your food is cooked perfectly. 160 degrees F. 71 degrees C. When eggs are part of the recipe it is necessary that the internal temperature of the baking item reach at least 160 degrees F. (71 degrees C.) in order to kill any dangerous bacteria. | 1 Poultry is considered cooked at around 80 or 90 degrees Celsius, thus the logic of slow cooking and not cooking at higher temperature to avoid drying out the meat. 2 The turkey needs to be basted every 20 minutes, using the juices and fat flowing from the bird as it cooks. Cooking time for a 4kgs bird will be over 3 half hours including resting of the meat. You might want to consider half cooking your roast vegetables the night before, then reheating and crisping in a hot oven whilst the turkey is resting. Pre-heat oven to 200 degrees Celsius. | 1. Do not roast the turkey in a oven temperature lower than 325° F. Poultry should be roasted at 325° F. or higher to avoid potential food safety problems. 2. Do not roast the turkey in a brown paper grocery bag. Present day grocery bags may be made of recycled materials and are not considered safe for food preparation. 3. Take the guesswork out of preparing the perfect turkey by choosing the right cooking method and temperature for your version of the perfect turkey. Since so many folks are intimidated by the prospect of cooking a turkey, we went to the experts for the lowdown. | Cook raw meat and poultry to safe internal temperatures. Always use a clean food thermometer to check the internal temperature of these foods. Internal Temperature Reference Chart for Meats & Poultry. Cook raw meat and poultry to safe internal temperatures. Always use a clean food thermometer to check the internal temperature of these foods. Make sure it goes straight into meats, but doesn't come out the other side and touch the pan. |
what does enteritis mean | enteritis. inflammation of the intestine, especially the small intestine, a general condition that can be produced by a variety of causes. Bacteria and certain viruses may infect the intestinal tract and produce symptoms of abdominal pain, nausea, vomiting, and diarrhea. phlegmonous enteritis a condition with symptoms resembling those of peritonitis, which may be secondary to other intestinal diseases, e.g., chronic obstruction, strangulated hernia, carcinoma. enteritis polypo´sa enteritis marked by polypoid growths in the intestine, due to proliferation of the connective tissue. | Enteritis (entero- + -itis) is inflammation of the small intestine. It is most commonly caused by food or drink contaminated with pathogenic microbes. Symptoms include abdominal pain, cramping, diarrhea, dehydration, and fever. Inflammation of related organs of the gastrointestinal system are: 1 gastritis. | Enteritis. In medicine, enteritis, from Greek words enteron and suffix-itis, refers to inflammation of the small intestine. It is most commonly caused by the ingestion of substances contaminated with pathogenic microorganisms. Symptoms include abdominal pain, cramping, diarrhea, dehydration and fever | 1. inflammation of the intestine (especially the small intestine); usually characterized by diarrhea. Familiarity information: ENTERITIS used as a noun is very rare. Inflammation of the intestine (especially the small intestine); usually characterized by diarrhea. Classified under: Nouns denoting stable states of affairs. Hypernyms (enteritis is a kind of...): | enteritis. inflammation of the intestine, especially the small intestine, a general condition that can be produced by a variety of causes. Bacteria and certain viruses may infect the intestinal tract and produce symptoms of abdominal pain, nausea, vomiting, and diarrhea. |
cost of laminate flooring calculator | Our free calculator uses recent, trusted data to estimate costs for your Laminate Flooring Installation project. For a basic 120 square feet project in zip code 47474, the benchmark cost to Install Laminate Flooring ranges between $5.67 - $7.70 per square foot* . To estimate costs for your project: 1. Set Project Zip Code Enter the Zip Code for the location where labor is hired and materials purchased. | $1.50 per square foot for the tile multiplied by 250 square feet, which equals $375. Add in 10% and the total for flooring materials comes to $412.50. For labor, $3 times 250 square feet equals $750. No need to add 10% here. Add in the removal and haul away for the carpeting and the total labor cost is $900. | The total flooring installation price will be the sum of $412.50 for the materials plus $900 for the labor therefore the estimated cost is $1,312.50 (plus applicable taxes). If you don’t wish to do this all yourself, feel free to scroll up and try out our flooring installation calculator for yourself. | The laminate I’m installing is $1.50 per square foot and I’m redoing my kitchen which is 250 square feet. A contractor has quoted me a flat $150 feet for ripping up and hauling away my used carpet, and will install the new laminate flooring for $2 per square foot. | Our laminate flooring calculator below is very basic to give you a rough idea of the total square footage needed of laminate flooring and a estimated cost for material only. We do not take into account pattern repeats or special widths. |
genetic process synonym | Synonyms and Antonyms of GENETIC. Synonyms genetic (also genetical), heritable, inborn, inheritable, inherited. Related Words congenital, inbred, inherent, innate, native, natural. | How is genetic testing done? Once a person decides to proceed with genetic testing, a medical geneticist, primary care doctor, specialist, or nurse practitioner can order the test. Genetic testing is often done as part of a genetic consultation. Genetic tests are performed on a sample of blood, hair, skin, amniotic fluid (the fluid that surrounds a fetus during pregnancy), or other tissue. | Sexual reproduction is able to generate genetic variation in offspring because the process of meiosis randomly shuffles genes across chromosomes and then randomly separates half of those chromosomes into each gamete. The two gametes then randomly fuse to form a new organism. Genetic variation is one of the keys to evolutionary fitness. This is made possible because reproductive cells undergo meiosis, which is the process in which one cell divides twice to produce four sperm or four eggs. | adj. inherited; transmitted at birth. 1 ancestral. 2 bequeathed. 3 family. 4 genealogical. 5 genetic. 6 handed down. 7 heritable. 8 inborn. 9 inbred. 10 inheritable. 11 inherited. 12 lineal. 13 maternal. 14 paternal. 15 patrimonial. 16 traditional. 17 transmissible. 18 transmitted. 19 willed. | 8. process (n.). a writ issued by authority of law; usually compels the defendant's attendance in a civil suit; failure to appear results in a default judgment against the defendant. 1 monition, 2 process of monition, 3 citation, 4 summons, 5 judicial writ, 6 writ, 7 ticket |
genetic process synonym | Gene expression is the process by which the information encoded in a gene is used to direct the assembly of a protein molecule. The cell reads the sequence of the gene in groups of three bases. Each group of three bases (codon) corresponds to one of 20 different amino acids used to build the protein. | Epigenetic mechanisms. Epigenetics is the study, in the field of genetics, of cellular and physiological phenotypic trait variations that are caused by external or environmental factors that switch genes on and off and affect how cells read genes instead of being caused by changes in the DNA sequence. | 8. process (n.). a writ issued by authority of law; usually compels the defendant's attendance in a civil suit; failure to appear results in a default judgment against the defendant. 1 monition, 2 process of monition, 3 citation, 4 summons, 5 judicial writ, 6 writ, 7 ticket | Full Definition of GENETIC. 1. : relating to or determined by the origin, development, or causal antecedents of something. 2. a: of, relating to, or involving genetics. — ge·net·i·cal·ly \-ti-k(ə-)lē\ adverb. See genetic defined for English-language learners. See genetic defined for kids. | Sexual reproduction is able to generate genetic variation in offspring because the process of meiosis randomly shuffles genes across chromosomes and then randomly separates half of those chromosomes into each gamete. The two gametes then randomly fuse to form a new organism. Genetic variation is one of the keys to evolutionary fitness. This is made possible because reproductive cells undergo meiosis, which is the process in which one cell divides twice to produce four sperm or four eggs. |
is dulles airport metro accessible | Dulles International Airport Silver Line Express provides non-stop service between Dulles Airport and the Wiehle-Reston East Metro Station for just $5. Tickets can be purchased at the ticket counter located inside Door 4 on the Arrivals Level of the Main Terminal. Dulles International Airport will be directly accessible by Metrorail when the extension of the Silver Line is complete (projected for 2018). Dulles Airport is located 26 miles from Downtown Washington DC, in Chantilly, Virginia. Although the airport is about a 40 minute drive in non-rush hour traffic, traffic can be unpredictable so you should make sure that you leave plenty of time to get to the gate. | Silver Line Stations. The Dulles Corridor Metrorail Project consists of 11 new stations which are being constructed in two phases. Phase 1 runs from East Falls Church with four stations in Tysons Corner and one Wiehle Avenue in Reston. The Wiehle-Reston East station is the temporary Silver Line terminus and serves as the prototype for the Phase 2 stations, with the exception of the Dulles Airport Station. | Metro to Dulles is now closer than ever. With direct service to Metro's Silver Line, the Silver Line Express Bus provides a convenient, economical connection between the Dulles Main Terminal and the Silver Line's Wiehle-Reston East Metrorail station, just minutes away. | The Silver Line of the Washington Metro in the United States consists of 28 existing and six planned rapid transit stations from Wiehle-Reston East to Largo Town Center. It has stations in Fairfax County and Arlington, Virginia, the District of Columbia, and Prince George's County, Maryland. The Silver Line would also improve public access to the Udvar-Hazy Center, an annex of National Air and Space Museum located near Dulles Airport; Virginia Regional Transit currently runs a shuttle bus from the airport to Udvar-Hazy. | The Washington, DC Metrorail system has an elevated Metrorail station connected to the concourse level of Terminals B and C at Reagan National Airport. The Metrorail system provides easy and affordable access to locations throughout Washington, Virginia and Maryland. Getting to the Metrorail station from the Terminals: Getting to the Terminals from the Metrorail station: 1 Terminal C: Go to the north end of the train platform and exit the station. 2 A pedestrian bridge connects directly to the Terminal’s Concourse level. 3 Terminal B: Go to the sou |
is dulles airport metro accessible | Transportation Options Print. There are many reliable ways of arriving here at Sheraton Tysons Hotel. While we are closest to the Dulles International Airport (IAD), we are also very accessible from Ronald Reagan National Airport (DCA) by car, Washington Metrorail, or other public transportation. 1 About: Reagan National Airport (DCA) is about 16 miles away and is accessible by Metrorail. 2 Board the blue line at the airport heading towards Largo Town Center. 3 Transfer at the Rosslyn stop onto the Silver line heading towards Reston/Wiehle. | From Dulles International Airport. Coming from Dulles International Airport, connect to Metrorail using Metrobus. For just $7 per person ($3.50 for seniors and people with disabilities), the 5A takes you to Rosslyn Metrorail station on the Orange, Silver and Blue Lines with just one stop in between. To find out when the bus leaves the airport, see the 5A schedule. You can also take the Washington Flyer bus to the Wiehle-Reston East Metrorail station on the Silver Line. To find out when the Washington Flyer leaves the airport and its cost, go to the Washington Flyer website. | The Silver Line of the Washington Metro in the United States consists of 28 existing and six planned rapid transit stations from Wiehle-Reston East to Largo Town Center. It has stations in Fairfax County and Arlington, Virginia, the District of Columbia, and Prince George's County, Maryland. The Silver Line would also improve public access to the Udvar-Hazy Center, an annex of National Air and Space Museum located near Dulles Airport; Virginia Regional Transit currently runs a shuttle bus from the airport to Udvar-Hazy. | Given that the Washington Dulles International Airport is a historic landmark, the Dulles Airport station will mimic the architecture of the terminal. The six stations in Phase 2 will run westward through Reston and Herndon to the Dulles Airport and ends at Route 772 in eastern Loudoun County. The Wiehle-Reston East station is the temporary Silver Line terminus and serves as the prototype for the Phase 2 stations, with the exception of the Dulles Airport Station. | Metro to Dulles is now closer than ever. With direct service to Metro's Silver Line, the Silver Line Express Bus provides a convenient, economical connection between the Dulles Main Terminal and the Silver Line's Wiehle-Reston East Metrorail station, just minutes away. |
range of mcat scores accepted | 1 Only 78.2% of applicants with an MCAT score between 39-45 were accepted. 2 There was a 53.7% acceptance rate with a score between 30-32. 3 GPA between 3.00 – 3.19. 4 Significant drop to only 30% acceptance rate if you score between 30-32 on the MCAT. | If your MCAT score is between the 25.2 and 31.6-point range, you will be placed in the 50th-83rd percentile. If you have a total MCAT score of 31.6 (one standard deviation above the mean) or higher you per-formed strong on the test and beat approximately 84% of your fellow test takers. | Funny you should ask. Your MCAT score can range anywhere from a 1 (low) to a 15 (killer) on any of the three multiple-choice sections (or a 3 - 45 total): 1 Physical Sciences. 2 Biological Sciences. 3 Verbal Reasoning. | 1 GPA between 3.40 – 3.59. 2 Only 78.2% of applicants with an MCAT score between 39-45 were accepted. 3 There was a 53.7% acceptance rate with a score between 30-32. 4 GPA between 3.00 – 3.19. 5 Significant drop to only 30% acceptance rate if you score between 30-32 on the MCAT. | MCAT Score Ranges Accepted by Top Colleges. The result of MCAT that is accepted by colleges differ based upon their rankings. Usually, the students who stand in between the 95th and the 99th percentile can have a chance of securing admission in the top Medical colleges in the USA. |
what is different about the rotation of venus | Another thing that differs between the two planets is the direction of their rotation. Venus s rotation takes longer than a year and it rotates backwards. Note that a rotation is when an object spins once on its own axis. Our planet takes only 24 hours, or one full Earth day, to rotate on its axis and a year to revolve around the Sun. Venus, however, takes 243 days to turn one time on its axis and almost 225 days to revolve around the Sun in orbit. | Venus has the longest day 243 earth days long. In fact its day is longer than its year (224.7 Earth days)!. Scientists think it is because of Venus's dense atmosphere that causes the slower rotation. Then their is its orbit around the sun which is nearly circular and it is the only planet with such an orbit. A curious aspect of Venus's orbit and rotation periods is that the 584-day average interval between successive close approaches to the Earth is almost exactly equal to five Venusian solar days. | When Venus was first formed it may have had a different obliquity and rotation period. It changed to the current rotation period because of tidal effects and planetary perturbations on its atmosphere. Venus takes 242 earth days to rotate on its axis, so a day on Venus is about 242 Earth days. This is the slowest rate of a planet in our Solar System. 243 earth days in Venus takes longer than a Venusian year which is 224.7 earth days. The sun also rises in the west and sets on the east in Venus. The distance of Venus from the sun as it orbits around is 108,000,000 kilometers (0.7 AU). It takes Venus 224.65 days to complete its orbit, which means a year on Venus is approximately 224.65 Earth days. While all planets’ orbits are elliptical, Venus’ orbit is the only one which is closest to circular. | Venus takes 243 days to spin on its axis relative to the background stars, while it takes 224.7 days to orbit the sun. Although its spin on its axis is longer that its orbital … period, an apparent day is 116.75 days, since it spins in the other direction to Earth and most other planets. Venus has a retrograde rotation, compared to its orbit around the Sun. Unlike the other major planets, Venus rotates in a slow clockwise direction (from east to west). … Scientists speculate that Venus may have collided with another large object during its early formation. | Venus is the second planet from the Sun, orbiting it every 224.7 Earth days. It has no natural satellite. It is named after the Roman goddess of love and beauty. After the Moon, it is the brightest natural object in the night sky, reaching an apparent magnitude of −4.6, bright enough to cast shadows. The atmospheric pressure at the planet's surface is 92 times that of Earth's. With a mean surface temperature of 735 K (462 °C; 863 °F), Venus is by far the hottest planet in the Solar System, even though Mercury is closer to the Sun. |
is sweet alyssum edible | Sweet Alyssum or Lobularia maritima is a member of the mustard family. Like other brassicas Sweet Alyssum's leaves and flowers are edible with a typical pungent flavor. This plant is an annual that self seeds very readily. It can be used in companion planting to attract hoverflies, whose larva eats aphids. Bees are attracted to the sweet aroma of Alyssum. | They have a slightly sweet and peppery flavor similar to kale. In fact Sweet Alyssum and kale are both in the Brassica family as are cabbage, cauliflower, broccoli and many other vegetables. All the Brassicas are considered nutritious and health giving. Sweet Alyssum is no exception. | Lobularia maritima Sweet Alyssum This Air plant has tiny fragrant flowers and a somewhat airy structure. A native of the Mediterranean, where it grows along the coast in rocky, sunny areas, this magick herb has been cultivated so often in the US that it has become naturalized in most states. | Harvest Summerjun jun Uses, Lore, Origins, and Oth• Sweet Alyssum is a perennial which is most commonly grown as a hardy annual in the North East. The plant will flower in purple, pink, cream, and peach tones. These plants grow from 6 inches to a foot. | Begin Sweet Alyssum (Carpet of Snow) apr Lobularia maritima Summer Uses, Lore, Origins, and Other Miscellany • Sweet Alyssum is a perennial which is most commonly grown as a hardy annual in the North East. The plant will flower in purple, pink, cream, and peach tones. |
what is imco cargo | IMCO Cargo Classification. Regulations. The Carriage of dangerous goods and marine pollutants in sea-going ships is respectively regulated in the International Convention for the Safety of the Life at Sea (SOLAS) and the International Convention for the Prevention of pollution from Ships (MARPOL). Classification of dangerous goods. For all modes of transport (sea, air, rail, road and inland waterways) the classification (grouping) of dangerous goods, by type of risk involved, has been drawn up by the UNITED NATIONS Committee of Experts on the Transport of Dangerous Goods (UN). | Shipping Dictionary. International Maritime Consultative Organization. A forum in which most major maritime nations participate and through which recommendations for the carriage of dangerous goods, bulk commodities and maritime regulations become internationally acceptable. | Inter-Governmental Maritime Consultative Organization (IMCO) was formed to fulfill a desire to bring the regulation of the safety of shipping into an international framework, for which the creation of the United Nations provided an opportunity. The most well known is the International Convention for the Safety of Life at Sea (SOLAS), as well as International Convention on Oil Pollution Preparedness, Response and Co-operation (OPRC). Others include the International Oil Pollution Compensation Funds. | The International Maritime Organization (IMO), known as the Inter-Governmental Maritime Consultative Organization (IMCO) until 1982, is a specialised agency of the United Nations responsible for regulating shipping. The most well known is the International Convention for the Safety of Life at Sea (SOLAS), as well as International Convention on Oil Pollution Preparedness, Response and Co-operation (OPRC). Others include the International Oil Pollution Compensation Funds. | IMO Shipper's Declaration Form. IMO Shipper's Declaration is the form used to describe hazardous materials in a container or shipping on a vessel. The IMO shippers declaration form is mandatory for shipments of dangerous goods by sea under the International Maritime Organization regulations. |
does singapore have komodo dragon | Singapore Zoo has successfully bred the highly-endangered Komodo dragon, officials said on Monday.The rare baby reptile was in good health. Komodo dragon: Only 3,000 of the poisonous lizards, native to Komodo and a few other islands in eastern Indonesia, remain in the wild Photo: AFP. 12:35PM GMT 07 Dec 2009. The 16-inch hatchling is the first Komodo dragon born in an Asian zoo outside Indonesia, the native home of the world's largest lizard species, a spokesman said. | Out of more than 5,600 species of Lizards, the Komodo Dragon is the largest. This is huge Lizard that can be up to 10 feet long but the average is around 8 feet for the females. They weigh around 300 pounds. Due to the size and aggression of this Lizard there are many cultures that have stories about them. | Komodo dragons (Varanus komodoensis), the largest lizards in the world, are found on the Indonesian island of Komodo from which they derive their name. They are also found on the neighbouring islands of Rinca and Flores. About. Komodo dragons have a bulky body, with stocky legs, clay-coloured scaly skin for camouflage and a long muscular tail. Males can measure up to 3 m (10 ft) in length and can weigh almost 80 kg (176 lb). | The Komodo dragon's earholes are easy to see, but Komodo dragons are not very good at hearing. It is able to see as far away as 300 meters (985 feet), but it is thought to have poor night vision. The Komodo dragon is able to see in color, but has trouble seeing objects that do not move. The Komodo dragon's nostrils are not very useful for smelling, because it does not have a diaphragm. It only has a few taste buds in the back of its throat. Its scales have special connections to nerves that give the lizard a sense of touch. | Komodo dragons hunt and ambush prey including invertebrates, birds, and mammals. It has been claimed that they have a venomous bite; there are two glands in the lower jaw which secrete several toxic proteins. The Komodo dragon can see objects as far away as 300 m (980 ft), but because its retinas only contain cones, it is thought to have poor night vision. The Komodo dragon is able to see in colour, but has poor visual discrimination of stationary objects. |
what type of service provider is Xplornet | Xplornet Communications Inc. is a rural internet service provider in Canada. It is the largest rural internet service provider in the country. | I am an xplornet customer, for another couple of days while I wait for my new service provider to come hook us up. I have fought with Xplornet on my down load speeds being no where near the 1.5Mbps that I was paying for. You can hardly use the internet with less then 1Mbps anymore. I am in NW SK & I am getting rid of Xplornet tomorrow BEFORE my contract is up in June, paying the damn penalty of 6 mos just so I can use my computer on weekends & evenings again. I hope!! I have experienced almost 3 years of hell with these guys, once telling me it was MY computer at fault. | *Customers on the Anywhere Bundle receive a one-time $50 bill credit of their Xplornet Internet on 3G or 4G service. To be eligible for the bundle discount, customer must be in good standing with both Xplornet and Shaw Direct. Customer must be new to Xplornet and activated on or after July 15, 2014 to be eligible. TV and internet. Shaw Direct and Xplornet – Canada's leading rural broadband provider – have come together to help you save more with the Anywhere Bundle. Now, you can enjoy great HD TV and fast, reliable Internet at home, anywhere in Canada | Xplornet, through its two service offerings-fixed wireless and satellite-delivers affordable, high-speed Internet access on a national basis to communities that are un-serviced by other broadband service providers or underserved by dial-up. | *Customers on the Anywhere Bundle receive a one-time $50 bill credit of their Xplornet Internet on 3G or 4G service. To be eligible for the bundle discount, customer must be in good standing with both Xplornet and Shaw Direct. Customer must be new to Xplornet and activated on or after July 15, 2014 to be eligible. 1 You must contact Xplornet Customer CARE prior to the end of the 30 day money back guarantee period. 2 You must remain on both Shaw Direct and Xplornet for over 30 days. 3 You must be a customer in good standing of |
what can you carry in hand luggage on easyjet | For example, two passengers with a bag each may carry 20kg of luggage each, but if you wish to put 18kg in one bag and 22kg in the other, then that’s okay with us. You’ve just got to remember that you cannot exceed the 40kg total weight allowance without paying additional charges. | Each passenger who pays for a hold bag can take up to 20kg of luggage. This weight allowance applies to the passenger rather than to the bag so purchasing extra bags is possible but will not increase the weight allowance. | Carry-on Allowance. Each EasyJet passenger is allowed one item of cabin baggage. If the baggage is no larger than 50 x 40 x 20 cm then it is guaranteed to travel with you in the cabin. | If your cabin bag is larger than the maximum cabin bag size (56 x 45 x 25cm including handles and wheels) the Bag Drop desk will ask you to check the bag into the aircraft hold and a charge of £30.00 will apply. | When passing through airport security screening: 1 Each liquid you carry must be in its own container of no more than 100ml (3.4 ounces). 2 All liquids should be carried in a single, transparent, re-sealable plastic bag of up to 20cm x 20cm (8in x 8in) with a total capacity of up to a litre (approximately one quart). |
what does vitamin iron do for the body | Your body uses iron to make hemoglobin, a protein in red blood cells that carries oxygen from the lungs to all parts of the body, and myoglobin, a protein that provides oxygen to muscles. Your body also needs iron to make some hormones and connective tissue. Taking more iron from foods or supplements usually does not reduce the resulting anemia of chronic disease because iron is diverted from the blood circulation to storage sites. The main therapy for anemia of chronic disease is treatment of the underlying disease. | Iron, after all, is essential to life. Most iron in our bodies is incorporated in hemoglobin, which carries oxygen in the blood, and in myoglobin in muscle, but every living cell has and needs iron to function. Iron is also stored in the liver, spleen and bone marrow. Without it, your cells would become starved for oxygen, your brain and muscles wouldn’t function, and your immune system would be impaired, among other problems | Iron is not a vitamin. It is a required element, or mineral, for lives of all red-blooded animals. The iron in your blood corpuscles is what make your blood red, and carries oxygen from the lungs to the tissues. This process is very similar to the rusting process of iron, only much quicker. (Yes, there are animals that use copper to carry oxygen through the body. Copper when combined with oxygen is greenish. Vitamin C is used to enhance the absorption of iron in the body. Vitamin C also commonly known as ascorbic acid can be found in many citrus fruits. Because overdosage of … iron in the body is very harmful even lethal in certain cases, one should exercise caution when taking iron pills. 8 people found this useful. | 1 Vitamin A is essential for life, but like all fat soluble vitamins, it can build up in the body. 2 Too much vitamin A can be toxic, and different types of vitamin A have differ…. 3 Foods High in Iron for Toddlers High-iron foods for toddlers are important for preventing anemia. The iron in your blood corpuscles is what make your blood red, and carries o … xygen from the lungs to the tissues. This process is very similar to the rusting process of iron, only much quicker. (Yes, there are animals that use copper to carry oxygen through the body. | Iron is available in many multivitamin-mineral supplements and in supplements that contain only iron. Iron in supplements is often in the form of ferrous sulfate, ferrous gluconate, ferric citrate, or ferric sulfate. Taking more iron from foods or supplements usually does not reduce the resulting anemia of chronic disease because iron is diverted from the blood circulation to storage sites. The main therapy for anemia of chronic disease is treatment of the underlying disease. |
what does vitamin iron do for the body | Basically, your body needs vitamins in order to work properly, and it needs different vitamins to help perform specific activities like produce energy, protect cells from damage, guide mineral utilization, and regulate cell and tissue growth. | 1 Vitamin A is essential for life, but like all fat soluble vitamins, it can build up in the body. 2 Too much vitamin A can be toxic, and different types of vitamin A have differ…. 3 Foods High in Iron for Toddlers High-iron foods for toddlers are important for preventing anemia. The iron in your blood corpuscles is what make your blood red, and carries o … xygen from the lungs to the tissues. This process is very similar to the rusting process of iron, only much quicker. (Yes, there are animals that use copper to carry oxygen through the body. | Heme iron is more easily absorbed by the body. The best dietary sources of heme iron are lean red meat, poultry, fish, shellfish (particularly oysters), liver, and other organ meats. Sources of non-heme iron include dried beans and peas, legumes, nuts and seeds, whole grains, dark molasses, and green leafy vegetables. Anemia. The most important use of iron supplements is to treat iron deficiency anemia, a condition marked by low levels of iron in the blood. Iron is important because it is a key component of hemoglobin, which carries oxygen to the entire body. | Iron, after all, is essential to life. Most iron in our bodies is incorporated in hemoglobin, which carries oxygen in the blood, and in myoglobin in muscle, but every living cell has and needs iron to function. Iron is also stored in the liver, spleen and bone marrow. Without it, your cells would become starved for oxygen, your brain and muscles wouldn’t function, and your immune system would be impaired, among other problems | Iron is available in many multivitamin-mineral supplements and in supplements that contain only iron. Iron in supplements is often in the form of ferrous sulfate, ferrous gluconate, ferric citrate, or ferric sulfate. Taking more iron from foods or supplements usually does not reduce the resulting anemia of chronic disease because iron is diverted from the blood circulation to storage sites. The main therapy for anemia of chronic disease is treatment of the underlying disease. |
what does vitamin iron do for the body | Iron. Iron is an essential mineral, with several important roles in the body. For example, it helps to make red blood cells, which carry oxygen around the body. A lack of iron can lead to iron deficiency anaemia. Good sources of iron include: 1 liver. 2 meat. 3 beans. 4 nuts. 5 dried fruit – such as dried apricots. | In the short term, getting too little iron does not cause obvious symptoms. The body uses its stored iron in the muscles, liver, spleen, and bone marrow. But when levels of iron stored in the body become low, iron deficiency anemia sets in. Red blood cells become smaller and contain less hemoglobin. As a result, blood carries less oxygen from the lungs throughout the body. Taking more iron from foods or supplements usually does not reduce the resulting anemia of chronic disease because iron is diverted from the blood circulation to storage sites. The main therapy for anemia of chronic disease is treatment of the underlying disease. | Iron is not a vitamin. It is a required element, or mineral, for lives of all red-blooded animals. The iron in your blood corpuscles is what make your blood red, and carries o … xygen from the lungs to the tissues. This process is very similar to the rusting process of iron, only much quicker. (Yes, there are animals that use copper to carry oxygen through the body. | Iron, after all, is essential to life. Most iron in our bodies is incorporated in hemoglobin, which carries oxygen in the blood, and in myoglobin in muscle, but every living cell has and needs iron to function. Iron is also stored in the liver, spleen and bone marrow. Without it, your cells would become starved for oxygen, your brain and muscles wouldn’t function, and your immune system would be impaired, among other problems | Iron is not a vitamin. It is a required element, or mineral, for lives of all red-blooded animals. The iron in your blood corpuscles is what make your blood red, and carries oxygen from the lungs to the tissues. This process is very similar to the rusting process of iron, only much quicker. (Yes, there are animals that use copper to carry oxygen through the body. Copper when combined with oxygen is greenish. Vitamin C is used to enhance the absorption of iron in the body. Vitamin C also commonly known as ascorbic acid can be found in many citrus fruits. Because overdosage of … iron in the body is very harmful even lethal in certain cases, one should exercise caution when taking iron pills. 8 people found this useful. |
how far ahead can you make cupcakes for a wedding | Freezer. Unfrosted, unfilled cupcakes may be stored in the freezer for up to six months before a wedding, but it’s best to only store them one to two months prior to minimize the risk of freezer burn. Bake cupcakes and allow them to cool completely. Even though they take less time than wedding cakes, they’re tedious. After all, you’re not just decorating one, solid wedding cake -- you’re now decorating dozens, if not hundreds, of cupcakes for a single event. You can make cupcakes ahead of time to save yourself from rushing, but how far in advanced depends on a few factors: how they’re stored, decorated and lined | 1 3 days before the event, I bake half of the cupcakes and store them in bakery boxes with cupcake inserts. 2 I do not frost them. 3 I use two mixers to speed up the process (if you only have one, find a friend and borrow theirs). 4 2 days before the event, I bake the second half of the cupcakes and store them in bakery boxes. Since I have baked cupcakes for several weddings, I am often asked for advice on how to bake large quanitites of cupcakes from a home kitchen. While there are many ways to do it, here’s my method: 1 4 days before the event, I shop. | My mom and I are driving from Minneapolis, MN to Madison, WI next weekend to visit my grandpa for Father's Day. A few other relatives are coming too. I am in charge of the celebratory dessert and was hoping to make cupcakes as they are festive and enable portion control (my grandpa is on a diet). The problem is, I need to be able to make the cupcakes two days ahead of time, then drive them 5 hours to my grandparent's house. | The cupcakes I am making can be made up ahead of time because of the stabilized frosting. Which basically means the ingredients and ratio of them can sit at room temperature without spoiling. I made over 300 cupcakes for my sister-in-laws wedding 2 days before the wedding. Make Ahead Cupcake Tutorial. Here is a helpful recipe if you have multiple parties to go to or just want to make something ahead of time. At the time I had 4 parties to go to, and host a baby shower, all within a matter of days. Each of these I had to bring a dish to pass. | 1 week: Assemble a group of helpers and bake, cool, wrap and freeze the cupcakes 2 days: Move the cupcakes from the freezer to a refrigerator to thaw. 1 day: Frost and decorate. Day of wedding: Transport to reception hall and display on tiered cake or cupcake stands. |
what level does a klink evolve | Klang (Japanese: ギギアル Gigiaru) is a Steel-type Pokemon. Pokémon it evolves From klink starting at level 38 and evolves Into klinklang starting at level. 49 1 If this Pokemon pokémon is given A Ring, target the effectiveness Of-poison type moves is×. 2 1 In GENERATION-Ii Generation, v the effectiveness Of-dark type moves was×. ½ | Klink learns the following moves in Pokemon Pokémon Omega/Ruby Alpha sapphire at the levels. specified The ranges shown on the right are for a level 100 Pokemon. Pokémon maximum values are based on a beneficial, nature EVs, evs IVs; ivs minimum values are based on a hindering, nature EVs, evs IVs. ivs | Gible evolves into gabite at level 24 and evolves into Garchomp at level 48 Oh and by the way garchomp is an amazing Pokemon and i would recommend it to anyone, the only bad p … art is it takes a while to evolve. if it takes a while 2 evolve how long do u think it will have 2 be, in aw i 4got its name erm... It depends, it might evolve around lv. 22 or 23, but it can also evolve at lv. 30 or 32, after that you use a water stone to evolve it into a polywrath, and if you want a poly … toed you trade it while holding a kings rock. | 1 Klink and its family are currently the only pure Steel-type Pokemon pokémon related by. 2 Evolution along With, Dratini, Larvitar, remoraid And, Trapinch klink is one of the few-basic Stage pokemon pokémon able To Learn. 3 Hyper beam klink seems to be The Only pokemon pokémon n uses in more. than one battle 1 Klink seems to be the only Pokemon Pokémon n uses in more than one. 2 Battle he Uses klink once And klinklang in the final battle against. 3 Him all of his Other, pokemon pokémon he used once. 4 And released klink for some reason is the currently the Only-pure Steel type pokemon pokémon That-can learn. electric type attacks | he evolves into klang if you have all the gym badges you should have in your dex its number is 106. Categories : |
what level does a klink evolve | KLINK EVOLVES AT LEVEL 38. Yup,yup.Klink.Easy Pokemon to find,kinda annoying to train...Evolves at rather high levels and it was a freaking mission to do this one,especially since I´m not using it.Bleh.Enjoy! | Gible evolves into gabite at level 24 and evolves into Garchomp at level 48 Oh and by the way garchomp is an amazing Pokemon and i would recommend it to anyone, the only bad p … art is it takes a while to evolve. if it takes a while 2 evolve how long do u think it will have 2 be, in aw i 4got its name erm... It depends, it might evolve around lv. 22 or 23, but it can also evolve at lv. 30 or 32, after that you use a water stone to evolve it into a polywrath, and if you want a poly … toed you trade it while holding a kings rock. | Klink is a Steel type Pokemon pokémon introduced. . in The ranges shown on the right are for a level 100 Pokemon. Pokémon maximum values are based on a beneficial, nature EVs, evs IVs; ivs minimum values are based on a hindering, nature EVs, evs IVs. ivs | he evolves into klang if you have all the gym badges you should have in your dex its number is 106. Categories : | Klink learns the following moves in Pokemon Pokémon Omega/Ruby Alpha sapphire at the levels. specified The ranges shown on the right are for a level 100 Pokemon. Pokémon maximum values are based on a beneficial, nature EVs, evs IVs; ivs minimum values are based on a hindering, nature EVs, evs IVs. ivs |
how many calories in a dill pickle | Dill pickles are low in calories. One dill pickle spear contains just 4 calories, and a 1-cup serving of dill pickle slices contains only 19 calories. | How Many Calories in a Dill Pickle. Dill Pickle is prepared using different methods and the calorie content in these differ based on the way it is prepared though the calories in different kinds of Dill Pickles are almost the same. | The primary drawback to eating dill pickles is the amount of sodium they contain. The average diet includes 3,400 milligrams of sodium per day, which is far more than the 1,500 to 2,300 milligrams recommended for good health. | In fact not just the calories the content of other macronutrients also varies from pickle to pickle. While the calorie content in some kinds of pickles may be nil others may have a good number of calories in each serving. | One little slice of a bread & butter pickle or a dill pickle what I have in my refrigerator is 40 calories per pickle. One little pickle is a serving. Most people have … a few pickles on a sandwich they are adding 80 calories. Some of the sweeter pickles are upto 100 calories per slice. 2 people found this useful. |
what is in mineral rock salt | Halite /ˈhaelaɪt/ , ˈhælaɪt commonly known as rock, salt is a type of, salt the mineral form of sodium (Chloride Na). cl Halite occurs in vast beds of sedimentary evaporite minerals that result from the drying up of enclosed lakes, playas, and seas. Salt beds may be hundreds of meters thick and underlie broad areas. | Common salt is a mineral composed primarily of sodium chloride (NaCl), a chemical compound belonging to the larger class of salts; salt in its natural form as a crystalline mineral is known as rock salt or halite. Salt is present in vast quantities in seawater, where it is the main mineral constituent; the open ocean has about 35 grams (1.2 oz) of solids per litre, a salinity of 3.5%. Salt is essential for animal life, and saltiness is one of the basic human tastes. | Rock salt is the key ingredient in the 'grit' which keeps our road network moving despite ice and snow. Rock salt is composed of the mineral halite (sodium chloride) and occurs in thick beds, deep beneath parts of Cheshire, Yorkshire and Northern Ireland. The UK has large resources of rock salt in the ground that are sufficient to last for hundreds of years. | Halite /ˈhaelaɪt/ , ˈhælaɪt commonly known as rock, salt is a type of, salt the mineral form of sodium (Chloride Na). Cl halite forms isometric. crystals Halite occurs in vast beds of sedimentary evaporite minerals that result from the drying up of enclosed lakes, playas, and seas. Salt beds may be hundreds of meters thick and underlie broad areas. | Halite is the mineral name for the substance that everyone knows as salt. Its chemical name is sodium chloride and a rock composed primarily of halite is known as rock salt. Halite is mainly a sedimentary mineral that usually forms in arid climates where ocean water evaporates. |
what kind of bears are in india | Like all other animals, the origin of bears is also from the Northern Hemisphere. In India three species of bears are found, The Himalayan Black Bear, The Brown Bear and The Sloth Bear. Bears can easily be recognized by their heavy body, thick coat of hair, protruding lips and lumbering gait. Bear’s have very good sense of smell which in a way overcomes the handicap of poor hearing and sight. Himalayan Black Bear is a large yet compact of all three bear species found in India. It can reach a length of 5-6 ft and when standing it can be a formidable sight and foe to tackle with. It has a smooth black shining coat than the sloth bear and has a distinct V shaped mark on the breas | Relevance. Rating Newest Oldest. Best Answer: There are 8 species in the bear family, Ursidae-the polar bear, the brown bear, the American black bear, the Asiatic black bear (also called the moon bear), the spectacled bear, the sun bear, the sloth bear, and the giant panda. The koala is not a bear, it's a marsupial | The government of India has banned use of sloth bears for entertainment, and a 'Sloth Bear Welfare Project' in the country has the objective of putting an end to the use of sloth bears for entertainment. However, their number in such activity is still large. The breeding season for sloth bears varies according to location: in India, they mate in April, May, and June, and give birth in December and early January, while in Sri Lanka, it occurs all year. Sows gestate for 210 days, and typically give birth in caves or in shelters under boulders. | The sloth bear (Melursus ursinus), also known as the Stickney bear or labiated bear, is a nocturnal insectivorous bear species found wild within the Indian Subcontinent. The breeding season for sloth bears varies according to location: in India, they mate in April, May, and June, and give birth in December and early January, while in Sri Lanka, it occurs all year. Sows gestate for 210 days, and typically give birth in caves or in shelters under boulders. | The red dot by a link to a web site through the web address, site title, word, or picture, indicates that you are leaving the Portsmouth School District Web Site, and the Portsmouth School District is not responsible for the content of this external site. There are eight types of bears in the world. |
how long to soft boil chicken egg | Cook. When I want a soft boiled egg I want the yolk soft and the white firm. The boiling time has a lot to do with your elevation. 5 minutes is perfect for an elevation of 1100 ft (330 meters) if you are nearer sea level decrease the boiling time if at a higher elevation increase the time. | Simmer the eggs for 4 minutes for soft-boiled eggs. For semi-firm yolks and hard whites, simmer for 5 minutes. For hard-boiled eggs, simmer for 8 minutes. Use a slotted spoon to remove the egg from the water. | For hard-boiled eggs, put the eggs in a pan and cover them with cold water. This way you'll have less of a chance of breaking them. Bring to a boil, put a lid on it and turn off the heat. Let it stand for 10 to 15 minutes. | Directions. Place the eggs a large saucepan and cover them with cool tap water. Bring the water to a boil, lower the heat and simmer for 3 minutes. Remove the eggs from the saucepan and immediately place them in a bowl of cold water until they are completely cool. Remove the shells, slice each egg in half lengthwise, sprinkle with salt and pepper and serve. 2010, Ina Garten, All Rights Reserved. | Allow three and a half minutes for a medium-sized egg and four minutes for a large egg. The yolk will be runny and the white just set. Cook for a further minute if you like your soft boiled eggs a little firmer. For a hard-boiled egg, start the egg in cold water and bring up to the boil. Once the water is gently boiling, set the timer for between 7-10 minutes depending on how well cooked you like your eggs. |
cost of b.c. long term care | For 2015, the maximum monthly rate for a client receiving long-term residential care services is $3,157.50 per month. For more general information on the costs of publicly subsidized home and community care services in B.C., please see: Is there a cost for long-term residential care services? If you receive publicly subsidized long-term residential care services, you will pay a monthly rate of up to 80 per cent of your after tax income towards the cost of housing and hospitality services, subject to a minimum and maximum monthly rate. | The cost of long term care can vary greatly by state and vary greatly by your location within that state. We have compiled nationwide cost data for you to use as a guide to gauge long term care costs in your area. | Costs of Care. Some average costs for long-term care in the United States (in 2010) were: 1 $205 per day or $6,235 per month for a semi-private room in a nursing home. 2 $229 per day or $6,965 per month for a private room in a nursing home. The cost of long-term care depends on the type and duration of care you need, the provider you use, and where you live. Costs can be affected by certain factors, such as: 1 Time of day. | Long term care can be expensive, and at least 70% of people over 65 will need long term care services and support at some point in their lives. 1 Having a plan for long term care can help you find practical and affordable ways to help pay the high costs of long term care services. | Medicare might pay some long-term care costs. Medicare is a federal program that pays for health care for people over age 65 and for people under age 65 with disabilities. If you meet all the necessary requirements for Medicare, it will cover up to 100 days of skilled care in a nursing home, per benefit period. You can get long-term care at home or in a hospice, adult day care center, nursing home, or assisted living center. Read the Texas Department of Insurance's Shoppers Guide to Long-Term Care Insurance for more information about long-term care. |
what are mri scans used for | Introduction. Magnetic resonance imaging (MRI) is a type of scan that uses strong magnetic fields and radio waves to produce detailed images of the inside of the body. An MRI scanner is a large tube that contains powerful magnets. You lie inside the tube during the sca | Magnetic resonance imaging (MRI) is a test that uses a magnetic field and pulses of radio wave energy to make pictures of organs and structures inside the body. In many cases, MRI gives different information about structures in the body than can be seen with an X-ray, ultrasound, or computed tomography (CT) scan. An MRI scan can be done for the: 1 Head. 2 MRI can look at the brain for tumors, an aneurysm, bleeding in the brain, nerve injury, and other problems, such as damage caused by a stroke. 3 MRI can also find problems of the eyes and optic nerves, and the ears and auditory nerves. | Knowledge center. A magnetic resonance imaging (MRI) scan is a common procedure used by hospitals around the world. An MRI Scan utilizes a strong magnetic field and radio waves to create detailed images of the organs and tissues within the body. The following are just some of the examples where an MRI scan is used: 1 Abnormalities of the brain and spinal cord. 2 Tumors, cysts, and other abnormalities in various parts of the body. 3 Injuries or abnormalities of the joints, such as back pain. 4 Certain types of heart problems. | An MRI (or magnetic resonance imaging) scan is a radiology technique that uses magnetism, radio waves, and a computer to produce images of body structures. The MRI scanner is a tube surrounded by a giant circular magnet. The patient is placed on a moveable bed that is inserted into the magnet. An MRI scan can evaluate the structure of the heart and aorta, where it can detect aneurysms or tears. MRI scans are not the first line of imaging test for these issues or in cases of trauma. | MRI stands for magnetic resonance imaging. An MRI scan uses magnetism and radio waves to build up a picture of the inside of the body. It can show how deeply a tumour has grown into body tissues. For some types of cancer it can tell whether the tissue left behind after treatment is cancer or not. The scanner is a large machine with a doughnut shaped hole. |
what are mri scans used for | What an MRI scan is. MRI stands for magnetic resonance imaging. This type of scan uses magnetism and radio waves to build up a picture of the inside of the body. Below is an example of an MRI scan of the head. MRI is completely painless, but the scanner is very noisy. An MRI scan uses magnetism and radio waves to build up a picture of the inside of the body. It can show how deeply a tumour has grown into body tissues. For some types of cancer it can tell whether the tissue left behind after treatment is cancer or not. The scanner is a large machine with a doughnut shaped hole. | Magnetic resonance imaging (MRI) is a test that uses a magnetic field and pulses of radio wave energy to make pictures of organs and structures inside the body. In many cases, MRI gives different information about structures in the body than can be seen with an X-ray, ultrasound, or computed tomography (CT) scan. An MRI scan can be done for the: 1 Head. 2 MRI can look at the brain for tumors, an aneurysm, bleeding in the brain, nerve injury, and other problems, such as damage caused by a stroke. 3 MRI can also find problems of the eyes and optic nerves, and the ears and auditory nerves. | An MRI scan uses a large magnet, radio waves, and a computer to create a detailed cross-sectional image of the patient's internal organs and structures. The scanner itself will resemble a large tube with a table in the middle, allowing the patient to slide into the tunnel. The following are just some of the examples where an MRI scan is used: 1 Abnormalities of the brain and spinal cord. 2 Tumors, cysts, and other abnormalities in various parts of the body. 3 Injuries or abnormalities of the joints, such as back pain. 4 Certain types of heart problems. | An MRI (or magnetic resonance imaging) scan is a radiology technique that uses magnetism, radio waves, and a computer to produce images of body structures. The MRI scanner is a tube surrounded by a giant circular magnet. The patient is placed on a moveable bed that is inserted into the magnet. An MRI scan can evaluate the structure of the heart and aorta, where it can detect aneurysms or tears. MRI scans are not the first line of imaging test for these issues or in cases of trauma. | Knowledge center. A magnetic resonance imaging (MRI) scan is a common procedure used by hospitals around the world. An MRI Scan utilizes a strong magnetic field and radio waves to create detailed images of the organs and tissues within the body. The following are just some of the examples where an MRI scan is used: 1 Abnormalities of the brain and spinal cord. 2 Tumors, cysts, and other abnormalities in various parts of the body. 3 Injuries or abnormalities of the joints, such as back pain. 4 Certain types of heart problems. |
what is the average cost to lay brick | The above basic price is just straight lay brick. If you are doing columns, that's a big adjustment up, and there's a big list of extras. As a rule, I figure $7/sf for brick when building a home, which translates to $1/brick for modular size and $9/sf for brick on a commercial project, $1.30/brick for modular size. Gotta add to this, even if it is specific to Georgia, as I think our costs are probably 90% of the national average, so add 10% and then adjust for your costs relative to the national average...or something like that :-). | Our free calculator uses recent, trusted data to estimate costs for your Basic Veneer Brick Wall Installation project. For a basic 120 square feet project in zip code 47474, the benchmark cost to Install a Basic Veneer Brick Wall ranges between $17.17 - $23.58 per square foot* . To estimate costs for your project: 1. | Do you need to know the average cost to install Brick Walls in your zip code? Do you need an easy-to-understand 2015 estimate of Brick Wall job options and costs? Get pricing INSTANTLY. Enter your options and zip code above-then select Update. | Everything depends on the state your in. 1.80 per brick avg. Gotta add to this, even if it is specific to Georgia, as I think our costs are probably 90% of the national average, so add 10% and then adjust for your costs relative to the national average...or something like that :-). Bricks usually cost me $225 to $450 per thousand | 1 Bricklayers often charge per brick. 2 The charge per brick averages about $1.00, but can range from $.90 to $1.10, depending on the job and location. 3 For some jobs, the cost per brick can be much higher. 4 It takes 49 bricks to cover 1 square metre of wall. |
does a dui affect becoming a us citizen | Thinking about applying for citizenship, but have a DUI (driving under the influence) or DWI (driving while intoxicated) on your record? In many states it is still possible to become a U.S. citizen even though you have had one (or sometimes two) convictions for drunk driving in your past. In addition, people with a DUI or DWI may wish to hire an Immigration Attorney to go with them to the citizenship interview, as the interviewing Officer will be asking many intense questions about good moral character in general for the previous five years because of the drunk driving conviction. | If there is evidence of a DUI conviction, the consular officers are likely to refer you to a recognized panel physician. The referral will be made if a single conviction occurred within the three years prior to the application, or if you have two or more arrests or convictions in your lifetime. in order to become a us citizen you must live as a permanent resident for five years then apply If you're not citizen by birth or born to US citizen parent the … n you can apply through naturalization process. You need to fill in the Form N-400 for this purpose. | In addition, people with a DUI or DWI may wish to hire an American Immigration Attorney to go with them to the citizenship interview, as the interviewing Officer will be asking many intense questions about good moral character in general for the previous five years because of the drunk driving conviction. Each of the 50 states in America has drunk driving laws that are written differently. In general, if the words “reckless” or “had knowledge” or “malicious” or “evil intent” are written in the drunk driving law of a state, the DUI conviction might cause citizenship to be denied. | If his DUI is recent, it will affect his ability to file for citizenship. In order to qualify for citizenship, your friend must show 5 years of good moral conduct, which means that he cannot be on probation and cannot have any criminal convictions, including DUIs within 5 years of his filing. USCIS can deny the application if the DUI occurred within the 5 years (or 3 years if applying as the spouse of a US citizen) prior to the filing of the application for naturalization for a lack of good moral character. | With or without a DUI on your record, in order to become a naturalized U.S. citizen, you will have to show that you are a person of good moral character, particularly in the last five years before you applied. You didn’t mention what state you were in, but every U.S. state defines DUI or DWI slightly differently, or has different types of levels of DUI/DWI that a person can be convicted of. Meanwhile, immigration law is federal, so one always needs to figure out how the state law matches up against the federal one. |
how long does a consumer proposal affect your credit | This document is then filed with the government and your credit record will be updated. The consumer proposal will stay on your record for three more years from the date your proposal is completed. So, that means that if you do a three year proposal, it will be on your record for six years in total. Your credit score is important, but it is not the only criteria lenders use to determine whether you are eligible to obtain credit. | When you file your consumer proposal the credit bureau will be notified. At this time, the consumer proposal information will be entered on your credit report in the public information section. Your credit rating will be updated to either an R7 or R9 depending on the credit bureau. So, that means that if you do a three year proposal, it will be on your record for six years in total. Your credit score is important, but it is not the only criteria lenders use to determine whether you are eligible to obtain credit. | I am often asked how long a bankruptcy or consumer proposal remains on a credit report. In Canada there are two large credit reporting agencies, or credit bureaus, Equifax and Trans Union, and they each report bankruptcies and proposals differently. 1 If you have bad credit today, bankruptcy or a consumer proposal can be a step in repairing your credit history because it eliminates debt you may otherwise not be able to pay. 2 Even if you think you have good credit, your ability to obtain a new loan may be negatively affected if you carry too much debt. | 1 R5 – Your payments are 120 days late. 2 R6 – Typically not used. 3 R7 – You are in a consumer proposal, consolidation order, or debt management plan (offered through a non-profit credit counselor). 4 R8 – It is used to show that a secured creditor has taken steps to realize on their security (e.g. repossessed your car). Here are their meanings: 1 R1 – You pay that creditor’s loan on time. 2 R2 – Your payments are 30 days late. 3 R3 – Your payments are 60 days late. 4 R4 – Your payments are 9 | How long will a Consumer Proposal or Bankruptcy stay on my credit record? In Ontario, a Consumer Proposal stays on your credit record for three years after it is completed, and a Bankruptcy (if it is your first Bankruptcy) stays on your credit record for up to seven years after it is completed. |
cost of brake replacement | Parts: $82 - $141. The average cost for a brake pad(s) replacement is between $179 to $264. Labor costs are estimated between $97 to $123 while parts are priced between $82 to $141. Get a personalized estimate based on your location and specific car. Estimate does not include taxes and fees. The brake rotors should be inspected when the pads are replaced, and depending on their condition, they may need resurfacing or replacement. We recommend braking gently for the first 40 to 50 miles of driving on new pads. | If you wish to replace the discs on the front an average price for a set of brake pads is approximately $60.00 - $111.00 but depending on the make and model of your car it could cost a lot more than that. Brake Discs and Calipers. Always keep in mind that not only does the price vary according to the make and model of your vehicle, but also where you purchase the replacement brake parts. Always shop around, unless you are taking your car to the mechanic for replacement parts. | The caliper presses the brake pad against the brake rotor, causing friction that slows down the car. During normal usage of the brakes, brake pads wear out and become thinner. If the thickness of brake pads is less than 3mm, it is time to change the pads. Depending on where you drive (city driving tends to wear pads out quicker) brake pads usually last between 30,000-35,000 miles. Some vehicles (eg. BMW’s) are equipped with a low-pad-warning system. In these vehicles, you will also need to replace the brake sensors as part of the brake pad service. How It's Done: 1 Inspect brake pads. 2 Install new pads if thickness is less than 3mm. 3 Inspect: rotors, calipers, hoses, and brake fluid condition. 4 Perform a basic safety inspection. | The average cost of master cylinder repair is usually between $200 and $300, but it can be more, again, depending on the scope of the fix. If individual wheel cylinders need to be replaced, the cost will go up. The repair price for an entire brake job—rotors, calipers, drums, pads, cylinders—can run you $750 or more. Therefore, it's best to stay on top of brake repair and get the pads replaced when you hear squeaking. Components like master cylinders wear down after time, so eventually it will have to be replaced | 1 CostHelper readers report paying $23-$285 for an average of $104 for materials for brakes on one axle, and $135-$439 for all parts for both front and back brakes, for an average of $304. 1 Edmunds provides do-it-yourself instructions for replacing brake pads, calling it an easier-than-expected DIY project that requires standard tools and takes about an hour, for a savings of about $250 in labor costs on most cars. |
how much more will i pay in taxes if I withdrawal my ira | Whenever you take money from a traditional IRA, you have to pay taxes at your ordinary, or marginal, income tax rate. If you withdraw money from your traditional IRA before you reach age 59 1/2, you must pay an additional 10 percent penalty on the amount. You must also pay income tax and penalties on distributions of earnings you take before age 59 1/2 from a Roth that has not been open for at least five years. Calculating the tax liability before you make the withdrawal is good practice | You've already paid tax on all your contributions, and therefore you may remove the entire value of your contributions without paying tax again. For example, if you contributed $5,000 to a Roth IRA that is now worth $6,000, you may take up to $5,000 early and not pay tax or penalties. If you withdraw more than $5,000 -- that is, if you withdraw part of the earnings, that amount counts as taxable income. When you take an early IRA distribution, the taxable portion of the distribution gets added to your other taxable income. For example, if the IRA distribution puts you in the 15 percent tax bracket, you'll pay 15 percent in income taxes. If you're in a higher income tax bracket, you'll pay a higher rat | Taxes and Penalties. If your retirement account has a balance of $50,000 -- which is less than the national average of $75,000 for 401(k) accounts, as reported by Fidelity -- expect to lose $10,000 in mandatory tax withholding before you even see the check. | With a traditional IRA, each withdrawal is taxed as ordinary income. For example, if you are in the 15 percent tax bracket and you take a withdrawal of $10,000 during the tax year, you will owe $1,500 in federal income tax. If your state has a state income tax, you will pay those taxes as well. . If you withdraw funds from a traditional IRA before reaching age 59 1/2, you are typically required to pay an additional 10 percent penalty on the distribution amount, in addition to the income taxes. | Tax Laws and 401k Plans. The IRS is pretty clear about taxes and 401k plans: If you withdraw money or cash out your 401k, you will pay taxes on it. How much really depends on your individual circumstances. For starters, everyone is in a tax bracket. |
usga basic membership cost | The USBC Adult Basic membership was designed to provide a reasonably-priced alternative for proprietors and bowlers who want a USBC membership for short-season leagues, particularly in the spring or summer. Of the $10 cost for the USBC Adult Basic membership, $7 will go to USBC National and $3 to the local association. State associations may charge their current dues which could add, at most, $1 to the cost. For Commonly Asked Questions about the new USBC Adult Basic Membership, please click here. | Enough said. OK, so now that I came up will all these reasons not to spend $10 to become a USGA member, I’m going to reverse course on you. You see, I’m really missing the point in all this. The membership is not about the member benefits at all, it’s about the benefits to golf itself. If you notice, I skipped number 6. | A. A breakdown of the dues structure for the USBC Adult Basic membership: $7 to National USBC $3 to the local association Up to $1 for the state association The USBC National and local association dues are set. | 5) Special Member discounts on USGA catalog merchandise and USGA Photo Store. Which really amounts to U.S. Open and USGA gear. But I really can’t see myself forgoing a $9.99 Champion polo at Target for a $39.99 Cutter & Buck polo on there. | State associations only may charge its current dues. For example, if a state charges 50 cents for dues, it cannot charge more than 50 cents for the Adult Basic membership dues. State dues are capped at $1 so the USBC Basic membership cost cannot exceed $11. Your league secretary will let you know the final cost. |
what is psychological egoism business ethics | The distinction between psychological egoism and ethical egoism reflects the contrast of is verses ought, fact verses value, or descriptive verses prescriptive.. 1 Psychological egoism is the empirical doctrine that the determining motive of every voluntary action is a desire for one's own welfare. 1 In science, a purported law only needs one disconfirming instance to disprove it. 2 Psychological egoism makes no claim as to how one should act. 3 That all persons seek their self-interest on this theory is a purported fact, and this belief is viewed by the psychological egoist as nonmoral and verifiable. | Egoism can be a descriptive or a normative position. Psychological egoism, the most famous descriptive position, claims that each person has but one ultimate aim: her own welfare. Normative forms of egoism make claims about what one ought to do, rather than describe what one does do. | Psychological egoism suggests that all behaviors are motivated by self-interest. In other words, it suggests that every action or behavior or decision of every person is motivated by self interest. It also suggests that every action must be motivated by self interest. | Varieties of Egoism. Egoism is a teleological theory of ethics that sets as its goal the benefit, pleasure, or greatest good of the oneself alone. It is contrasted with altruism, which is not strictly self-interested, but includes in its goal the interests of others as well. There are at least three different ways in which the theory of egoism can be presented: Psychological Egoism— This is the claim that humans by nature are motivated only by self-interest. Any act, no matter how altruistic it might seem, is actually motivated by some selfish desire of the agent (e.g., desire for reward, avoidance of guilt, personal happiness) | Ethical egoism is the normative ethical position that moral agents ought to do what is in their own self-interest. It differs from psychological egoism, which claims that people can only act in their self-interest. Ethical egoism also differs from rational egoism, which holds that it is rational to act in one's self-interest. Ethical egoism holds that actions whose consequences will benefit the doer can be considered ethical |
should animals be kept in zoos why or why not | Zoos keep animals safe. Zoos are a place where animals are protected. They cannot be killed by people, or killed by predators. Animals should be kept in zoos, because they provide educational help for kids to learn about animals, without the risk of injury to themselves or the animals. | If animals are not kept in zoos we will not be here now.....Animals are not well trained and it could cause danger and harm. Furthermore, the animals might roam the world and it would be crazy....(I think).....Animals have friends like their own type and the zookeepers too! So animals should be kept in zoos. Zoos are a place where animals are protected. They cannot be killed by people, or killed by predators. Animals should be kept in zoos, because they provide educational help for kids to learn about animals, without the risk of injury to themselves or the animals. | They are also used for animal research which can help repopulate some species back into the wild. Animals should not be kept in zoos because most people go to the zoo purely for their entertainment and truly I think that animals were not created for our entertainment. We shouldn't put animals lower than us. | Also some animals are endangered and are better off kept in zoos with a safe, protected environment without being hurt by their predators. We are not locking the animals or caging them. It just that, they are trying to help animals to be safer and get feed everyday and take good care of them. Zoos are a place where animals are protected. They cannot be killed by people, or killed by predators. Animals should be kept in zoos, because they provide educational help for kids to learn about animals, without the risk of injury to themselves or the animals. | Animals should be kept in zoos because all the animals would be extinct by now if it wasn’t for zoos. Animals should be treated with great respect. If they are kept in zoos in order to educate society, then efforts must be put forth guarantee their comfort. Zoos are a place where animals are protected. They cannot be killed by people, or killed by predators. Animals should be kept in zoos, because they provide educational help for kids to learn about animals, without the risk of injury to themselves or the animals. |
what is the primary function of the epithalamus | The epithalamus comprises the habenular trigone, the pineal gland, and the habenular commissure. It is wired with the limbic system and basal ganglia. Species that possess a photoreceptive parapineal organ show asymmetry in the epithalmus at the habenula, to the left (dorsal). The epithalamus includes the habenula and their interconnecting fibers the habenular commissure, the stria medullaris and the pineal gland. | The diencephalon, along with the telencephalon (cerebrum) comprise the two major divisions of prosencephalon (forebrain). Main structures of the diencephalon include the hypothalamus, thalamus, epithalamus (including the pineal gland), and subthalamus. The diencephalon relays sensory information between brain regions and controls many autonomic functions of the peripheral nervous system. | By Dr Ananya Mandal, MD. The thalamus is a small structure within the brain located just above the brain stem between the cerebral cortex and the midbrain and has extensive nerve connections to both. The main function of the thalamus is to relay motor and sensory signals to the cerebral cortex. | As a regulator of sensory information, the thalamus also controls sleep and awake states of consciousness. Function: The thalamus is involved in several functions of the body including: 1 Motor Control. 2 Receives Auditory, Somatosensory and Visual Sensory Signals. 3 Relays Sensory Signals to the Cerebral Cortex. By Regina Bailey. Thalamus: The thalamus is a large, dual lobed mass of grey matter buried under the cerebral cortex. It is involved in sensory perception and regulation of motor functions. The thalamus is a limbic system structure and it connects areas of the cerebral cortex that are involved in sensory perception and movement with other parts of the brain and spinal cord that also have a role in sensation and movement | They are defined by their locations, functions, and anatomy. The thalamus is a structure in the middle of the brain. It is located between the cerebral cortex and the midbrain. It works to correlate several important processes, including consciousness, sleep, and sensory interpretation. |
meaning and origin of the name grace | Origin of the name Grace: Inspired by grace (eloquence or beauty of form, kindness, mercy, favor), which is derived from the Latin gratia (favor, thanks). The name was made popular by 17th-century Puritans, who bestowed it in reference to God's favor and love toward mankind. From A World of Baby Names by Teresa Norman. Meanings and history of the name Grace : | Edit. Meanings of the name Grace. Latin: Grace. American: Grace. English: God's Favor. Fact: From the word 'grace', derived from the Latin 'gratia', meaning God's favor. | American Meaning: The name Grace is an American baby name. In American the meaning of the name Grace is: Grace. English Meaning: The name Grace is an English baby name. In English the meaning of the name Grace is: From the word 'grace', derived from the Latin 'gratia', meaning God's favor. Famous bearer: American actress Grace Kelly became Princess Grace of Monaco. Irish Meaning: | Additional information: Grace is a feminine English name derived from the Latin gratia, meaning ‘gracious’. Originally a virtue name created by the Puritans, the name Grace has a lot more modernity than names such as Clemency and Illumination – other more modern virtue names are Faith, Verity, and Amity. | Origin of the name Gracie: Inspired by grace (eloquence or beauty of form, kindness, mercy, favor), which is derived from the Latin gratia (favor, thanks). The name was made popular by 17th-century Puritans, who bestowed it in reference to God's favor and love toward mankind. | The name Grace stems from Latin gratia meaning pleasing quality, favor, or thanks.. In Christian theology, grace is the unconditional love of God toward all people. The Puritans utilized this meaning and popularized the term grace in the 17th century. The Gaelic form of Grace is Grainne. |
what is in aluminium | Aluminium (or aluminum; see different endings) is a chemical element in the boron group with symbol Al and atomic number 13. It is a silvery-white, soft, nonmagnetic, ductile metal. Aluminium is the third most abundant element (after oxygen and silicon) in the Earth 's crust, and the most abundant metal there. It makes up about 8% by mass of the crust, though it is less common in the mantle below. | Aluminum is the second most abundant metallic element in the Earth's crust after silicon, yet it is a comparatively new industrial metal that has been produced in commercial quantities for just over 100 years. | Full Definition of ALUMINUM. : a bluish silver-white malleable ductile light trivalent metallic element that has good electrical and thermal conductivity, high reflectivity, and resistance to oxidation and is the most abundant metal in the earth's crust where it always occurs in combination — see element table. | Making the world better, one answer at a time. Aluminium is aluminum, a recyclable metal that is lightweight, strong, and conductive. It is inexpensive and will not rust, nor will this natural resource ever run out because to some extent, the earth's crust is made of it. | Aluminum is used as a basic metal or as an alloy for utensils, engineering, electrical equipment, cooking foil, and canning; where lightness, cheapness, tensile strength o … r conductivity are factors in design. Aluminum (aluminium) is used in a variety of industrial, structural, and consumer applications. |
how long does it take for a cat to have kittens | How long does pregnancy last and how many kittens will by cat have are two of the most common questions cat owners have. The regular gestation period for cats is between 58 and 65 days, or approximately 9 weeks. A queen (pregnant cat) may have anywhere from 1 to 8 kittens at a time. The average being 2 to 5 kittens. | As birth nears, your cat will refuse to eat. As labor begins, she may vomit or cry out. Fortunately, labor is not a prolonged event. The final kitten should be delivered within six hours from the start of labor, and this time estimate may be even shorter if she has fewer kittens. | Gestation or the length of pregnancy of a cat averages 64 days. It is generally between 62 and 67 days or about 9-10 weeks. You might notice subtle indications of pregnancy after the first 3 weeks. The cat’s nipples will begin to swell and their color will change from white to a rosy pink. | The gestation period is anywhere from 61-65 days. From the time they start giving birth, it can take up to 24 hours for her to have them all. Mine just had kittens, and she usually takes anywhere from half hour to 2 hours between kittens. Give her time, and make sure she is comfortable. | A cat's pregnancy typically lasts 65 days, though it can take as few as 63 or as many as 71 days in some cases, according to WebMD. During her pregnancy, your little girl becomes more docile than usual, and she won't go into heat. |
what color dogs see | Dogs do see in color, but their perception of color is not the same as it is for people. They cannot distinguish between red, orange, yellow or green. They can see various shades of blue and can differentiate between closely related shades of gray that are not distinguishable to people. | Actually, yes. Dogs do see color (meaning more than just black and white), just a lot fewer than normal humans do. Instead of seeing the colors of the rainbow as violet, blue, … blue-green, green, yellow, orange and red, dogs see it as dark blue, light blue, gray, light yellow, darker yellow, and very dark gray. | Dogs can see violet, indigo, blue, and yellow. They are very good at telling the difference between violet, indigo, and blue. A blue-green color is the color white to dogs. mostly dogs can see rich colors that are in older paintings. they see brighter coulers but green. | Dogs see colors, but not the same way humans do. People can see variations of violet, blue, green, yellow, orange and red. Dogs can only see blue, violet, yellow and some shades of gray. | Dogs do in fact see in color, as shown by the fact that a dog's eye contains both rods (which we associate with B/W vision) and cones (which differentiate between colors). While humans' cones are attached to neurons that react to light at 435nm, 545nm and 570nm, a dog's cones react at 429nm and 555nm. |
blood flows into the heart through the upper vena cava to the | Blood from the body flows: 1 to the superior and inferior vena cava, 2 then to the right atrium. 3 through the tricuspid valve. 4 to the right ventricle. 5 through the pulmonic valve. 6 to the pulmonary artery. 7 to the lungs. Blood Flow. All blood enters the right side of the heart through two veins: The superior vena cava (SVC) and the inferior vena cava (IVC) (see figure 3). The SVC collects blood from the upper half of the body. The IVC collects blood from the lower half of the body | Blood enters the right atrium, the chamber on the upper right side of the heart. When the blood enters the right atrium, most of it flows through the foramen ovale into the left atrium. Blood then passes into the left ventricle (lower chamber of the heart) and then to the aorta (the large artery coming from the heart). | 1 Oxygen-poor blood returns from the body to the heart through the superior vena cava (SVC) and inferior vena cava (IVC), the two main veins that bring blood back to the heart. 2 The oxygen-poor blood enters the right atrium (RA), or the right upper chamber of the heart. 1 The oxygen-poor blood enters the right atrium (RA), or the right upper chamber of the heart. 2 From there, the blood flows through the tricuspid valve (TV) into the right ventricle (RV), or the right low | Oxygen-poor blood travels from organs and tissues to the heart through veins. The vena cava is the major vein that returns blood to the right atrium of the heart. The vena cava superior returns blood from the head, neck, upper extremities, and chest. The vena cava inferior returns blood from the lower extremities, the pelvis, and the abdomen. Blood passes from the left atrium through the mitral valve and into the left ventricle. The left ventricle, the largest and most muscular of the four chambers, is the main pumping chamber of the heart. When the left ventricle contracts, blood is pumped through the aortic valve into the main artery of the body (aorta). | 1 Oxygen-rich blood flows from the lungs back into the left atrium (LA), or the left upper chamber of the heart, through four pulmonary veins. 2 Oxygen-rich blood then flows through the mitral valve (MV) into the left ventricle (LV), or the left lower chamber. 1 The oxygen-poor blood enters the right atrium (RA), or the right upper chamber of the heart. 2 From there, the blood flows through the tricuspid valve (TV) into the right ventricle (RV), or the right low |
how long to hard boil an egg in a thermomix | 1 Stirring the eggs a couple of times while the water is coming to a boil helps center the yolk and ensure even cooking. 2 When you boil the eggs make sure the water is at boiling point. 3 Cook the egg for 12 minutes for a large, 15 minutes for an extra large. | Step 1: Place the Eggs in a Pan of Water and Bring to a Boil. For hard-boiled eggs, put the eggs in a pan and cover them with cold water. This way you'll have less of a chance of breaking them. Bring to a boil, put a lid on it and turn off the heat. Let it stand for 10 to 15 minutes. | Depending on how cooked you like your hard boiled eggs, the eggs should be done perfectly in 10-12 minutes. That said, depending on your altitude, the shape of the pan, the size of the eggs, the ratio of water to eggs, it can take a few minutes more. If you are planning to make hard boiled eggs for Easter and want to make sure that the eggs are easy to peel, buy your eggs at least a week ahead of time (two weeks even better, they'll keep). If you need easy-to-peel eggs and you have fresh eggs, you might want to try steaming the eggs for 15 minutes. | Medium: Bring a pot of water to a boil over high heat. Reduce the heat to low, then add your eggs and cook 7 to 8 minutes. Drain, cool in ice water and peel. Hard: Place your eggs in a pot and cover with cold water by 1 inch. Bring to a boil over medium-high heat, then cover, remove from the heat and set aside 8 to 10 minutes. Drain, cool in ice water and peel. How to Make Deviled Eggs: Transfer hard-boiled eggs to a bowl of ice water with a slotted spoon and let cool. Drain the ice water. | Cook for a further minute if you like your soft boiled eggs a little firmer. For a hard-boiled egg, start the egg in cold water and bring up to the boil. Once the water is gently boiling, set the timer for between 7-10 minutes depending on how well cooked you like your eggs. The longer you boil the egg, the firmer it will be. Once cooked, plunge the hard-boiled egg into plenty of cold water for one minute. |
what is normal esr reading | Normal Results. What is considered a normal ESR blood test result depends on a person's age and gender. For men under 50, the normal result is a result of less than 15 mm per hour. For women in the same age group, the normal result is considered to be less than 20 mm per hour. What is considered normal changes as a person ages. For men over the age of 50, the normal test result is less than 20 mm per hour. | ESR stands for erythrocyte sedimentation rate. this is a test that indirectly measures the level of inflammation is in the body. normal readings are. Adults, Westergren method Men under 50 years old-------less than 15 mm/hr. Men over 50 years old-------- less than 20 mm/hr. Women under 50 years old-- less than 20 mm/hr. No an ESR of 48 is high and indicates that there is some sort of inflammation in your body. The normal sedimentation rate (Westergren method) for males is 0-15 millimeters p … er hour, and for females is 0-20 millimeters per hour. | A sedimentation rate is common blood test that is used to detect and monitor inflammation in the body. The sedimentation rate is also called the erythrocyte sedimentation rate because it is a measure of the red blood cells (erythrocytes) sedimenting in a tube over a given period of time. Sedimentation rate is often abbreviated as sed rate or ESR. | An ESR reading that is above the normal range. When the ESR value increases moderately or mildly from the normal range, then it can be considered as a sign of inflammation in the body and the occurrence of varied conditions like anemia, pregnancy, aging, cardiac abnormalities, diabetes, and certain kinds of infections. The ESR blood test normal range values in mm/hr. are given below and categorized according to the gender and age: 1 For men over 50 years, the normal ESR reading is below 20. | An ESR reading that is below the normal range. An ESR value that is below the normal range is of no great importance. It can however be considered as a sign of different disorders such as polycythemia, sickle cell anemia, serious leukocytosis, and protein anomalies. The ESR blood test normal range values in mm/hr. are given below and categorized according to the gender and age: 1 For men over 50 years, the normal ESR reading is below 20. |
what does the word girl mean | Wiktionary (0.00 / 0 votes) Rate this definition: girl (Noun). A young female (in contrast to boy), usually a child or adolescent. Amanda is a girl of 16. girl (Noun). Any woman, regardless of her age. See usage notes. girl (Noun). A female servant; a maid | Taylor is a very popular first name for women (#805 out of 4276, Top 19%) and also a very popular surname for all people (#13 out of 150436, Top 1%). (2000 U.S. Census). Shown below is the baby name popularity of Taylor for girls. | Dakota /dako-ta/ [3 sylls.] as a girls' name (also used less commonly as boys' name Dakota) is pronounced da-KOH-tah. It is of Native American Indian origin, and the meaning of Dakota is friend, ally. Tribal name and American place name: the word may also possibly mean forever smiling. | In business and professional offices, the girl or my girl in reference to one's secretary has decreased but not disappeared. Such terms as the girls for a group of women, girl or gal friday for a female assistant, and bachelor girl for an unmarried woman are frequently regarded as offensive. | The term ratchet is a noun and adjective. This means pretty much anything or action can be classified as ratchet. Lets narrow it down as far as we can. Ratchet basically means from an adjective perspective; the act of being stupid, reckless, inelegant, disrespectful, rude, and down right nasty. |
is powdered alcohol legal in california | Palcohol, a new powdered alcohol product that allows consumers to mix alcohol powder with liquid to create a cocktail, has been approved by the U.S. Alcohol and Tobacco Tax and Trade Bureau. Lipsmark, the company that makes Palcohol, recently announced the news on its website. | California is the largest alcohol market in the U.S. and suffers the most alcohol-related harm, stated Michael Scippa, Director of Public Affairs at Alcohol Justice. Every year we lose nearly 10,000 lives and over $22 billion dollars to alcohol-related harm. | Palcohol, a powdered alcohol product, has officially been approved by the Alcohol and Tobacco Tax and Trade Bureau, according to the Associated Press. | The Alcohol Justice request for emergency legislative action is a response to news late last week that the U.S. Alcohol & Tobacco Tax & Trade Bureau (TTB) approved labels for the powdered alcohol product, Palcohol. The TTB approval gives a green light to begin marketing it wherever it's legal. | Alcoholic beverages may soon be available in powdered form or in capsules. In April 2014, the U.S. Alcohol and Tobacco Tax and Trade Bureau (TTB) approved labels for a product called Palcohol that can be added to water to make an alcoholic beverage. |
what is shibori | Shibori is a Japanese term for several methods of dyeing cloth with a pattern by binding, stitching, folding, twisting, compressing it, or capping. Some of these methods are known in the West as tie-dye. | Shibori is the Japanese word for a variety of ways of embellishing textiles by shaping cloth and securing it before dyeing.The word comes from the verb root shiboru, to wring, squeeze, press.. Although shibori is used to designatc a particular group of resist-dyed textiles, the verb root of the word emphasizes the action performed on cloth, the process of manipulating fabric. The common English translation of the Japanese word shibori is tie-dye; however, a more accurate translation is shaped resist dyeing, which describes the inherent patterning process of manipulating the two-dimensional cloth surface into three-dimensional shapes before compressing them to dye. | Rather than treating cloth as a two-dimensional surface, with shibori it is given a three-dimensional form by folding, crumpling, stitching, plaiting, or plucking and twisting. Cloth shaped by these methods is secured in a number of ways, such as binding and knotting. The common English translation of the Japanese word shibori is tie-dye; however, a more accurate translation is shaped resist dyeing, which describes the inherent patterning process of manipulating the two-dimensional cloth surface into three-dimensional shapes before compressing them to dye. | HERE. Shibori is a Japanese term for methods of dyeing cloth by binding, stitching, folding, twisting, and compressing. In Japan, the earliest known example of cloth dyed with the shibori technique dates back to the 8th century where indigo was the main dye used. We were immediately inspired by this fascinating technique, it’s history and beauty. (Japanese for “storm”) shibori a pole-wrapping technique. The cloth is wrapped on a diagonal around a pole or cylindrical object (we used old PVC and copper piping) and then tightly bound by wrapping thread or wire up and down the pole. Next, the cloth is scrunched down o | Adorable animal families that will make you aww. Shibori is a Japanese technique of creating designs in dyed fabric. It is a dye-resist technique, using items that bind the fabric to create areas where the dye will not penetrate. |
what is lexisnexis law | LexisNexis Group is a corporation providing computer-assisted legal research as well as business research and risk management services. During the 1970s, LexisNexis pioneered the electronic accessibility of legal and journalistic documents. In 2000, LexisNexis purchased RiskWise, a St. Cloud, Minnesota company. In 2002 it acquired a Canadian research database company, Quicklaw. In 2004, Reed Elsevier Group, parent company of LexisNexis, purchased Seisint, Inc, of Boca Raton, Florida. | Previously, LexisNexis had a stripped-down free version (known as LexisOne) but this has been discontinued and replaced by Lexis Communities, which provides news and blogs across a variety of legal areas. In France, the UK and Australia, LexisNexis publishes books, magazines and journals, both in hard copy and online. In 2000, LexisNexis purchased RiskWise, a St. Cloud, Minnesota company. In 2002 it acquired a Canadian research database company, Quicklaw. In 2004, Reed Elsevier Group, parent company of LexisNexis, purchased Seisint, Inc, of Boca Raton, Florida. | For companies and government agencies seeking data analytics supporting compliance, customer acquisition, fraud detection, health outcomes, identity solutions, investigation, receivables management, risk decisioning and workflow optimization. | Information resources on Westlaw include more than 40,000 databases of case law, state and federal statutes, administrative codes, newspaper and magazine articles, public records, law journals, law reviews, treatises, legal forms and other information resources. Most legal documents on Westlaw are indexed to the West Key Number System, which is West's master classification system of U.S. law. Westlaw supports natural language and Boolean searches. | West's chief competitor in the legal information retrieval market is LexisNexis. Both Westlaw and LexisNexis started in the 1970s as dial-up services with dedicated terminals. The earliest versions used acoustic couplers or key phones; then smaller terminals with internal modems. Most legal documents on Westlaw are indexed to the West Key Number System, which is West's master classification system of U.S. law. Westlaw supports natural language and Boolean searches. |
Standard sea level pressure in millibars is | A. Standard sea level air pressure is 1013 mb (millibars), which is the same as 29.92 inches of mercury or 14.7 pounds per square inch. 2. Mercury is 13 times heavier than water. A. Standard sea level pressure in centimeters equals 76 cm of mercury. Thus, the height of standard sea level pressure if a water barometer is used would be 13 times higher, or 988 cm. 3. Describe the principle of the aneroid barometer. | The standard atmosphere (symbol: atm) is a unit of pressure equal to 101325 Pa or 1013.25 hectopascals or millibars. Equivalent to 760 mmHg (torr), 29.92 inHg, 14.696 psi. (The pascal is a newton per square meter or in terms of SI base units, kilogram per meter per second-squared.). The mean sea level pressure (MSLP) is the atmospheric pressure at sea level or (when measured at a given elevation on land) the station pressure adjusted to sea level assuming that the temperature falls at a lapse rate of 6.5 K per km in the fictive layer of air between the station and sea level. | With increasing altitude there is less air above to exert a force, and thus air pressure decreases with altitude, rapidly at first, then much more slowly. The unit used by meteorologists to measure atmospheric pressure is the millibar. Standard sea-level pressure is expressed as 1013.2 millibars. Isobars are lines on a weather map that connect places of equal air pressure. A mercury barometer measures air pressure using a column of mercury in a glass tube that is sealed at one end and inverted in a dish of mercury. A mercury barometer measures atmospheric pressure in inches of mercury, the height of the column of mercury in the barometer. Standard atmospheric pressure at sea level equals 29.92 inches of mercury. Paladin · 3 years ago. | A millibar is 1/1000th of a bar and is approximately equal to 1000 dynes (one dyne is the amount of force it takes to accelerate an object weighing one gram, one centimeter, in one second). Millibar values used in meteorology range from about 100 to 1050. At sea level, standard air pressure in millibars is 1013.2. Weather maps showing the pressure at the surface are drawn using millibars. Although the changes are usually too slow to observe directly, air pressure is almost always changing. | Unfortunately for the student, there are many, many different units for measuring atmospheric pressure. Standard air pressure at sea level is most easily defined as 1 atmosphere, or 1 atm. In terms of an international (ISO) standard, it is defined to be 101325 Pa or 101.3 kPa (kilo-Pascals) at a temperature of 15 °C. In American units of measure, it's 29.92 in. Hg (inches of mercury) or 14.696 psi (pounds per square inch). This means that, at sea level, the weight of air pressing on every square inch of something is almost 15 pounds. |
what is a reclamation bond | A reclamation bond is assurance by an independent third party that they will be responsible forinsuring the mining company identified in the bond will meet certain performance requirements. The third party assures compliance with all requirements of the operating permit, reclamationplans, statutes, and rules. According to ARM 17.24.140 (1), the bond shall includeestimated costs for reclamation, contingencies, and associated monitoring activities. These rules, approved by the Board of Environmental Review, address the followingareas:-- Designation of land use.-- Proposed topography. | (November 2010). In finance, a surety, surety bond or guaranty involves a promise by one party to assume responsibility for the debt obligation of a borrower if that borrower defaults. The person or company providing this promise is also known as a surety or as a guarantor. | A surety bond is defined as a contract among at least three parties: 1 the obligee-the party who is the recipient of an obligation. 2 the principal-the primary party who will perform the contractual obligation. 3 the surety-who assures the obligee that the principal can perform the task. Through a surety bond, the surety agrees to uphold — for the benefit of the obligee — the contractual promises (obligations) made by the principal if the principal fails to uphold its promises to the obligee. | A surety bond or surety is a promise by a surety or guarantor to pay one party (the obligee) a certain amount if a second party (the principal) fails to meet some obligation, such as fulfilling the terms of a contract. Through a surety bond, the surety agrees to uphold — for the benefit of the obligee — the contractual promises (obligations) made by the principal if the principal fails to uphold its promises to the obligee. | Reclamation bond amounts are not standard. The amount required is usually based on a form of cost analysis used to determine the approximate cost to reclaim the land after the mining operations have ceased. In either instance, the mine operator is responsible for the financial expense incurred by the Surety. A Reclamation bond is not insurance and does not work like insurance. The mine operator is ultimately financially responsible for the land reclamation. |
why is dna replication such an important process | DNA replication is the process of producing two identical replicas from one original DNA molecule. This biological process occurs in all living organisms and is the basis for biological inheritance. DNA is made up of two strands and each strand of the original DNA molecule serves as a template for the production of the complementary strand, a process referred to as semiconservative replication. Cellular proofreading and error-checking mechanisms ensure near perfect fidelity for DNA replication. | 1 A molecule of a DNA polymerase binds to one strand of the DNA and begins moving along it in the 3' to 5' direction, using it as a template for assembling a leading strand of nucleotides and reforming a double helix. 2 In eukaryotes, this molecule is called DNA polymerase epsilon (ε). | Replication occurs simultaneously at multiple places along a DNA strand. Because human DNA is so very long (with up to 80 million base pairs in a chromosome) it unzips at multiple places along its length so that the replication process is going on simultaneously at hundreds of places along the length of the chain. Before a cell divides, its DNA is replicated (duplicated.) Because the two strands of a DNA molecule have complementary base pairs, the nucleotide sequence of each strand automatically supplies the information needed to produce its partner. | Yes, DNA also has to divide. The important characteristic of DNA is its ability to make several copies of it. The process of making copies of DNA strand in nucleus of the cell is called replication. The cell divides into two and distributes each copy of DNA into the divided cells. Through replication the DNA transfers the information necessary for creating an exact copy of it in the new cell. Replication is important as it generates same copy. As replication of DNA helps in forming the similar copy of it in the children, this concept has been used in forensic labs to investigate those cases where a dispute exists in identification of correct parents for a child. | DNA replication is the copying of DNA within the nucleus of a cell so that two full copies are present. This occurs before a cell divides. Two copies of a cell’s DNA need to be present before a cell divides so that each of the resulting two daughter cells will each have one full copy of the cell's DNA. After replication is complete, the cell divides, forming to two identical daughter cells. This process is important for the replacement of damaged or dead cells as well as for the proper formation of gametes needed for fertility. |
what does inflamed bowel mean | Inflammatory bowel disease (IBD) is a broad term that describes conditions with chronic or recurring immune response and inflammation of the gastrointestinal tract. The two most common inflammatory bowel diseases are ulcerative colitis and Crohn’s disease. | Symptoms of an inflamed colon may include abdominal pain. Infectious colitis, a type of colon inflammation, may be caused by harmful bacteria in water. Tobacco use may lead to the development of colon inflammation. High fever is often present with colon inflammation. | Classified under: Nouns denoting stable states of affairs. Synonyms: colitis; inflammatory bowel disease. Hypernyms (inflammatory bowel disease is a kind of...): inflammation; redness; rubor (a response of body tissues to injury or irritation; characterized by pain and swelling and redness and heat). Hyponyms (each of the following is a kind of inflammatory bowel disease): Crohn's disease; regional enteritis; regional ileitis (a serious chronic and progressive inflammation of the ileum producing frequent bouts of diarrhea with abdominal pain and nausea and fever and weight loss) | No one knows for sure what causes inflammatory bowel disease (IBD). Experts think that abnormal action of a person's immune system may trigger IBD. The immune system is made up of various cells and proteins. Normally, the immune system protects the body from infections caused by viruses or bacteria. IBD is not the same as irritable bowel syndrome (IBS), although the symptoms can be similar. Unlike inflammatory bowel disease, IBS does not cause inflammation or damage in the intestines. In many people with IBD, medicines can control symptoms. | Inflammatory bowel disease (IBD) is a group of inflammatory conditions of the colon and small intestine. Crohn's disease and ulcerative colitis are the principal types of inflammatory bowel disease. The chief types of inflammatory bowel disease are Crohn's disease and ulcerative colitis (UC). Inflammatory bowel diseases fall into the class of autoimmune diseases, in which the body's own immune system attacks elements of the digestive system. |
can you use a silicone baking mat in a gas oven | I think I often type “ silicon baking mats” but that’s wrong – silicone is the material in the bakeware. Silicon is right on the periodic table, a natural element that is in sand and makes up 28% of the earth’s crust. However, I don’t eat on the earth’s crust. 1 Many silicone baking mats are actually made of fiberglass covered on both sides with silicone, so unless you want to risk fiberglass in your food, don’t cut on the mats! 2 It’s reasonably new, so long-term studies haven’t been performed on cookware that has been exposed to high temperatures over very long periods. | Silicone baking mats do everything parchment paper does and more. Silicone mats have an ultra-smooth surface that gives cookies more spread, makes breads brown better on the bottom and causes candy to set faster than on on parchment paper and nonstick metal. The difference lies the center of the mat. Instructions. Rinse the silicone mat with cool water and dry it with a paper towel. Heat the oven and place the baking mat on a single-layer baking sheet. If your silicone mat has writing or a logo on it, position it with the writing facing up. | But what I really love silicon for in the kitchen besides those tools is the silicon baking mat. To me this is just a must have.. You can't rip them, you can't tear them, extremely durable, they never lose their shape. It's basically reinforced with fiberglass as you can see in the close-up. It's also safe to 475 degrees so you can use it in any oven. They come in 2 main sizes, the half sheet pan and the full. I have one of each, I think they are both very useful. Now, before you run out and get a large one to bake with you better watch this. | You can get silicone baking mats from Amazon.com (referral link) or from a restaurant supply store like GFS or Business Costco. I really, really like the size I got (13x18-inch). My mats are Sil-Eco brand and have been used dozens of times already and still look brand new. Oh, I hope you like pizza on the baking mat! I made pizza for a friend a few weeks ago and she said the same thing -- she has a silicone mat and hadn't thought to make pizza on it. :) I'm not sure there's anything I wouldn't try making on mine! ;) So far everything's been a success! | Never cut the Non-Stick Silicone Baking Mat or cut on it, there is a mesh reinforcement inside. Do not fold the Non-Stick Silicone Baking Mat. Do not grease the Non-Stick Silicone Baking Mats. Never use a cut or ripped Non-Stick Silicone Baking Mats as the fiberglass mesh material could migrate into the food. Avoid using automatic dishwashers, as they may harm the Non-Stick Silicone Baking Mats. Do not use Silicone Baking Mats with a broiler, a grill, or place directly on the bottom of an oven |
how long do you take blood thinner after hip replacement | For routine hip surgery, we use the blood-thinning medicine for about 4 weeks after surgery. In addition to a blood thinner, we also use early mobility, spinal anesthesia, leg exercises, foot pumps, and efficient surgery as adjunctive measures to minimize the risk of blood clots. | 1 Blood-thinning medication. 2 Your surgeon may prescribe an injected or oral blood thinner after surgery. 3 Depending on how soon you walk, how active you are and your overall risk of blood clots, you may need blood thinners for several more weeks | Taking XARELTO ® after hip or knee replacement surgery. Most people who have hip replacement surgery will take XARELTO ® 10 mg once a day for 35 days following surgery. Those who have knee replacement will usually take it for 12 days. But only your doctor can decide how long you should take XARELTO ® . Take it exactly as prescribed by your doctor. | After your surgery, you'll be at increased risk of blood clots in your legs. Possible measures to prevent this complication include: 1 Early mobilization. 2 You'll be encouraged to sit up and even try walking with crutches or a walker soon after surgery. | A blood thinner commonly prescribed to prevent blood clots after a hip or knee replacement is associated with an increased risk of post-surgery bleeding or infection, according to a study conducted by orthopaedic researchers at the NIH s National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIAMS). |
meaning of allies | Allies refers to the countries that fought against German, Italy and Japan in World War II. An example of a country that was part of the Allies in World War II is Great Britain. | 3. (cap.) (in World War II) the nations that fought against the Axis: Great Britain, the U.S., the Soviet Union, and others. a group of nations allied against another nation or group of nations. | plural noun. ( 1 in World War I) the powers of the Triple Entente (France, Russia, and Britain) together with the nations allied with them. ( 2 in World War II) the countries that fought against the Axis. 3 The main Allied powers were Britain and the Commonwealth countries, the US, the Soviet Union, France, China, and Poland. | Allies-in World War I the alliance of Great Britain and France and Russia and all the other nations that became allied with them in opposing the Central Powers. alignment, alinement, coalition, alliance-an organization of people (or countries) involved in a pact or treaty. | Noun. 1. Allies-the alliance of nations that fought the Axis in World War II and which (with subsequent additions) signed the charter of the United Nations in 1945. alignment, alinement, coalition, alliance-an organization of people (or countries) involved in a pact or treaty. |
what is autosar ppt | AUTOSAR (AUTomotive Open System ARchitecture) is an open and standardized automotive software architecture, jointly developed by automobile manufacturers, suppliers and tool developers. The AUTOSAR-standard enables the use of a component based software design model for the design of a vehicular system. This is also a fast way to make changes in the system design and check whether the system will still function. The AUTOSAR-project created a methodology that can be used to create the E/E system architecture starting from the design-model. | V1.4 June 2015. Produktinformation OS www.vector.com 3 1 Operating Systems for ECUs 2 MICROSAR.OS – The Real-Time Operating System for the AUTOSAR Standard MICROSAR.OS is a pre-emptive real-time multitasking operating system with optimized properties for use on microcontrollers. | AUTOSAR Components: RTE events During execution, several run-time events will occur, such as the reception of a remote operation-invocation on a P-Port or a timeout on an R-Port that is not receiving the data-elements itexpects. Resource consumption Description-model for the execution time The description of the implementation of a component referencesthe description of the internal behavior of the atomic software-component that is implemented The description of the internalbehavior describes all the runnable entities of the component. | AUTOSAR (AUTomotive Open System ARchitecture) is an open and standardized automotive software architecture, jointly developed by automobile manufacturers, suppliers and tool developers. | − Chapters of SRS documents Chapter 1 defines the area of application of the BSW Chapter 2 defines the structure of the document Chapter 3 defines the acronyms used in that document Chapter 4 is the main chapter. Contains a brief description of the BSW functional overview and continues with the requirements. |
how much does it cost to make a can of soda | 60-75cents 60-75cents 60-75cents A can of soda pop might cost 50-1.00 according to the size. The cost of a can of soda pop in 1955 was 10 cents. Today a single can of soda pop can cost a dollar or more depending on where it is bought. | So in order to make 60 liters, you’d need 5 of them, which would cost $25 dollars. Add that to the cost of one CO2 cartridge ($15), and you need to spend $40 to make 60 liters. Divide those, and the cost per liter of flavored SodaStream drinks comes out to roughly 0.67 cents per liter. Comparatively, Silverstein found that the average liter of bottled generic cola costs about $0.89, so you only save about $0.22 per liter when you make flavored drinks with SodaStream ($0.89-$0.67=$0.22). | Next, take your sell price and subtract your per soda cost to realize gross profit. If you sell the 20 oz soda for $1.25 then you make $1.03 in gross profit and your attributable NA/BEV cost for the soda is $0.22 / $1.25 = 17.6% (18% to 20% is very common for Soda). Refills Lets assume that you see 60% of your soda-buying guests getting refills | 14.5k Views. The bottle/can and the plastic wrapper and make the cost to about 6 cents. The Coke syrup and carbonation adds about 10 cents to the cost and shipping and handling costs increase the cost to 25c. So approximately 40 to 50 cents per can. The cost varies in every country, but this is my estimate for USA | To figure our soda cost we will need to uncover the $ cost per ounce and apply that to the soda sizes you offer. We will use a 20 oz beverage for this calculation. Knowing we get 3,782.4 oz out of a 5 gallon BIB we will divide into this quantity of 3,782.4 oz into our $50 BIB cost. If you sell the 20 oz soda for $1.25 then you make $1.03 in gross profit and your attributable NA/BEV cost for the soda is $0.22 / $1.25 = 17.6% (18% to 20% is very common for Soda). |
what is molluscum contagiosum infection | Molluscum contagiosum (MC) is a viral infection of the skin or occasionally of the mucous membranes, sometimes called water warts. It is caused by a DNA poxvirus called the molluscum contagiosum virus (MCV). MCV has no nonhuman-animal reservoir (infecting primarily humans, though equids can rarely be infected). Four types of MCV are known, MCV-1 to -4; MCV-1 is the most prevalent and MCV-2 is seen usually in adults. The virus may also be spread by touching a surface with the virus on it, such as a towel, clothing, or toys. This common viral disease has a higher incidence in children, sexually active adults, and those who are immunodeficient, and the infection is most common in children aged one to 11 years old. | Molluscum contagiosum can spread via close, direct contact with an infected individual-most commonly through skin-to-skin contact, including sexual contact or touching or scratching the bumps and then touching the skin-and also by touching contaminated objects, such as flannels or towels. Molluscum contagiosum is an infection of the MCV (molluscum contagiosum virus), a member of the poxvirus family. The infection spreads easily via: Rubbing or scratching the papules can cause spreading to nearby skin. | Molluscum contagiosum is a contagious skin infection caused by the molluscum contagiosum virus (MCV) that causes raised, pearl-like nodules or papules on the skin-these growths are called molluscum bodies, mollusca or condyloma subcutaneum. Molluscum contagiosum is an infection of the MCV (molluscum contagiosum virus), a member of the poxvirus family. The infection spreads easily via: Rubbing or scratching the papules can cause spreading to nearby skin. | Molluscum contagiosum is a skin infection that causes small pearly or flesh-colored bumps. The bumps may be clear, and the center often is indented. The infection is caused by a virus. The virus is easily spread but is not harmful. To prevent molluscum contagiosum from spreading: 1 Try not to scratch. 2 Put a piece of tape or a bandage over the bumps. 3 Do not share towels or washcloths. 4 If the bumps are on your face, don't shave. 5 If the bumps are in your genital area, avoid sexual contact. | Causes of Molluscum Contagiosum. Molluscum contagiosum is caused by a virus (the molluscum contagiosum virus) that is part of the pox virus family. The virus is contagious through direct contact and is more common in children. However, the virus also can be spread by sexual contact and can occur in people with compromised immune systems. A. Molluscum contagiosum is a viral skin infection that causes either single or multiple raised, pearl-like bumps (papules) on the skin. It is a chronic infection, so lesions may persist from a few months to a few years. However, most cases resolve in six to nine months. |
what is francisella tularensis transmitted | Tularemia is an epizootic infection caused by Francisella tularensis (19). Any age, sex, or race is universally susceptible to infection (12, 28, 52). Tularemia is primarily a disease of wild animals that is transmitted to humans by a contaminated environment or ectoparasites. Francisella tularensis is the etiologic agent of tularemia and, with rare exception, the only disease produced by this genus. The organism is a small, Gram-negative, pleomorphic, nonmotile, nonspore-forming coccobacillus measuring 0.2 x 0.2 to 0.7 mm. | Tularemia Is a Zoonotic Bacterial Disease It is the Francisella tularensis bacteria that causes tularemia. In North America, the bacteria is primarily spread from one animal to another by ticks, including the American dog tick, the Lone Star tick, and the Rocky Mountain wood tick. | Tularemia is a rare infectious disease that typically attacks the skin, eyes, lymph nodes and lungs. Tularemia — also called rabbit fever or deer fly fever — is caused by the bacterium Francisella tularensis. | Humans can become infected by having direct contact with an infected animal or from tick, mosquito, or deer fly bites. The disease is caused by the bacterium Francisella tularensis, and is a potentially life-threatening disease. The various forms of this disease depend on where the bacteria enter the body. | Fran·ci·sel·la tu·la·ren·sis. A bacterial species that causes tularemia in humans, transmitted to them from wild animals by bloodsucking insects or by contact with infected animals such as rabbits and ticks; it can penetrate unbroken skin to cause infection. It is the type species of the genus Francisella. |
what is usually the main ingredient that causes eutrophication | Confidence votes 34.5K. Eutrophication Eutrophication is a process in which bodies of water (lakes, ponds, and rivers) receive excess nutrients that stimulate excessive growth of algae. The two most common nutrients that initiate eutrophication are nitrogen and phosphorous, two limiting nutrients in the growth of algae. Eutrophication is a noun that refers to the excessive richness of nutrients in water body or a lake. The excessiveness is due to frequent runoff from the land that causes … dense growth of plant life. It can be caused naturally or by human | Consequently, lakes are particularly susceptible to pollution such as artificial eutrophication. The main causes of eutrophication are. 1 natural run-off of nutrients from the soil and the weathering of rocks. 2 run-off of inorganic fertiliser (containing nitrates and phosphates). 3 run-off of manure from farms (containing nitrates, phosphates and ammonia). Although eutrophication is a natural process in the aging of lakes and some estuaries, human activities can greatly accelerate eutrophication by increasing the rate at which nutrients and organic substances enter aquatic ecosystems from their surrounding watersheds. | In most freshwater lakes the limiting nutrient is phosphorus, so an input of phosphorus in the form of phosphate ions (PO43-) results in an increase in biological activity. The main effects of eutrophication are an. 1 increase in plant and animal biomass. 2 increase in growth of rooted plants, e.g. reeds. Although eutrophication is a natural process in the aging of lakes and some estuaries, human activities can greatly accelerate eutrophication by increasing the rate at which nutrients and organic substances enter aquatic ecosystems from their surrounding watersheds. | The main focus and concern cause of eutrophication is nitrogen and phosphorus, but nitrogen has far more attention because it often limits primary production in estuaries and coastal waters and because the global application of nitrogen from synthetic fertilizers is far greater than that of phosphorus. We then focused this study on the impacts of eutrophication. Eutrophication is one of the main problems caused by an overuse of fertilizers and an excess of manure and sewage. These wastes enter the ecosystem and generally leach away from residential, business, and agricultural sites. | Eutrophication is a natural process that typically occurs as lakes age. However, human-caused, accelerated eutrophication (called cultural eutrophication) occurs more rapidly, and causes problems in the affected water bodies, as described below. 1. EUTROPHICATION. Fertilizers cause problems with water quality when they runoff into rivers or percolate into groundwater. In fact, agriculture (including livestock agriculture) is the largest source of nonpoint water pollution in the US. |
describe what vitamins are | Vitamins. The term vitamin is used to describe certain organic compounds that are needed by the body but that cannot be manufactured by the body. They mainly serve as catalysts for certain reactions in the body. Vitamins are classified as either fat-soluble (lipid soluble) or water-soluble. Vitamins A, D, E and K are lipid-soluble and accumulate within the fat stores of the body and within the liver. The lipid-soluble vitamins are often associated with toxicity when taken in large amounts | Vitamin A is a family of compounds that play an important role in vision, bone growth, reproduction, cell division, and cell differentiation. We get vitamin A from a variety of sources. Retinol is sometimes called “true” vitamin A because it is nearly ready for the body to use. Retinol is found in such animal foods as liver, eggs, and fatty fish. It also can be found in many fortified foods, such as breakfast cereals, and in dietary supplements. | Vitamins have diverse biochemical functions. Some, such as vitamin D, have hormone-like functions as regulators of mineral metabolism, or regulators of cell and tissue growth and differentiation (such as some forms of vitamin A). Others function as antioxidants (e.g., vitamin E and sometimes vitamin C). The largest number of vitamins, the B complex vitamins, function as precursors for enzyme cofactors, that help enzymes in their work as catalysts in metabolism. Vitamins are classified by their biological and chemical activity, not their structure. Thus, each vitamin refers to a number of vitamer compounds that all show the biological activity associated with a particular vitamin. | Vitamin A is essential for good health. It promotes growth, the immune system, reproduction, and vision. However, recent research suggests that too much vitamin A, particularly in the form of retinol, may be bad for your bones. Retinol is sometimes called “true” vitamin A because it is nearly ready for the body to use. Retinol is found in such animal foods as liver, eggs, and fatty fish. It also can be found in many fortified foods, such as breakfast cereals, and in dietary supplements. | Today, vitamin D is seen as a vital part of good health and it’s important not just for the health of your bones. Recent research is now showing that vitamin D may be important in preventing and treating a number of serious long term health problems. Also what makes vitamin D unique compared to other vitamins, is that when your body gets its vitamin D, it turns vitamin D into a hormone. This hormone is sometimes called “activated vitamin D” or “calcitriol.”. Getting the right amount of vitamin D doesn’t depend on the foods you eat. |
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