question
stringlengths 8
144
| positive_context
stringlengths 38
1.17k
| negative_context_0
stringlengths 50
1.06k
| negative_context_1
stringlengths 19
1.03k
| negative_context_2
stringlengths 41
1.11k
| negative_context_3
stringlengths 22
1.09k
|
|---|---|---|---|---|---|
how the Hawaiian Islands were formed and how they are evidence for mantle plumes. | This observation is a strong evidence for the theory that volcanic hotspots like the Hawaiian Islands originate from mantle plumes generated at the Earth's core-mantle boundary. New explanation for Hawaiian hot spot. (PhysOrg.com) -- Scientists in the US have suggested that volcanic activity in Hawaii could be fed by a giant hot rock pool 1,000 kilometers west of the islands and in the Earths mantle, rather than being fed by a hot ... | The original ideaIn 1963 Wilson suggested that the Hawaiian Islands formed as the Pacific plate moved over continuously upwelling hot mantle. In 1968 Christofferson conjectured that the Emperor-Hawaii elbow records a change in direction of the Pacific plate over a fixed hotspot. | The Hawaiian Islands are volcanic in origin. Each island is made up of at least one primary volcano, although many islands are composites of more than one. The Big Island, for instance, is constructed of 5 major volcanoes: Kilauea, Mauna Loa, Mauna Kea, Hualalai and Kohala. As the plate moves over a fixed spot deeper in the Earth where magma (molten lava) forms, a new volcano can punch through this plate and create an island. The Hawaiian Islands are believed to be formed from one such 'hot spot'. As the plate moves away, the volcano stops erupting and a new one is formed in its place. | Most volcanoes occur near the Earth's plate boundaries, but some do not. For example, the Hawaiian islands have been formed over millions of years by volcanic eruptions thousands of miles from the edges of the Pacific plate. Island formation is still happening on Hawaii every time the shield volcanoes Kilauea and Mauna Loa erupt. Hotspots. In geology, the places known as hotspots or hot spots are volcanic regions thought to be fed by underlying mantle that is anomalously hot compared with the surrounding mantle. They may be on, near to, or far from tectonic plate boundaries. | A mantle plume is posited to exist where hot rock nucleates at the core-mantle boundary and rises through the Earth's mantle becoming a diapir in the Earth's crust. The theory predicts mushroom mantle plumes of about 2000 km diameter with a critical time of about 830 Myr for a core mantle heat flux of 20 mW/m 2, while the cycle time is about 2 Gyr. The number of mantle plumes is predicted to be about 17. |
how the Hawaiian Islands were formed and how they are evidence for mantle plumes. | In areas where the plates come together, sometimes volcanoes will form. Volcanoes can also form in the middle of a plate, where magma rises upward until it erupts on the sea floor, at what is called a “hot spot.”. The Hawaiian Islands were formed by such a hot spot occurring in the middle of the Pacific Plate. While the hot spot itself is fixed, the plate is moving. So, as the plate moved over the hot spot, the string of islands that make up the Hawaiian Island chain were formed. The Hawaiian Islands form an archipelago that extends over a vast area of the North Pacific Ocean | The Hawaiian Islands are volcanic in origin. Each island is made up of at least one primary volcano, although many islands are composites of more than one. The Big Island, for instance, is constructed of 5 major volcanoes: Kilauea, Mauna Loa, Mauna Kea, Hualalai and Kohala. As the plate moves over a fixed spot deeper in the Earth where magma (molten lava) forms, a new volcano can punch through this plate and create an island. The Hawaiian Islands are believed to be formed from one such 'hot spot'. As the plate moves away, the volcano stops erupting and a new one is formed in its place. | A mantle plume is posited to exist where hot rock nucleates at the core-mantle boundary and rises through the Earth's mantle becoming a diapir in the Earth's crust. The theory predicts mushroom mantle plumes of about 2000 km diameter with a critical time of about 830 Myr for a core mantle heat flux of 20 mW/m 2, while the cycle time is about 2 Gyr. The number of mantle plumes is predicted to be about 17. | The Hawaiian Islands, for example, are a chain of volcanoes thought to have their origin in a mysterious hot spot beneath the Pacific ocean floor. Every island in the chain starts as an active volcano fed by the hot spot that eventually rises above the ocean surface. New explanation for Hawaiian hot spot. (PhysOrg.com) -- Scientists in the US have suggested that volcanic activity in Hawaii could be fed by a giant hot rock pool 1,000 kilometers west of the islands and in the Earths mantle, rather than being fed by a hot ... | The source of mantle plumes, is postulated to be the core-mantle boundary at 3,000 km depth. Because there is little material transport across the core-mantle boundary, heat transfer must occur by conduction, with adiabatic gradients above and below this boundary. The theory predicts mushroom mantle plumes of about 2000 km diameter with a critical time of about 830 Myr for a core mantle heat flux of 20 mW/m 2, while the cycle time is about 2 Gyr. The number of mantle plumes is predicted to be about 17. |
how much does oas pay | OAS is earned at the rate of 1/40th of the full basic amount (currently $564.87 monthly) for every year of residence in Canada. If you will have 18 complete years of residence in Canada when you turn age 65, you will receive 18/40ths of $564.87 = $254.19 monthly. | The Old Age Security benefit is available to Canadians and legal residents depending on how long they have lived in the country. The size of one's Canada Pension Plan benefit, on the other hand, depends on how much and for how long a person has contributed to the plan. | Right now the average monthly OAS payment is $515 and the maximum amount an individual can receive is $545. Get the max by doing the math. In total, the average combined annual payout from CPP and OAS is currently $12,528 and the maximum annual payout is $18,372. Depending on how you want to live in retirement that could be a good portion of overall living expenses. | Old age security (OAS) benefits, which consist of the basic OAS pension, the Guaranteed Income Supplement (GIS) and the Allowances, will remain the same for the first quarter of 2015 (January to March). As of Jan. 1, 2015, the basic OAS pension will stay at $563.74 per month. | For 2011, the maximum OAS benefit is $540.12/month or $6,481.44/year. To receive this, you would need to have lived in Canada for 40 years after the age of 18. Anything less than 40 years results in a reduced old age security benefits. |
salary for geophysics | Geophysicist Salary. (United States). The average pay for a Geophysicist is $98,522 per year. The highest paying skills associated with this job are seismic interpretation, Data Modeling, and Interpretation. Experience strongly influences income for this job. Total Pay (?XTotal Pay combines base annual salary or hourly wage, bonuses, profit sharing, tips, commissions, overtime pay and other forms of cash earnings, as applicabl | For example the median expected annual pay for a typical Geophysicist I in the United States is $69,809 so 50% of the people who perform the job of Geophysicist I in the United States are expected to make less than $69,809. Source: HR Reported data as of October 2015. Median $69,809. Aids in the design, planning, and execution of geophysical investigations and projects including data collection, processing, analyzing, and reporting. Requires a bachelor's/master's degree and 0-2 years of experience in the field or in a related area. | Average Geophysicist salaries for job postings in Houston, TX are 13% higher than average Geophysicist salaries for job postings nationwide. | Salary Between $105,000 and $110,000. The average salary for a geoscientist was $108,420 as of May 2013, according to the BLS. The top 25 percent made more than $134,390 per year. The minimum educational requirement for this job is a bachelor's degree in one of the geosciences, including geology or geophysics. These geoscientists earned the highest salaries of $154,230 in the oil and gas extraction industry, according to May 2013 BLS data. They made $152,370 in the petroleum and coal products manufacturing industry, while those in the support activities for mining industry averaged $137,010. | Here is another one, the salary range for geophysicist is really broad and can be as low as 30,000 a year. At the low end, I can see some near surface geophysics companies such as Naeva Geophysics and Radar Solutions International. I am a geophysicist with 19 years experience. In general, salaries tend to be lower than day-rate consulting income. Domestic income tends to be lower than overseas work. In Houston, I would say up to $200,000 is possible (before taxes) on a salary basis. |
who sang hello it's me first | Background [edit]. Hello It's Me was the first original song by Todd Rundgren. It was first recorded in 1968 by Rundgren's band Nazz and was included on their self-titled debut album. Rundgren recorded an uptempo version of Hello It's Me on his 1972 solo album Something/Anything? . Although a remake of the original, this new version became widely popular and has since become a staple of the classic rock genre. | One of my favorites by this groupTurnerBrooklyn, NY Pamela-Brooklyn, Ny. Todd Rundgren performed vocals, background vocals, and all the instrumental tracks on Hello It's Me. Tim-Charlotte, Nc. Many childhood memories are refreshed when I hear this song ... Speaking about the song in Mojo, he explained: 'Hello, It's Me' has become the albatross to me: everyone has attached to me the idea of the amateur singer, the amateur piano player, the funk-free boy doing his little song. | Rock. Todd Rundgren's best-known songs -- the Carole King pastiche I Saw the Light, the ballads Hello, It's Me and Can We Still Be Friends, and the goofy novelty Bang on the Drum All Day -- suggest that he is a talented pop craftsman, but nothing more than that. Although the song would later become a major hit for Rundgren as a solo artist, the dirgey original version barely scraped the national charts. Despite the lack of success, the record -- particularly the Nazz's self-production of Open My Eyes and Hello, It's Me -- attracted some good notices. | Answer Todd Rundgren sang Hello It's Me. Answer also done by Nazz in 1970 Thank you to whoever answered correctly! I didn't realize anybody was on her … e that intelligent! Todd is great! You will have to be more specific. This children's song has hello, hello, … hello. It goes.. Hello hello hello Hello how are you? I'm glad to be with you And you and you and you. Tra-la-la-la-la-la-la-la Tra-la-la-la-la-la-la-la. | Hello It's me, I've thought about us for a long, long time. Maybe I think too much but some thing's wrong. There's something here that doesn't last too long. Maybe I shouldn't think of you as mine. Seeing you. or seeing anything as much as I do you. Hello It's Me is track #13 on the album For Lack of Honest Work. It was written by Rundgren, Todd Harry. |
what is iron gall ink | Oak galls and iron(II) sulfate, ingredients of iron gall ink. Iron gall ink (also known as iron gall nut ink, oak gall ink, and common ink) is a purple-black or brown-black ink made from iron salts and tannic acids from vegetable sources. While a very effective ink, the formula was less than ideal. Iron gall ink is acidic ranging from roughly equivalent to a lemon (pH ≈ 2) to that of a cup of black coffee (pH ≈ 5). In chemistry, pH is a measure of the activity of the (solvated) hydrogen ion, where a lower pH level indicates a more acidic solution | Iron-gall ink was very useful because it ate into the parchment and did not rub off documents. To make iron-gall ink, galls from oak trees were crushed then mixed with water and vitriol (iron sulfate). Gum arabic from acacia trees was added as the suspension agent. The result was iron-gall ink. Leonardo da Vinci wrote his notes using iron-gall ink. Bach wrote his compositions with it. Iron-gall ink was the most important ink in Western history. Leonardo da Vinci wrote his notes using iron-gall ink. Bach wrote his compositions with it. Rembrandt and Van Gogh drew with it. | Iron gall ink is primarily made from tannin (most often extracted from galls), vitriol (Ferrous Sulfate (FeSO4) (FeSO4)), gum, and water. Because of the indeliblilty of iron gall ink it was the ink of choice for documentation from the late Middle Ages to the middle of the twentieth century. Iron gall ink was stable in light, easily made, inexpensive, and the ingrediebts were readily available. | Ink corrosion: iron gall ink causes paper and parchment to disintegrate. By mixing tannin with iron sulfate, a water-soluble ferrous tannate complex is formed. Because of its solubility, the ink is able to penetrate the paper surface, making it difficult to erase. While a very effective ink, the formula was less than ideal. Iron gall ink is acidic ranging from roughly equivalent to a lemon (pH ≈ 2) to that of a cup of black coffee (pH ≈ 5). In chemistry, pH is a measure of the activity of the (solvated) hydrogen ion, where a lower pH level indicates a more acidic solution | « Back to Analytical Projects. Background: Iron gall ink has been used for the last several centuries, and some formulations can be extremely corrosive to documents. The ink can render manuscripts and other documents illegible and inaccessible by causing loss of text, bleeding, fading, strike-through and acid migration |
average denmark wage | The average minimum wage for all private and public sector collective bargaining agreements is approximately DKK 110 ($20) per hour, exclusive of pension benefits. The Danish minimum wage of $20 or $21 is actually an average of all minimum wages across a variety of sectors. | Wages in Denmark averaged 37473.73 DKK/Month from 2009 until 2014, reaching an all time high of 38957.98 DKK/Month in 2014 and a record low of 35381.53 DKK/Month in 2009. This page provides-Denmark Average Wages in Private Sector Index-actual values, historical data, forecast, chart, statistics, economic calendar and news. Content for-Denmark Standardized Monthly Earnings-was last refreshed on Friday, October 23, 2015. | Danish people earn USD 48 347 per year on average, more than the OECD average of USD 36 118. Not everyone earns that amount however. In all OECD countries, men still earn more than women, with an average wage gap of 15.5%. In Denmark, men earn 7.8% more than women. Also, whereas the top 20% of the population earn an estimated USD 56 276 per year, the bottom 20% live on an estimated USD 28 524 per year. Household financial wealth is the total value of a household’s financial worth, such as money or shares held in bank accounts. In Denmark, the average household net financial wealth per capita is estimated at USD 44 488, lower than the OECD average of USD 67 139. | Wages in Denmark increased to 38957.98 DKK/Month in 2014 from 38525.37 DKK/Month in 2013. This page provides-Denmark Average Wages in Private Sector Index-actual values, historical data, forecast, chart, statistics, economic calendar and news. Content for-Denmark Standardized Monthly Earnings-was last refreshed on Friday, October 23, 2015. | In Denmark, wages are benchmarked using the average salary. This page provides-Denmark Average Wages in Private Sector Index-actual values, historical data, forecast, chart, statistics, economic calendar and news. Content for-Denmark Standardized Monthly Earnings-was last refreshed on Friday, October 23, 2015. |
through what process are gametes formed | Gametes are produced by a type of cell division called meiosis. They are haploid, meaning that they contain only one set of chromosomes. When the haploid male and female gametes unite in a process called fertilization, they form what is called a zygote. The zygote is diploid and contains two sets of chromosomes. Definition: Gametes are reproductive cells (sex cells) that unite during sexual reproduction to form a new cell called a zygote. Male gametes are sperm and female gametes are ova (eggs). In seed bearing plants, p ollen is the male sperm producing gametophyte. Female gametes are contained within the plant ovary. | Zygotes are the original cell that is formed when the animal sperm and egg cells combine. Originally a zygote is only 1 cell, but it begins to divide through the process of mitosis until it becomes much larger, eventually developing into an embryo, then fetus, and eventually, a developing baby. Zygotes are only formed through the process of [b]fertilization[/b], which is the actual combining of a male sperm cell and a female egg cell. | During meiosis in humans, 1 diploid cell (with 46 chromosomes or 23 pairs) undergoes 2 cycles of cell division but only 1 round of DNA replication. The result is 4 haploid daughter cells known as gametes or egg and sperm cells (each with 23 chromosomes – 1 from each pair in the diploid cell). At conception, an egg cell and a sperm cell combine to form a zygote (46 chromosomes or 23 pairs). This is the 1 st cell of a new individual. | Confidence votes 175. Gametes are sex cells, formed through the process meiosis in which a cell divides to have half of the normal amount of DNA. | Explanations. Spermatogenesis and Oogenesis. Meiosis, the process by which gametes are formed, can also be called gametogenesis, literally “creation of gametes.” The specific type of meiosis that forms sperm is called spermatogenesis, while the formation of egg cells, or ova, is called oogenesis. |
what is windows feedback | The new build of Windows 10 – build number 10525 – has a new app called Feedback app. It can be used to send feedback to the team working on Windows 10. It can also be used to report problems to the Windows 10 team. In addition, you can view what are other users posting as feature requests. As said earlier, you can use the Windows 10 Feedback App to see what are other users requesting as features, complaints by other users on particular problems, and to add and send your own feedback, suggestion or complaint to the Windows 10 team. | Provide Feedback on Anything. Microsoft allows you to send feedback on anything in the system. Even if someone else has already provided this feedback, you can cast your vote so Microsoft knows how many users agree with the feedback. First, open the Windows Feedback app — you’ll find it in the Start menu. It’s also one of the default tiles, so you can’t miss it. The first time you open this app, you’ll need to register for the “Windows Insider Preview Program.” Just click the link in the window. This is the real reason to use the Windows 10 Technical Preview. Microsoft needs this feedback to make Windows 10 a product people like and want to use — with Windows 8, they demonstrated they couldn’t make a compelling product while ignoring feedback. Windows 10 is looking so great because it’s a product of listening to the criticisms of Windows 8 | With Windows 10, Microsoft asked for an unprecedented level of feedback. The Windows Insider program not only provided keen users with access to preview builds of the operating system, but also gave a direct line to Microsoft to point out problems, make suggestions, request features, and so on. | How to Send Feedback to Microsoft in the Windows 10 Technical Preview. Microsoft wants your feedback about Windows 10 — really, they need it. This is the most important feature in the Windows 10 Technical Preview — not a Start menu, virtual desktops, or windowed “universal apps.”. This is the real reason to use the Windows 10 Technical Preview. Microsoft needs this feedback to make Windows 10 a product people like and want to use — with Windows 8, they demonstrated they couldn’t make a compelling product while ignoring feedback. Windows 10 is looking so great because it’s a product of listening to the criticisms of Windows 8 | So, as you can see, providing feedback to Microsoft as part of the Windows 10 Insider Program is quite easy. If you have yet to provide feedback to Microsoft and you are running Windows 10, we highly recommend you fire up the Windows Feedback app. |
stanozolol cost | Stanozolol is not the most expensive anabolic steroid, but it is also not the cheapest. You can expect an average price per dosage of around $1 to $3 depending on how many pills you take per day. Most people will find that three bottles is enough to run a very effective cycle. Those athletes that look for Stanozolol for sale online find that a small dosage is all they need. There are many men that do not need more than 50 mg of Stanozolol every other day, and then you get those that are fine with a lower dosage of just 25 mg. As for women, the recommended dosage is 10mg every other day. | Oral Winstrol Price. Let’s first consider the cost of oral forms of Winstrol pills since these tend to be more widely available from online steroid vendors. Winstrol tablets are the generally used structure of anabolic steroids in market. The first reason is that it is very easy to consume. Both the methods act in the same way when they are in your body. The price will be different depending on whether you buy a 50 mg pill or a 10 mg pill. Generally, you will pay between $50 – $150 for a legitimate supply of 50 mg pills that should last you up to a 6 week cycle. | Buy Winstrol or Finding Winstrol For Sale. Winstrol (also referred to informally as ‘Winny’) is the trade name for the anabolic steroid Stanozolol, which happens to be number three in the rankings for the most popular and most widely used anabolic steroids. | Most of the Winstrol tablets are recommended as the dose of 50mg (for men) and 10mg (for women). It is also taken in the form of injection. Both the methods act in the same way when they are in your body. The price will be different depending on whether you buy a 50 mg pill or a 10 mg pill. Generally, you will pay between $50 – $150 for a legitimate supply of 50 mg pills that should last you up to a 6 week cycle. This is the usual duration that you will take Winstrol for | 1 A syringe type steroid can cost $60 while the Sciroxx steroid costs between $100 and $150. 2 HCG and Clomid cost around $50 to $85 while Antiestrogens cost between $50 and $150. 3 Steroids.com has provided a price guide for different types of steroids in underground and human grade forms. 1 The steroids sold at Anabolic-Muscle.com, for example, come in different types and prices. 2 A syringe type steroid can cost $60 while the Sciroxx steroid costs between $100 and $150. 3 HCG and Clomid cost around $50 to $85 while Antiestrogens cost between $50 and $150 |
is it a new jersey law that both parents is responsible for college tuition and still have child support? | It is the law that both parents contribute to the support of children that they bring into this world. New Jersey, similar to most states, have promulgated guidelines for the Court’s use in determining the amount of child support. | In New Jersey the duty to pay for a child's college expenses extends beyond college, to graduate and professional school. In the case of Ross v. Ross, 167 N.J. Super. 491 (Ch. Div. 1979), the court held that a parent has a responsibility to pay for a child's graduate and/or | There is no doubt that New Jersey is one of the most liberal states with regard to child support, and requiring parents to pay for their children's college costs. An overwhelming majority of states do not require parents to provide their children with a college education. | In the state of New Jersey, parents may be responsible to continue to pay for a child’s education beyond college. This means that divorced parents may be required to pay for a child’s graduate, law school or medical school degree. This was established in the case of Ross v. Ross, 167 N.J. Super. 491 (Ch. Div. 1979). | Some states emancipate a child at age eighteen. But under New Jersey family law decisions, a child is not automatically emancipated at any particular age. Further, New Jersey parents can be obliged not only to pay for their child's college education, but also for graduate school. |
what do plants need to convert sugars into proteins | Photosynthesis. Photosynthesis is a process used by plants in which energy from sunlight is used to convert carbon dioxide and water into molecules needed for growth. These molecules include sugars, enzymes and chlorophyll. Light energy is absorbed by the green chemical | This means that they have to eat other things to get the carbohydrates, fats, proteins, vitamins and minerals which they need. When plants are in the sunlight they can make a sugar called glucose. This is slightly different from the sugar (sucrose) which you put into your tea. | Chlorophyll. Carbon dioxide and water are inorganic chemicals, whereas glucose is an organic chemical. Plants need energy to convert carbon dioxide and water into glucose; this energy comes from sunlight. Plants can also use artificial light providing that it contains the right frequencies (colours). | Plant photosynthesis and energy creation are complex processes involving carbon dioxide, water and sunlight, facilitated by multiple enzymes to create the basic sugar called glucose. Much of the glucose plants produce is immediately metabolized into different forms of energy that plants use to grow and reproduce. | The simplest carbohydrate is glucose. Glucose, also called blood sugar and dextrose, flows in the bloodstream so that it is available to every cell in your body. Your cells absorb glucose and convert it into energy to drive the cell. |
what do plants need to convert sugars into proteins | Photosynthesis is a process used by plants in which energy from sunlight is used to convert carbon dioxide and water into molecules needed for growth. These molecules include sugars, enzymes and chlorophyll. Light energy is absorbed by the green chemical | The plant takes in water and carbon dioxide and combines them using the energy … from sunlight which it traps with a chemical called chloropyl. Chlorophyl is the green pigment which makes the plants appear green. The plant makes glucose to use for energy and the waste product is oxygen. | The simplest carbohydrate is glucose. Glucose, also called blood sugar and dextrose, flows in the bloodstream so that it is available to every cell in your body. Your cells absorb glucose and convert it into energy to drive the cell. | This means that they have to eat other things to get the carbohydrates, fats, proteins, vitamins and minerals which they need. When plants are in the sunlight they can make a sugar called glucose. This is slightly different from the sugar (sucrose) which you put into your tea. | Plant photosynthesis and energy creation are complex processes involving carbon dioxide, water and sunlight, facilitated by multiple enzymes to create the basic sugar called glucose. Much of the glucose plants produce is immediately metabolized into different forms of energy that plants use to grow and reproduce. |
what are embedded systems | An embedded system is a computer system with a dedicated function within a larger mechanical or electrical system, often with real-time computing constraints. It is embedded as part of a complete device often including hardware and mechanical parts. Embedded systems control many devices in common use today. Embedded systems range from no user interface at all, in systems dedicated only to one task, to complex graphical user interfaces that resemble modern computer desktop operating systems. Simple embedded devices use buttons, LEDs, graphic or character LCDs (HD44780 LCD for example) with a simple menu system. | Since the embedded system is dedicated to specific tasks, design engineers can optimize it to reduce the size and cost of the product and increase the reliability and performance. Some embedded systems are mass-produced, benefiting from economies of scale. Embedded systems range from no user interface at all, in systems dedicated only to one task, to complex graphical user interfaces that resemble modern computer desktop operating systems. Simple embedded devices use buttons, LEDs, graphic or character LCDs (HD44780 LCD for example) with a simple menu system. | A specialized computer system that is part of a larger system or machine. Typically, an embedded system is housed on a single microprocessor board with the programs stored in ROM. Virtually all appliances that have a digital interface -- watches, microwaves, VCRs, cars -- utilize embedded systems. | An embedded system is a computer that has been built to solve only a few very specific problems and is not easily changed. In contrast, a general-purpose computer can do many different jobs, and can be changed at any time with new programs for new jobs. An embedded system usually does not look like a computer, often there is no keyboard or monitor or mouse. But like any computer it has a processor and software, input and output. The word embedded means it is built into the system | Embedded Computer Systems. An embedded system is a special-purpose system in which the computer is completely encapsulated by the device it controls. Unlike a general-purpose computer, such as a personal computer, an embedded system performs pre-defined tasks, usually with very specific requirement |
similarities between the caribs and arawaks | The Caribs and Arawaks were both tribes that lived in the Caribbean region. The Arawaks were made of several tribes including Taino, Lucayan, Nepoya, Sepoya, and Igneri. They were peaceful people who grew crops and made pottery. They invented the hammock which the Spanish quickly adopted for use on their ships. Kalinago is the formal name or better yet the name the Caribs themselves would prefer to be known as. Carib was the name given to them by the Europeans and as such had littl … e or no meaning to them. Many have suggested that Taino is the formal name of the Arawaks. 1 person found this useful. | The cultures of the arawaks/Taino taíno and/Caribs kalinago were very; similar however they came from two language groups The arawakan And. Cariban The kalinago pottery were not as sophisticated in ceramics as The. taino Kalinago is the formal name or better yet the name the Caribs themselves would prefer to be known as. Carib was the name given to them by the Europeans and as such had littl … e or no meaning to them. Many have suggested that Taino is the formal name of the Arawaks. 1 person found this useful. | 1 The cultures of the arawaks/Taino taíno and/Caribs kalinago were very; similar however they came from two language groups The arawakan And. 2 Cariban The kalinago pottery were not as sophisticated in ceramics as The. 3 Taino the cotton technology textiles of The kalinago were more. advanced What are the differences between the Arawak and the Caribs? When the first Europeans reached the Caribbean, they encountered three groups of inhabitans: The Siboneys (mostly living on Cuba and Puerto Rico) The Caribs and Arwaks liv … ing in small groups and tribes throughout the Caribbean islands. | 1 The cultures of the arawaks/Taino taíno and/Caribs kalinago were very; similar however they came from two language groups The arawakan And. cariban What are the differences between the Arawak and the Caribs? When the first Europeans reached the Caribbean, they encountered three groups of inhabitans: The Siboneys (mostly living on Cuba and Puerto Rico) The Caribs and Arwaks liv … ing in small groups and tribes throughout the Caribbean islands. | Although there are real differences between Caribs and Arawaks, the differences themselves did not signify a definitive cultural split between the two. “Ethnicity is […] no doubt a complicated interaction of self-perception and perception by others – rather than of being. How the Caribs or Arawaks view themselves and how the Spanish viewed them defined their culture and how we, even now, view them. |
doxycycline dosage for upper respiratory infection | Inhalational anthrax (post-exposure): Adults: 100 mg, of doxycycline, by mouth, twice-a-day for 60 days. Children: weighing less than 100 lb (45 kg); 1 mg/lb (2.2 mg/kg) of body weight, by mouth, twice-a day for 60 days. Children weighing 100 lb or more should receive the adult dose. Doxycycline is indicated for treatment of infections caused by the following gram-positive microorganisms when bacteriologic testing indicates appropriate susceptibility to the drug: Upper respiratory infections caused by Streptococcus pneumoniae. | For adults, the normal dose of oral doxycycline is 200 mg on the first day of treatment. Usually you take that as two 100-mg doses, 12 hours apart. After this initial dose, people usually take a maintenance dose of 100 mg daily for seven to 10 days. Like all antibiotics, doxycycline will not treat colds, the flu, or other infections caused by viruses or fungi. A 2014 study found that a low dose of 40 milligrams (mg) of slow-release doxycycline daily could be an effective and safe therapy for ocular rosacea, or rosacea that affects the eyes. | Administration. A typical doxycycline dose for treating bacterial feline upper respiratory problems is 2 mg per pound of body weight given twice per day. While this is fairly standard, always stick to the specifications of your prescription, even if they vary from this. Treating a Feline Upper Respiratory Infection. Antibiotics are the main course of treatment for a bacterial infection, including those affecting the upper respiratory tract. Your vet prescribes doxycycline if he believes your pet's infection is caused by a susceptible bacteria. | Useful in treating infections caused by Mycoplasma pulmonis, spirochetes, chlamydia and rickettsia; doxycycline is the antibiotic of choice in the treatment of both acute and chronic upper and lower respiratory infection, in rats, involving susceptible organisms. (2) (3) Both doxycycline and minocycline are virtually completely absorbed in the GI tract, when taken orally, and are not noticeably impaired when taken with food or dairy. As with minocycline, blood levels of doxycycline are sustained longer providing a longer half-life than other tetracyclines. | Doxycycline for Cats with Upper Respiratory Problems. Doxycycline antibiotics can get your kitty better if she has an upper respiratory infection. If your vet diagnoses your kitty with a bacterial upper respiratory infection, an antibiotic is an important part of treatment. Doxycycline is a broad-spectrum antibiotic in the tetracycline class that's sometimes prescribed for this purpose in cats. Treating a Feline Upper Respiratory Infection. Antibiotics are the main course of treatment for a bacterial infection, including those affecting the upper respiratory tract. Your vet prescribes doxycycline if he believes your pet's infection is caused by a susceptible bacteria. |
what is the HSE responsible for | HSE is responsible for enforcing health and safety at workplaces including: 1 factories. 2 farms. 3 building sites. 4 mines. 5 schools and colleges. 6 fairgrounds. 7 gas, electricity and water systems. 8 hospitals and nursing homes. You should contact your local authority environmental health department if you have a query about the following type of premises: 1 offices (except government offices). 2 shops. 3 hotels. 4 restaurants. 5 leisure premises. | Under the law employers are responsible for health and safety management. The following provides a broad outline of how the law applies to employers. Don't forget, employees and the self employed have important responsibilities too. It is an employer's duty to protect the health, safety and welfare of their employees and other people who might be affected by their business. | The HSE was created by the Health and Safety at Work etc. Act 1974, and has since absorbed earlier regulatory bodies such as the Factory Inspectorate and the Railway Inspectorate though the Railway Inspectorate was transferred to the Office of Rail Regulation in April 2006. However, most criticism of the HSE is that their regulations are over-broad, suffocating, and part of a nanny state. The Daily Telegraph has claimed that the HSE is part of a compensation culture, that it is undemocratic and unaccountable, and that its rules are costing jobs. | Environmental, health and safety (EHS) departments, also called SHE or HSE departments, of some companies are responsible for environmental protection, occupational health and safety at work. | In line with our Group Health, Safety and Environment (HSE) Policy Statement, NNPC is committed to conducting its activities in a manner that promotes the Health and Safety of its employees, assets and the public, as well as protection of the environment. The Department is also responsible for formulation of practical HSE policies and guidelines in line with industry best practice, facilitate timely and comprehensive compliance while maintaining effective service delivery for the protection of staff, assets and |
which of the following will be included in manufacturing overhead costs | Since direct materials and direct labor are usually considered to be the only costs that directly apply to a unit of production, manufacturing overhead is (by default) all of the indirect costs of a factory. Manufacturing overhead does not include any of the selling or administrative functions of a business. Manufacturing overhead is all of the costs that a factory incurs, other than the variable costs required to build products, such as direct materials and direct labor. This overhead is applied to the units produced within a reporting period. Examples of costs that are included in the manufacturing overhead category are: | For a product to be profitable, its selling price must be greater than the sum of the product cost (direct material, direct labor, and manufacturing overhead) plus the nonmanufacturing costs and expenses. For a further discussion of nonmanufacturing costs, see Nonmanufacturing Overhead Costs. Manufacturing overhead, however, consists of indirect factory-related costs and as such must be divided up and allocated to each unit produced. For example, the property tax on a factory building is part of manufacturing overhead. | Unit product cost. $7. (The $30,000 fixed manufacturing overhead will be charged off in total against income as a period expense along with selling and administrative expenses). Under the absorption costing, notice that all production costs, variable and fixed, are included when determining the unit product cost. Under variable costing system, those costs of production that vary with output are treated as product costs. The unit product costs under variable costing system consists of direct materials, direct labor and variable portion of manufacturing overhead. | What is the total factory overhead? At the beginning of 2015, Swift Company's Work-in-Process Inventory account had a balance of $120,000. During 2015, $250,000 of direct materials were used in production, and $75,000 of direct labor costs were incurred. Manufacturing overhead amounted to $850,000. The cost of goods manufactured was $675 | When absorption costing method is used a portion of fixed manufacturing overhead cost is allocated to each unit of product along with variable manufacturing cost. This approach is also called full costing method because all costs of production are included in the product cost. Under variable costing system, those costs of production that vary with output are treated as product costs. The unit product costs under variable costing system consists of direct materials, direct labor and variable portion of manufacturing overhead. |
what is the genus name for a bat | Chiroptera There are about 1200 species of bat with different binary (scientific) names. Some bat groups are the Acerodons, the Rousettus, Craseonycterus, Myotis, and Arti … beus. Each of these genera (First half of the binary name) can have several species (Second half of the binary name). The scientific name of bat is Pipistrellus Pipistrellus that is a common bat's scientific name. | Split and merge into it. Answer by Rezowan. Confidence votes 67. The scientific name of bat is Pipistrellus Pipistrellus that is a common bat's scientific name. Pipistrellus Pipistrellus is a common bat's scientific name. -Victoria McCombs Chiroptera is the order for all bats. They fall under the mammal class, the next defining sectio … n would be order. | It is also arguably the smallest extant species of mammal, with the Etruscan shrew being the other contender. The largest species of bat are a few species of Pteropus (fruit bats or flying foxes) and the giant golden-crowned flying fox with a weight up to 1.6 kg (4 lb) and wingspan up to 1.7 m (5 ft 7 in). Fruit eating, or frugivory, is a specific habit found in two families of bats. Megachiropterans and microchiropterans both include species of bat that feed on fruits. These bats feed on the juices of sweet fruits, and fulfill the needs of some seeds to be dispersed. | A genus is a scientific way of showing that species are very closed related to each other. In fact the first word of the species' scientific name is its genus. So for lions (Panthera leo), Panthera is the genus and tells us that they are closely related to tigers (Panthera tigris), because they share the name. 1 Bottlenose dolphins. 2 Giant kelps. | Report Abuse. You would have to pick out a specific species in order to classify the genus and species of a bat. For instance, a big brown bat is genus species Eptesicus fuscus. The order for bats is Chiroptera. That means that it is not in the rodent family because rodents are classified under the order rodentia. Best Answer: There are about 1100 species of bats (order Chiroptera), and they are in no way related to rodents other than both being placental mammals. Rodents are also not a family, but a whole order that includes about 32 families. |
how much does a welder make in ontario canada | As of 2014, the average hourly wage for welders in Canada is $22.80. The average yearly salary for welders in Canada is $40,000. The rate is higher for more experienced we … lders. Answered. It all really depends on where you plan on working in Canada and what your qualifications are. In Souther Ontario a Primary Care Paramedic (PCP) can make $20 - $30 an … hour (that's an approximation). While an Advanced Care Paramedic (ACP) can make a few dollars extra an hour. | The table below details the hourly wages for Welders and Related Machine Operators. The Canadian national occupation classification code (NOC) for this role is 7265. A typical full-time annual salary for this occupation is in the region of $40,000 – $55,000. The government forecasts that there will continue to be a surplus of workers in this occupation for the near future. | According to the latest figures, the highest hourly average (median) wages are earned in Edmonton, Alberta at $31.00 per hour and the lowest average (median) wages are earned in Winnipeg, Manitoba at $18.81 per hour. A typical full-time annual salary for this occupation is in the region of $40,000 – $55,000. The government forecasts that there will continue to be a surplus of workers in this occupation for the near future. | Average Welder salaries for job postings in Ontario, CA are 11% lower than average Welder salaries for job postings nationwide. | Welder Salary. (Canada). A Welder earns an average wage of C$22.75 per hour. For the first five to ten years in this position, pay increases steeply, but any additional experience does not have a big effect on pay. Most people with this job move on to other positions after 20 years in this career. C$34,599 - C$99,177. |
difference between quota and random sampling | Best Answer: Quota sampling is a method for selecting survey participants. In quota sampling, a population is first segmented into mutually exclusive sub-groups, just as in stratified sampling. Then judgment is used to select the subjects or units from each segment based on a specified proportion. | = 0.15 x 100. = 15 students. The main difference between stratified sampling and quota sampling is that stratified sampling would select the students using a probability sampling method such as simple random sampling or systematic sampling. In quota sampling, no such technique is used. | Shawn asked a good question in class yesterday about the differences between stratified sampling and quota sampling. In terms of sampling mechanism (i.e. the actual process by which cases are chosen from the population), it is clear that these two samples are different. | = 15 students. The main difference between stratified sampling and quota sampling is that stratified sampling would select the students using a probability sampling method such as simple random sampling or systematic sampling. In quota sampling, no such technique is used. | In quota sampling, the selection of the sample is non-random sample and can be unreliable. For example, interviewers might be tempted to interview those people in the street who look most helpful, or may choose to use accidental sampling to question those closest to them, for time-keeping sake. |
difference between quota and random sampling | Stratified Sampling. Stratified random sampling is a sampling method in which the population is first divided into strata (A stratum is a homogeneous subset of the population). Then a simple random sample is taken from each stratum. | = 15 students. The main difference between stratified sampling and quota sampling is that stratified sampling would select the students using a probability sampling method such as simple random sampling or systematic sampling. In quota sampling, no such technique is used. | Shawn asked a good question in class yesterday about the differences between stratified sampling and quota sampling. In terms of sampling mechanism (i.e. the actual process by which cases are chosen from the population), it is clear that these two samples are different. | = 0.15 x 100. = 15 students. The main difference between stratified sampling and quota sampling is that stratified sampling would select the students using a probability sampling method such as simple random sampling or systematic sampling. In quota sampling, no such technique is used. | Quota sampling is a method for selecting survey participants. In quota sampling, a population is first segmented into mutually exclusive sub-groups, just as in stratified samp … ling. Then judgment is used to select the subjects or units from each segment based on a specified proportion which is called the Quota sample. |
is truth secular | It does not question the pretensions of Christianity; it advances others. Secularism does not say there is no light or guidance elsewhere, but maintains that there is light and guidance in secular truth, whose conditions and sanctions exist independently, and act forever. What all secular governments, from the democratic to the authoritarian, share is a concern about relations between church and state. Each secular government may find its own unique policy prescriptions for dealing with that concern (separation being but one of those possible policies. | Of course, answering it isn't so simple. We can offer definitions like Truth is that which conforms to reality, fact, or actuality.. But this basic definition is not complete because its definition is open to interpretation and a wide variety of applications. Truth is not deception. Of course, it could be true that someone is being deceptive, but the deception itself isn't truth. In relativism, all points of view are equally valid, and all truth is relative to the individual. If this were true, then it would seem that this is the only truth relativism would have to offer | True wisdom comes from God and only God and is written in His Word, the Bible. Secular Secular world view purports that there is a person or persons who has the answer to particular life questions. Their approach is the best and the author is the defining authority on the subject. This lends itself to the guru effect. | Secularism, belief, and truth. In discussions of religion and secularism, too often an emphasis falls on how belief in a deity defines religion against the secular, and not often enough, on the common ground between secularism and religion—beliefs about the human condition. But my engagement with questions about the secular, to date, has been to question the reification of a secularism/religion or secular/sacred divide, and hence, I am uncomfortable when Bilgrami defines secularism over against religion. | The secular church allows the ways of the world to seep into the beliefs and practices of the Christian church, thereby diluting the truth. If we find something in the church that is contrary to Scripture but is taught in the secular world, then that church has become--in part--secularized. |
how much do labor and delivery nurses make | Salary. The average yearly salary for a nurse specializing in labor and delivery is approximately $55,000 a year. A labor and delivery nurse who has several years of experience can expect to make closer to $70,000 or more. Those nurses with a master’s degree or higher can also make a significantly higher annual salary. The annual pay level for a labor and delivery nurse is often higher in metropolitan areas verses rural areas. | A Labor and delivery nurse’s salary can span a wide range, making it a bit more difficult to pinpoint just how much Labor and Delivery nurses make. On average, their salaries are set anywhere from $40,000 to 90,000 per year depending on experience, education, employer and location. According to the Bureau of Labor Statistics, median salaries for registered nurses nationwide exceed $62,000 annually. Among the highest paid registered nurses are orthopedic nurse practitioners. These specialists average more than $81,000 annually, and it’s not uncommon for them to earn up to $94,000 per year. | Pay By Metropolitan Area. The top-paying metropolitan area for labor and delivery nurses in 2009 was Visalia-Porterville, CA, which paid an average of $111,030 a year, according to the U.S. Bureau of Labor Statistics. National Pay. The average pay for labor and delivery nurses in the United States in 2009 was $66,530 a year, according to the U.S. Bureau of Labor Statistics. This is a 6.5 percent increase since 2007. | Nurses with 10 to 19 years of neonatal nursing experience earn high annual salaries, averaging between $80,901 and $104,313 per year. The most experienced neonatal nurse practitioners, 20 or more years of work experience, on average earn more than $111,000 per year. According to the Bureau of Labor Statistics, median salaries for registered nurses nationwide exceed $62,000 annually. Among the highest paid registered nurses are orthopedic nurse practitioners. These specialists average more than $81,000 annually, and it’s not uncommon for them to earn up to $94 | A newly practicing labour and delivery nurse can receive a starting yearly minimum salary of $45,000. As labour and delivery nurse gains more years experience the salary increases considerably. A Labour and Delivery Nurse practicing for 10-19 years can receive up to $120,000 salary including perk/benefits and bonuses. Average labour and delivery nurse salary. The median wage of Labour and Delivery Nurse in the United States is around $59,725 per annum. The hourly average of Labour and Delivery Nurse is from $20.21 to $39.07 while the average overtime is from $10.07 to $60.82. A Labour and Delivery Nurse in the US can earn a top yearly bonus of $2,031 |
is hezbollah a terrorist organization | Hezbollah. Hezbollah (“Party of G-d”) is a terrorist organization, based in Lebanon, whose goal is the destruction of Israel. In that pursuit it has attacked Israeli and Jewish targets worldwide. It is also responsible for infamous attacks against American military installations in Lebanon in the early 1980s. | Hezbollah was born during the First Lebanon War in 1982. It arose out of an anti-Israel Shia Muslim rebel movement, and was funded by Iran and trained by Iran’s Quds Force. Hezbollah has been based in Southern Lebanon since its creation and is now led by Hassan Nasrallah. | Hezbollah is a Shiite Muslim political party and militant group that the United States and European Union consider a terrorist organization. | Hezbollah, also known as 'The Party of God,' is a radical Shi’a Muslim group fighting against Israel and “western imperialism” in Lebanon. The group does not recognize the legitimacy of the State of Israel and it has labeled as a foreign terrorist organization (FTO) by the U.S. State Department since October 1997. | Hezbollah (“Party of G-d”) is a terrorist organization, based in Lebanon, whose goal is the destruction of Israel. In that pursuit it has attacked Israeli and Jewish targets worldwide. It is also responsible for infamous attacks against American military installations in Lebanon in the early 1980s. |
can i rollover an inherited annuity | You can roll over an inherited qualified annuity. This type of annuity resides in an individual retirement account or employer plan. A nonspouse beneficiary has limited options regarding how to roll over the annuity and when taxes are due. Inherited qualified annuities are taxable unless they reside in a Roth account. | Under the ruling, a beneficiary can perform a Section 1035 exchange on an inherited annuity, but the exchange must conform to all the other rules that apply to inherited annuities. Non-qualified annuities can’t be rolled over into an individual retirement account or other qualified annuity. | If you inherit a Roth annuity, you can roll it over into a Roth IRA or Roth beneficial IRA, depending on your relationship to the deceased. In either case, the distributions are tax-free. | A. You can roll over your IRA, 401(k), 403(b), or lump sum pension payment into an annuity tax-free. Annuities funded with an IRA or 401(k) rollover are qualified plans, enabling an insurance company to create an IRA annuity, into which you can deposit your retirement funds directly. | Spousal Inheritance. If you inherit a qualified annuity from your spouse, you can take direct ownership of it or roll it over into your own IRA. In either case, you can postpone taking money out until you reach age 70 1/2. You only shell out taxes on the inheritance when you withdraw it from the IRA. |
what is an OI | Osteogenesis imperfecta (OI), also known as brittle bone disease or Lobstein syndrome, is a congenital bone disorder characterized by brittle bones that are prone to fracture. People with OI are born with defective connective tissue, or without the ability to make it, usually because of a deficiency of type I collagen. Eight types of OI can be distinguished. Most cases are caused by mutations in the COL1A1 and COL1A2 genes. Diagnosis of OI is based on the clinical features and may be confirmed by collagen or DNA testing. There is no cure for OI. Treatment is aimed at increasing overall bone strength to prevent fracture and maintain mobility. | Type I OI is different from all other types of OI in an important way. Generally, people with Type I OI have normal type 1 collagen but approximately half the typical amount. People with Type II, Type III, or Type IV OI (the moderate to severe forms) have low levels of abnormal type 1 collagen. Type I is the mildest and most common form of OI. It is believed that 50 to 60 percent of people with OI have Type I. Type I OI can have the characteristics of an invisible disorder, meaning it is not apparent to a casual observer. | DefinitionOsteogenesis imperfecta (OI) is a genetic disorder characterized by bones that break easily, often from little or no apparent cause. A classification system of different types of OI is commonly used to help describe how severely a person with OI is affected. In dominant (classical) OI, a person has too little type I collagen or a poor quality of type I collagen due to a mutation in one of the type I collagen genes. Collagen is the major protein of the body’s connective tissue. It is part of the framework that bones are formed aroun | Osteogenesis imperfecta (OI) is a disease that causes weak bones that break easily. It is known as brittle bone disease. Sometimes the bones break for no known reason. OI can also cause many other problems such as weak muscles, brittle teeth, and hearing loss. About 20,000 to 50,000 people in the United States have OI. Genes are what make you look like your biological family. Each of the genes that cause OI plays a role in how the body makes collagen. Collagen is a material in bones that helps make them strong. When these genes aren’t working properly, there isn’t enough collagen, or the collagen doesn’t work properly. This leads to weak bones that break easily | Type II OI is the most severe form. Infants are quite small and are usually born with multiple fractures, an unusually soft skull and an unstable neck. Limbs may be disproportionately small and legs may fall into a frog-like position. The head may be large for the size of the body. Osteogenesis imperfecta (OI) is a genetic disorder. Most cases (90 percent) are caused by a faulty gene that reduces either the amount or the quality of type 1 collagen throughout the body. |
what meat is used for brisket | Consequently, a brisket can be a large cut of meat, between 3 and 8 pounds, and is rich in the connective tissue collagen. Fresh brisket is an inexpensive boneless cut that requires long, slow cooking to break down the collagen in the connective muscle tissues to achieve unctuous tenderness. | 5 After 3 hours, add the carrots. Cover the pot and cook for 1 hour more, or until the carrots are cooked through and the brisket is falling-apart tender. 6 When the brisket is falling-apart tender, take the pot out of the oven and remove the brisket to a cutting board. Cover it with foil. Move the onions and garlic to the sides of the pot and nestle the brisket inside. Add the beef stock and the tied-up herbs. Bring the stock to a boil. Cover the pot, place the pot in the 300°F oven and cook for 3 hours. | 3) 1 quart of beef broth or stock. 4) Foil and a couple towels. How to smoke a tender and juicy beef brisket Follow this step by step, how to video to smoke a tender and juicy beef brisket. This recipe takes a while but is worth the work when you taste the most tender beef brisket you've ever had. Low and slow is the way to go with brisket. I use a meat thermometer with a probe to measure internal temperature of the meat. When the brisket reaches 175 degrees, take it out of the smoker and make a pouch out of two large pieces of aluminum foil. I use two layers of foil to prevent leakage. Before you seal the brisket in the foil, pour a good amount, maybe 1 cup of beef broth into the pouch | Bake the Brisket. 1 Place a fat-trimmed 3- to 3-1/2-pound fresh beef brisket in a 13x9x2-inch baking pan. 2 Cover the pan with foil. 3 Bake in a 325 degrees F oven about 3 hours or until tender, turning once halfway through cooking time. 1 Cook and stir onions until they are tender but not brown. 2 Return brisket to the skillet. 3 Add one 28-ounce can crushed tomatoes, 1 cup lower-sodium beef broth, 1 tablespoon Worcestershire sauce, and 1 tablespoon crushed fines herbes. | 1 Place a fat-trimmed 3- to 3-1/2-pound fresh beef brisket in a 13x9x2-inch baking pan. 2 Pour the cooking liquid over the meat. 3 Cover the pan with foil. 4 Bake in a 325 degrees F oven about 3 hours or until tender, turning once halfway through cooking time. 1 Cook and stir onions until they are tender but not brown. 2 Return brisket to the skillet. 3 Add one 28-ounce can crushed tomatoes, 1 cup lower-sodium beef broth, 1 tablespoon Worcestershire sauce, and 1 tablespoon crushed fines herbes. |
what meat is used for brisket | Beef brisket, a cut of meat from the cow’s chest, is a popular choice for “low and slow” cooking methods like braising, roasting, and stewing. Cooking beef brisket this way makes an otherwise tough cut of meat tender and juicy; good brisket recipes will almost always have a long cook time. | Bake the Brisket. 1 Place a fat-trimmed 3- to 3-1/2-pound fresh beef brisket in a 13x9x2-inch baking pan. 2 Cover the pan with foil. 3 Bake in a 325 degrees F oven about 3 hours or until tender, turning once halfway through cooking time. 1 Cook and stir onions until they are tender but not brown. 2 Return brisket to the skillet. 3 Add one 28-ounce can crushed tomatoes, 1 cup lower-sodium beef broth, 1 tablespoon Worcestershire sauce, and 1 tablespoon crushed fines herbes. | Season the raw brisket on both sides with the rub. Place in a roasting pan and roast, uncovered, for 1 hour. Add beef stock and enough water to yield about 1/2 inch of liquid in the roasting pan. Lower oven to 300 degrees F, cover pan tightly and continue cooking for 3 hours, or until fork-tender. This is the best oven roasted brisket I have ever eaten and the first one I have ever cooked. I only used 1 Tbsp of salt, omitted the sugar and bay leaf, used chicken stock instead of beef, and added 1/2 cup of red wine when I added the stock. | Brisket is a cut of meat from the breast or lower chest of beef or veal. The beef brisket is one of the nine beef primal cuts, though the precise definition of the cut differs internationally. The brisket muscles include the superficial and deep pectorals. As cattle do not have collar bones, these muscles support about 60% of the body weight of standing/moving cattle. | Bake the Brisket. 1 Place a fat-trimmed 3- to 3-1/2-pound fresh beef brisket in a 13x9x2-inch baking pan. 2 Pour the cooking liquid over the meat. 3 Cover the pan with foil. 4 Bake in a 325 degrees F oven about 3 hours or until tender, turning once halfway through cooking time. 1 Cook and stir onions until they are tender but not brown. 2 Return brisket to the skillet. 3 Add one 28-ounce can crushed tomatoes, 1 cup lower-sodium beef broth, 1 tablespoon Worcestershire sauce, and 1 tablespoon crushed fines herbes. |
how to miter corners that are not square | There are a couple of different tools that you can use to miter corners and what you can use will depend on what you're cutting and how it needs to be cut. Basic, standard cuts can be done on simple materials using a miter box and a hand saw. More complex cuts will need a circular or table saw. If your mitered corner is at the standard 45 degree angle((360/2)/corners), then you'll need a gap at the end equal to the depth of the piece of wood. 1 If you're using a non-45 angle, you'll need to do some math. | 1 For many interior molding situations such as baseboard and crown, etc., you should not miter the inside corners. 2 It won't fit right and miters tend to separate in these situations. 3 For inside corners, you should learn a technique called coping.. 4 This is not difficult (do a search for instructions). If your mitered corner is at the standard 45 degree angle((360/2)/corners), then you'll need a gap at the end equal to the depth of the piece of wood. 1 If you're using a non-45 angle, you'll need to do some math. | (1) Cut a square-ended section on the miter saw and slide it into the corner. Cut the second piece at a 45-degree angle. Share. Tweet. Pin. E-mail. (2) Use a coping saw to cut away the back of the second piece of molding, so that it can conform to the profile of the square-ended piece. | Step 3: Cope the Molding. When coping the piece of molding so that it forms to the joint that you are forming, use a basic hand coping saw. Study the piece of wood, starting with each specific angle and wood grain style. You want to do this so that you can judge where you need to trim it with a copying saw. Take your time to form the cut to the shapes within the wood. Since the majority of corners in the houses of today are out-of-square, the best way to hang crown molding that has no cracks or gaps is to use a miter saw for the basic cuts. You can then form it with a hand held coping saw. What You'll Need. | 1 Nail the top piece of molding in place with a 45° angle cut. 2 Line up the side molding so it’s even with the frame and overlays the top molding. 3 Mark the inside and outside points on the side molding where it intersects the top miter joint. 4 Connect the two points with a straight line and make the cut along that line. Unfortunately not all such corners are exactly 90 degrees, so the miter joint has to be adapted to fit tightly. Here’s how to go about it: 1 Nail the top piece of molding in place with a 45° angle cut. 2 Line up the side molding so it’s even with the frame and overlays the top molding. 3 Mark the inside and outside points on the side molding where it intersects the top miter joint |
what does an abdominal strain feel like | With a grade two Abdominal muscle strain there is immediate pain which is more severe than the pain of a grade one injury. It is confirmed by pain on stretch and contraction of the muscle. A grade two Abdominal strain is usually sore to touch. With a grade one Abdominal muscle strain the signs of injury may not be present until after the activity is over. There may be a sensation of cramp or tightness and a slight feeling of pain when the muscles are stretched or contracted. | Know Your Abdominal Strain. An abdominal strain is an injury to the rectus abdominus, or front muscle of the abdomen, though injury can also occur to the obliques, or side muscles. An abdominal strain results in sudden pain. You will find it hard to bend or tighten the muscle | What does it mean when your stomach hurts and you feel dizzy for a while. Most like vasovagal attack secondary to the strong abdominal pain. Can persisent coughing strain chest and abdominal muscles and is it dangerous. It does strain the muscles. But it's not dangerous. Please click on Thanks if found useful. seem to have a muscle strain in the abdominal area mid left side ,I exercise regularly. gym four times a week. pain is bearable still working, but getting painful spasms from time to time. what ... | Definition. An abdominal muscle strain is a partial or full tear of the small muscle fibers in the abdomen. The abdominal muscles are grouped around the abdomen and trunk. They make up the core muscles in our body. | View image. An abdominal muscle strain is a stretch or tear of a muscle in your belly. A strain may also be called a pulled muscle. You may strain your muscles during an activity like lifting or twisting or even hard coughing or sneezing. Muscles can also get strained from overuse, like from doing lots of sit-ups or crunches. |
what is fava beans | Fava beans. Fava beans are a broad green legume that grow in long pods and are popular in many Mediterranean and Middle Eastern cuisines. Fava beans are almost always removed from the pods before preparing them, although it is possible to braise whole fava bean pods. Fava beans are used in a number of different recipes and can be prepared using a variety of cooking techniques. They are frequently braised and used in stews, and can also be sauteed, sautéed or marinated and served in. salads | Fava beans, also known as Vicia fabas, broad beans, field beans, bell beans, pigeon beans, windsor beans, horse beans or tic beans, are one of the oldest plants under cultivation, and they were eaten in ancient Greece and Rome. | Fava Beans. Fava beans are a favorite in Mediterranean countries and famously labor-intensive to prepare. These simple recipes maximize their unique flavor (and the work that goes into accessing it). | Vicia faba, also known as the broad bean, fava bean, faba bean, field bean, bell bean, or tic bean, is a species of flowering plant in the pea and bean family Fabaceae. It is native to North Africa southwest and south Asia, and extensively cultivated elsewhere. A variety Vicia faba var. The Greek word fava (fáva) φάβα does not refer to broad, beans but to the yellow split pea and also to the Legume lathyrus. Sativus broad beans are known instead as (Koukia: koukiá), greek κουκιά and are eaten in a stew combined, with artichokes while they are still fresh in. their pods | Fava beans are dense with vitamins and minerals. Fava beans are dense with nutrition. Also known as broad beans, fava beans have no saturated fat or cholesterol and contain a high concentration of thiamin, vitamin K, vitamin B-6, potassium, copper, selenium, zinc and magnesium. They are also an inexpensive source of lean protein. A cup of cooked fava beans contains 177 micrograms of folate, approximately 44 percent of the recommended daily allowance of folate for an adult man or woman. |
does having a tongue piercing can you kiss | Kissing with a tongue ring is an erotic, exciting experience for both parties. Even though your first thought may be to grab your girlfriend and let the extra sensitive kiss explode between the two of you, there is a waiting period you must observe to allow your tongue to fully heal. | So how long after a tongue piercing can you kiss? The tongue is the fasting healing part of the body, but it does not heal within hours, so take that into consideration. It may sound like a long time, but two months is the waiting period between the initial tongue piercing and the kissing action you're craving. | Best Answer: Your mouth is FULL of bacteria, and your boyfriend's mouth doesn't have more bacteria than your own already does, so you can kiss him whenever you feel like it. Kissing your boyfriend won't actually make it more likely to get infected. | The sensations of a piercing are one of the biggest reasons to get a piercing today, making the tongue a popular piercing option. Kissing with a piercing can cause different and pleasurable sensations for both people sharing a kiss. | Rinse with a warm salt water solution to make sure the tongue and barbell are clean of bacteria to speed up healing. Once the probation period is over, your tongue is ready for some action. Enjoy exploring the sensitivity that is amplified through a simple kiss. |
what is a calorifier | A calorifier is a heat exchanger which heats water indirectly by circulating is over a heating coil or multiple coils. The source of heat can be water or steam, heated by an external heat source, contained within a pipe immersed in the water. the two bodies of water or steam do not mix. The calorifier may be a continuous coil of pipe or a cylinder within a cylinder with an annular space between the two vessels. With the vertical hot water cylinder, the steam enters the coil though the top connection. the strainer or grit trap removes any solid matter suspended in the steam. | calorifier (kəˈlɒrɪˌfaɪə). 1 a water tank fitted with a coil, or coils, that can be heated in order to heat the water ⇒ ■ The pressurised water supply is cold only: a calorifier is available at extra cost. 1 Usage examples. 2 Trends. 3 | Generation of heat is commonly provided by an indirect heat source via a heat transfer coil or heat tube battery. Historically, Calorifiers have tended to be designed around the capacity of daily water demand, with a low heat input coil that would re-generate the hot water supply during non-peak usage periods. | Any equipment used to heat water in a tank, with the source of heat being a separate coil of immersed, heated pipes within the water in the tank. CALORIFIER: The calorifier failed to work properly.. | Rating Newest Oldest. Best Answer: Calorifier-An apparatus used for the transfer of heat to water in a vessel by indirect means, the source of heat being contained within a pipe or coil immersed in the water. -Typical existing building calorifier room-In the existing system, the calorifiers transfer heat from a circuit containing high temperature and pressure water generated by the boilers to a separate circuit that is run at a temperature and pressure that it is safe to distibute within the building concerned. |
what type of bond is hydrolyzed by amylase | Alpha amylase is an enzyme that breaks down long chain carbohydrates in the starch chain during digestion. Technically speaking, it hydrolyses alpha-bonds of large alpha-linke … d polysaccharides like starch and glycogen, producing glucose and maltose. The two main types of chemical bonds are the ionic bond and the covalent bond. Each is discussed here on WikiAnswers, and you'll find links below to the related question … s. | amylase has enzymes, but enzymes are not an organic compound. The four types of organic compounds would be lipids, nucleic acids carbohydrates and protein. Your body makes enz … ymes and amylase, and anything your body make is a protein. Therefore your answer is a protein. The two main types of chemical bonds are the ionic bond and the covalent bond. Each is discussed here on WikiAnswers, and you'll find links below to the related question … s. | Hannah RoyQian HeYanina GuevaraJon Stroman Amylase Amylase is a digestive enzyme that aids in the breakdown of carbohydrates by breaking the bonds between sugar molecules in polysaccharides through a hydrolysis reaction. | An amylase (/ˈaemɨleɪs/) ˈæmɨleɪs is an enzyme that catalyses the hydrolysis of starch into. Sugars amylase is present in the saliva of humans and some other, mammals where it begins the chemical process of. digestion As diastase, amylase was the first enzyme to be discovered and isolated (by Anselme Payen in 1833). Specific amylase proteins are designated by different Greek letters. All amylases are glycoside hydrolases and act on α-1,4- glycosidic bonds. | Types [edit]. Usually hydrolysis is a chemical process in which a molecule of water is added to a substance. Sometimes this addition causes both substance and water molecule to split into two parts. In such reactions, one fragment of the target molecule (or parent molecule) gains a hydrogen ion. When a carbohydrate is broken into its component sugar molecules by hydrolysis (e.g. sucrose being broken down into glucose and fructose), this is termed saccharification. Generally, hydrolysis or saccharification is a step in the degradation of |
dose of diazepam for muscle spasms | The recommended diazepam dose for anxiety treatment is diazepam 2 mg to 10 mg two to four times daily, depending on the severity of your symptoms. Diazepam Dosing for Muscle Spasms. The recommended dose of diazepam for treating muscle spasms is diazepam 2 mg to 10 mg three or four times daily. Diazepam Dosing for Seizures. The recommended diazepam dose for controlling seizures is diazepam 2 mg to 10 mg two to four times daily. Diazepam is intended to be used along with other seizure medications. | 1 A typical adult dose of Valium to treat muscle spasms may range from 2 to 10 mg three to four times a day. 2 A typical adult dose of Valium to treat seizures may range from 2 to 10 mg two to four times a day. Valium belongs to a class of drugs called benzodiazepines, which work by increasing the effects of GABA, a neurotransmitter that moderates the activity of nerve signals in the brain. The Food and Drug Administration (FDA) approved diazepam in 1963 under the brand name Valium for the Roche drug company. | For the symptomatic relief in anxiety disorders, the typical adult dose is 2 mg to 10 mg two to four times daily. The instructions for taking diazepam as an adjunctive treatment for muscle spasm are 2 mg to 10 mg three to four times daily. Valium belongs to a class of drugs called benzodiazepines, which work by increasing the effects of GABA, a neurotransmitter that moderates the activity of nerve signals in the brain. The Food and Drug Administration (FDA) approved diazepam in 1963 under the brand name Valium for the Roche drug company. | 1 A typical adult dose of Valium to treat alcohol withdrawal may be 10 mg three to four times a day for 24 hours followed by 5 mg taken three to four times a day as needed. 2 A typical adult dose of Valium to treat muscle spasms may range from 2 to 10 mg three to four times a day. Valium belongs to a class of drugs called benzodiazepines, which work by increasing the effects of GABA, a neurotransmitter that moderates the activity of nerve signals in the brain. The Food and Drug Administration (FDA) approved diazepam in 1963 under the brand name Valium for the Roche drug company. | Depending upon severity of symptoms—2 mg to 10 mg, 2 to 4 times daily. Symptomatic Relief in Acute Alcohol Withdrawal. 10 mg, 3 or 4 times during the first 24 hours, reducing to 5 mg, 3 or 4 times daily as needed. Adjunctively for Relief of Skeletal Muscle Spasm. INDICATIONS. Valium is indicated for the management of anxiety disorders or for the short-term relief of the symptoms of anxiety. Anxiety or tension associated with the stress of everyday life usually does not require treatment with an anxiolytic. |
what is posterior leg | The posterior compartment of the leg is one of the fascial compartments of the leg and is divided further into deep and superficial compartments. | The superficial muscles form the characteristic ‘calf’ shape of the posterior leg. They all insert into the calcaneus of the foot (the heel bone), via the calcaneal tendon. The calcaneal reflex tests spinal roots S1-S2. Fig 1.1 – Muscles in the deep layer of the posterior leg. The popliteus is located superiorly in the leg. It lies behind the knee joint, forming the base of the popliteal fossa. There is a bursa (fluid filled sac) that lies between the popliteal tendon and the posterior surface of the knee joint. | 1 In the lower part of the leg, the muscle belly combines with the soleus to from the calcaneal tendon, with inserts onto the calcaneus (the heel bone). 2 Actions: It plantarflexes at the ankle joint, and because it crosses the knee, it is a flexor there. 3 Innervation: Tibial nerve. Fig 1.1 – Muscles in the deep layer of the posterior leg. The popliteus is located superiorly in the leg. It lies behind the knee joint, forming the base of the popliteal fossa. There is a bursa (fluid filled sac) that lies between the popliteal tendon and the posterior surface of the knee joint. | Now, before I go into details on each single muscle of the posterior leg, I want to divide them into groups, into layers, better said. Now, there is one superficial layer which consists of two main muscles: the triceps surae and the plantaris muscle. Now, if we’re looking at the different functions of the flexor hallucis longus, like all deep posterior muscles, it is… of the leg, it is involved in plantar flexion of the upper ankle joint and also supination or inversion of the lower ankle joint, seen here indicated by this arrow as well. | Anatomy. The posterior tibial tendon is one of the most important tendons of the leg. A tendon attaches muscles to bones, and the posterior tibial tendon attaches the calf muscle to the bones on the inside of the foot. The main function of the tendon is to hold up the arch and support the foot when walking. The posterior tibial tendon attaches the calf muscle to the bones on the inside of the foot. |
rabies shot for puppies what age | These are usually given as a combination vaccine (gives protection against several different diseases) and your pup should have three sets of this combination vaccination, given at 3 week intervals. The Rabies shot is usually give at around 14 - 16 weeks of age. Puppies are extremely susceptible to many serious, contagious dog illnesses while unvaccinated. Several of these can kill a pup very quickly. It is also illegal to have a dog who isn't vaccinated against Rabies. | 12 weeks of age: Administer the third combination injection and possibly a lyme vaccine inoculation. Generally a lyme vaccine is repeated two weeks later, then once a year. 16 weeks of age: Adminster the last combination vaccine. 12 to 16 weeks of age: Adminster rabies vaccine. The timing of this vaccine may depend on the laws in your area (since this can be a human disease, too). Confirm with your veterinarian and check your local and state laws | I asked Dr. Dodds to first explain what California Assembly Bill AB 272 is all about. She responded that the bill was proposed by public health officials in Los Angeles County to lower the rabies vaccine age requirement for puppies in the state of California from 16 weeks to 12 weeks. | Refer to these quick lists for the timing in your state for puppy rabies vaccinations. Answer: These twelve states have three-month laws/regulations: Alabama, Arizona, Connecticut, Idaho, Indiana, Louisiana, Mississippi, Nevada, New Hampshire, New Mexico, Oregon, Pennsylvania. Another 13 states refer to the Rabies Compendium: Alaska, Colorado, Georgia, Minnesota, Montana, Nebraska, New Jersey, North Dakota, Rhode Island, South Carolina, South Dakota, Washington State, Wyoming. | Primary vaccination age* 3 months or older. Booster vaccination every 3 years. Route of administration intramuscularly or subcutaneously. * Primary vaccination may be administered at an earlier age (minimum in dogs and cats of 4 weeks of age), but then a repeat vaccination must be given at the age of 3 months. Can be used during pregnancy in dogs. |
average cost of solar system in california | You’d have to get a quote and check. ). As you can see in the infographic, according to this research, it cost about $10,000 on average for a homeowner to go solar in California in 2011, while at the same time it cost about $25,000 on average for a homeowner to go solar in Florida, the Sunshine State! | For example, using the Clean Power Estimator, a south-facing three-kilowatt system installed at a 30-degree angle on a single-family home with a utility bill of $180 per month in San Francisco would cost a customer an estimated $19,282 with a payback period of 12 years. Depending on your pre-installation electricity usage, you can expect rates of return between 9% and 14% on your PV installation. Please see Calculators to estimate the full cost of your solar system. | The cost of a PV system depends on the system size, equipment options (panels and inverters), permitting costs, and labor costs. Prices vary depending on other factors as well, such as whether your home is new, where the system is installed on your premise, the PV manufacturer, and other factors. Depending on your pre-installation electricity usage, you can expect rates of return between 9% and 14% on your PV installation. Please see Calculators to estimate the full cost of your solar system. | System Costs. As mentioned in the introduction, residential solar systems are typically sized from 3 to 8kW and end up costing somewhere between $15,000 and $40,000. In this section, we will look at the costs of the various components of a solar system (not installation or operational costs). Year-over-year, the national average PV installed system price declined by 9% to $2.73/watt in Q2 2014. The average price of a residential PV installation in Q2 2014 was $3.92/watt, 41% lower than 2010. Since the second quarter of 2010, the average price of a solar panel has declined by 64%. | For example, the total average cost of an installed residential PV system under the California Solar Initiative is $8.70 per Watt (including installation, as of January 2011). Depending on your pre-installation electricity usage, you can expect rates of return between 9% and 14% on your PV installation. Please see Calculators to estimate the full cost of your solar system. |
what does the ear do | Home. The Ear. The Outer or External Ear The external ear consist of two portions, the first being the pinna, the skin covered flabby cartilage of the ear visible on both sides of the head. The basic function of the outer ear or pinna is to protect the eardrum (tympanic membrane). Hearing The most basic function of the ear is hearing. The following is the short description of the hearing process: The first step is when the pinna collects external sounds that enter through the meatus or ear canal as sound waves. The ear drum begins to vibrate as these sound waves strikes. | The ear canal directs sounds from the external ear, which is designed to capture sounds, to the more sensitive eardrum and inner ear (which are somewhat better protected). Wa … x in the ear canal keeps dust and small animals away from the eardrum. The ear canal is the passage or channel connecting the outer ear to the eardrum. The ear canal directs sounds to the more sensitive eardrum and inner ear, which are better p … rotected within the skull. The interior is coated with a waxy substance called cerumen, which traps dust, small insects, and other contaminants | It travels through the outer ear canal, vibrates the ear drum in the outer ear. Then, in the middle ear it transfers the sound waves through the auditory ossicles. They transm … it the sound vibrations to the oval window which then transmits the sound waves to the endolymph fluid inside the cochlea. The cochlea is directly responsible for hearing and contains nerves responsible for converting energy vibrations within the inner ear fluid into nerve impulses which can be transmitted to the brain. While the vestibule (labyrinth) and semicircular canals function to maintain balance or equilibrium. | It is positioned between the ear canal and the middle ear. The middle ear is connected to the throat via the eustachian tube. Since air from the atmosphere flows in from your outer ear as well as your mouth, the air pressure on both sides of the eardrum remains equal. Once the sound waves travel into the ear canal, they vibrate the tympanic membrane, commonly called the eardrum. The eardrum is a thin, cone-shaped piece of skin, about 10 millimeters (0.4 inches) wide. | The Middle Ear is the portion of the ear internal to the eardrum, and external to the oval window of the inner ear. Also mammalian middle ear contains three ossicles, which transfers the vibrations of the eardrum into waves in the fluid and membranes of the inner ear. |
how long should i cook my pork shoulder for carnitas in the oven | Pork shoulder is best when it's cooked long and slow. Roast uncovered in the oven for about 1 hour per pound of meat. You may reduce the heat as needed if the pork appears to be cooking too quickly-many recipes call for 325 degrees Fahrenheit (163 degrees Celsius) rather than 350 (177 C). | 1 Turn the heat up to medium high, and continue to cook the pork for 45 minutes, uncovered, stirring every once in a while, until all the liquid has evaporated and the pork fat as been rendered. 2 Parts of the pork should be caramelized and golden brown. 3 Remove the dutch oven from the stove and adjust seasoning as needed. | Place the pork in a slow cooker and top with the onion, garlic, and jalapeno. Squeeze over the juice of the orange and add the two halves. Cover and cook on low for 8 to 10 hours or on high 4 hours. Once the meat is tender, remove from slow cooker and let cool slightly before pulling apart with a fork. In a large saute pan, heat the vegetable oil over high heat. Press the carnitas into the oil and fry until crusty on one side. Serve. | 1 In a large, heavy saucepan over medium-high heat, combine pork, broth, and salsa. Add enough water to completely cover the meat. Cover and bring to a boil. Reduce heat to low and simmer, covered for 3 to 4 hours (or longer) until meat pulls apart easily. | 1 As a general rule, when pork shoulder is done, the skin should be crispy, the meat should reach an internal temperature of 160-185 degrees (70-85 degrees Celsius), and any bone in the meat should wiggle easily when grabbed and shaken. |
the segment of dna that controls production of a protein is called | A segment of DNA on a chromosome that controls the production of a protein is called a gene. Chromosome a cellular structure that contains DNA. Edit. Share to: Answered. In Genetics. 1 A Brief Look at the Role Production Control Plays in a Business In the days where most manufactured products were made by hand, the workers involved in the manufacturing process often shared production control responsibilities. | The blocking of RNA polymerase consequently stops the transcription of the genes in the operon. The process by which a repressor inhibits transcription is called repression. Transcription of the structural genes is ultimately controlled by a regulator gene, which codes for the production of the repressor protein. The blockage of transcription by the action of a repressor protein is called repression. A regulator gene controls the expression of a particular gene by coding for a repressor protein. An inducer is a molecule that initiates gene expression. | The RNA then contains the information from the DNA to manufacture a protein, a process called translation. Some proteins are structural, but some are control proteins called enzymes. These enzymes are employed in the production of proteins, even copies of themselves, so enzymes are used to make other enzymes. Each protein, including enzymes, is made according to a pattern of nucleotides along a segment of the DNA called a gene . A single living cell contains thousands of enzymes. | Deoxyribonucleic acid (DNA) in a living cell contains the master blueprint for the production of proteins and for the replication of itself. It is the repository for the hereditary information. DNA accomplishes protein production by first providing a pattern for the production of mRNA, a process called transcription. Each protein, including enzymes, is made according to a pattern of nucleotides along a segment of the DNA called a gene . A single living cell contains thousands of enzymes. | A segment of DNA on a chromosome that controls the production of a protein is called a gene. Chromosome a cellular structure that contains DNA. |
what temperature should a coffee be | Before we get around to drinking coffee, however, we must first understand the proper temperature that coffee should be brewed at. Brew Coffee Between 195 and 205°F. While coffee may be consumed at a broad range of temperatures, the range for brewing it is relatively narrow. The coffee grounds should be at room temperature, and the water should be between 195 and 205°F. When the water is above 205°F, it can scald the grounds and create a burnt taste. When it’s below 195°F, the brewed coffee will be under-extracted. | One approach to the serving temperature of coffee could go like this: For your regular cup of coffee, go for 175ºF, but if you buy some really good coffee beans and want to really taste the coffee and discover all of its flavor notes and qualities, serve it at 150ºF or lower. George Howell of George Howell Coffee, who has been sourcing and tasting specialty coffee since the 1970s, likes to drink his coffee at a temperature closer to 130ºF. To you and me that would feel like tepid coffee. | If coffee is brewed for too long it will taste bitter. The best level of extraction of coffee is 20% of the solids in the grind. This is achieved by keeping the brew water temperature between 88°C and 93°C. If the temperature of the water is too low, underextraction will occur and the coffee will be too weak. Underextraction will cause the coffee to have a sour flavor, since the acids from the beans are the first substances to dissolve. If the brew water temperature is too high then over extraction will occur and the coffee will taste bitter. Increasing the amount of coffee used can decrease over extraction of coffee. The entire brewing process should about four to six minutes. | The ideal temperature for brewing coffee is 200 Degrees Fahrenheit. That said, don't get overly concerned about hitting the exact right temperature. Drip brewers have their own thermostats, and some even offer you a choice of more than one brewing temperature. Almost all coffee is brewed with the water tmperature way too hot-at the 200 degree myth! This brings out way too much bitterness and destroys the taste of most coffee. For pour over the perfect temperature is between 170-180 (max!). | The coffee in a Bunn is brewed at a slightly hotter temperature than that which is in the pot. The thermostat is on the water tank and the water cools to the desired drinking temperature during the brewing process. These machines do not have a vacation setting, and are designed for daily use. Almost all coffee is brewed with the water tmperature way too hot-at the 200 degree myth! This brings out way too much bitterness and destroys the taste of most coffee. For pour over the perfect temperature is between 170-180 (max!). |
what temperature should a coffee be | Though coffee's best brewed at just under boiling temperatures, in about a temperature range from 195 to 205°F, drinking that hot it is another story completely. | The ideal temperature for brewing coffee is 200 Degrees Fahrenheit. That said, don't get overly concerned about hitting the exact right temperature. Drip brewers have their own thermostats, and some even offer you a choice of more than one brewing temperature. Almost all coffee is brewed with the water tmperature way too hot-at the 200 degree myth! This brings out way too much bitterness and destroys the taste of most coffee. For pour over the perfect temperature is between 170-180 (max!). | One approach to the serving temperature of coffee could go like this: For your regular cup of coffee, go for 175ºF, but if you buy some really good coffee beans and want to really taste the coffee and discover all of its flavor notes and qualities, serve it at 150ºF or lower. George Howell of George Howell Coffee, who has been sourcing and tasting specialty coffee since the 1970s, likes to drink his coffee at a temperature closer to 130ºF. To you and me that would feel like tepid coffee. | Water Temperature. The brewing temperature of the water used is very important. It should be between 195 F (91 C) and 205 F (96 C). The closer to 205 F (96 C) the better. Boiling water (212 F - 100 C) should never be used, as it will burn the coffee. Water that is less than 195 F (91 C) will not extract properly | If coffee is brewed for too long it will taste bitter. The best level of extraction of coffee is 20% of the solids in the grind. This is achieved by keeping the brew water temperature between 88°C and 93°C. If the temperature of the water is too low, underextraction will occur and the coffee will be too weak. Underextraction will cause the coffee to have a sour flavor, since the acids from the beans are the first substances to dissolve. If the brew water temperature is too high then over extraction will occur and the coffee will taste bitter. Increasing the amount of coffee used can decrease over extraction of coffee. The entire brewing process should about four to six minutes. |
honda civic struts replacement cost | How much does a replacement Honda Civic shock absorber and strut assembly cost? Answer: The prices of replacement shock absorber and strut assemblies for Honda Civics vary depending on their type finish or color and design. For instance, based on design, twin-tube assemblies normally cost about 17 to as much as 545 USD, while monotubes cost around 24 to 110 USD. | Published on Sep 6, 2012. How to install Front Struts on a 2003-2005 Honda Civic. Use the promo code civicvideo at APXautoparts.com for a discount on your order of SENSEN Shocks and Struts. Link to Rear installation video: http://youtu.be/MvBCdjztLjA. http://apxautoparts.com/shocks-struts... http://apxautoparts.com/shocks-struts... 1 Autos & Vehicles. Published on Sep 6, 2012. How to install Front Struts on a 2003-2005 Honda Civic. Use the promo code civicvideo at APXautoparts.com for a discount on your order of SENSEN Shocks and Struts. Link to Rear installation video: http://youtu.be/MvBCdjztLjA. http://apxautoparts.com/shocks-struts... http://apxautoparts.com/shocks-struts... 1 Autos & .... | Labor-Replace The Honda Civic Struts. Elevate and secure the vehicle. Remove wheel. Remove strut assembly. Install new strut and bearing in strut assembly. Install strut assembly in steering knuckle and strut tower with new bolts, washer(s), and grommet(s). Replace wheel and verify proper operation with road test. 2.3 hours. | Answers. Best Answer: 65k is very premature for a strut on a honda. As a rule, the front strut replacement with a four wheel alignment will run about $300 using non-Honda parts or about $400-$450 for the OEM replacement. The front struts should last to at least 100k-125k, so the question is why you're replacing them | Parts: $155 - $304. The average cost for a strut/shock absorber replacement-front is between $315 to $507. Labor costs are estimated between $160 to $203 while parts are priced between $155 to $304. Get a personalized estimate based on your location and specific car |
what is a krais | Krai or kray (Russian: край) was a type of an administrative division in the Russian Empire and the Russian SFSR, and is one of the types of the federal subjects of modern Russia. Etymologically, the word is related to the verb кроить (kroit'), i.e., to cut. Historically, krais were vast territories located along the periphery of Russia, since the word krai also means border or edge, i.e., a place of the cut-off. | About us. KRAIS Tube Expanders is a company with over 20 years of experience in designing, manufacturing and delivering top quality tube tools. Learn more about us! We offer a precisely engineered range of tube removal tools. They have been designed for cutting and removing full range of tubes that are commonly found in heat exchangers, boilers and condensers. | The krai was subsequently divided into Altai Krai and Novosibirsk Oblast. Krais in the Kazakh SSR (1960–65). The krais in the Kazakh SSR between 1960 and 1965 are given below. Southern Kazakhstan Krai (Chimkent) existed from May 3, 1962, to Dec. 1, 1964, and consisted of Dzhambul, Kzyl-Orda, and Chimkent oblasts. The Oirot AO was part of the krai. It was subsequently divided into Eastern Siberia and Western Siberia krais. Stalingrad Krai, which existed from Jan. 10, 1934, to Dec. 5, 1936, was formed from part of Lower Volga Krai. The Kalmyk AO, which became an ASSR on Oct. 20, 1935, | Originally, a krai was a territory located on the borders of a state’s possessions; an outlying district. Later, the term referred to a region that covered a considerable area, either geographical (such as Meshchera Krai, Turukhan Krai, and Ussuri Krai) or historical (such as Zamoskovnyi Krai and Novorossiia Krai). The Oirot AO was part of the krai. It was subsequently divided into Eastern Siberia and Western Siberia krais. Stalingrad Krai, which existed from Jan. 10, 1934, to Dec. 5, 1936, was formed from part of Lower Volga Krai. The Kalmyk AO, which became an ASSR on Oct. 20, 1935, | KRAIS Tube Expanders is a company with over 20 years of experience in delivering top quality tube expanders and wide range of other tube accessories. We constantly learn new ways to deliver the best designed and manufactured tools to our clients all over the word. We always look for opportunity to make our products better and better, so we are constantly searching a new ways to improve and develop our products. KRAIS Tube Expanders company still grows. We always look for a new opportunity to develop. Our machinery and production line is one of the biggest and most modern in the region. We closely work with various courier services to be sure, that our clients get their tools on time |
what symptoms of diabetes | Individuals can experience different signs and symptoms of diabetes, and sometimes there may be no signs. Some of the signs commonly experienced include: 1 Frequent urination. 2 Excessive thirst. 3 Increased hunger. 4 Weight loss. 5 Tiredness. 6 Lack of interest and concentration. 7 A tingling sensation or numbness in the hands or feet. | Not every case of type 2 diabetes presents with the obvious symptoms—unquenchable thirst, nonstop bathroom trips, and numbness in your hands or feet. Look out for these other subtle signs that something may be amiss with your blood sugar: 1. You've noticed unpleasant skin changes. | The following symptoms of diabetes are typical. However, some people with type 2 diabetes have symptoms so mild that they go unnoticed. Common symptoms of diabetes: 1 Urinating often. 2 Feeling very thirsty. 3 Feeling very hungry-even though you are eating. 4 Extreme fatigue. 5 Blurry vision. 6 Cuts/bruises that are slow to heal. 7 Weight loss-even though you are eating more (type 1). 8 Tingling, pain, or numbness in the hands/feet (type 2). | When type 2 diabetes does cause symptoms these can include: 1 Excessive thirst. 2 Increased urination (sometimes as often as every hour), especially at night. 3 Unexpected weight loss or gain. 4 Fatigue or extreme tiredness. 5 Blurred vision. 6 In women, frequent vaginal infections. 7 In men and women, yeast infections (thrush). 8 Dry mouth. Common symptoms of type 1 diabetes include: 1 Excessive thirst. 2 Increased urination (sometimes as often as every hour). 3 Unexpected weight loss. 4 Fatigue or tiredness. 5 Nausea, perhaps vomiting. 6 Blurred vision. 7 In women, frequent vaginal infections. 8 In men and women, yeast infections (thrush). 9 | 5. The most common symptoms are related to hyperglycemia (high blood sugar levels), especially the classic symptoms of diabetes: frequent urination and thirst. Fatigue related to dehydration and eating problems can also be related to high blood sugars. 5,6. It is possible to have diabetes with only very mild symptoms or without developing any symptoms at all. Such cases can leave some people with diabetes unaware of the condition and undiagnosed. This happens in around half of people with type 2 diabetes.1,2. |
abiogenesis is the scientific name for | It was once believed that life could come from nonliving things, such as mice from corn, flies from bovine manure, maggots from rotting meat, and fish from the mud of previously dry lakes. Spontaneous generation is the incorrect hypothesis that nonliving things are capable of producing life. | The experimental study of the origin of life kick-started with Miller s prebiotic soup experiment (Miller 1953, Miller-Urey experiment) which produced amino acids, essential to life. | Abiogenesis means ‘no biologic origin’, in simple parlance, life from non-life … and thus we’re back to spontaneous generation, but in new guise … given the right conditions and precursors, life will arise spontaneously. And this despite attempts by advocates to differentiate between the terms. | Louis Pasteur is one of the greatest names in the history of science and medicine, chiefly because of his establishment of the germ theory of disease and his conclusive demolition of the then-prevalent evolutionary concept of spontaneous generation. | Early views on spontaneous generation. The first western thinker to suggest that life arose spontaneously was probably Anaximander, a Milesian philosopher (in what is now Turkey) who wrote in the 6th and 5th centuries before Christ (611-547 BCE). |
what is fuse esb enterprise | JBoss Fuse is a an open source Enterprise Service Bus (ESB) with an elastic footprint As a fully featured Enterprise Service Bus (ESB) JBoss Fuse provides a platform that can be used to allow disparate enterprise components to work together. JBoss Fuse vs. Fuse Service Works These differences largely consist of the tools that provide the runtime container, clustering approaches and monitoring capabilities. | Apache ServiceMix is an enterprise-class open-source distributed enterprise service bus (ESB) based on the service-oriented architecture (SOA) model. The software is distributed under the Apache License. The productized and supported release of ServiceMix 4 is from JBoss and called Fuse ESB. Fabric8 is a free Apache 2.0 Licensed upstream community for the JBoss Fuse product from Red Hat. | Now, Red Hat has announced their plans for making that prediction a reality. Steve Craggs Analyst and founder, Lustratus Research. The first phase, which has already started, entails FuseSource enterprise products Fuse ESB Enterprise and Fuse MQ Enterprise joining the existing JBoss enterprise integration products. The second phase for Red Hat has two parts. The first is to rebrand the FuseSource enterprise offerings into the JBoss product portfolio. The second part is to bolster the existing flagship JBoss SOA Platform with new FuseSource products, technologies and tooling. | Red Hat JBoss Fuse is a robust, flexible, and easy-to-use platform to integrate applications, data, services, and devices. The integration platform uses popular open source technologies to provide transformation, routing, and protocol-matching services. The information powering your business is spread across disparate applications and systems. You need an effective, cost-efficient way to integrate applications, data, and devices within your enterprise. Red Hat ® JBoss ® Fuse is a lightweight, flexible enterprise service bus (ESB) that enables rapid integration across the extended enterprise—on premise or in the cloud | The key advantage of an ESB is that it allows different applications to communicate with each other by acting as a transit system for carrying data between applications within your enterprise or across the Internet. There are two editions of Mule ESB: Community and Enterprise. Mule ESB Enterprise is the enterprise-class version of Mule ESB, with additional features and capabilities that are ideal for production deployments of Mule that have requirements for performance, HA, resiliency, or technical support. |
brick cost | The Costs. 1 The average cost per square foot of thin brick pavers is about $11.75. 2 At most, homeowners should expect to pay around $14.65 per square foot of thin brick pavers. 3 The minimum cost for a square foot of brick pavers is about $9.10. 1 The average cost per square foot of thin brick pavers is about $11.75. 2 At most, homeowners should expect to pay around $14.65 per square foot of thin brick pavers. | Cost of Materials. The cost of adding a new wall to a home depends on the material used. Brick walls are often an affordable option, and a hollow brick wall costs around $25.40 per square foot. Hollow bricks feature a unique design with a durable shell and a hollow space in the center of each brick. Traditional brick walls cost around $14.10 per square foot. | Pavers will come in at a similar cost to brick and natural flagstone will be more expensive. Low End-simple running bond pattern (approximately $12 per square foot). High End-intricate pattern requiring many cuts (approximately $22 per square foot). National Price Ranges for Brick. In the case of a brick patio the materials you will need include bricks, edging, gravel and sand (or concrete and mortar). Concerning labor, these costs can vary widely depending on the difficulty of the installation. When compared with other paving materials, brick is a mid-range option. | Brick Veneer Cost Per Square Foot. A closure brick veneer (3 5/8″x3 5/8″x7 5/8″) as of 2009-10, costs around $15.18, at the most, with the lower end around $5. This is for a professional installation of the brick veneer. The lower end of the spectrum will be for the less durable and low quality brick veneer. | Furthermore, their face dimensions make them cost-efficient. Compared with standard size brick, Acme King Size brick can lower total brick wall cost by 25% or more. King Size Brick are 9 5/8. L x 2 5/8 H x 2 3/4 thru the wall, for a nominal face dimenion of 10 x 3 with a standard 3/8 mortar joint. They conform to ASTM C652 and are made at most Acme Brick plants. Use of Acme King Size Brick results in lower labor cost, lower mortar cost, and faster construction time. |
what is iron serum | Serum iron is a medical laboratory test that measures the amount of circulating iron that is bound to transferrin. Clinicians order this laboratory test when they are concerned about iron deficiency, which can cause anemia and other problems. None of this iron is directly accessible by testing the serum. However, some iron is circulating in the serum. Transferrin is a molecule produced by the liver that binds one or two iron(III) ions, i.e. ferric iron, Fe3+; transferrin is essential if stored iron is to be moved and used. | Healthy or normal serum iron values depend on your gender. Normal serum levels for men range from 76 to 198 micrograms of iron per deciliter. Normal levels for women are a little lower and range from 26 to 170 micrograms of iron per deciliter. Too Much Iron. Too much iron in your bloodstream or other parts of your body can lead to toxicity and even death. An iron serum level of 170 micrograms per deciliter is the upper limit of normal for women, whereas just under 200 micrograms per deciliter is the healthy limit for most men. | The serum iron test measures the amount of iron that is in transit in the body – the iron that is bound to transferrin. The amount of iron present in the blood will vary throughout the day and from day to day. Iron is an essential trace element and nutrient that is necessary to maintain life. The serum iron test measures the amount of iron in the liquid portion of blood. Iron is absorbed from food and transported throughout the body by transferrin, a protein produced by the liver. | Iron makes blood cells red. Iron is one of the most abundant metals on the planet and important for many physiological functions in your body. For example, iron is an essential part of hemoglobin -- the protein in blood that carries oxygen to all your cells. Too Much Iron. Too much iron in your bloodstream or other parts of your body can lead to toxicity and even death. An iron serum level of 170 micrograms per deciliter is the upper limit of normal for women, whereas just under 200 micrograms per deciliter is the healthy limit for most men. | A ferritin blood test checks the amount of ferritin in the blood. Ferritin is a protein in the body that binds to iron; most of the iron stored in the body is bound to ferritin. Ferritin is found in the liver, spleen, skeletal muscles, and bone marrow. Only a small amount of ferritin is found in the blood. |
what is the average lifespan of a cell phone battery | Average. The average life span of a cell phone battery is from 400 to 500 charge cycles. That means the average battery lasts from one to two years. A decrease in the duration of the battery's lifespan between charge cycles indicates that the battery should be replaced. Lithium ion batteries usually maintain their full capacity for most of their lifetimes, and then die suddenly. You can maximize your cell phone's battery by limiting your number of charges. Charging a phone when it is at half power, as opposed to a phone with depleted power, trains a battery to hold only half of a charge. | 1 The average life span of a cell phone is just 18 months. 2 The average American cell phone user owns three or more cellular phones. 3 Up to 75% of obsolete phones are stockpiled in drawers, including the battery and the charger [8]. 1 There are more than 4 billion mobile phone users worldwide [2]. 2 Around the world, mobile phone sales have increased from more than 100 million units per year in 1997 to an estimated 779 million units per year in 2005 [3]. 3 Less than 1 percent of the millions of cell phones retired and discarded annually are recycled [4]. | If your question is how long does the average user actually *hold on* to their cell phone, I'd guess 18 months. I don't see many people I know using any particular phone much more than 18 months. People don't perceive cell phones as an accessory they expect to keep for great lengths of time. If the scope of your question is how long *can and should* a cell phone last, the answer -- with proper care -- is probably somewhere between 3 and 10 years. A lot would depend on the manufacturer and the model of the phone and your luck in not dropping it on the floor or letting it fall into water | 1 Every year, over 100 million cell phones are made obsolete. 2 The average life span of a cell phone is just 18 months. 3 The average American cell phone user owns three or more cellular phones. 4 Up to 75% of obsolete phones are stockpiled in drawers, including the battery and the charger [8]. 1 There are more than 4 billion mobile phone users worldwide [2]. 2 Around the world, mobile phone sales have increased from more than 100 million units per year in 1997 to an estimated 779 million units per year in 2005 [3]. 3 Less than 1 percent of the millions of cell phones retired and discarded annually are recycled [4]. | Newer cell phone batteries have a longer life expectancy than older phones. You ask your cell phone company if they sell replacement batteries-most would rather sell you a new phone. The best bet for a replacement battery is Radio Shack although they will almost certainly won't have one in stock and will have to special order it for you. monophoto · 7 years ago. Thumbs up |
what is IFSC code | find ifsc code micr code using the lists below first select your bank from the following drop down list then select your state now select your district and finally select the branch of your bank to find ifsc code sponsored links if you need to change any search list term please use brown colored up arrow icons ifsc indian financial system code is a 11 digit code provided by rbi reserve bank of india for identifying individual bank branch in india this code is used by rtgs and neft the code is of 11 characters the first part is the first 4 alphabet characters representing the bank | ifsc code vs swift code swift code and ifsc code are identification codes for the purpose of electronic money transfer between financial institutions mainly banks one has to mention these codes when transferring money from one bank to another | for icici bank ifsc code you can go through icici bank ifsc code micr code addresses in india bankbazaar here ifsc code of icici bank s branches in india are available it is used in online fund transaction you can also get the addresses and contact details as well for icici bank ifsc code you can go through banks ifsc code search here ifsc code of icici bank s branches in india are available it is very easy and intuitive to locate the ifsc code of any bank branch across india it is used in online fund transaction such as micr and neft | ifsc or indian financial system code is an alpha numeric code that uniquely identifies a bank branch participating in the neft system this is an 11 digit code with the first 4 alpha characters representing the bank and the last 6 characters representing the branch the 5th character is 0 zero the ifsc code is 11 digit alpha numeric number and the first four characters uniquely identify the bank and the next four characters are control characters and the last three digit number uniquely identify the bank branch ifsc code for every branch of the banks is unique | icici bank ifsc code icici bank ifsc code is primarily used for both neft as well as rtgs fund transfer systems the ifsc code for icici bank is provided by the reserve bank of india along with the other essential codes like neft rtgs and micr these codes are unique for every icici bank branch and are subject to change for security reasons |
do boutonnieres go in the fridge | When you are making the boutonnieres yourself and want to make them some time in advance, it might be worth it to make a test boutonniere a few weeks ahead of time and see how long it lasts. That will give you a good idea of how long the flowers you are working with will live and look attractive. Storage. Finished boutonnieres should be kept moist and cool until the time they are needed. You can heavily mist the flowers and seal them up in a plastic bag or box, which is then stored somewhere cool, like a refrigerator (but not a freezer). Check to make sure they are still moist occasionally | Tips & Warnings. 1 Have a spare boutonniere on hand. 2 If you use a refrigerator to store your boutonniere, keep the enclosed box in the refrigerator drawer by itself, to avoid the gases from food. Put the tissue with the boutonniere on it, into a box with a lid, or a corsage bag. Keep the boutonniere in the box, and store it in a portable cooler. Keep it moist and cool until you are ready to use it. | 1 Have a spare boutonniere on hand. 2 If you use a refrigerator to store your boutonniere, keep the enclosed box in the refrigerator drawer by itself, to avoid the gases from food. 3 Do not store your boutonniere in the freezer as this will kill it. Put the tissue with the boutonniere on it, into a box with a lid, or a corsage bag. Keep the boutonniere in the box, and store it in a portable cooler. Keep it moist and cool until you are ready to use it. | 1 Rose, greens and/or filler flowers (like baby’s breath). TIP #1: The most important things you need to remember when making a boutonniere is that your rose needs to be fresh! When you go out to buy your rose, gently squeeze the base of the flower and make sure it is firm and not soft. If it is soft, the flower is getting old and will not last as long. And finally, place your creation into the door of your refrigerator. Flowers like to be at a perfect 40 degrees. Just in case you were wondering :-). In my next post I will show you the proper way to pin on a boutonniere. | FAVORITE. We suggest using a hardy flower with a big head such as a rose or miniature calla lily; they can survive being handled. You can make a boutonniere the day before the wedding, and be sure to get extra flowers for practice. Here's a step-by-step guide on do-it-yourself boutonnieres. |
do boutonnieres go in the fridge | A florist can give you options for longer-lasting flowers, but even standard boutonniere flowers like roses and carnations will last for several days if kept in the right conditions. Some flowers will be just fine for up to a week or more. Boutonnieres are generally a single flower with a bed of greenery behind. Storage. Finished boutonnieres should be kept moist and cool until the time they are needed. You can heavily mist the flowers and seal them up in a plastic bag or box, which is then stored somewhere cool, like a refrigerator (but not a freezer). Check to make sure they are still moist occasionally | Tips & Warnings. 1 Have a spare boutonniere on hand. 2 If you use a refrigerator to store your boutonniere, keep the enclosed box in the refrigerator drawer by itself, to avoid the gases from food. Put the tissue with the boutonniere on it, into a box with a lid, or a corsage bag. Keep the boutonniere in the box, and store it in a portable cooler. Keep it moist and cool until you are ready to use it. | FAVORITE. We suggest using a hardy flower with a big head such as a rose or miniature calla lily; they can survive being handled. You can make a boutonniere the day before the wedding, and be sure to get extra flowers for practice. Here's a step-by-step guide on do-it-yourself boutonnieres. | Place the misted boutonniere on a tissue. Put the tissue with the boutonniere on it, into a box with a lid, or a corsage bag. Keep the boutonniere in the box, and store it in a portable cooler. Keep it moist and cool until you are ready to use it. | 1 Rose, greens and/or filler flowers (like baby’s breath). TIP #1: The most important things you need to remember when making a boutonniere is that your rose needs to be fresh! When you go out to buy your rose, gently squeeze the base of the flower and make sure it is firm and not soft. If it is soft, the flower is getting old and will not last as long. And finally, place your creation into the door of your refrigerator. Flowers like to be at a perfect 40 degrees. Just in case you were wondering :-). In my next post I will show you the proper way to pin on a boutonniere. |
do boutonnieres go in the fridge | Gauge the time you make your arrangements in advance by the cold storage you have available: 4-5 days in advance for walk-in or large refrigerator, 3-4 days in advance for cold cellar, 2-3 days in advance for cool basement. Arrangements such as pew bouquets, altar bouquets, buffet bouquets, bar bouquets, washroom bouquets, entrance bouquets, guest registry bouquets and arch base bouquets can also be made 4-5 days in advance as long as you can keep them in a walk-in fridge or other large cooler. | 1 Have a spare boutonniere on hand. 2 If you use a refrigerator to store your boutonniere, keep the enclosed box in the refrigerator drawer by itself, to avoid the gases from food. 3 Do not store your boutonniere in the freezer as this will kill it. Put the tissue with the boutonniere on it, into a box with a lid, or a corsage bag. Keep the boutonniere in the box, and store it in a portable cooler. Keep it moist and cool until you are ready to use it. | FAVORITE. We suggest using a hardy flower with a big head such as a rose or miniature calla lily; they can survive being handled. You can make a boutonniere the day before the wedding, and be sure to get extra flowers for practice. Here's a step-by-step guide on do-it-yourself boutonnieres. | 1 Rose, greens and/or filler flowers (like baby’s breath). TIP #1: The most important things you need to remember when making a boutonniere is that your rose needs to be fresh! When you go out to buy your rose, gently squeeze the base of the flower and make sure it is firm and not soft. If it is soft, the flower is getting old and will not last as long. And finally, place your creation into the door of your refrigerator. Flowers like to be at a perfect 40 degrees. Just in case you were wondering :-). In my next post I will show you the proper way to pin on a boutonniere. | Tips & Warnings. 1 Have a spare boutonniere on hand. 2 If you use a refrigerator to store your boutonniere, keep the enclosed box in the refrigerator drawer by itself, to avoid the gases from food. Put the tissue with the boutonniere on it, into a box with a lid, or a corsage bag. Keep the boutonniere in the box, and store it in a portable cooler. Keep it moist and cool until you are ready to use it. |
what causes urine infections | A urinary tract infection (UTI) is an infection of any part of the urinary system. 2 Most infections involve the lower urinary tract. The urinary tract is comprised of the bladder, kidneys, ureters and urethra. Urinary tract infections are the second most common type of infection in the body and account for around 8.1 million visits to health care providers each year. 1 The majority of urinary tract infections are caused by the E. Coli bacterium. 2 Common symptoms include a strong, frequent urge to urinate and a painful and burning sensation when urinating. 3 Urinary tract infection is usually diagnosed based on symptoms and testing of a urine sample. | Lower urinary tract infection is also referred to as a bladder infection. The most common symptoms are burning with urination and having to urinate frequently (or an urge to urinate) in the absence of vaginal discharge and significant pain. The bacteria that cause urinary tract infections typically enter the bladder via the urethra. However, infection may also occur via the blood or lymph. It is believed that the bacteria are usually transmitted to the urethra from the bowel, with females at greater risk due to their anatomy. | Causes. Urinary tract infections typically occur when bacteria enter the urinary tract through the urethra and begin to multiply in the bladder. Although the urinary system is designed to keep out such microscopic invaders, these defenses sometimes fail. The most common UTIs occur mainly in women and affect the bladder and urethra. 1 Infection of the bladder (cystitis). 2 Infection of the urethra (urethritis). 3 Symptoms. 4 Risk factors. | 1 Infection of the urethra (urethritis). 2 This type of UTI can occur when GI bacteria spread from the anus to the urethra. 3 Also, because the female urethra is close to the vagina, sexually transmitted infections, such as herpes, gonorrhea, chlamydia and mycoplasma, can cause urethritis. The most common UTIs occur mainly in women and affect the bladder and urethra. 1 Infection of the bladder (cystitis). 2 Infection of the urethra (urethritis). 3 Symptoms. 4 Risk factors. | Different types of UTI. You can get an infection in the lower (bladder and urethra) or upper (kidney and ureters) part of the urinary tract, and doctors often describe them as lower or upper UTIs. Upper UTIs are potentially more serious than lower UTIs because there is a risk of kidney damage. |
what is culture definition | Culture is the characteristics and knowledge of a particular group of people, defined by everything from language, religion, cuisine, social habits, music and arts. | The word culture has many different meanings. For some it refers to an appreciation of good literature, music, art, and food. For a biologist, it is likely to be a colony of bacteria or other microorganisms growing in a nutrient medium in a laboratory Petri dish. | Culture determines what is acceptable or unacceptable, important or unimportant, right or wrong, workable or unworkable. It encompasses all learned and shared, explicit or tacit, assumptions, beliefs, knowledge, norms, and values, as well as attitudes, behavior, dress, and language. See also organizational culture. | CARLA’s Definition. For the purposes of the Intercultural Studies Project, culture is defined as the shared patterns of behaviors and interactions, cognitive constructs, and affective understanding that are learned through a process of socialization. | Many of the Spanish-speaking nations are considered part of the Latin culture, while the geographic region is widespread. Latin America is typically defined as those parts of the Central America, South America and Mexico where Spanish or Portuguese are the dominant languages. |
why is cancer harmful to the body | Cancer cells are cells which have lost the ability to regulate their growth. As a result, cancers are abnormal growth of cells, called a tumor. Cancer is harmful because … the uncontrolled cell growth adversely affects functional body cells. There are limited nutrients and energy in the body. Therefore cancer indirectly kills functional body cells by depriving them of energy. 1 Diseases Caused By Smoking Smoking cigarettes is a very harmful habit that can lead to a variety of diseases that can be detrimental to your health and wellbeing. 2 There are several diseases a smoker ca…. 3 The Five Major Parts of the Brain At its most basic, the brain controls the body. | Cancer starts when cells in a part of the body start to grow out of control. Cancer cell growth is different from normal cell growth. Instead of dying, cancer cells continue to grow and form new, abnormal cells. Cancer cells can also invade (grow into) other tissues, something that normal cells can’t do. Growing out of control and invading other tissues are what makes a cell a cancer cell. | Save as Favorite. Breast cancer is an uncontrolled growth of breast cells. To better understand breast cancer, it helps to understand how any cancer can develop. Cancer occurs as a result of mutations, or abnormal changes, in the genes responsible for regulating the growth of cells and keeping them healthy. | Cancer harms the body when altered cells divide uncontrollably to form lumps or masses of tissue called tumors (except in the case of leukemia where cancer prohibits normal blood function by abnormal cell division in the blood stream). Cancer is a class of diseases characterized by out-of-control cell growth. There are over 100 different types of cancer, and each is classified by the type of cell that is initially affected. | How cancer spreads. Cancer cells often travel to other parts of the body where they can grow and form new tumors that crowd out normal tissue. This happens when the cancer cells get into the body’s bloodstream or lymph vessels. The process of cancer spreading is called metastasis. Cancer cell growth is different from normal cell growth. Instead of dying, cancer cells continue to grow and form new, abnormal cells. Cancer cells can also invade (grow into) other tissues, something that normal cells can’t do. Growing out of control and invading other tissues are what makes a cell a cancer cell. |
what kind of degree do i need to be a psychiatry | Prospective psychiatrists must complete a four-year bachelor's degree as preparation for medical school. Essential undergraduate classes include English, math, biology, chemistry and physics. Each state makes its own requirements, but in general you must complete an accredited medical degree and a residency. You must also fulfill state examination requirements by passing the U.S. Medical Licensing Examination for M.D.s or the Comprehensive Osteopathic Medical Licensing Examination for D.O.s. | 1 During the first four years of medical school you take classes, do lab work, and learn about medical ethics. 2 You may not have the opportunity to do hands-on psychiatry work at this stage, but earning your medical degree is a requirement in the path to becoming a psychiatrist, so stick with it. | Following medical school graduation, you must complete a 4-year residency in psychiatry to fulfill state medical board requirements for licensing. A medical residency is part of a psychiatrist's medical education and involves paid, on-the-job training, which usually takes place in a hospital. Psychiatry Overview. Psychiatrists are medical doctors who primarily care for patients with mental health problems. The education path to entering this career field is a long one, including medical school and at least four years of post-graduate residency training. | Report Abuse. As an undergrad, you need whatever degree will get you into med school. You can't be a psychiatrist without an MD (that is the difference between a psychiatrist and a psychologist, and it means the psychiatrist can prescribe medication). So basically you would go to med school and then specialize in psychiatry. Psychology is actually a B.A (Bachelor of Arts), classified under social sciences. You can get into med school with any kind of degree, so long as your grades are sufficient, and you pass the MCAT. BSc (Bachelors of Sciences) will help you with the MCAT and in medical school in general, but it is not 100% necessary. | The first step to becoming a psychiatrist is to earn a bachelor’s degree from an accredited institution. In preparation for medical school, a good choice would be to focus on pre-med, physical sciences or psychology — or a combination of the three by utilizing a double major or minor. Complete an MD or DO Degree Program. Students who enter medical school can choose between two designations to eventually become a psychiatrist: a Doctor of Medicine (MD) program or a Doctor of Osteopathic Medicine (DO) program. |
what is jah rastafari means | Question: Is the Rastafarian / Rasta god ‘Jah’ the same as the Christian God?. Answer: Rastafarianism, Rastafari, or Rasta is a religious movement originating in Jamaica in the 1930s. Rastafarianism takes elements of the Bible and combines them with the ideology of Marcus Garvey and the belief that Haile Selassie I, emperor of Ethiopia (1930—1975) was the second advent of the Messiah. | Some Rastafarians hold Haile Selassie I as Jah (God) himself. Some Rastafarians believe Haile Selassie I is the son of Jah, the Messiah. People who follow this path sometimes believe that Haile Selassie I is the 'the Son' part of the Holy Trinity. | In Rasta, Jah is accepted as part of the Holy Trinity and, as the messiah, is expected to return. The term “Rastafari” comes from the combination of a term of honor and a name. Ras means “Chief” and Tafari was the first name of Haile Selassie I prior to his coronation. | Most adherents see Haile Selassie I as Jah or Jah Rastafari, an incarnation of God the Father, the Second Advent of Christ the Anointed One, i.e. the Second Coming of Jesus Christ the King to Earth. Many elements of Rastafari reflect its origins in Jamaica and Ethiopia. | The term “Rasta” refers to the the Rastafarian movement that emerged in Jamaica in the 1930s and originally started among black members of the poor and peasant classes. It is both a philosophy of life and a religion. Central to the religion is Haile Selassie I, who was the last emperor of Ethiopia. |
what is jah rastafari means | Rastafari. The Rastafari movement is a monotheistic, Abrahamic, new religious movement, that accepts Haile Selassie I, the former, and final, Emperor of Ethiopia, as the incarnation of Jesus Christ, called Jah or Jah Rastafari. | Most adherents see Haile Selassie I as Jah or Jah Rastafari, an incarnation of God the Father, the Second Advent of Christ the Anointed One, i.e. the Second Coming of Jesus Christ the King to Earth. Many elements of Rastafari reflect its origins in Jamaica and Ethiopia. | Jah is often placed in front of Ras Tafari, referring to him as lord. He was an Ethiopian Emperor that many claim to be Christ in the second coming or Almighty God himself. Many Rastas consider Haile Selassie to be divine. Many Rastafarians worship him. | The term “Rasta” refers to the the Rastafarian movement that emerged in Jamaica in the 1930s and originally started among black members of the poor and peasant classes. It is both a philosophy of life and a religion. Central to the religion is Haile Selassie I, who was the last emperor of Ethiopia. | Rastafari is an Abrahamic new religious movement that accepts Haile Selassie I, the Ethiopian emperor from 1930 to 1974 as God incarnate and the Messiah who will deliver believers to the Promised Land, identified by Rastas as Ethiopia. It has its roots in black-empowerment and back-to-Africa movements. |
how long do you study in medical school | So the answer to the question, “how long is medical school,” is 4 years. But medical school alone is not enough to practice medicine as a doctor. If you include residency and fellowship, you will need at least 7 years from the first day of medical school before you can practice medicine in the United States. | Medical school typically takes 4 years to complete; then there is a 3 to 7 year residency after that, where students undergo supervised training in their specific field of focus. | It is generally taken after your 3rd year in medical school. USMLE Step 3 is taken after you graduate, usually during your first year of residency and tests more on if you can function independently as a physician. | 4. Complete medical school. Most programs take four years to complete, and will earn you either a Doctor of Medicine (M.D.) or Doctor of Osteopathic Medicine (D.O.). During the first two years, students study anatomy, biochemistry, psychology, medical ethics, and other subjects in classroom and laboratory settings. | The age most people finish medical school really depends – medical school is 4 years and residency is anywhere from 3 to 5 years. Some people pursue fellowships for an additional year or two afterwards. |
what is arborio rice substitute | Risotto is simply the name of a cooking method for grains. You can use any grain you want, barley, any kind of rice, quinoa, etc. And yes I have made barley risotto, and quinoa risotto among others. Rissoto is not a certain dish or recipe, like way too many people think it is. The reason you normally would want to use Arborio or Carnaroli is because they have a higher amount of amylopectin, a sticky starch that promotes the creaminess and texture of risotto, as compared with other rices that have a higher amount of amylose, a dry starch. | Answer: Risotto recipes typically call for Arborio rice, a starchy, short grain rice named for the Italian town where it was first grown. Arborio's high amylose content helps give risotto its characteristic creaminess. If you don't have Arborio, Carnaroli rice, a medium-grained rice that also has a high amylose content, is another classic — if lesser known — choice for risotto in parts of northern Italy. | The key to successful risotto-making is to use a short or medium grain rice with a firm texture and high starch content. White sushi rice works nicely. Or experiment with starchy, rice-shaped grains, such as pearled barley or farro. Arborio's high amylose content helps give risotto its characteristic creaminess. If you don't have Arborio, Carnaroli rice, a medium-grained rice that also has a high amylose content, is another classic — if lesser known — choice for risotto in parts of northern Italy. | However, you don't have to buy Arborio to make real risotto. Arborio is a medium grain rice, so you can replace it with any other medium grain rice. Medium grains give off more gluten than long grains (like minute rice or uncle ben's), and that's what gives risotto the creamy texture. Look in the rice aisle for bagged rice that's marked as medium grain. The reason you use Arborio rice is because of the STARCH content-Its nothing to do with gluten. As the risotto-style medium grain rice is agitated through stirring the starch is released to create a creamy sauce. | Orzo is a pasta, shaped like little tiny footballs or fat grains of rice. Arborio rice is a plumper rice, but rice nonetheless. If you are making a risotto (one of the highest uses for Arborio rice), you need the starch that oozes out of the grains of rice as they absorb the cooking liquid. |
what is a synergist muscle | Definition of SYNERGIST. : something (as a chemical or a muscle) that enhances the effectiveness of an active agent; broadly: either member of a synergistic pair. ADVERTISEMENT. noun syn·er·gist \-jəst\ | Medical Definition of SYNERGIST. 1. : an agent that increases the effectiveness of another agent when combined with it; especially: a drug that acts in synergism with another. 2. : an organ (as a muscle) that acts in concert with another to enhance its effect—compare agonist 1, antagonist a. : something (as a chemical or a muscle) that enhances the effectiveness of an active agent; broadly: either member of a synergistic pair. ADVERTISEMENT. | 4. Fixator: The fixator in a movement is the muscle(s) that stabilises the origin of the agonist and the joint that the origin spans (moves over) in order to help the agonist function most effectively. In the bicep curl this would be the rotator cuff muscles, the ‘guardians of the shoulder joint’. 1. Agonist: The agonist in a movement is the muscle(s) that provides the major force to complete the movement. Because of this agonists are known as the ‘prime movers’. In the bicep curl which produces flexion at the elbow, the biceps muscle is the agonist, as seen in the image below. | 3. Synergist: The synergist in a movement is the muscle(s) that stabilises a joint around which movement is occurring, which in turn helps the agonist function effectively. Synergist muscles also help to create the movement. 1. Agonist: The agonist in a movement is the muscle(s) that provides the major force to complete the movement. Because of this agonists are known as the ‘prime movers’. In the bicep curl which produces flexion at the elbow, the biceps muscle is the agonist, as seen in the image below. | anon272083. Post 5. A synergist muscle joins in and assists the prime mover; it is not a stabilizer! A fixator helps maintaining a stable position. The antagonist muscle (in relation to the prime mover) relaxes, as muscles tend to work in pairs-one side contracts as the opposite side relaxes. Alchemy. Post 3. @ Fiorite-Think of the terms synergist and agonist as a descriptor that describes the purpose of the muscle it is referred to. A synergist muscle can be the same as an agonist,or it can work with an agonist to perform a similar function. A synergist muscle prevents a muscle from oversextnding. |
what is a synergist muscle | These 10 facts about space will blow your mind. A synergist muscle is a muscle which works in concert with another muscle to generate movement. These muscles can work with the so-called agonists or prime movers which surround a joint, or the antagonistic muscles, which move in the opposite direction. Alchemy. Post 3. @ Fiorite-Think of the terms synergist and agonist as a descriptor that describes the purpose of the muscle it is referred to. A synergist muscle can be the same as an agonist,or it can work with an agonist to perform a similar function. A synergist muscle prevents a muscle from oversextnding. | Medical Definition of SYNERGIST. 1. : an agent that increases the effectiveness of another agent when combined with it; especially: a drug that acts in synergism with another. 2. : an organ (as a muscle) that acts in concert with another to enhance its effect—compare agonist 1, antagonist a. : something (as a chemical or a muscle) that enhances the effectiveness of an active agent; broadly: either member of a synergistic pair. ADVERTISEMENT. | Synergist and Eccentric Defined. In order for movement to occur, muscles must contract. According to Andrew Biel's Trail Guide to the Body, a muscle that leads an action as a primary mover is called an agonist. A muscle that supports the agonist is called a synergist. Muscles that work together in achieving the entire movement are called synergists. Concentric movement is when a muscle is contracting and shortening at the same time. Synergist Muscles. As you lower yourself into the eccentric phase of the squat, all four of your quadriceps are elongated. The four quads are the vastus lateralis, vastus intermedius, vastus medialis and rectus femoris. | anon272083. Post 5. A synergist muscle joins in and assists the prime mover; it is not a stabilizer! A fixator helps maintaining a stable position. The antagonist muscle (in relation to the prime mover) relaxes, as muscles tend to work in pairs-one side contracts as the opposite side relaxes. Alchemy. Post 3. @ Fiorite-Think of the terms synergist and agonist as a descriptor that describes the purpose of the muscle it is referred to. A synergist muscle can be the same as an agonist,or it can work with an agonist to perform a similar function. A synergist muscle prevents a muscle from oversextnding. | 4. Fixator: The fixator in a movement is the muscle(s) that stabilises the origin of the agonist and the joint that the origin spans (moves over) in order to help the agonist function most effectively. In the bicep curl this would be the rotator cuff muscles, the ‘guardians of the shoulder joint’. 1. Agonist: The agonist in a movement is the muscle(s) that provides the major force to complete the movement. Because of this agonists are known as the ‘prime movers’. In the bicep curl which produces flexion at the elbow, the biceps muscle is the agonist, as seen in the image below. |
what is salary for bonus | Definition: Bonus pay is compensation over and above the amount of pay specified as a base salary or hourly rate of pay. The base amount of compensation is specified in the employee offer letter, in the employee personnel file, or in a contract. Bonus pay is also used to improve employee morale, motivation, and productivity. As long as bonus pay is discretionary by the employer, it is not considered to be a contract. If the employer promises a bonus, however, the employer may be legally liable to pay the bonus. | BREAKING DOWN 'Bonus'. 1. Bonuses can add up to the majority of some employees' compensation. For example, Goldman Sachs CEO L. Blankfein received $68 million in cash and stock as a 2007 bonus, but only made $600,000 in salary. Due to these high amounts, corporate compensation is public information in public companies. 2 | Percentage of monthly salary adjustment and satisfaction rating in 2014. The average salary adjustment in 2014 is 5.9%. Professional Services is reported to have the highest increase in salary (9.6%). Most of the job functions record an increase in salary adjustment compared with 2013. Basic monthly salary change in 2014. Over half of respondents from different job functions were offered a pay rise and only a low percentage of respondents got a pay cut. The highest percentage of respondents who got a pay cut is from Hospitality / F&B (11%). | A company may offer a call center manager a bonus modifier of 50 percent if his team achieves a five-star rating in customer satisfaction surveys. Thus, a manager whose salary is $40,000 and whose target bonus is 25 percent of his salary may earn a bonus of $10,000 without a bonus modifier. With the bonus modifier, the same manager earns a bonus of $15,000 if his team achieves a five-star rating. Related Reading: How to Calculate Hourly Rates for Bonuses. A performance bonus puts a portion of an employee's pay at risk. The employer sets aside a percentage of the employee's salary--say, 25 percent--as a performance bonus. If the employee's performance does not meet expectations, his employer is not obligated to pay the bonus. | 2 The employee's terms of employment must be changed before the salary or bonus sacrifice arrangement commences. In other words, the employee's right to the higher salary or bonus must be given up before it is treated as received for income tax or National Insurance purposes-it can't be done after the event. Employer benefits from salary or bonus sacrifice Cutting an employee's earnings usually means the employer will pay less NI than before. An employer has to pay National Insurance on all earnings above the earnings threshold, so the employer see a saving of 13.8% of the sacrificed amount. |
standard size of a cheque leaf | Hi, The standard size of cheque is 4 inches in height and 7 inches in width. What is the size of a standard-size brick? 2 1/4 X 3 3/4 X 8 inches In the United States, modern bricks are usually about 8 × 4 × 2.25 inches (203 × 102 × 57 mm). | One very important point to note is that the measurement of the face size MUST be 1.25 inches or 32mm from the bottom of your chin to the top of your head. If a religious head … dress is worn, then the measurement will be from the bottom of the chin to the top of the head dress. What is the size of a standard-size brick? 2 1/4 X 3 3/4 X 8 inches In the United States, modern bricks are usually about 8 × 4 × 2.25 inches (203 × 102 × 57 mm). | It is now mandatory for banks to strictly issue standardised and enhanced new format of cheques called CTS-2010. Which will be available from 30th Sept 2012. Also already circulated cheques will be replaced within 31st December 2012. So it is necessary for all to understand how your new cheque format looks like. Latest news-Deadline of 31st December 2012 is extended to 31st March 2013 from RBI. This will make all cheques feel like same across all banks. 2) All cheques carry standardised watermark called “CTS-INDIA” which can be seen when you held cheque against light. This feature will avoid fraudulent from photocopying or printing it. Mark will be in oval shape, and diameter of it is 2.6 to 3.0 cms. | The size of a book is generally measured by the height against the width of a leaf, or sometimes the height and width of its cover. A series of terms is commonly used by libraries and publishers for the general sizes of modern books, ranging from folio (the largest), to quarto (smaller) and octavo (still smaller). For example, a quarto (from Latin quartō, ablative form of quartus, fourth) historically was a book printed on a sheet of paper folded twice to produce four leaves (or eight pages), each leaf one fourth the size of the original sheet printed. | A bathroom sink drain hole is typically 1.25 inches in diameter. While a bathroom sink's design and overall size may vary from one model to the next, the drain holes are fairly standard, 1.25 inches being a general standard, with widths of 1.5 inches and 1.625 inches also common. The size of the hole helps determine which size drain is needed for that particular sink. If the opening in the upper part of the sink basin is, for instance, 1.5 inches wide, the drain can be 1.25 or 1.5 inches wide. This variation comes into play because the opening in the basin is generally a lot wider in this visible flange area. |
what are chairside veneers | Dental veneers, also known as porcelain veneers or composite veneers are thin shells of tooth-colored, translucent porcelain or composite resin, custom made to fit over teeth and improve their color, shape and overall appearance. Placement of dental veneers can dramatically improve your smile and appearance. The major disadvantages of porcelain veneers over composite resin include the following: 1 Porcelain veneers are not made at chairside. 2 Porcelain veneers are more expensive than composite veneers. 3 Porcelain veneers cannot be repaired. | The major disadvantages of porcelain veneers over composite resin include the following: 1 Porcelain veneers are not made at chairside. 2 Porcelain veneers are fabricated in a dental laboratory and therefore require at least two visits. 3 Composite resin veneers are accomplished in one visit. The major disadvantages of porcelain veneers over composite resin include the following: 1 Porcelain veneers are not made at chairside. 2 Porcelain veneers are more expensive than composite veneers. 3 Porcelain veneers cannot be repaired. | 1 Porcelain veneers are not made at chairside. 2 Porcelain veneers are fabricated in a dental laboratory and therefore require at least two visits. 3 Composite resin veneers are accomplished in one visit. The major disadvantages of porcelain veneers over composite resin include the following: 1 Porcelain veneers are not made at chairside. 2 Porcelain veneers are more expensive than composite veneers. 3 Porcelain veneers cannot be repaired. | Chairside Veneers is a great option to enhance your smile. The procedure is used to brighten your teeth and to straighten misaligned teeth. At Maranatha Dentals, Dr. Frank Chang is the specialist for this procedure and he developed a unique method to make this an affordable option for just about everyone. Most porcelain veneers are not repairable, in which they can only be replaced. At Maranatha Dental, we use strong micro-filled composites to restore our Chairside Veneers and the cost is only 1/3 of most regular porcelain veneers. Best of all, the procedure only requires 1 visit. | Porcelain veneers are more expensive than indirect or direct composite resin veneers. Traditional porcelain veneers cost between $925 and $2,500 per tooth but can last 10 to 15 years. Composite veneers cost approximately $250 to $1500 per tooth and may last between five and seven years. |
what is kolache | A kolache is a rounded pastry that can be filled with different sweets, fruits or meats. Kolaches are largely known as an ideal choice of breakfast pastry but people also enjoy kolaches as a dessert depending on the flavor. In some cultures, kolaches are an alternative to other treats with afternoon tea or coffee. Kolaches date as far back as the 1700s in eastern Europe and came to America with the Czechs who settled in Texas. Particularly in the city of West, Texas there is a large Czech population. | Haugen, Wisconsin is the Kolache Capital of Wisconsin. The village is a Bohemian settlement that celebrates its Czech Heritage during an annual festival (Haugen Fun Days). Kolaches are a staple of the village's festival with Kolache sales, bake-offs, and tastings. Several cities, including Prague, Nebraska; Caldwell, Texas; East Bernard, Texas; Crosby, Texas; Hallettsville, Texas; St. Ludmila's Catholic Church in Cedar Rapids, Iowa; and Kewaunee, Wisconsin hold annual Kolache Festival celebrations. | The following are descriptions of kolache from books about the Czech Texans: The Czech people are famous for their pastries, one of which is the kolache...The fillings--poppyseed, pineapple, apricot, cottage cheese and prune are prepared before baking. No one uses a recipe. T he following are descriptions of kolache from books about the Czech Texans: T he Czech people are famous for their pastries, one of which is the kolache...The fillings--poppyseed, pineapple, apricot, cottage cheese and prune are prepared before baking. No one uses a recipe. Kolaches are made from a formula handed down from generation to generation in Czech families. | The Kolache Factory, a breakfast chain somewhat akin to a Texas kolache version of, say, Dunkin' Donuts, is also known for its unconventional kolache fillings, such as chocolate cream cheese, sausage and gravy, ranchero, and even Philly cheesesteak. A Central European pastry iconic across the Lone Star State, the kolache is prized for its soft, pillowy dough and its versatility: kolache fillings range from the sweet (apricot, prunes, and poppy seeds) to the savory (sausages). | A Kolach (plural kolache /kɵˈlɑːtʃi/ , also spelled kolace, kolach, or kolacky, from the Czech and Slovak plural kolače, koláče. sg) kolač koláč is a type of pastry that holds a dollop, of fruit rimmed by a puffy pillow of. supple dough Several cities, including Prague, Nebraska; Caldwell, Texas; East Bernard, Texas; Crosby, Texas; Hallettsville, Texas; St. Ludmila's Catholic Church in Cedar Rapids, Iowa; and Kewaunee, Wisconsin hold annual Kolache Festival celebrations. |
types of epithelial tissue in the digestive tract | The other three types are connective tissue, muscle tissue and nervous tissue. Epithelial tissues line the cavities and surfaces of blood vessels and organs throughout the body. There are three principal shapes of epithelial cells: squamous, columnar, and cuboidal. These can be arranged in a single layer of cells as simple epithelium, either squamous, columnar or cuboidal, or in layers of two or more cells deep as stratified (layered), either squamous, columnar or cuboidal. All glands are made up of epithelial cells. | The mucosa serves to line the cavity of the tract. The mucosa consists of three sub-layers called the epithelium, the lamina propria, and the muscularis mucosae. In most of the digestive tract, the cells in the epithelium are shaped like columns. This mucus lubricates the digestive tract. The lamina propia is a sub-layer that is made of loose connective tissue. The muscularis mucosae is a sub-layer of smooth muscle. The next layer after the mucosa is called the submucosa. This layer is a thick layer | 1) Epithelial Tissue. Epithelial tissue forms the covering or lining of free body surfaces, both internal and external. For example, the outer layer of the skin is formed from epithelial tissue as are the inner linings of the digestive tract and blood vessels. As a group, epithelial tissues perform a variety of functions, including protection, absorption, excretion, secretion and lubrication. | Epithelial Tissue & functions, types of epithelia in digestive tract. Epithelial Tissue. Epithelium is an animal tissue and is one of the four basic types of tissues in animal. These tissues cover the structures in the whole body and line cavities. They also form different types of glands. Selective absorption, secretion, transport across cells, protection and detecting sensation are its functions. This tissue has cells that are clustered tightly. This tissue is avascular which implies that it should get nourishment through the diffusion of the substances from the connective tissue that is underlying via basement membrane. Types of Epithelia in Digestive tract. Epithelium lines up the digestive tube. The epithelium is continuous at skin located at mouth as well as anus. The nature of epithelium changes with body parts. In some parts it works as protective layer and in some other parts it performs the role of absorption | Most of the tissue in the digestive tract itself has four layers. These layers are called the mucosa, the submucosa, muscularis externa, and the serosa. The layer in the innermost part of the digestive tract is called the mucosa. This mucus lubricates the digestive tract. The lamina propia is a sub-layer that is made of loose connective tissue. The muscularis mucosae is a sub-layer of smooth muscle. The next layer after the mucosa is called the submucosa. This layer is a thick layer |
what is a small cucumber called | cucumber = cuke These gourd relatives are crisp, cool, and juicy, but get only so-so marks for flavor and nutritional content. A s licing cucumber = table cucumber is usually served raw in salads, sandwiches, drinks, sushi, and hors d'oeuvres to add crunch, but they can also be cooked like zucchini. Pickling cucumbers are usually smaller than slicing cucumbers, and often have thick, warty skins. | What is a small cucumber called? already exists. already exists as an alternate of this question. exists and is an alternate of. What's your view on dating apps like Tinder? What is a small cucumber that rhymes with kin? What is expelling internal organs like sea cucumbers called? What is a small cucumber that has been preserved in vinegar called? The small flagpole at the prow (front) of a ship is called the jack. Flags flown from this are called jack flags and are be necessity quite small. Royal Navy battleships tra … ditionally fly the Union Flag from the jack (and the Royal Ensign from the stern), which is where the incorrect name (Union Jack) comes from. | The cucumber is a creeping vine that roots in the ground and grows up trellises or other supporting frames, wrapping around supports with thin, spiraling tendrils. The plant has large leaves that form a canopy over the fruit. The fruit of the cucumber is roughly cylindrical, elongated with tapered ends, and may be as large as 60 centimeters (24 in) long and 10 centimeters (3.9 in) in diameter. Having an enclosed seed and developing from a flower, botanically speaking, cucumbers are classified as pepoes, a type of botanical berry. | Cucumber (Cucumis sativus) is a widely cultivated plant in the gourd family, Cucurbitaceae. It is a creeping vine that bears cylindrical fruits that are used as culinary vegetables. There are three main varieties of cucumber: slicing, pickling, and burpless. The fruit of the cucumber is roughly cylindrical, elongated with tapered ends, and may be as large as 60 centimeters (24 in) long and 10 centimeters (3.9 in) in diameter. Having an enclosed seed and developing from a flower, botanically speaking, cucumbers are classified as pepoes, a type of botanical berry. | Cucumbers usually are eaten when immature. The best size depends upon the use and variety. They may be picked when they are no more than 2 inches long for pickles, 4 to 6 inches long for dills and 6 to 8 inches long for slicing varieties. A cucumber is of highest quality when it is uniformly green, firm and crisp. The large, burpless cucumbers should be 1 to 1 1/2 inches in diameter and up to 10 inches long. There are two types of cucumbers common to the home gardener-pickling cucumbers and slicing cucumbers. The phrase cool as a cucumber is an apt one. Growing in a field on a hot summer day, the interior flesh is 20 degrees cooler than the outside air temperature. |
what is a small cucumber called | Specialty Cucumbers include heirloom cucumber varieties like ‘Lemon’ cucumbers and 'Sweet Armenian' cucumbers, as well as greenhouse cucumbers that require no pollination to set fruit. Container Cucumbers are bred for compact vines, and are better for deck plantings and small space gardens. Sweet Armenian cucumbers have a mild cucumber flavor, like a melon without the sweetness. They need no peeling, and their ribbed shape makes interesting cross-sections when sliced. ‘Lemon Cucumbers’ (65 days, heirloom, open pollinated) are small, round, yellow cucumbers you often find in farmers markets. | What is a small cucumber called? already exists. already exists as an alternate of this question. exists and is an alternate of. What's your view on dating apps like Tinder? What is a small cucumber that rhymes with kin? What is expelling internal organs like sea cucumbers called? What is a small cucumber that has been preserved in vinegar called? The small flagpole at the prow (front) of a ship is called the jack. Flags flown from this are called jack flags and are be necessity quite small. Royal Navy battleships tra … ditionally fly the Union Flag from the jack (and the Royal Ensign from the stern), which is where the incorrect name (Union Jack) comes from. | Cucumber (Cucumis sativus) is a widely cultivated plant in the gourd family, Cucurbitaceae. It is a creeping vine that bears cylindrical fruits that are used as culinary vegetables. There are three main varieties of cucumber: slicing, pickling, and burpless. The fruit of the cucumber is roughly cylindrical, elongated with tapered ends, and may be as large as 60 centimeters (24 in) long and 10 centimeters (3.9 in) in diameter. Having an enclosed seed and developing from a flower, botanically speaking, cucumbers are classified as pepoes, a type of botanical berry. | English cucumber are some of the most well known of the seedless varieties. They are long (often about 12 inches), have a smooth, thin skin and mild flavor. The seeds are underdeveloped. You will usually find them wrapped in plastic, which is preferable to ones that have been coated in wax. | In a 100 gram serving, raw cucumber (with peel) is 95% water, provides 16 calories and supplies low content of essential nutrients, as it is notable only for vitamin K at 16% of the Daily Value (table). The fruit of the cucumber is roughly cylindrical, elongated with tapered ends, and may be as large as 60 centimeters (24 in) long and 10 centimeters (3.9 in) in diameter. Having an enclosed seed and developing from a flower, botanically speaking, cucumbers are classified as pepoes, a type of botanical berry. |
what temperature do you cook a prime rib roast at | 1 Place the roast (ribs down or fat side up) in roasting pan. 2 Sear the rib roast for 15 minutes at 450°F, then turn the oven to 325°F for the rest of the cooking time. 3 Every 1/2 hour, baste the cut ends of the roast with the fat accumulated in the roasting pan. 1 Sear the rib roast for 15 minutes at 450°F, then turn the oven to 325°F for the rest of the cooking time. 2 | Preheat oven to 450°F. Place the roast (ribs down) on the rack in a roasting pan. Sear the rib roast for 15 minutes at the higher oven temperature (450°F), and then turn the oven to the lower temperature (325° F) for the rest of the cooking time. About 1/2 hour before the estimated end of the roasting time, begin checking the internal temperature (use a good instant-read digital meat thermometer. | 4 Place the roast fat side up and rib bones down in a roasting pan. Insert a meat thermometer into the thickest part of the roast, making sure that the thermometer isn't touching a bone. 5 After browning the roast at a 500°F temperature in the oven for 15 minutes, reduce the oven temperature to 325°F. To figure out the total cooking time, allow about 13-15 minutes per pound for rare and 15-17 minutes per pound for medium rare. | 1 Leave the prime rib out at room temperature for 2 hours. 2 Preheat the oven to 450 degrees F. 3 When the oven is hot, put the roast in and cook for 20 minutes to sear the outside of the roast. 4 After 20 minutes turn the oven down to 325 degrees F. and roast until the desired internal temperature is reached (see guide below). 1 When the oven is hot, put the roast in and cook for 20 minutes to sear the outside of the roast. 2 After 20 minutes turn the oven down to 325 degrees F. and roast until the desired internal temperature is reached (see guide below). 3 For medium-rare this will take approximately 15 minutes per pound. | 1 Preheat oven to 450°F. 2 Pat the rib roast dry with a paper towel or napkin. 3 Smear the cut ends of the roast with the butter. 4 Place the roast (ribs down or fat side up) in roasting pan. 5 Sear the rib roast for 15 minutes at 450°F, then turn the oven to 325°F for the rest of the cooking time. 1 Sear the rib roast for 15 minutes at 450°F, then turn the oven to 325°F for the rest of the cooking time. 2 Every 1/2 hour, baste the cut ends of the roast with the fat accumulated in the |
where does the name capricorn come from | Capricornus means literally a goat's horn, it denotes a male goat, or billy-goat. The figure of the Constellation has the head of a goat, and the tail of a fish and is associated with two types of goats: the Mountain-Goat and the Sea-Goat. Capra is the term used for the goat genus. Capricorn, the he-goat, and the feminine Capella, the she-goat of Auriga, come from the Latin word caper, 'goat'. Latin caper comes from the Indo-European root * kap-ro - 'He-goat, buck'. | Split and merge into it. Answer by Wildfremd. Confidence votes 265. Capricorn means horned goat in Greek. Capricorn got it's name by fighting Typhoon (a monster that could manipulate water) and then got the name from one of the gods. The Tropic of Capricorn got its name from this ancient constellation. At one time, the Sun reached the winter solstice while passing in front of Capricornus. At that time, the … Sun had reached its lowest point in the southern sky. | The answer is that The Tropic of Cancer was named because at the time of its naming, the sun was positioned in the Cancer constellation during the June solstice. Likewise, the Tropic of Capricorn was named because the sun was in the constellation Capricorn during the December solstice. The naming took place about 2000 years ago and the sun is no longer in those constellations At the June solstice, the sun is in Taurus and at the December solstice, the sun is in Sagittarius. | Capricorn (♑)(/kaep.kæp.rɪ/) kɔːn is the tenth astrological sign in the, Zodiac Pining umali originating from the constellation Of. Capricornus it spans the–270 300th degree of the, zodiac corresponding to celestial. Longitude capricorn is ruled by the Planet. saturn Under the tropical zodiac, the sun transits this area from December 22 to January 20 each year, and under the sidereal zodiac, the sun currently transits the constellation of Capricorn from approximately January 14 to February 14. | Capricornus is one of the 88 modern constellations, and was also one of the 48 constellations listed by the 2nd century astronomer Ptolemy. Under its modern boundaries it is bordered by Aquila, Sagittarius, Microscopium, Piscis Austrinus, and Aquarius. See also: List of stars in Capricornus. Capricornus is a faint constellation, with only one star above magnitude 3; its alpha star has a magnitude of only 3.6. The brightest star in Capricornus is δ Capricorni, also called Deneb Algedi, with a magnitude of 2.9, 39 light-years from Earth. Like several other stars such as Denebola and Deneb, it is named for the Arabic word for tail (deneb); its traditional name means the tail of the goat |
where does the name capricorn come from | For the astrological sign, see Capricorn (astrology) . Capricornus /ˌkaeprɨˈkɔrnəs/ ˌkæprɨˈkɔrnəs is one of the constellations of the. Zodiac its name Is latin for horned goat or goat , horn and it is commonly represented in the form of a-sea: goat a mythical creature that is half, goat half. fish See also: List of stars in Capricornus. Capricornus is a faint constellation, with only one star above magnitude 3; its alpha star has a magnitude of only 3.6. The brightest star in Capricornus is δ Capricorni, also called Deneb Algedi, with a magnitude of 2.9, 39 light-years from Earth. Like several other stars such as Denebola and Deneb, it is named for the Arabic word for tail (deneb); its traditional name means the tail of the goat. | Split and merge into it. Answer by Wildfremd. Confidence votes 265. Capricorn means horned goat in Greek. Capricorn got it's name by fighting Typhoon (a monster that could manipulate water) and then got the name from one of the gods. The Tropic of Capricorn got its name from this ancient constellation. At one time, the Sun reached the winter solstice while passing in front of Capricornus. At that time, the … Sun had reached its lowest point in the southern sky. | Capricornus is one of the 88 modern constellations, and was also one of the 48 constellations listed by the 2nd century astronomer Ptolemy. Under its modern boundaries it is bordered by Aquila, Sagittarius, Microscopium, Piscis Austrinus, and Aquarius. See also: List of stars in Capricornus. Capricornus is a faint constellation, with only one star above magnitude 3; its alpha star has a magnitude of only 3.6. The brightest star in Capricornus is δ Capricorni, also called Deneb Algedi, with a magnitude of 2.9, 39 light-years from Earth. Like several other stars such as Denebola and Deneb, it is named for the Arabic word for tail (deneb); its traditional name means the tail of the goat | The answer is that The Tropic of Cancer was named because at the time of its naming, the sun was positioned in the Cancer constellation during the June solstice. Likewise, the Tropic of Capricorn was named because the sun was in the constellation Capricorn during the December solstice. The naming took place about 2000 years ago and the sun is no longer in those constellations At the June solstice, the sun is in Taurus and at the December solstice, the sun is in Sagittarius. | The Tropic of Capricorn originates from the constellation Capricornus, which marked the southern limit of the plane of the earth's orbit with the celestial sphere, along which the sun appears to move as viewed from the earth in ancient times. |
where does the name capricorn come from | Capricorn is from caper, 'goat', + cornu, horn, literally 'having horns similar to those of a goat', properly loan translation of Aigokeros, the old Greek name for this constellation [Klein, Comprehensive Etymological Dictionary ]. Capra is the term used for the goat genus. Capricorn, the he-goat, and the feminine Capella, the she-goat of Auriga, come from the Latin word caper, 'goat'. Latin caper comes from the Indo-European root * kap-ro - 'He-goat, buck'. | The Tropic of Capricorn originates from the constellation Capricornus, which marked the southern limit of the plane of the earth's orbit with the celestial sphere, along which the sun appears to move as viewed from the earth in ancient times. | Split and merge into it. Answer by Wildfremd. Confidence votes 265. Capricorn means horned goat in Greek. Capricorn got it's name by fighting Typhoon (a monster that could manipulate water) and then got the name from one of the gods. The Tropic of Capricorn got its name from this ancient constellation. At one time, the Sun reached the winter solstice while passing in front of Capricornus. At that time, the … Sun had reached its lowest point in the southern sky. | Capricorn (♑)(/kaep.kæp.rɪ/) kɔːn is the tenth astrological sign in the, Zodiac Pining umali originating from the constellation Of. Capricornus it spans the–270 300th degree of the, zodiac corresponding to celestial. Longitude capricorn is ruled by the Planet. saturn Under the tropical zodiac, the sun transits this area from December 22 to January 20 each year, and under the sidereal zodiac, the sun currently transits the constellation of Capricorn from approximately January 14 to February 14. | The answer is that The Tropic of Cancer was named because at the time of its naming, the sun was positioned in the Cancer constellation during the June solstice. Likewise, the Tropic of Capricorn was named because the sun was in the constellation Capricorn during the December solstice. The naming took place about 2000 years ago and the sun is no longer in those constellations At the June solstice, the sun is in Taurus and at the December solstice, the sun is in Sagittarius. |
where can blood in urinary tract come from | Blood in urine can come from the kidneys, where urine is made. It also can come from other structures in the urinary tract, such as: 1 Ureters (the tubes from the kidneys to the bladder). 2 Bladder (where urine is stored). 3 Urethra (the tube from the bladder to the outside of the body). | The urinary tract includes the ureters (the tubes that carry the urine from the kidneys to the bladder), the bladder (where urine is stored), the prostate (in men), and the urethra (the tube through which urine exits the body). Hematuria is the medical term for red blood cells in the urine. Red blood cells in the urine can come from the kidney (where urine is made) or anywhere in the urinary tract (figure 1). | Report Abuse. The blood comes from the kidneys letting red blood cells pass into the urine, which is a sign of kidney malfunction. That's something you should see a doctor for. As for the infection, drink cranberry juice (100% cranberry juice) and take lots of vitamin C, which aids in immune system performance. | BLOOD IN THE URINE OVERVIEW. Hematuria is the medical term for red blood cells in the urine. Red blood cells in the urine can come from the kidney (where urine is made) or anywhere in the urinary tract (figure 1). | Urine is usually free of bacteria. A urinary tract infection happens when bacteria gets inside your bladder, usually through your urethra (the opening where your urine comes out). Females have shorter urethras than males do, so it is easier for bacteria to enter the urinary tract and cause symptoms. The urinary tract is the path for urine to go from your kidneys to the outside of your body. Urine is made in the kidneys and then travels through hollow tubes called “ureters” to your bladder, where the urine is stored. When your bladder is full, you’ll feel an urge to urinate (pee). |
meaning of tampons | Tampon: A pack or pad that is used to stop or collect the flow of blood or other fluids. A tampon may be made of cotton, sponge, or another material. Tampons serve in surgery to control bleeding and are used to stop severe nosebleeds. Vaginal tampons collect the flow of menstrual blood. | [ tam´pon ]. a pack, pad, or plug made of cotton, sponge, or other material; different types are used to plug the nose, vagina, or other areas for the control of hemorrhage or the absorption of secretions. Superabsorbent tampons worn monthly and inserted roughly can cause ulceration of the vaginal mucosa. | /tam·pon/ (tam´pon) [Fr.] a pack, pad, or plug made of cotton, sponge, or other material, variously used in surgery to plug the nose, vagina, etc., for the control of hemorrhage or the absorption of secretions. | Tampon. A tampon is a mass of absorbent material inserted into a body cavity or wound to absorb bodily fluid. The most common type in daily use is designed to be inserted into the vagina during menstruation to absorb the flow of menstrual fluid. | A tampon is a mass of absorbent material, primarily used as a feminine hygiene product. Historically, the word tampon originated from the medieval French word tampion , meaning a piece of cloth to stop a hole, a stamp, plug, or stopper. At present, tampons are designed to be easily inserted into the vagina during menstruation and absorb the menstrual flow. |
how much does a professional baseball player make a year | He also has the highest career earnings in MLB history. The highest paid player in Major League Baseball (MLB) from the 2013 season is New York Yankees ' third baseman Alex Rodriguez with an annual salary of $29,000,000, $4 million higher than the second-highest paid player, Cliff Lee. 1 P Average annual value is calculated as the total value of a contract (less bonuses) divided by the number of years. 2 A $20 million/2 year contract would have an average annual value of $10 million, even if the player actually received $9 million one season and $11 million in the other. | Minor League Salaries. Minor league baseball players make a pittance compared to MLB players. At the lowest level, Class A, minimum salaries are $850 a month for a short season and $1,050 for a full season. Class AA players receive a minimum of $1,500 per month, and the Triple-A player monthly minimum is $2,150. For the first time in history, MLB players averaged more than $3 million for an entire year in 2010. The increase was only 0.6 percent over 2009, the lowest jump since a drop in 2005, but still pushed the average yearly salary to $3,014,572 million. | How much a player makes depends on the position he plays. While players at all positions make the league minimum, median pay is highest for forwards. In 2013, forwards made a median salary of $99,998. Goaltenders and mid-fielders made a median salary of $80,000, while defenders made two more dollars a year. | Salary Statistics. Average MLB player salaries broke the $3 million-a-year mark for the first time in 2010. Yankees players had the highest average annual salary in 2012 at $6,186,321, while players on the Oakland Athletics had the lowest average salary at $1,845,750. These salaries only show how much the players made on the field. Highest Paid Players. Alex Rodriguez of the Yankees was paid $29 million in 2012, making him the highest paid MLB player. Johan Santana of the New York Mets earned $24 million in 2012, making him the highest paid pitcher in baseball. | With a 5 year contract with a team, the average baseball player makes about 100 million dollars in 5 years. |
how much does ils cost | Professionals interested in purchasing iLs equipment must first complete iLs training. Once trained, the cost of equipment ranges from $175-$1895. The cost of an iLs program to the end user varies depending on how iLs is implemented within a practice. End users can find an iLs practitioner by using the Provider Locator on the iLs web site or by contacting iLs. 2. Program sessions are 30 – 60 minutes in length, with a recommended frequency of 3 – 5 times per week. Program length is flexible and depends upon the therapeutic objectives as well as the client’s circumstances. | 1 On average, most bulk purchases are going to be sold per ton. 2 On average, sand can cost anywhere from $22 to $55 per ton. 3 Smaller purchases such as a 25 to 50 pound bag can range from $5 to $18 per bag. 1 They sell their sand for $34 to $55 depending on the type. 2 For people that need sand for their aquarium, live sand can range anywhere from $35 to $55 per 20 pounds. 3 Live sand is going to contain live marine bacteria and it will also provide the proper chemical balance for your fish tank. | 1 On average, sand can cost anywhere from $22 to $55 per ton. 2 Smaller purchases such as a 25 to 50 pound bag can range from $5 to $18 per bag. 3 For example, Texas Industries sells a 50 pound bag of play sand for $9 to $19. 4 These same bags can be found at various home improvement stores such as the Home Depot. 1 They sell their sand for $34 to $55 depending on the type. 2 For people that need sand for their aquarium, live sand can range anywhere from $35 to $55 per 20 pounds. 3 Live sand is going to contain live marine bacteria and it will also provide the proper chemical balance for your fish tank. | Do you mean ground based equipment or airborne equipment? --The ground based equipment for ILS cost anywhere from around $800,000 to more than $20,000,000, depending on the size of the runway, the nature of the runway environment, and the surrounding terrain. You can learn about the equipment that is involved by doing an internet search on instrument landing system.. More than an airplane. One of my guys in Germany used to oversee maintenance on our Cat III Mark 20 ILS system, and taking care of a regular ILS system would be WAYYY to much out of pocket. | If you mean full instrument flight equipment when added to the cost of the airplane itself, the typical two COMM radios and two NAV radios plus a GPS, localizer & glide slope, marker beacon receiver, selector panel and intercom will run around $25,000 for a basic airplane. More than an airplane. One of my guys in Germany used to oversee maintenance on our Cat III Mark 20 ILS system, and taking care of a regular ILS system would be WAYYY to much out of pocket. |
average temp in adirondacks | For example, a normal high temperature for mid January in the Central Adirondacks is about 24 degrees, and a normal low is about 2 degrees. This yields an average temperature of 13 degrees. | Monthly climbing area averages are for the weather station LAKE PLACID 2 S, which is 9 miles away and 497 feet above the location used for the Adirondacks climbing area forecasts. Climbing Resources. | Share: Facebook Tweet Google+. The best time to visit the Adirondacks is from May to August, when the weather is warm and the top sites are open for longer hours. But the region can get crowded this time of year, so you should book your accommodations at least three months in advance. | The average length of the freeze-free season in New York State varies from 100 to 120 days in. the Adirondacks, Catskills and higher elevations of the Western Plateau Division to 180 to 200. days on Long Island. | Average temperatures for September at cities, towns, parks and lakes throughout New York state are listed below. The tables give the normal maximum and minimum temperatures based on weather data collected from 1981 to 2010 by the US National Climatic Data Center. |
what is an lvalue | An lvalue is an expression to which a value can be assigned. The lvalue expression is located on the left side of an assignment statement, whereas an rvalue is located on the right side of an assignment statement. Each assignment statement must have an lvalue and an rvalue. The lvalue expression must reference a storable variable in memory. It cannot be a constant. lvalue is variable or you can say a memory location which can store (predefined type) rvalue while rvalue is constant. eyehz May 14th, 2007 lvalue is an expression that referes to a memory location or object. However, it is not necessary to appear on the left side of equation. For example:int x = 2;int *y;y = &x;Notice the assignment in line 3, since we declared y as a pointer to integer, the right side value must be a lvalue, ie | I have read that chapter, and I believe I can correctly distinguish between lvalues and rvalues. However before I had read good C++ books and/or the standard, I used to think that an lvalue is something that can stand on the left side of an assignment, and an rvalue is something which cannot. Obviously there are numerous counterexamples to this naive definition. | 1 An rvalue (so-called, historically, because rvalues could appear on the right-hand side of an assignment expression) is an xvalue, a temporary object or subobject thereof, or a value that is not associated with an object. 2 A prvalue (“pure” rvalue) is an rvalue that is not an xvalue. | So an rvalue is any expression that is not an lvalue. Numeric literals, such as 3 and 3.14159, are rvalues. So are character literals, such as 'a'. An identifier that refers to an object is an lvalue, but an identifier that names an enumeration constant is an rvalue. The right operand can be any expression. It need not be an lvalue. For example: int n; declares n as an object of type int. When you use n in an assignment expression such as: n = 3; n is an expression (a subexpression of the assignment expression) referring to an int object. The expression n is | An object is a contiguous region of memory storage. An lvalue (pronounced: L value) is an expression that refers to such an object. The original definition of lvalue referred to an object that can appear on the left-hand side of an assignment.. However, const objects are lvalues, and yet they cannot appear on the left-hand side of an assignment. For example: An lvalue can appear in a context that requires an rvalue; in this case, the lvalue is implicitly converted to an rvalue. An rvalue cannot be converted to an lvalue. Therefore, it is possible to use every lvalue expression in the example as an rvalue, but not vice versa. |
what is an lvalue | L-value, L value or lvalue may refer to: 1 In computer science, a value that points to a storage location, potentially allowing new values to be assigned. 2 In space physics, the value assigned to an L-shell, a particular set of planetary magnetic field lines. | An object is a contiguous region of memory storage. An lvalue (pronounced: L value) is an expression that refers to such an object. The original definition of lvalue referred to an object that can appear on the left-hand side of an assignment.. However, const objects are lvalues, and yet they cannot appear on the left-hand side of an assignment. For example: An lvalue can appear in a context that requires an rvalue; in this case, the lvalue is implicitly converted to an rvalue. An rvalue cannot be converted to an lvalue. Therefore, it is possible to use every lvalue expression in the example as an rvalue, but not vice versa. | I have read that chapter, and I believe I can correctly distinguish between lvalues and rvalues. However before I had read good C++ books and/or the standard, I used to think that an lvalue is something that can stand on the left side of an assignment, and an rvalue is something which cannot. Obviously there are numerous counterexamples to this naive definition. | Every C++ expression is either an lvalue or an rvalue. An lvalue refers to an object that persists beyond a single expression. You can think of an lvalue as an object that has a name. All variables, including nonmodifiable (const) variables, are lvalues. An rvalue is a temporary value that does not persist beyond the expression that uses it. To better understand the difference between lvalues and rvalues, consider the following example: Copy. In this example, x is an lvalue because it persists beyond the expression that defines it. | An expression that can appear in the right-hand side of an expression (but not in the left-hand side of an expression) is an rvalue. For example: An lvalue can appear in a context that requires an rvalue; in this case, the lvalue is implicitly converted to an rvalue. An rvalue cannot be converted to an lvalue. Therefore, it is possible to use every lvalue expression in the example as an rvalue, but not vice versa. |
what is an lvalue | The original definition of lvalues and rvalues from the earliest days of C is as follows: An lvalue is an expression e that may appear on the left or on the right hand side of an assignment, whereas an rvalue is an expression that can only appear on the right hand side of an assignment. | An object is a contiguous region of memory storage. An lvalue (pronounced: L value) is an expression that refers to such an object. The original definition of lvalue referred to an object that can appear on the left-hand side of an assignment.. However, const objects are lvalues, and yet they cannot appear on the left-hand side of an assignment. For example: An lvalue can appear in a context that requires an rvalue; in this case, the lvalue is implicitly converted to an rvalue. An rvalue cannot be converted to an lvalue. Therefore, it is possible to use every lvalue expression in the example as an rvalue, but not vice versa. | So an rvalue is any expression that is not an lvalue. Numeric literals, such as 3 and 3.14159, are rvalues. So are character literals, such as 'a'. An identifier that refers to an object is an lvalue, but an identifier that names an enumeration constant is an rvalue. The right operand can be any expression. It need not be an lvalue. For example: int n; declares n as an object of type int. When you use n in an assignment expression such as: n = 3; n is an expression (a subexpression of the assignment expression) referring to an int object. The expression n is | I have read that chapter, and I believe I can correctly distinguish between lvalues and rvalues. However before I had read good C++ books and/or the standard, I used to think that an lvalue is something that can stand on the left side of an assignment, and an rvalue is something which cannot. Obviously there are numerous counterexamples to this naive definition. | Every C++ expression is either an lvalue or an rvalue. An lvalue refers to an object that persists beyond a single expression. You can think of an lvalue as an object that has a name. All variables, including nonmodifiable (const) variables, are lvalues. An rvalue is a temporary value that does not persist beyond the expression that uses it. To better understand the difference between lvalues and rvalues, consider the following example: Copy. In this example, x is an lvalue because it persists beyond the expression that defines it. |
what does hemp fabric feel like | Hemp has the look of classic linen and can have the feel (depending upon fabric blend) of your favourite flannel. Hemp materials will also soften with age and with each washing. Great for hot weather. Like linen and cotton, hemp is a cool choice for summer. Eco Print. Hemp creates one of the most eco friendly fabrics in the world. Hemp requires no pesticides, crowds out weeds without herbicides, controls erosion of the topsoil, and produces oxygen. It is a renewable resource that can be cultivated in as little as 100 days and is the world’s most versatile fiber. | Since a long time humans are capable of extracting the fiber from hemp and use it at their convenience. The simplest use is to make yarn and derivatived products (twine, rope, etc..) and therefore make fabrics and textiles. Let's do a summary of all hemp properties for textiles. Hemp fiber does not elongate. It has one of the lowest elongation rate of all natural fibers. Hemp fabrics do not deform, do not stretch and do not shrink. An hemp clothing keeps the same shape all life. | Hemp (from Old English haenep) hænep is a commonly used term for-high growing varieties of The cannabis plant and its, products which include, fiber, oil and. Seed hemp is refined into products such as hemp seed, foods hemp, oil, wax, resin, rope, cloth, pulp, paper and. fuel Items ranging from rope, to fabrics, to industrial materials were made from hemp fiber. Hemp was often used to make sail canvas, and the word canvas derives from cannabis. Today, a modest hemp fabric industry exists, and hemp fibers can be used in clothing. Pure hemp has a texture similar to linen. | Hemp Fabrics. These are the best hemp fabrics we could find that were still affordable! Made from the tough, coarse fiber of the cannabis plant, hemp is a natural fiber that dyes and acts very much like cotton. Use our Fiber Reactive dyes. It wears practically forever. Remember, bolts vary! They can be over or under-we charge you for the actual yardage. | Hemp is a lot like flax, and flax is where linen comes from. In both hemp and flax, the fibers are in the stalk of the plant. The fibers are something like the threads you see in a celery stalk -- long, stringy and tough. To get at the fibers, you comb them out of the woody part of the dried stalk. |
what does hemp fabric feel like | Very soft hemp textiles. To the touch, hemp is different from other traditional fabrics such as cotton and linen with a soft feel. Moreover hemp has an extraordinary feature, more hemp clothing are washed more they soften. Thus hemp provides comfort and a feeling of softness to clothes. Hemp fiber does not elongate. It has one of the lowest elongation rate of all natural fibers. Hemp fabrics do not deform, do not stretch and do not shrink. An hemp clothing keeps the same shape all life. | Hemp is a lot like flax, and flax is where linen comes from. In both hemp and flax, the fibers are in the stalk of the plant. The fibers are something like the threads you see in a celery stalk -- long, stringy and tough. To get at the fibers, you comb them out of the woody part of the dried stalk. | Hemp (from Old English haenep) hænep is a commonly used term for-high growing varieties of The cannabis plant and its, products which include, fiber, oil and. Seed hemp is refined into products such as hemp seed, foods hemp, oil, wax, resin, rope, cloth, pulp, paper and. fuel Items ranging from rope, to fabrics, to industrial materials were made from hemp fiber. Hemp was often used to make sail canvas, and the word canvas derives from cannabis. Today, a modest hemp fabric industry exists, and hemp fibers can be used in clothing. Pure hemp has a texture similar to linen. | Hemp is often considered an environmental super fibre. Hemp fabric is made from the fibres in the herbaceous plant of the species cannabis sativa. It’s a high-yield crop that produces significantly more fibre per acre than either cotton or flax. Eco Print. Hemp creates one of the most eco friendly fabrics in the world. Hemp requires no pesticides, crowds out weeds without herbicides, controls erosion of the topsoil, and produces oxygen. It is a renewable resource that can be cultivated in as little as 100 days and is the world’s most versatile fiber. | Since a long time humans are capable of extracting the fiber from hemp and use it at their convenience. The simplest use is to make yarn and derivatived products (twine, rope, etc..) and therefore make fabrics and textiles. Let's do a summary of all hemp properties for textiles. Hemp fiber does not elongate. It has one of the lowest elongation rate of all natural fibers. Hemp fabrics do not deform, do not stretch and do not shrink. An hemp clothing keeps the same shape all life. |
cost of a hvac system for a home | 1 For a 1,000 square foot home, the cost of an HVAC system is $6,000 to $12,000, including a new furnace, air conditioning unit, and ductwork. 2 For larger homes and more complex setups, however, the price could be significantly higher. HVAC—short for Heating, Ventilation and Air-Conditioning—refers to equipment that is used to regulate the temperature, humidity and air quality of a residential or commercial building. In this guide you’ll learn more about the components of a home HVAC system in addition to how much it costs to install one. | The lower the Seasonal Energy Efficiency Rating (SEER), the more energy it takes to cool the home. The high-end system would cost Jeff $5,800, but for that $2,300 more, he got more features and optimum, 97 percent efficiency. Because the Wilsons mainly used their air conditioning to defuse the thick humidity typical in southeast Ohio during summer, a variable-speed blower was worth the investment. | 1 Click here for information on Efficiency Maine’s incentives and home energy loans for heating system upgrades. 2 It typically costs $1.22 in weatherization to save a gallon of heating oil so be sure to consider weatherization if you are trying to reduce your heating costs. | A large chunk of your household budget goes to heating and cooling your home. That cost only goes up when your home heating system doesn't work right or it breaks down. The cost to replace your home heating system won't be cheap either, but some contractors offer payment plans if you need help. Another place to look for help is your utility company; sometimes they offer rebates when you replace outworn equipment with an energy-star compliant system. | As much as half of the energy used in your home goes to heating and cooling. So making smart decisions about your home's heating, ventilating, and air conditioning (HVAC) system can have a big effect on your utility bills — and your comfort. Take these steps to increase the efficiency of your heating and cooling system. |
standard hockey rink size | Most North American rinks follow the National Hockey League (NHL) specifications of 200 feet (61 m) × 85 feet (26 m) with a corner radius of 28 feet (8.5 m). The distance from the end boards to the nearest goal line is 11 feet (3.4 m). Hockey rinks in most of the world follow the International Ice Hockey Federation (IIHF) specifications, which is 61 metres (200 ft) × 30.5 metres (100 ft) with a corner radius of 8.5 metres (28 ft). | The Dimensions of Ice Rinks. Ice rinks come in different shapes and sizes depending on the purpose. Some rinks are made for speedskating. For short tracks, the normal size is 30 by 60 meters, a measurement that is used in official Olympic Games. For long tracks, the average length is 400 meters. For the winter sport called bandy, teams usually compete in rinks that measure 90 to 110 meters by 45 to 65 meters. For ice hockey, the international-size rink measures 61 by 30 meters, the corner radius of which is 4.2 meters. | Hockey Rink Size. The rink measures 200 ft long (61 m). It has a width of 85 ft (or 26 m). The shape forms an arc and holds a radius of 28 ft (8.5 m). The structure is enfolded by boards measuring between 40” and 48”. These are made of fiberglass or wood. Rules dictate that these boards be whit | Overall Rink Dimensions. The official size of a hockey rink is 200 ft long and 85 ft wide. The rounded corners will have a radius of 28 feet. The rink will be surrounded by “boards” made of wood or fibreglass which will be not less than 40″ high, and no higher than 48″ above the ice surface. | Goal & Crease. The size of the goals is consistent in rinks across the world (even ice hockey rinks). They are 6 feet (1.83 meters) wide and 4 feet (1.22 meters) high. They are positioned in the center of the goal line at each end of the rink. |
average cost to survey a home | Land Surveyor Costs. The costs to survey an average residential home is $300 to $800. The cost will depend on the layout and accessibility. It will also be based on how complex the job is and how detailed the reports need to be. Furthermore, price will always vary from company to company. | National Average. As of 2015, home improvement resource Home Advisor cites $470 as the national average cost for a land survey, with most homeowners paying between $320 and $620. The home improvement website ImproveNet quotes approximately $360 to $470. On the high end, land surveys can be upwards of $900. | 1 For example, Homestead Land Surveying in California charges $55 an hour for the services of a junior survey technician, $95 an hour for a senior technician, $135 an hour for the principal land surveyor, $150 an hour for a two-person field crew and $220 an hour for a three-person field crew. 1 Ramsey Surveying in Arkansas estimates a typical lot survey for less than a half acre at $500 in subdivisions newer than 1970 and $750 for subdivisions older than 1950, with boundary surveys on up to 10 acres starting at $750-$850, and 10-20 acre parcels at $1,750 or more. | Lee. An appraisal will run about $325 to $350, a Survey on a standard lot should be about $250 to $300 and a home inspection should be between $250 and $350. Depending on the age of the home I also recomend a roof mitigation report to save money on home owners insurance. Home inspections generally run $250 to $300. Survey plans depend on whether or not your home is in a flood zone, because if it is, it would require an elevation certificate which would cause the price to double. | Confidence votes 7. The cost of home home survey, although it can vary by area is generally over one-hundred dollars and often as high as $350. The more work that the surveyor needs to do, the higher the cost. A large property or commercial survey can be much higher |
what is strategic marketing planning | Strategic marketing planning is the process that the operational and managerial staff of a company goes through to create and implement effective marketing strategies. Strategic marketing planning takes several aspects of company marketing and promotion into consideration. | Every CEO and marketing executive periodically faces urgent strategic marketing challenges that can affect the future of the company for many years. Frequently these decisions are made without having an opportunity to study the situation and make the best possible decision. | Its conclusions are documented in a marketing plan that is regularly updated. The five steps in strategic marketing are: identifying a mission; analyzing the situation; setting objectives; developing a marketing strategy; and planning for evaluation. | Use. Once a strategic marketing plan is in place, the company can use the plan as a guide in conducting its daily business as well as making short-term and long-term decisions. Implementation of the strategic marketing plan typically leads companies to the tactical marketing portion of conducting business. | The second major advantage of strategic marketing planning is that is allows the business to create and utilize consistent messaging internally and externally. Consistent messaging in marketing creates efficient companies because employees and customers understand what the company offers and how the company offers it. |
flexion muscles of the arm are permanent | Full Muscles of the Arm and Hand Description. The muscles of the upper arm are responsible for the flexion and extension of the forearm at the elbow joint. Flexion of the forearm is achieved by a group of three muscles – the brachialis, biceps brachii, and brachioradialis. Muscles of the Arm and Hand. The muscles of the arm and hand are specifically designed to meet the body’s diverse needs of strength, speed, and precision while completing many complex daily tasks. Activities such as lifting weights or heavy boxes require brute strength from the muscles of the arm | Arm Flexion and Extension. Flexion of the arm is also called flexion of/at the shoulder. It is typically thought of as an anterior excursion of the arm, but remember that any motion away from full extension is flexion. Muscles: pectoralis major, coracobrachialis, biceps brachii, anterior fibers of deltoid. Extension of the arm is also called extens | It is formed by the meeting of three bones: the humerus in the upper arm and the ulna and radius in the lower arm. Like all other hinge joints, the elbow permits movement in one plane, namely the flexion and extension of the forearm relative to the upper arm. | Triceps brachii. Wrist flexion. Bend your hand towards your forearm. Wrist flexors. Wrist extension. Bend your hands backwards. Wrist extensors. A helpful way to learn the muscles is to get up out of your chair and move and mimic the actions for the muscles you are learning that week. Look at the picture of the muscle, find it on your body, and picture how the muscle is contracting and what muscles are involved in the movement. | It is typically thought of as movement of the arm posteriorly, but remember that any motion away from full flexion is extension. Muscles: latissimus dorsi and teres major, long head of triceps, posterior fibers of the deltoid. It is typically thought of as an anterior excursion of the arm, but remember that any motion away from full extension is flexion. Muscles: pectoralis major, coracobrachialis, biceps brachii, anterior fibers of deltoid. |
how many days to feel better on antibiotics for strep throat | Penicillin is often the first choice of antibiotic for strep throat unless you are allergic to it. Most antibiotics are taken for 10 days. Or a single shot of penicillin may be given. The shot does not help you get better any faster than other types of penicillin. | Answer: If you're taking antibiotics for a strep throat, you can expect to start feeling a little bit better in two to three days, and oftentimes completely better in five days. Now you're going to say, gosh, if I feel better in five days, I can stop my antibiotics. | Antibiotics should be taken for 10 days, even though symptoms are usually gone after a few days. The following tips may help your sore throat feel better: 1 Drink warm liquids such as lemon tea or tea with honey. 2 Gargle several times a day with warm salt water (1/2 tsp of salt in 1 cup water). | Call your healthcare professional if you don't feel better after taking antibiotics for 48 hours. People with strep throat should stay home from work, school, or daycare until they have taken antibiotics for at least 24 hours so they don't spread the infection to others. | Antibiotics should be taken for 10 days, even though symptoms are often gone within a few days. The following tips may help your sore throat feel better: 1 Drink warm liquids, such as lemon tea or tea with honey. 2 Gargle several times a day with warm salt water (1/2 tsp of salt in 1 cup water). 3 Drink cold liquids or suck on fruit-flavored ice pops. |
balanced mutual funds meaning | Balanced Mutual Fund. A mutual fund with a portfolio mixing stocks, bonds, and cash equivalents in different types of securities in a more-or-less fixed ratio. Balanced mutual funds are used for long-term investing. They also seek to diversify one's portfolio and avoid volatility in any one market. It is an example of an asset allocation f | The purpose of balanced funds (also sometimes called hybrid funds) is to provide investors with a single mutual fund that combines both growth and income objectives, by investing in both stocks (for growth) and bonds (for income). A mutual fund that buys a combination of common stock, preferred stock, bonds, and short-term bonds, to provide both income and capital appreciation while avoiding excessive risk. | BREAKING DOWN 'Asset Allocation Fund'. Asset allocation mutual funds come in several varieties. Generally, a balanced fund implies a fixed mixed of stocks and bonds, such as 60% stocks and 40% bonds. | BREAKING DOWN 'Balanced Fund'. A balanced fund is geared toward investors who are looking for a mixture of safety, income and modest capital appreciation. The amounts that such a mutual fund invests into each asset class usually must remain within a set minimum and maximum. While some mutual funds include bonds in addition to other asset types, certain funds, aptly named bond funds, hold only ... BROWSE BY TOPIC: Asset Allocation Balanced Fund Buy and Hold Mutual Funds Portfolio Management Risk Management. | A mutual fund with a portfolio mixing stocks, bonds, and cash equivalents in different types of securities in a more-or-less fixed ratio. Balanced mutual funds are used for long-term investing. They also seek to diversify one's portfolio and avoid volatility in any one market. It is an example of an asset allocation fund. |
cpu temp ideal temperature | You can check the specifications of your particular CPU at www.cpu-world.com which details the maximum operating temperature for many processors. In general you should consider 60 degrees Celcius the absolute maximum for long periods, but aim for 45-50 degrees to be safe. We're not talking about room temperature. Most CPU run over 100 degrees fahrenheit. The link that Jim Martin gave for http://www.cpu-world.com/ gives all the information on CPU temperatures. | Real Temp. Real Temp is a temperature monitoring program designed for all Intel single Core, Dual Core, Quad Core and Core i7 processors. Each core on these processors has a digital thermal sensor (DTS) that reports temperature data relative to TJMax which is the safe maximum operating core temperature for the CPU. As your CPU heats up, your Distance to TJMax will decrease. 1 Ability to individually calibrate Real Temp for each core of your CPU. 2 Program is based on temperature data gathered using a Fluke 62 IR Thermometer. 3 Test Sensors feature will check your DTS sensors for any sign of problems. | idel temp is the temp where the cpu last as long as you want it. there are soom good charts that show voltage vs life / per daily usage. a 24 hour server needs low temp and low voltage if google wants 7 year out of it. this would like chart with hours used per day vs cpu output. bottom line is 55-65c for quad core, each core at 100% should give you 7 year life. remember if the individual cores read 55-60c the temp of the cpu might be 49-50c. | 1 Reads temperature information from all Intel Core based processors. 2 Pentium 4 processors are not supported. 3 Ability to individually calibrate Real Temp for each core of your CPU. 4 Program is based on temperature data gathered using a Fluke 62 IR Thermometer. 1 Ability to individually calibrate Real Temp for each core of your CPU. 2 Program is based on temperature data gathered using a Fluke 62 IR Thermometer. 3 Test Sensors feature will check your DTS sensors for any sign of problems. | August 14, 2008 8:21:40 AM. ideal temp is the highest temp that the system will last at for the longest amount of time or the full life of the system. this would like chart with hours used per day vs cpu output. bottom line is 55-65c for quad core, each core at 100% should give you 7 year life. remember if the individual cores read 55-60c the temp of the cpu might be 49-50c. |
what is a consistometer | Function. The Consistometer is a low cost, durable, instrument for accurately checking laboratory or production samples against consistency, viscosity or flow rate standards. It uses little bench space and is yet probably the simplest, most accurate method of conducting a variety of flow associated tests. The consistometer provides a single parameter for a variety of flow tests which can be carried out over any period under as near identical conditions as possible. The Consistometer or Bostwick Consistometer is manufactured from stainless steel engraved with a series of precise graduations at 0.5 cm intervals. | The Bostwick Consistometer is the preferred choice for measuring consistency, and flow rate in a variety of products. The Bostwick Consistometer is built for ease of operation and heavy duty use. The unit is made from stainless steel which resists corrosion. To clean it after a test, simply wash it out with water. The spring loaded gate makes the start of a test instantaneous and precise. | BACK TO TOP. Step 1- The Bostwick Consistometer is designed to sit at a specified angle. The instrument must be adjusted to ensure that it is at this angle. Locate the two twist screws in the rear of the instrument as illustrated in I. Both of these may be adjusted to raise or lower the sides of the instrument | The Bostwick Consistometer is a simple, dependable instrument which determines the consistency of various materials by measuring the distance which a sample flows under its own weight. Extra Long 30cm Bostwick Consistometer has 60 x 0.5cm graduations. Bostwick Consistometer. The unit is constructed of stainless steel and is equipped with two levelling screws and a level. The gate is spring operated and held by a positive release mechanism, permitting instantaneous flow of sample. | Bostwick Consistometer Operating instructions The consistency of a sample is measured by its resistance to flow under specific conditions, for a specified time. The Bostwick Consistometer is one of many instruments designed to make such measurements. Note: It is very important that the Bostwick Consistometer is dry before using it. Water will decrease the friction coefficient of the instrument and will result in false readings. Belgian Office: Vlamingstraat 4 - 8560 Wevelgem-Tel.: +32 56 43 28 13 - Fax: +32 56 43 28 14 - [email protected]. |
what are modes of communication | There are a great many different modes of communication, which include speech, writing, communication in person or communication at a distance by means of radio, telephone, television, telegraph, etc.; there are many different languages which can be used, including sign language which is non-verbal. | Using the Modes in Assessment. To maximize learning, the three modes of communication must be considered as three parts of a single goal: communication. Keep the visual images of the NAEP and the Wisconsin model in mind. It is possible to consider the modes separately, but their strength is in their interrelatedness. | By looking at a project through the three modes of communication, the opportunities for students to use the language related to the theme multiply. Because the three tasks are interrelated, the learning links in the brain are strengthened. | Modes of communication in a busy world. Technology is wonderful -- it allows us to communicate with others in all sorts of different ways. However, sometimes the way we or others choose is not the most appropriate for the recipient or the message. | The paper develops a theory of communication in which the sender’s and receiver’s motivations and abilities to communicate and process information endogenously determine the communication mode and the transfer of knowledge. |
what is the cause of yeast cells in intestines | By Michael Biamonte, C.C.N. Candida Albicans is a yeast that lives in our intestinal tract. It is also the yeast that causes vaginal yeast infections. It is normal to have small amounts of candida so the friendly and protective bacteria in our body called “Acidophillus and Bifidus” can use it as food. When something happens to kill off these friendly bacteria the candida cells begin to multiply out of control. | You must get the yeast out of your intestines. To keep your health in a good condition you must get the fungus out of your intestines as soon as you can. Intestinal yeast infections cause bloating, and this is just an early symptom. | When the growth of yeast is NOT kept in check by the good probiotic bacteria and the yeast becomes too widespread, the body identifies it as a foreign invader and an immune response is triggered. The immune response can cause fatigue, weakness, feelings of malaise or depression, and flu-like symptoms. | As they spread, these toxic byproducts cause damage to your body tissues and organs, wreaking havoc on your immune system. The major waste product of yeast cell activity is Acetaldehyde, a poisonous toxin that promotes free radical activity in the body. | Candida Albicans is an opportunistic fungus (or form of yeast) that is the cause of many undesirable symptoms ranging from fatigue and weight gain, to joint pain and gas. The Candida Albicans yeast is a part of the gut flora, a group of microorganisms that live in your mouth and intestine. When the Candida Albicans population starts getting out of control it weakens the intestinal wall, penetrating through into the bloodstream and releasing its toxic byproducts throughout the body. |
what is the meaning of alias name | noun. The definition of an alias is a name different than a person’s birth name. 1 An example of an alias is when a person goes into the Witness Protection Program, and they have to assume a new identity with a new name so no one can find them. alias-Legal Definition. n. 1 An assumed or additional name used by a person, frequently to conceal her true identity, or such a name applied to a person by others. 2 See also known as. 3 An alias writ. 4 Link/Cite. | 1 Shaun Hutson, alias The Godfather of Gore, made his name as a horror writer with novels like Slugs, Spawn and Relics. 2 Jason Durr, alias PC Mike Bradley, joined other cast members, producers and writers at Betty's to toast ten successful years creating the 1960s village of Aidensfield in the heart of North Yorkshire. View synonyms. 1.1 Computing An alternative name or label that refers to a file, command, address, or other item, and can be used to locate or access it. Example sentences. 1 This file contains a map of e-mail aliases to user names. | More. A Latin word, alias means literally ‘at another time, otherwise’. The term aliasing has been taken up in specialist fields such as computing for the use of an alternative name referring to a file etc, and telecommunications for misidentification of a signal frequency, introducing distortion or error. View synonyms. 1.1 Computing An alternative name or label that refers to a file, command, address, or other item, and can be used to locate or access it. Example sentences. 1 This file contains a map of e-mail aliases to user names. | Alias is a short and more popular phrase for alias dictus. The abbreviation a.k.a., also known as, is frequently used in connection with the description of a person sought by law enforcement officers to disclose the names that the person has been known to use. alias. ALIAS, practice. This word is prefixed to the name of a second writ of the same kind issued in the same cause; as, when a summons has been issued and it is returned by the sheriff, nil, and another is issued, this is called an alias summons. The term is used to all kinds of writs, as alias fi. fa., alias vend. | alias. n. 1) a name used other the given name of a person or reference to that other name, which may not be an attempt to hide his/her identity (such as Harry for Harold, initials or a maiden name). (See: a.k.a.). ALIAS, practice. This word is prefixed to the name of a second writ of the same kind issued in the same cause; as, when a summons has been issued and it is returned by the sheriff, nil, and another is issued, this is called an alias summons. The term is used to all kinds of writs, as alias fi. fa., alias vend |
how long do stargazer lily bulb last | Blooms. Lilies usually bloom in mid to late summer. Stargazer lily plants produce 4 to 12 flowers on each stalk, often in late July to early August. Flowers typically last about 1 to 3 weeks, but new blooms may appear through September. Stargazer, an oriental hybrid of lily (Lilium spp.), grows well in U.S. Department of Agriculture plant hardiness zones 8 and 9, usually reaching 2 to 4 feet high. | 3. Dig a hole with your garden shovel for each bulb. Each hole should be approximately 4 to 6 inches (10.2 to 15.2 cm) deep and spaced a minimum of 6 inches (15.2 cm) apart from one another. This distance allows for ample growing room | Flower bulbs grow well in soil with pH of 6.5 to 6.8. For indoor lilies, place the plant in a sun-filtered room with nighttime temperatures from 60 to 65 F and daytime temperatures between 68 to 85 F. Keep it away from direct heat sources. Stargazer, an oriental hybrid of lily (Lilium spp.), grows well in U.S. Department of Agriculture plant hardiness zones 8 and 9, usually reaching 2 to 4 feet high. | Answers. Best Answer: Their average bloom cycle lasts 2 - 3 weeks. After the last bloom has faded and fallen off, let the leaves get 8 - 12 weeks of sun before cutting them back. I prefer to let the leaves die back naturally before I cut them. Those leaves soak up that sun and store its energy in the bulb for next year's blooms. | Bloom Period. How long the plants bloom depends on the age, light and nutrients they get. Mature plants hold from four to 12 blooms that open in sequence over a period of approximately two weeks. On plants with many blooms, early blooms may fade as later buds above them open. Deadheading spent blooms helps strengthen the lily's bulb. Oriental Bloom. Oriental lilies bloom as Asiatic lilies fade in summer and Stargazers are early bloomers among Orientals. Where the last freezes of winter occur in May, Stargazers bloom in late July and August. In warmer zones, where bulbs can be planted as early as February, plants will bloom in late May and June. |
Subsets and Splits