Multiply degrees Celsius by 1.8 and then add 32 to the result. The answer is degrees Fahrenheit.
Use this formula to convert degrees Celsius (C) to degrees Fahrenheit (F): (C x 1.8) + 32 = F
16 degrees Fahrenheit = - 9 degrees Centrigrade. To convert F to C, subtract 32 and multiply by 4/9ths. For a 'rule of thumb' conversion, subtract 30 and then divide by 2. (this gives -7 instead of -8.89, but I suspect this is good enough for most purposes.)
The average temperature of the ocean is about 1°C. The temperature of the ocean is 28.4 degrees Fahrenheit Answers to this question can be long and complicated, as a rule of thumb , water near the equator can be as high as 80 degrees Fahrenheit, near the Poles about 28 degrees Fahrenheit. The western sides of the oceans are usually warmer than the eastern sides, due to the way in which ocean currents move.
-273 degrees celsius is absolute 0, which cannot be achieved theoretically, however, the answer to your question is 0 (as goes for any gas, but here's another mind boggler for you: it won't be a gas at absolute 0 either) more complex explanation below: _________________________________________________________ The ideal gas is only ideal, if it follows this mathematical rule (the ideal gas law). Dividing it by the pressure, you get: Volume = Mass * Some Constant * Temperature / Pressure If the Temperture is zero you get: Volume = 0 / Pressure = 0 So the volume is 0, if the temperture is 0. The ideal gas exists only theoreticaly. Logically the volume can't be 0 and therefor no gas is ideal.
Fleming's right hand rule shows the direction of induced current flow when a conductor moves in a magnetic field. Fleming's left hand rule shows the direction of the thrust on a conductor carrying a current in a magnetic field.
Use this formula to convert degrees Celsius (C) to degrees Fahrenheit (F): (C x 1.8) + 32 = F
3 degrees Celsius equals 37.4 degrees Fahrenheit my life rule When life brings you, hug a FLUFFY ELEPHANT.
16 degrees Fahrenheit = - 9 degrees Centrigrade. To convert F to C, subtract 32 and multiply by 4/9ths. For a 'rule of thumb' conversion, subtract 30 and then divide by 2. (this gives -7 instead of -8.89, but I suspect this is good enough for most purposes.)
Why estimate? Use this formula. Temperature Fahrenheit = Temperature Celsius(1.80) + 32
-40. Here's how: Let F = degrees in Fahrenheit Let C = degrees in Celsius. The rule for conversion is: F = (9/5) * C +32 Think: 0 C is 32 F, the freezing point of water. Also, 100 C = 212 F, the boiling point of water. Let F = C. C=(9/5)C + 32 -32 = (4/5) C C = (-32 * 5)/4 = -40 Fahrenheit = Celsius at -40 degrees.
Both kinds are available. Fahrenheit ones are usually used in homes, and Celsius ones are usually used in hospitals and doctors' offices. But there's no rule.
It's most dense at 4 degrees celsius. Get any lower and it takes up more volume. As a general rule, chemicals get denser as they get colder.
The average temperature of the ocean is about 1°C. The temperature of the ocean is 28.4 degrees Fahrenheit Answers to this question can be long and complicated, as a rule of thumb , water near the equator can be as high as 80 degrees Fahrenheit, near the Poles about 28 degrees Fahrenheit. The western sides of the oceans are usually warmer than the eastern sides, due to the way in which ocean currents move.
To go from Kelvin to Celsius: subtract 273.15 To go from Celsius to Fahrenheit:* Begin by multiplying the Celsius temperature by 9. * Divide the answer by 5. * Now add 32.
Diamond, as a rule does not melt or boil under ordinary atmosphere. It simply goes up in smoke (converts directly to CO2 when heated to 800 degrees F in the presence of oxygen). Its melting point (at very high temps) is roughly 3500 degrees Celsius (very hot), but you need extreme pressure to achieve it (otherwise, it converts to CO2). Its melting point is the highest of all known materials, in large part because of the covalent bonds and the fact its atoms (carbon) are quite small and thus pack very tightly.
Anders Celsius proposed this scale in 1742, defining 100 degrees as the boiling point of water and 0 degrees as the freezing point. This was reversed before his scale was actually put to use. The 100 degree difference led to the 'cent' prefix, indicating each division was 1/100 of the difference. Since 'centigrade' is a geometric measurement of angles in Spanish-speaking countries, it was sometimes called the Celsius scale but it was not until 1948 that this name was officially adopted by the scientific community.
Use the 40/140 rule: Keep foods colder than 40 degrees, or heated to over 140 degrees. This will help to prevent food-borne illnesses.