Start by multiplying 32.3 with 9 and divide by 5. Then add 32 to the answer.
In this case the answer is 90.14 degree Fahrenheit .
LCD(17, 19) = 323
1, 3, 17, 19, 51, 57, 323, 969.
Days of Our Lives - 1965 1-323 was released on: USA: 13 February 1967
Jimmy Kimmel Live - 2003 10-323 was released on: USA: 30 January 2013
336
122 Fahrenheit is equivalent to approximately 50 degrees Celsius, which is 323.15 Kelvin.
A temperature of 323 degrees Kelvin is equal to 49.85 degrees Celsius. You find this answer by knowing the formula Kelvin degrees is equal to 273.15 plus degrees in Celsius. This is 323.00 is equal to 273.15 plus X, so X is equal to 49.85 degrees Celsius.
323 degrees Kelvin is equivalent to 49.85 degrees Celsius.
323 degrees K When converting from Celsius to Kelvin, you just add the temperature of absolute zero, 273 degrees, to the temperature.
Answer: 50 ºC = 323 K 1c=273.14k 50c=323.14k
Answer: 323 K = 50 ºC
Sucrase denatures around 122-140°F (50-60°C). The enzyme becomes less effective and loses its ability to catalyze the breakdown of sucrose into glucose and fructose at higher temperatures.
Kelvin is the SI unit for temperature. Celsius is usually used in metric systems. 0 degree celsius is 273.15 Kelvin. Kelvin increases equally with celsius. So to convert celsius to kelvin, we just add 273.15 to celsius. The answer in Kelvin is 323.15
Temperature is a measure of the average kinetic energy of the particles in a substance, so it is a relative scale. It does not have a true zero point like length or weight. Therefore, saying one sample is "twice as hot" as another is not meaningful in terms of absolute temperature.
its 65 degrees, in Edinboro,Pa
It's about 323° Kelvin. Generally people can handle an object up to 55 oC after that they would drop it as too hot. So 50 oC would feel quite hot but could be held by most people. 122 F.
Using the Ideal Gas Law,PV = nRTSolve for n.n = PV/RT = (101.325 kPa)(0.050 L)/(8.314)(323K) = 0.001886575 molNow we know the number of moles of the gas at 50 degrees Celsius (323 Kelvin).What we need to do now is to solve for the volume at 80 degrees Celsius (353 Kelvin).V = nRT/P = (0.001886575 mol)(8.314)(353K)/(101.325 kPa) = 0.546 molCan you please tell me if this is correct?