The question is the temperature at which F = 2C
F = 32 + C x 1.8
Substitute for F = 2C
2C = 32 + 1.8 C
0.2 C = 32
C = 160
F = 32 + 160 x 1.8 = 32 + 288 = 320
Answer is:
Celsius = 160
Fahrenheit = 320
100 degrees Celsius is more than twice as warm as 100 degrees Fahrenheit.
The Kelvin scale measures temperature. You can use it the same way you would use the Fahrenheit scale or the Celsius scale, but it also has an additional use. Since the Kelvin scale starts at the true zero of temperature, when there is no random thermal motion, rather than starting at some arbitrary point such as the freezing point of water (Celsius) or the coldest temperature that was obtainable in the laboratory at the time the Fahrenheit scale was first devised, you can make much more meaningful comparisons in Kelvin. If something has twice the temperature in Kelvin than something else has, then it actually is twice as hot. That is not true of other temperature scales. 20oC is not twice as hot as 10oC. But 20oK actually is twice as hot as 10oK.
Twice as hot as 0 degrees Fahrenheit is 32 degrees Fahrenheit, as there are 32 degrees between 0 and 32 on the Fahrenheit scale.
The Kelvin scale starts at a true zero; 0o K is the temperature at which there is actually no heat. Therefore, you get a true measure of heat using this system; an object at twice the temperature in kelvins is actually twice as hot. That is not true of other temperature scales such as Celsius or Fahrenheit.
The Kelvin scale is an absolute scale. This means that at 10 K there is twice as much thermodynamic activity as there is at 5 K. This property does not apply to either the Celsius or Fahrenheit scale - where the zero is arbitrary. A difference of 1 Kelvin is the same as a difference of 1 Celsius degree which is why, as an alternative scale, Celsius is preferred to Fahrenheit.
zero
milk :)
57.6 because F=2C therfore use the equation (1.8xC)+32=2C and solve for C
100 degrees Celsius is more than twice as warm as 100 degrees Fahrenheit.
Convert the temperature to Kelvin. Kelvin starts from absolute zero; so twice the temperature represents twice the internal energy. After doubling the temperature in Kelvin, you can convert back to Celsius if you like.
The Kelvin scale measures temperature. You can use it the same way you would use the Fahrenheit scale or the Celsius scale, but it also has an additional use. Since the Kelvin scale starts at the true zero of temperature, when there is no random thermal motion, rather than starting at some arbitrary point such as the freezing point of water (Celsius) or the coldest temperature that was obtainable in the laboratory at the time the Fahrenheit scale was first devised, you can make much more meaningful comparisons in Kelvin. If something has twice the temperature in Kelvin than something else has, then it actually is twice as hot. That is not true of other temperature scales. 20oC is not twice as hot as 10oC. But 20oK actually is twice as hot as 10oK.
-26 degrees? Actually, it's -229.835 degrees Fahrenheit or -136.575 Celsius. Absolute zero is -459.67 degrees Fahrenheit and -273.15 Celsius. Divide either one by 2 to get the twice as cold answer.
Twice as hot as 0 degrees Fahrenheit is 32 degrees Fahrenheit, as there are 32 degrees between 0 and 32 on the Fahrenheit scale.
The highest recorded temperature in Swedish history was 38 degrees Celsius or 100. 4 degrees Fahrenheit. It was recorded twice, first in 1933 in town of Ultuna and then again in 1947 in Malilla.
By the Celsius scale, yes. This is not necessarily the case when considering Fahrenheit. But the different temperature scales are relative; 20*F is twice as hot as 10*F. BUT the Celsius equivalent of 20*F is not twice as hot as the Celsius equivalent of 10*F.
1 degree Celsius is equal to 9/5 degrees Fahrenheit. Or it is easier to think that one degree Celsius is approximately two degrees Fahrenheit. So, if one has a thermometer that reads both Fahrenheit and Celsius, one would expect about twice the range of numbers on the Fahrenheit side, as well as potentially having more numbers marked on the scale.
The Kelvin scale starts at a true zero; 0o K is the temperature at which there is actually no heat. Therefore, you get a true measure of heat using this system; an object at twice the temperature in kelvins is actually twice as hot. That is not true of other temperature scales such as Celsius or Fahrenheit.