1,277,800 j
Zero degrees Celsius.
About 24 degrees Celsius.
9.6 MJ
Celsius
This will depend on what kind of temperature scale you intend to use.Degrees Celsius, Degrees Fahrenheit or Kelvin.Celsius:If we have a positive number, say 10 degrees Celsius, then we would get 20 degrees Celsius.If we have a negative number, say -10 degrees Celsius, then we get -20 degrees Celsius. It will simply be twice as cold.Fahrenheit:Exactly the same rules apply as for Celsius in the examples of Celsius.Kelvin:Kelvin is an absolute that is "only" dealing with positive numbers.double of 10 Kelvin is 20 Kelvin. Double again and we get 40 Kelvin. Easy as pie.Temperature indicate how much energy there is in an object or a mix of objects.When doubling the temperature in Celsius, we add to this energy.When doubling the temperature in Fahrenheit, we add to this energy, but not as much as we would in Celsius.When doubling the temperature in Kelvin, then we actually double the energy-content. Much more than when using either Celsius or Fahrenheit.Increased temperature mean increased speed of reactions.
46389000 j
It would be greater at 48 degrees Fahrenheit.
It would have to rise 18 degrees Celsius.
Zero degrees Celsius.
The answer would be 40 degrees Celsius
The amount of water whose temperature would change by 15 degrees Celsius when it absorbs 2646 joules of heat energy is 42,2g H2O.
It would likely be summer, as 32 degrees Celsius is about 90 degrees Fahrenheit.
279 degrees Celsius = 534.2 degrees Fahrenheit
114 would be a 46 degrees in celsius
43 degrees Fahrenheit = 6.11 degrees Celsius
75 degrees Fahrenheit = 23.89 degrees Celsius
500 degrees Fahrenheit = 260 degrees Celsius.