heat us the energy transferred between two objects that are different temperatures. Whereas temperature is the measure if how hot(or cold) something is; a measure if the average kinetic energy of the particles in an object.
Heat is the supply .Temp. is the amount
-or-
Heat = Name ie..Fire...friction / Temp = Measurement ie.. Fahrenheit. .. Celsius
heat differs because temperature is the amount of coldness and hotness it is in a certain area. and heat is the substance that temperature measures
Thermal decomposition refers to the process where a substance breaks down into simpler compounds upon heating, while decomposition temperature is the specific temperature at which this decomposition occurs. So they are related concepts but not the exact same thing.
The latent heat of vaporization
Temperature is a measurement of heat. Heat is not an example of temperature.
The flow of heat in and out of an object changes its temperature.
I think its to do with the more heat the less air so the more air the further but quieter the echo will be more hot it is the less it travels the louder it is, its all to do with vibraitions through air and heat that's how it differs
Heat is the cause and temperature is the effect Heat = mass x specific heat capacity x temperature Heat is proportional to temperature and in not equal to temperature. Heat has joule as unit where as temperature has the unit kelvin
I think its to do with the more heat the less air so the more air the further but quieter the echo will be more hot it is the less it travels the louder it is, its all to do with vibraitions through air and heat that's how it differs
No, heat is an energy where the temperature is not.
Temperature measures heat.
No temperature is a specific measurement of heat. Thus at a temperature of absolute zero there is no heat but there is a temperature measurement.
Heat is the energy transferred between objects due to a temperature difference, while temperature is a measure of the average kinetic energy of the particles in a substance. Heat can flow from hot to cold objects until thermal equilibrium is reached, where both objects have the same temperature.