The thermal energy of a solid or a volume of liquid is the specific heat of a material multiplied by the object's mass and temperature (absolute). I.E. 1 kg of water at 27 degrees C: specific heat of water is 4.186 Kilojoules per kilogram-degree Celsius. Multiply that by the mass and the absolute temperature (Degrees Kelvin, or 273.15 + degrees Celsius) to get the thermal energy in kilojoules
That depends entirely on the substance in question, but it is called the specific heat capacity. Energy = specific heat capacity x mass x change in temperature (Celsius or Kelvin) q = Cg x m x (T2 - T1)
Assuming the change takes place under the pressure of 1 atmosphere, the heat lost will be 1000 calories or 1 kCal.
Just convert all the temperatures to Kelvin (add 273 to the Celsius temperature). The volume is directly proportional to the absolute (Kelvin) temperature.
46 calories (or 192, 464 joules) for each Celsius degree.
Celsius and degree measure temperature. Celsius, mass, and kelvin are metric measurements. Celsius and Kelvin are metric and temperature measurements. Celsius and Kelvin are the related terms.
All of them except mass.
Because every object has mass but the metric unit of measure is grams
Kilograms and Kelvin (or degrees Celsius).
Length: meter Mass: kilogram Volume: cubic meter Temperature: Kelvin
The law states that the volume of a given mass of gas is directly ( result in same direction of change ) proportional to its kelvin temperature at constant ( same ) pressure.So... (V1/ T1) = (V2/T2) when V is volume and T is temperature in Kelvin! Note: Celsius degree + 173= kelvin temperature. (ie. 23 Celsius dregree + 173 = 196 Kelvin degree.)Charles's law is a part of the ideal gas law...
mass
the unit of mass is the mass of one cubic centimeters of water at STP. - gram the unit of temperature (degrees Kelvin or Kelvins) is related to the difference between the freezing point ofd pure water and the boiling point at STP. - Celsius, reduced to absolute zero for Kelvin.
The heat capacity of a substance is the amount of heat required to raise the temperature of a defined amount of pure substances by one degree (Celsius or Kelvin). The calorie was defined so that the heat capacity of water was equal to one.
Zero degrees Celsius is about the same as 273 Kelvin. Zero degrees Kelvin is a temperature that has yet to be reached in the lab, or anywhere in the known universe because at zero Kelvin mass ceases to have volume. 0 Kelvin, although only theoretical, is the lowest temperature possible, therefore zero Kelvin is much, much colder.
kilogram, litre and degree Celsius.
Both pressure and volume of any gas are directly, linearely proportional to temperature in Kelvin, that is degree Celsius + 273.13. Density is not directly related to temperature, it is related to mass and volume.