Calculating specific heat capacity (∆ E = m c ∆ θ)
I can make calculations using the equation ΔE = mcΔΘ.
Calculating specific heat capacity (∆ E = m c ∆ θ)
I can make calculations using the equation ΔE = mcΔΘ.
These resources will be removed by end of Summer Term 2025.
Lesson details
Key learning points
- Energy transferred to increase the temperature of a substance by heating by a fixed amount is proportional to mass.
- Energy transferred to a substance by heating a fixed amount is proportional to the increase in temperature.
- Energy transferred to increase the temperature of a substance by heating is proportional to its specific heat capacity.
- Specific heat capacity equals the energy transferred to/by 1 kg of a material when its temperature changes by 1ºC.
- Specific heat capacity, c, is measured in joules per kilogram per degree Celsius.
Keywords
Specific heat capacity - The change in internal energy when the temperature of 1 kg of the material changes by 1°C.
Joules/kilogram/degree C - The unit for the specific heat capacity of a material.
Common misconception
Often, after teaching, pupils often do not understand what specific heat capacity means.
Discuss the size of a substance’s specific heat capacity in terms of how hard it is to heat up a certain mass of the substance and of how much energy needs to be transferred to heat it up.
Equipment
None required.
Licence
This content is © Oak National Academy Limited (2024), licensed on Open Government Licence version 3.0 except where otherwise stated. See Oak's terms & conditions (Collection 2).
Lesson video
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Starter quiz
6 Questions
Exit quiz
6 Questions
change in energy of 1 kg of a material when it is heated by 1°C
the unit of energy
the unit of mass
a unit of temperature
the unit of specific heat capacity