Internal Energy and Energy transfers

Created by

Paul Evangelou

Cards (11)

Internal energy of a substance
The energy stored by the particles
The sum of the total kinetic and potential energies that make up the system
Heating a substance 
Transfers energy to the substance
Increases the energy of the particles that make up the substance
What heating a substance can do
Raise its temperature
Change the state of the substance
Factors that determine temperature change of a system
Mass of substance being heated
Type of material (Specific heat capacity)
Energy inputted into the system
Equation to calculate temperature change when a substance is heated 
ΔE = m c Δ𝛉
Energy (J), Mass (kg), Specific Heat Capacity (J/kg/°C), Temperature (°C)
Specific heat capacity 
The amount of energy needed to increase the temperature of 1kg of a substance by 1°C
Changes in internal energy and temperature during a change of state
The internal energy of the substance will be increased or decreased
The temperature of the substance will remain constant
Specific latent heat 
The amount of energy needed to change the state of 1kg of a substance with no change in temperature
Equation for energy required to change state
Energy to change state = mass x specific latent heat
Energy (J), Mass (kg), Specific latent heat (J/kg)
Specific latent heat of fusion
The energy required to change 1kg of a substance from solid state to liquid state without a change in temperature
Specific latent heat of vaporisation
The energy required to change 1kg of a substance from liquid state to gas state (vapour) without a change in temperature