Conservation of Energy (Edexcel IGCSE Science (Double Award))
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Conservation of energy
What is the principle of conservation of energy?
The principle of conservation of energy states that:
Energy cannot be created or destroyed, it can only be transferred from one store to another
This means the total amount of energy in a closed system remains constant
The total energy transferred into a system must be equal to the total energy transferred out of the system
Therefore, energy is never 'lost' but it can be transferred to the surroundings
Energy can be dissipated (spread out) to the surroundings by heating and radiation
Dissipated energy transfers are often not useful, and can then be described as wasted energy
Examples of the principle of conservation of energy
Example 1: a bat hitting a ball
The moving bat has energy in its kinetic store
Some of that energy is transferred usefully to the kinetic store of the ball
Some of that energy is transferred from the kinetic store of the bat to the thermal store of the ball mechanically due to the impact of the bat on the ball
This energy transfer is not useful; the energy is wasted
Some of that energy is dissipated by heating to the thermal store of the bat, the ball, and the surroundings
This energy transfer is not useful; the energy is wasted
The principle of conservation of energy applied to a bat hitting a ball
Example 2: Boiling Water in a Kettle
When an electric kettle boils water, energy is transferred electrically from the mains supply to the thermal store of the heating element inside the kettle
As the heating element gets hotter, energy is transferred by heating to the thermal store of the water
Some of the energy is transferred to the thermal store of the plastic kettle
This energy transfer is not useful; the energy is wasted
And some energy is dissipated to the thermal store of the surroundings due to the air around the kettle being heated
This energy transfer is not useful; the energy is wasted
The principle of conservation of energy applied to a kettle boiling water
Example 3: Trampoline
Whilst jumping, the person has energy in their kinetic store
When the person lands on the trampoline, most of that energy is transferred to the elastic potential store of the trampoline
That energy is transferred usefully back to the kinetic store of the person as they bounce upwards
Energy is transferred from the kinetic store of the person to the gravitational potential store of the person as they gain height
Some of the energy is dissipated by heating to the thermal store of the surroundings (the person, the trampoline and the air)
The useful energy transfers taking place are:
elastic potential energy ➝ kinetic energy ➝ gravitational potential energy
The principle of conservation of energy applied to a person jumping on a trampoline
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