Work, GPE & KE (Edexcel IGCSE Science (Double Award))
Revision Note
Work, GPE & KE
GPE is gravitational potential energy
KE is kinetic energy
In many situations, energy is transferred between the GPE and KE stores
Whenever mechanical work is done (when a force acts over a distance), energy is transferred mechanically
This is a consequence of conservation of energy
The amount of energy transferred (in joules) is equal to the work done (in joules or newton-metres)
energy transferred (J) = work done (J or N m)
GPE and KE calculations
In a perfect energy transfer, there is no wasted energy
Energy transfers can be assumed to be perfect if the wasted energy transfer is negligible
Some exam questions will state to ignore air resistance for example
In reality, there is no such thing as a perfect energy transfer
Ignoring wasted energy transfers is helpful in calculations because it allows energy values to be equated
Pendulums are often used as examples of perfect energy transfers
All of the energy in the kinetic store of the pendulum is transferred mechanically into its gravitational potential store
And then all of the energy in the gravitational potential store of the pendulum is transferred mechanically into its kinetic store
Energy is transferred back and forth between these two stores as the pendulum swings
Therefore, it can be said that:
Worked Example
The diagram shows a rollercoaster going down a track.
The rollercoaster takes the path A → B → C → D.
The rollercoaster begins at a height of 15 m above the ground and ends at ground level.
Breaking to stop the ride begins after it passes position D.
The mass of the rollercoaster is 100 kg.
Calculate the maximum speed of the rollercoaster at position D. Ignore any frictional effects before passing point D.
Answer:
Step 1: List the known quantities
Height, h = 15 m
Mass, m = 100 kg
Gravitational field strength, g = 10 N/kg
Step 2: Write out the equation for gravitational potential energy
Step 3: Calculate the gravitational potential energy
Step 4: Use energy equivalency to equate the gravitational potential and kinetic energy
Frictional effects are to be ignored; therefore, a perfect energy transfer can be assumed
Step 5: Write out the equation for kinetic energy
Step 6: Rearrange to make speed the subject:
Step 7: Calculate the maximum possible speed of the rollercoaster at position D
At position D the rollercoaster is at ground level
Therefore, all the energy has been transferred from the gravitational potential to the kinetic store
The maximum possible speed is based on the assumption of a perfect energy transfer
Examiner Tips and Tricks
When the question tells you to ignore the effects of resistance (ie wasted energy transfers), this is a clue that you may need to use energy equivalency to find the missing quantity needed for your calculation.
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