GCSE Questions: Energy Changes
Q9. The diagram shows a toy car in different positions on a racing track.
The toy car and racing track can be modelled as a closed system.
(i) Tick one of the statements below to explain why you think the toy car and racing track can be considered to be 'a closed system'.
The racing track and the car both have gravitational potential energy. |
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The racing track and the car are always in contact with each other. |
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The total energy of the racing track and the car is constant. |
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[1 mark]
(ii) The car is released from rest at position A and accelerates due to gravity down the box track to position B.
mass of toy car = 0.040 kg
vertical height between position A and position B = 90 cm
gravitational field strength = 9.8 N/kg
Calculate the maximum possible speed of the toy car when it reaches position B.
[5 marks]
(iii) At position C the car's gravitational potential energy is 0.20 J greater than at position B.
How much kinetic energy does the car need at position B to complete the loop of the track? Give a reason for your answer.
[2 marks]
[Total 8 marks]