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Sample exam questions - energy - OCR GatewayPractical questions

Understanding how to approach exam questions helps boost exam performance. Questions will include multiple choice, descriptions and explanations, using mathematical skills and extended writing.

Part of Physics (Single Science)Energy

Practical questions

You will complete eight Practical Activity Groups (PAGs) if you are studying GCSE Physics, and 16 if you are studying GCSE Combined Science (six of these are in Physics). You could be asked questions about the apparatus, methods, safety precautions, results, analysis and evaluation of these experiments.

There is one PAG in the Energy section:

  • P5 Energy, eg investigation of energy changes and efficiency of bouncy balls

Learn about practicals with Dr Alex Lathbridge

Dr Alex Lathbridge answers questions about practicals.

Sample question 1 - Foundation

Question

Susie does some experiments with heating and cooling water.

Susie pours hot water into 4 test tubes.

Look at the diagram:

Four test tubes are filled with varying amounts of hot water.

The water cools down.

Susie measures the temperatures of the water in each test tube as it cools.

Look at the graph of her results:

A graph showing four temperature decreases over time.

Which line shows the results for the test tube with 40 g of water?

Choose from A, B, C or D. Explain your answer. [2 marks]

OCR Gateway Science, GCE Physics, Paper B751, June 2015.

Sample question 2 - Foundation

Question

Microwave ovens are used to heat food.

Chris looks at information about three different microwave ovens.

He wants to compare the three ovens. He wants to know which oven heats food the fastest.

Describe an experiment Chris could do to find this out. [3 marks]

OCR Gateway Science, GCE Physics, Paper B751, June 2014.

Sample question 3 - Higher

Question

Kate investigates how well different balls bounce.

She drops different balls from the same height and measures the height the balls bounce.

She repeats the experiment three times for each ball.

Her results are shown in the table.

BallDrop height (cm)1st reading bounce height (cm)2nd reading bounce height (cm)3rd reading bounce height (cm)Mean bounce height (cm)
Blue10061626061
Green10060315950
White10084868585
Yellow100262426
BallBlue
Drop height (cm)100
1st reading bounce height (cm)61
2nd reading bounce height (cm)62
3rd reading bounce height (cm)60
Mean bounce height (cm)61
BallGreen
Drop height (cm)100
1st reading bounce height (cm)60
2nd reading bounce height (cm)31
3rd reading bounce height (cm)59
Mean bounce height (cm)50
BallWhite
Drop height (cm)100
1st reading bounce height (cm)84
2nd reading bounce height (cm)86
3rd reading bounce height (cm)85
Mean bounce height (cm)85
BallYellow
Drop height (cm)100
1st reading bounce height (cm)26
2nd reading bounce height (cm)24
3rd reading bounce height (cm)
Mean bounce height (cm)26

Kate forgot to record one of the results for the yellow ball.

a) Suggest the value of the missing result. [1 mark]

Josh does an experiment with bouncing balls.

He does his experiment with a drop height of 200 cm.

One ball bounces 100 cm.

Josh says that this ball is a better bouncer than any of Kate's.

b) Use the data and ideas about efficiency to explain why Josh is incorrect. [2 marks]

Josh uses a new ball. He says this ball is an amazing bouncer.

He says if you drop it from 200 cm it will bounce to a height of 250 cm.

c) Explain why this is not possible. [2 marks]

OCR Gateway Science, GCE Physics, Paper J249, 2016 - Higher.