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Sample exam questions - plant structures and functions - Edexcel Practical questions

Understanding how to approach exam questions helps to boost exam performance. Question types will include multiple choice, structured, mathematical and practical questions.

Part of Combined SciencePlant structures and their functions

Practical questions

You will complete ten required practical activities if you are studying GCSE Biology and twenty-one if you are studying GCSE Combined Science. You could be asked questions about the methods, safety precautions you might take, results and conclusions of these experiments.

In this Plant Biology section there is one required practical activity:

  • Investigate the effect of light intensity on the rate of photosynthesis

Edexcel questions courtesy of Pearson Education Ltd.

Sample question 1 - Foundation

Question

A diagram showing an investigation carried out by a student on light intensity.

A student investigates the effect of light intensity on photosynthesis. They set up the equipment shown in the diagram:

They place the lamp 10 cm from the test tube and record the number of bubbles produced in five minutes.

They then repeat the procedure with the lamp at a distance of 20 cm and 30 cm away from the test tube.

State three variables that should be kept constant during each repeat to improve the results. [3 marks]

Sample question 2 - Foundation

Question

The student noticed that the temperature of water near the light increased.

Give one improvement they could make to reduce the effect of this increase in temperature. [1 mark]

Sample question 3 - Higher

Question

A student investigated the effect of light intensity on the rate of photosynthesis of the aquatic Cabomba plant.

A lamp was used as a source of light. The lamp was placed at different distances (d) from the Cabomba plant, and the number of bubbles produced in 60 seconds was counted.

The number of bubbles produced in 60 seconds was used to calculate the rate of photosynthesis. The light intensity was then calculated using the inverse square law \( \frac {1}{d^2}\).

The table shows the student's results.

Distance (\(d\)) of lamp from Cabomba (cm)Light intensity (arbitrary units)Bubbles produced in 60 seconds
50.040079
100.010021
150.004412
200.00257
250.00165
300.00114
Distance (\(d\)) of lamp from Cabomba (cm)5
Light intensity (arbitrary units)0.0400
Bubbles produced in 60 seconds79
Distance (\(d\)) of lamp from Cabomba (cm)10
Light intensity (arbitrary units)0.0100
Bubbles produced in 60 seconds21
Distance (\(d\)) of lamp from Cabomba (cm)15
Light intensity (arbitrary units)0.0044
Bubbles produced in 60 seconds12
Distance (\(d\)) of lamp from Cabomba (cm)20
Light intensity (arbitrary units)0.0025
Bubbles produced in 60 seconds7
Distance (\(d\)) of lamp from Cabomba (cm)25
Light intensity (arbitrary units)0.0016
Bubbles produced in 60 seconds5
Distance (\(d\)) of lamp from Cabomba (cm)30
Light intensity (arbitrary units)0.0011
Bubbles produced in 60 seconds4

Use information from Question 1 to describe the effect of light intensity on the rate of photosynthesis. [2 marks]

Sample question 4 - Higher

Question

Explain what would happen to the levels of gas produced if the light intensity decreased to 0.0001 arbitrary units. [2 marks]