Figure 1 shows air inside a cylinder with a movable piston - Edexcel - GCSE Physics - Question 1 - 2018 - Paper 1
Question 1
Figure 1 shows air inside a cylinder with a movable piston.
The piston is pulled a little way in the direction of the arrow, but stays inside the cylinder.
Which o... show full transcript
Worked Solution & Example Answer:Figure 1 shows air inside a cylinder with a movable piston - Edexcel - GCSE Physics - Question 1 - 2018 - Paper 1
Step 1
Which of these increases?
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Answer
In this scenario, the correct answer is D) The pressure of the air inside the cylinder. When the piston is pulled, the volume decreases, leading to an increase in pressure according to Boyle's Law.
Step 2
State the angle that this outward force makes with the wall of the tube.
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Answer
The angle that the outward force makes with the wall of the tube is 90 degrees, as the force is perpendicular to the surface of the tube.
Step 3
Calculate the volume of air inside the tube.
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Answer
To calculate the volume of air inside the tube, we use the equation based on the principles of pressure and volume:
P1×V1=P2×V2
Substituting the values:
400000×V1=100000×4.8
Rearranging the equation, we find:
V1=400000100000×4.8
Evaluating this gives:
V1=1.2 litres
Step 4
Explain why the air in the bicycle pump gets warm.
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Answer
The air in the bicycle pump gets warm due to the work done in compressing the air. When the air is compressed, its kinetic energy increases, thereby raising the thermal energy of the system. This increase in kinetic energy results in a temperature rise, causing the warm air in the pump.
