Ideal Gases (Edexcel IGCSE Physics (Modular): Unit 2)

Exam Questions

3 hours20 questions
1a1 mark

This question is about temperature and pressure in gases.

A sealed boiling tube contains gas.

The boiling tube is heated.

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As the temperature increases, the particles in the gas

  • expand

  • collide with the container walls with more force

  • move closer together

  • have a lower average speed

1b1 mark

The boiling tube is then placed in an ice bath.

As the temperature decreases, the particles in the gas

  • expand

  • move slower

  • evaporate

  • move faster

1c3 marks

The diagrams show three states of matter.

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(i) Write the letters in the correct order from least dense to most dense.

(1)

(ii) Explain why you chose this order.

(1)

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2a1 mark

The diagram shows a syringe which contains air.

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The piston is pushed in. The volume and pressure in the syringe change.

How do the volume and pressure of the air change when the piston is pushed in?

  • Volume decreases and pressure decreases

  • Volume increases and pressure decreases

  • Volume decreases and pressure increases

  • Volume increases and pressure increases

2b4 marks

The passage below is about kinetic theory.

Complete the sentences. 

Molecules in a gas are in constant random motion at ............... speeds. 

Random motion means that the molecules do not travel in a specific path and undergo sudden changes in their motion if they collide with the ............... of its container or with other ................. .

The random motion of tiny particles in a fluid is known as .................. motion.

2c4 marks

(i) State what is meant by the term absolute zero.

(2)

(ii) State the value of absolute zero including a unit.

(2)

absolute zero = ...................... unit ...............

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3a1 mark

The diagram shows a bicycle pump with a moveable piston containing air.

fig-1-paper2h-june2018-edexcel-gcse-physics

The arrow indicates the direction in which the piston is moved.

Which of the following increases as the piston is moved?

  • the rate at which air particles collide with the walls of the cylinder

  • the pressure of the air inside the cylinder

  • the mass of the air inside the cylinder

  • the volume of the air inside the cylinder

3b4 marks

A bicycle tyre is inflated using a hand pump.

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The air inside the tube exerts an outward force on the wall of the tube.

It takes 3.2 litres of air from the atmosphere to inflate the empty tube to a pressure of 360 000 Pa.

Atmospheric pressure is 100 000 Pa.

 (i) State the angle that the outward force makes with the wall of the tube.

(1)

(ii) State the equation linking the initial pressure, initial volume, final pressure and final volume.

(1)

(iii) Calculate the final volume of air inside the tube once inflated.

(2)

final volume = ................................... L

3c4 marks

When a bicycle pump is used to inflate the tube, the air in the bicycle pump gets warm. 

Complete the sentences by circling the correct words

When the air in the bicycle pump is compressed, the volume / pressure of the gas decreases and the volume / pressure increases.

This is because the particles are moving in less space and collide more often / less often / the same amount.

The increased / decreased pressure leads to an increase in temperature. This is because the temperature is a measure of the average kinetic / potential / thermal energy of particles.

When the air in the bicycle pump is compressed, this increases / decreases the energy in the kinetic / potential / thermal store of the air particles and contributes to the overall kinetic / potential / thermal energy stored in the system, this is why the bicycle pump gets warm.

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4a1 mark

The particles of a gas exert a pressure on the walls of a container.

Which of the following rows correctly describes the relationship between pressure and the number of particle collisions with the walls of the container every second?

 

pressure

number of collisions with the walls of the container every second

A

increases

stays the same

B

increases

increases

C

decreases

stays the same

D

decreases

increases

  • Option A

  • Option B

  • Option C

  • Option D

4b1 mark

A digital thermometer gives a temperature reading of 19°C.

Convert this temperature to kelvin.

4c3 marks

A small container contains helium gas at high pressure. It comes with a label stating the pressure and volume of the helium gas inside.

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The helium gas from one small container is pumped into a large balloon which fills a final volume of 1100 cm3.

(i) State the equation linking the initial pressure, initial volume, final pressure and final volume of a gas.

(1)

(ii) Calculate the final pressure of the gas in the large balloon.

(2)

 final pressure = .............................. MPa

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5a2 marks

State what is meant by an ideal gas.

5b5 marks

The molecules of an ideal gas move around rapidly in a container as shown in the diagram.

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Complete the following sentences by circling the correct words

  1. If the temperature of the gas increases, the kinetic energy of the molecules increases / decreases, hence, the average velocity of the molecules increases / decreases.

  2. As a result, the frequency of the collisions increases / decreases.

  3. This leads to a larger / smaller change in momentum in each collision.

  4. Since force is directly / inversely proportional to the change in momentum, a greater change in momentum leads to an increase / decrease in the force exerted by the molecules on / by the walls of the container.

  5. Since pressure is directly / inversely proportional to the force, this leads to an increase / decrease in the pressure of the gas.

5c3 marks

On the axes below, sketch a graph of pressure against temperature for a constant volume of gas. Clearly mark the value of absolute zero on your graph.

5-3-5c-e--pressure-temperature-axes-sq-igcse

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1a1 mark

A fission reactor is cooled with helium gas. The gas enters the reactor at 500°C.

What is this temperature in kelvin?

1b3 marks

Helium gas enters the reactor at a pressure of 8.40 MPa and leaves the reactor at a temperature of 1170 K.

Calculate the pressure of the helium gas as it leaves the reactor. [Assume the volume of the gas does not change.]

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2a2 marks

This question is about temperature and pressure in gases.

Describe what happens to the average kinetic energy of particles as the temperature decreases from 10 K towards 0 K.

2b4 marks

(i) Convert a temperature of 27 °C into kelvin (K).

(1)

temperature = ............................. K

(ii) The gas in a cylinder has a pressure of 210 kPa at a temperature of 27°C. Calculate the new pressure when the temperature of the gas rises to 81°C.

(3)

pressure = ............................ kPa

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3a9 marks

Aneroid barometers are used to measure air pressure.

A student makes a model aneroid barometer as shown. 

screenshot-2022-09-22-at-15-00-34

 

(i) The balloon fabric is attached to the can to stop the air escaping.

Explain how the air inside the can causes a pressure on the balloon fabric.

(3)

(ii) The balloon fabric is tight and flat.

The pointer is horizontal as shown.

Explain what happens to the different parts of the model when the atmospheric pressure increases. [You may assume that the temperature remains constant.] 

(4)

 (ii) Suggest two ways that the model could be altered to increase its sensitivity to changes in atmospheric pressure.

(2)

3b3 marks

The student heats the air in her can by placing the can in a water bath.  

(i) State how this affects the reading shown by the pointer. 

(1)

(ii) Explain why this happens.

(2)

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4a3 marks

Compressed air from a can is used to clean computer keyboards. 

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Use ideas about particles to explain how a gas causes a pressure on the inside of a container.

4b3 marks

The can has a warning sign on it. 

 

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(i) How would increasing the temperature of the compressed air affect the pressure in the can? 

(1)

(ii) Explain your answer. 

(2)

4c3 marks

The can has a volume of 400 cm3 and the pressure of the compressed air inside is 5 times atmospheric pressure.

Calculate the volume that the air would occupy if it were all released to atmospheric pressure. 

 

volume = ..................................... cm3

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5a2 marks

Temperature can be measured using different scales.

Complete the table by inserting the missing temperatures. 

screenshot-2022-09-27-at-10-11-37
5b5 marks

Some students measure the volume of a sample of gas at different temperatures.

The table below shows their results. 

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 (i) Draw a graph to show how the volume of gas varies with temperature. 

(3)

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(ii) Circle the anomalous point on your graph. 

(1)

 (iii) Use your graph to find the temperature of the gas when its volume is zero. 

(1)

Temperature = ..................................... °C

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6a2 marks

The diagram shows some gas particles in a container.

The piston can be moved in or out to change the volume of the gas. 

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Add arrows to the diagram to show the random motion of the gas particles. 

6b3 marks

Explain how the motion of the gas particles produces a pressure inside the container. 

6c1 mark

State what would happen to the pressure if you pushed the piston into the container without changing the temperature.

6d3 marks

When the gas in the container is heated, the piston moves outwards. Place ticks (✓) against the three correct statements.

screenshot-2022-10-03-at-16-15-15

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7a1 mark

A hot air balloon is filled with air through an opening.

The air is heated using a burner. 

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Describe the effect of an increase in temperature on the average speed of the air molecules.

7b3 marks

The hot air causes a pressure on the inside of the balloon.

Use ideas about molecules to explain how the hot air causes this pressure.

7c1 mark

Give a reason why the hottest air rises to the top of the balloon.

7d4 marks

The average density of the hot air in the balloon is 0.95 kg/m3. The volume of this air is 2800 m3

 (i) State the equation linking density, mass and volume.

(1)

(ii) Calculate the mass of hot air in the balloon. 

(3)

 Mass of hot air = .......................... kg

7e2 marks

As the balloon climbs higher, the air pressure outside it decreases. 

(i) Suggest a reason for this change in the outside air pressure. 

(1)

(ii) Suggest how the decrease in air pressure outside the balloon affects the hot air inside. 

(1)

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8a1 mark

All gases above absolute zero exert a pressure on the walls of their container. 

State the value of absolute zero in °C. 

8b3 marks

All gases above absolute zero exert a pressure on the walls of their container. 

Explain, in terms of its molecules, how a gas exerts a pressure on the walls of its container. 

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1a6 marks

A spray-can contains gas particles that are constantly moving. 

 

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(i) How do the gas particles produce a pressure on the walls of the spray-can?

(3)

(ii) A student presses the button and some liquid leaves the can. 

The student concludes

screenshot-2022-09-21-at-14-15-06

Evaluate this conclusion.

(3)

1b1 mark

What happens to the average speed of the gas particles when the spray-can is warmed by the sun on a hot day?

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2a2 marks

The diagram shows a can that produces whipped cream using gas at high pressure. 

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The volume of the high pressure gas container is 10 cm3.

The pressure of the gas is 10 000 kPa.

When the seal at S is broken, the gas is released into the space above the cream.

The gas expands to a total volume of 270 cm3

Calculate the new pressure of the gas. 

 pressure = ..................................... kPa

2b3 marks

As the gas expands into the space above the cream, its temperature decreases. Using ideas about molecules, explain how this affects the pressure of the gas. 

2c3 marks

Some of the gas molecules dissolve into the cream. 

(i) Suggest how this affects the pressure of the gas in the space above the cream. 

(2)

(ii) When the tap is opened, the pressure of the gas forces the cream out of the spout.

The pressure outside the can is less than it is inside.

Suggest what happens to the dissolved gas as the cream leaves the can. 

(1)

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3a3 marks

The photograph shows a car tyre that needs to be inflated. 

screenshot-2022-09-22-at-15-58-41

                  Author: Ildar Sagdejev

The tyre exerts a pressure on the road of 270 kPa.

Use ideas about molecules to explain why the air inside the tyre exerts pressure. 

3b3 marks

Air is pumped into the tyre to inflate it.

This increases the temperature and the pressure of the air in the tyre.

Use ideas about molecules to explain why the air pressure in the tyre increases. 

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4a6 marks

A diver breathes air from a cylinder when he is under water. 

screenshot-2022-09-22-at-16-06-07

 

(i) The cylinder contains 8 litres of air at 200 times atmospheric pressure.

The air is released from the cylinder at normal atmospheric pressure.

The diver needs 16 litres of air per minute.

Calculate the maximum amount of time that the diver can breathe under water using this cylinder. 

(4)

 time = ..................................... minutes

     

(ii) When the diver breathes out, bubbles are released.

Suggest why the bubbles expand as they rise to the surface.

(2)

4b4 marks

A student wants to investigate how the volume of a balloon changes with pressure. 

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(i) Suggest how the student could measure the volume of an inflated balloon.

(2)

(ii) The student plans to measure the pressure of the air in the balloon. 

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Explain why the student’s plan will not work. 

(2)

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5a4 marks

A student blows up two balloons to the same size.

She puts one balloon into a freezer.

After a while, the student compares the two balloons.

The balloon that has been cooled is smaller. 

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Use ideas about particles to explain why the cooled balloon is smaller.

5b6 marks

The student decides to investigate the link between temperature and the size of the balloon.

She writes a plan. 

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There are several faults in the student's plan.

Identify three of these faults and suggest an improvement to correct each one. 

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6a3 marks

A diver works in the sea on a day when the atmospheric pressure is 101 kPa and the density of the seawater is 1028 kg/m3

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The diver uses compressed air to breathe under water.

1700 litres of air from the atmosphere is compressed into a 12-litre gas cylinder.

The compressed air quickly cools to its original temperature.

Calculate the pressure of the air in the cylinder.  

 pressure = .......................... kPa

6b4 marks

(i) State the equation linking pressure difference, depth, density and g

(1)

(ii) Calculate the increase in pressure when the diver descends from the surface to a depth of 11 m.

(2)

increase in pressure = .......................... kPa

(iii) Calculate the total pressure on the diver at a depth of 11 m.

Assume that the atmospheric pressure remains at 101 kPa. 

(1)

total pressure = .......................... kPa

6c2 marks

As the diver breathes out, bubbles of gas are released and rise to the surface.

The bubbles increase in volume as they rise.

Explain this increase in volume. 

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7a3 marks

A student uses this apparatus to investigate the pressure and volume inside a sealed gas syringe. 

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She takes readings of the volume as she increases the pressure (loading) and as she decreases the pressure (unloading).

These are her results. 

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(i) Complete the table by filling in the missing value. 

(1)

(ii) Suggest why the student takes readings for increasing the pressure and for decreasing the pressure.

(2)

7b6 marks

The student plots this graph.

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(i) Suggest a reason why the axes do not start from the origin (0,0). 

(1)

(ii) The student has drawn both a straight line of best fit and a curve of best fit.

Discuss which line is correct for this investigation.

(2)

(iii) Suggest a way that the student could make this experiment valid (a fair test).

(1)

 (iv) Suggest two ways in which the student could improve the quality of her data.

(2)

7c3 marks

The student concludes that her data validates the relationship between pressure and volume of a fixed mass of gas.

Use data from this table to evaluate her conclusion. 

screenshot-2022-10-03-at-17-02-16

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