GCSE Physics

Energy
22 Topics | 23 Quizzes
Energy Stores
Energy Stores Quiz
Energy Transfers and Work Done
Energy Transfers and Work Done Quiz
Elastic Potential Energy
Elastic Potential Energy Quiz
Energy in Food
Energy in Food Quiz
Energy Efficiency
Energy Efficiency Quiz
Power and Work Done
Power and Work Done Quiz
Reducing Energy Loss
Reducing Energy Loss Quiz
Radiation
Radiation Quiz
Convection
Convection Quiz
Conduction
Conduction Quiz
Gravitational Potential Energy
Gravitational Potential Energy Quiz
Conservation of Energy and Wasted Energy
Conservation of Energy and Wasted Energy Quiz
Kinetic Energy
Kinetic Energy Quiz
Energy Sources and Demands
Energy Sources and Demands Quiz
Non-Renewable Energy Resources
Non Renewable Energy Sources Quiz
Renewable Energy Resources
Renewable Energy Sources Quiz
Wind and Solar Energy
Wind and Solar Energy Quiz
Hydroelectric and Tidal Energy
Hydroelectric and Tidal Energy Quiz
Geothermal Energy and Biofuels
Geothermal Energy and Biofuels Quiz
Electrical appliances
Electrical Appliances Quiz
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Forces
11 Topics | 12 Quizzes
What is a Force?
What is a Force? Quiz
Contact and Non-Contact Forces
Contact and Non-contact Forces Quiz
Scalar and Vector Quantities
Scalar and Vector Quantities Quiz
Gravitational Forces
Gravitational Forces Quiz
Resultant Forces and Free Body Diagrams
Resultant Forces and Free Body Diagrams Quiz
Elastic Deformation
Elastic Deformation Quiz
Hooke’s Law and Force-Extension Graphs
Hooke’s Law and Force-extension Graphs Quiz
Moments, Gears and Levers
Moments, Gears and Levers Quiz
What is Pressure?
What is Pressure? Quiz
Liquid Pressure and Upthrust
Liquid Pressure and Upthrust Quiz
Atmospheric Pressure
Atmospheric Pressure Quiz
Forces
Forces and Motion
13 Topics | 14 Quizzes
Distance, Displacement, Speed and Velocity
Distance, Displacement, Speed and Velocity Quiz
Acceleration
Acceleration Quiz
Distance-Time Graphs
Distance-Time Graphs Quiz
Velocity-Time Graphs
Velocity-Time Graphs Quiz
Terminal Velocity and Air Resistance
Terminal Velocity and Air Resistance Quiz
Newtons First Law
Newton’s First Law Quiz
Newton’s Second Law
Newton’s Second Law Quiz
Newton’s Third Law
Newton’s Third Law Quiz
Stopping Distances
Stopping Distances Quiz
Calculating Momentum
Calculating Momentum Quiz
Conservation of Momentum
Conservation of Momentum Quiz
Force and Momentum
Force and Momentum Quiz
Momentum and Car safety
Momentum and Car Safety Quiz
Forces and Motion
Waves in Matter
9 Topics | 10 Quizzes
What is a Wave?
What is a Wave? – Quiz
Properties of Waves
Properties of Waves Quiz
Reflection
Reflection Quiz
Refraction
Refraction Quiz
Sound Waves and Hearing
Sound Waves and Hearing Quiz
Detecting Sound
Detecting Sound Quiz
Echoes and Ultrasound
Echoes and Ultrasound Quiz
Seismic Waves
Seismic Waves Quiz
Comparing Light Waves and Sound Waves
Comparing Light Waves and Sound Waves Quiz
Waves in Matter Quiz
Light and Electromagnetic Waves
7 Topics | 8 Quizzes
Electromagnetic Waves
Electromagnetic Waves Quiz
Applications of Electromagnetic Waves
Applications of Electromagnetic Waves Quiz
Convex and Concave Lenses
Convex and Concave Lenses Quiz
Convex and Concave Ray Diagrams
Convex and Concave Ray Diagrams Quiz
Visible Light and Colour
Visible Light and Colour Quiz
Colour Filters
Colour Filters Quiz
The Absorption and Emission of infrared Radiation
The Absorption and Emission of Infrared Radiation Quiz
Light and Electromagnetic Waves Quiz
Electricity
13 Topics | 14 Quizzes
Electrical Circuit Symbols
Electrical Circuit Symbols Quiz
Charge and Current
Charge and Current Quiz
Current, Potential difference and Resistance
Current, Potential Difference and Resistance Quiz
Current-Potential Difference Graphs
Current-Potential difference Graphs
Series Circuits
Series Circuit Quiz
Parallel Circuits
Parallel Circuits Quiz
Direct Current and Alternating Current
Direct Current and Alternating Current Quiz
Electrical Power and Energy Transfers in Appliances
Electrical Power and Energy Transfers in Appliances
The National Grid
The National Grid Quiz
Plugs and Wires
Plugs and Wires Quiz
The Dangers of Mains Electricity
The Dangers of Mains Electricity Quiz
Static Electricity
Static Electricity Quiz
Electric Fields
Electric Fields Quiz
Electricity Quiz
Magnetism and Electromagnetism
10 Topics | 11 Quizzes
Properties of Magnets
Properties of Magnets Quiz
Magnetic Fields
Magnetic Fields Quiz
The Earth’s Magnetic Field
The Earth’s Magnetic Field Quiz
Permanent and Induced Magnets
Permanent and Induce Magnets Quiz
Electromagnetism
Electromagnetism Quiz
The Motor Effect
The Motor Effect Quiz
Electric Motors
Electric Motors Quiz
Electromagnetic Induction
Electromagnetic Induction
How Transformers Work
How Transformers Work Quiz
Transformer Equations
Transformer Equations Quiz
Magnetism and Electromagnetism
Particle Model of Matter
8 Topics | 9 Quizzes
Density
Density Quiz
Particle Theory and States of Matter
Particle Theory and States of Matter Quiz
Changes of State
Changes of State Quiz
Internal Energy
Internal Energy Quiz
Specific Latent Heat
Specific Latent Heat Quiz
Particle Motion
Particle Motion Quiz
Volume and Pressure in Gases
Volume and Pressure in Gases Quiz
Work Done on a Gas
Work Done on a Gas Quiz
Particle Model of Matter Quiz
Atomic Structure
13 Topics | 14 Quizzes
Developing the Atom
Developing the Atom Quiz
Rutherford Scattering
Rutherford Scattering Quiz
Bohr’s Model of the Atom
Bohr’s Model of the Atom Quiz
The Structure of the Atom
The Structure of the Atom Quiz
Isotopes and Ions
Isotopes and Ions Quiz
Radioactive Decay and Nuclear Radiation
Radioactive Decay and Nuclear Radiation Quiz
Nuclear Decay Equations
Nuclear Decay Equations Quiz
Radioactive Decay and Half Life
Radioactive Decay and Half Life Quiz
Using Radiation in Medicine
Using Radiation in Medicine Quiz
Irradiation and Contamination
Irradiation and Contamination Quiz
The Dangers of Radiation
The Dangers of Radiation Quiz
Nuclear Fission
Nuclear Fission Quiz
Nuclear Fusion
Nuclear Fusion Quiz
Atomic Structure
Space Physics
7 Topics | 8 Quizzes
The Life Cycle Of Stars
The Life Cycle of Stars Quiz
The Solar System
The Solar System Quiz
The Universe and Objects Found in Space
The Universe and Objects Found in Space Quiz
Orbital Motion
Orbital Motion Quiz
Red-shift
Red-shift Quiz
The Big Bang Theory
The Big Bang Theory Quiz
Dark Matter and Dark Energy
Dark Matter and Dark Energy Quiz
Space Physics
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Volume and Pressure in Gases

GCSE Physics Particle Model of Matter Volume and Pressure in Gases

The pressure of a gas is caused by the collision of its particles with the walls of the container. The pressure produces a force that acts at right angles to the wall of the gas container, or any surface. This force is acting over the area of the container.

Diagram displaying a vertical grey bar with three red arrows pointing rightwards, each labelled 'Force'. Opposite to these arrows, on the left side, are three green circles with blue arrows pointing towards the grey bar, indicating the points of application of the forces.

If we increase the number of gas particles in the container while keeping the volume the same, the concentration increases.

Diagram showing two cylindrical containers. The container on the left has a few blue dots inside, while the container on the right has a larger number of blue dots. An arrow labelled 'Increasing concentration' points from the left container to the right container, illustrating a change from a lower to a higher concentration of blue dots.

At a higher concentration, there is less spacing between the gas particles. As the gas particles can collide with each other, they do not have to travel as far to collide with the walls of the container.

There will also be more particles to collide with and apply force to the same area. So, there will be more frequent collisions and therefore greater pressure.

Volume and Pressure

If we decrease the volume of the gas container but still have the same number of gas particles, then the particles have less space to move. For example, in the diagram below, the piston is pushed downwards.

Diagram illustrating the relationship between volume and pressure in two scenarios. On the left, a cylindrical container with a rising inner column shows an increase in volume, accompanied by upward arrows and the text "VOLUME INCREASES". This results in a decrease in pressure, depicted by a downward arrow and a pressure gauge with a lower reading, labelled "PRESSURE DECREASES". On the right, the container has a descending inner column indicating a decrease in volume, with downward arrows and the text "VOLUME DECREASES". This causes an increase in pressure, represented by an upward arrow and a pressure gauge with a higher reading, labelled "PRESSURE INCREASES".

There are more particles per unit of volume, which is the same as saying there is a high concentration of particles. As there is a shorter distance between each collision, there will be more collisions, which means greater pressure.

There is an inverse relationship between volume and pressure: as volume increases, pressure decreases, and vice versa.

Calculating pressure and volume

For a fixed mass at a constant temperature:

Equation in cursive font stating that the product of "Pressure" multiplied by "Volume" equals a "Constant".

Equation in cursive font showing that the product of "p" and "V" is equal to "Constant".

  • p = Pressure in pascals (Pa)
  • V = Volume in metres cubed (m³)

This is another way to look at the equation:

The pressure multiplied by the volume at the start is equal to the pressure multiplied by the volume at the end.

Or

P1V1 = P2V2

  • P1 and V1 represent the pressure and volume before the change.
  • P2 and V2 represent the pressure and volume after the change.

Flexible containers

So far, we have assumed that the containers have a fixed shape. However, if the container is flexible, then changing the temperature or concentration will change the volume of the container instead of the pressure.

This occurs because an increase in the number of collisions or the force of collisions will expand the container rather than increase the pressure.

Two diagrams depicting the effect of temperature on gas volume at constant pressure. On the left, a container filled with purple gas molecules is shown next to a thermometer indicating a lower temperature and a pressure gauge reading 'Constant Pressure'. Beneath the container, there is a caption that reads 'Decrease in temperature will cause decrease in volume'. On the right, a similar container filled with purple gas molecules is depicted next to a thermometer indicating a higher temperature and the same 'Constant Pressure' gauge. Under this container, the caption reads 'Increase in temperature will cause increase in volume'. Both containers are shown with a burner flame underneath, illustrating the source of heat.

  • An example of a flexible container is a balloon

Although in reality, it will most likely increase the volume and the pressure. As there is a limit to how far the flexible container can expand.

Example

A gas occupies a volume of 0.20 m³, at a pressure of 100 Pa. Calculate the pressure exerted by the gas if it is compressed to a volume of 0.10 m³. Assume that the temperature and mass of the gas stay the same.

Step 1: List the known quantities

$P_{1}$ (initial pressure) = 100 Pa

$V_{1}$ (initial volume) = 0.20 m³

$V_{2}$ (new volume) = 0.10 m³

Step 2: Rearrange the equation $P_{1}V_{1}=P_{2}V_{2}$ to find $P_{2}$:

$P_{2}=\frac{P_{1}\times V_{1}}{V_{2}}$

$P_{2}=\frac{100 \times 0.20}{0.10}$

$P_{2}$ (new pressure) = 200 Pa

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