Transverse & Longitudinal Waves (CIE IGCSE Physics: Co-ordinated Sciences (Double Award))

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Ann H

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Ann H

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Transverse waves

Extended tier only

  • Waves can exist as one of two types:
    • Transverse
    • Longitudinal

Transverse waves

  • Transverse waves are defined as:

Waves where the direction of vibration is at right angles to the direction of propagation

  • For a transverse wave:
    • The energy transfer is perpendicular to the wave motion
    • They can move in solids, and on the surface of liquids but not in liquids or gases
    • They can move in a vacuum

Transverse wave motion

Transverse waves can be seen in a rope when it is moved quickly up and down

  • Examples of waves that can be modelled as transverse are:
    • Electromagnetic waves (such as radiowaves, visible light, X-rays etc)
    • Ripples on the surface of water
    • Seismic S-waves (secondary earthquake waves)

Longitudinal waves

Extended tier only

  • Longitudinal waves are defined as:

Waves where the direction of vibration is parallel to the direction of propagation

  • For a longitudinal wave:
    • The energy transfer is in the same direction as the wave motion
    • They can move in solids, liquids and gases
    • They can not move in a vacuum (since there are no particles)

  • The key features of a longitudinal wave are where the points are:
    • Close together, called compressions
    • Spaced apart, called rarefactions

    Longitudinal wave motion

Longitudinal Wave Vibration Spring, downloadable IGCSE & GCSE Physics revision notes

Longitudinal waves can be seen in a slinky spring when it is moved quickly backwards and forwards

  • Examples of waves that can be modelled as longitudinal waves are:
    • Sound waves
    • Seismic P-waves (primary earthquake waves)

Difference between transverse and longitudinal waves

Comparing transverse and longitudinal waves

 Property Transverse waves Longitudinal waves
Structure Peaks and troughs Compressions and rarefactions
Vibration Right angles to the direction of energy transfer Parallel to the direction of energy transfer
Vacuum Only electromagnetic waves can travel in a vacuum Cannot travel in a vacuum
Material Can move in solids and the surfaces of liquids Can move in solids, liquids and gases
Density A constant density The density of the wave changes
Pressure Has a constant pressure Pressure in the wave changes
Speed of wave Depends on the material the wave is travelling in Depends on the material the wave is travelling in

Examiner Tip

The key difference between transverse and longitudinal waves is the direction of the vibrations with respect to the direction of the wave itself. For transverse waves, these are perpendicular to each other, whilst for longitudinal waves, these are parallel.

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Ann H

Author: Ann H

Expertise: Physics

Ann obtained her Maths and Physics degree from the University of Bath before completing her PGCE in Science and Maths teaching. She spent ten years teaching Maths and Physics to wonderful students from all around the world whilst living in China, Ethiopia and Nepal. Now based in beautiful Devon she is thrilled to be creating awesome Physics resources to make Physics more accessible and understandable for all students no matter their schooling or background.