Wave Motion (Oxford AQA IGCSE Physics)

Revision Note

Wave Motion

  • When describing wave motion, there are several terms which are important to know, including:

    • Amplitude (A)

    • Wavelength (lambda)

    • Frequency (f)

    • Wave speed (nu

Amplitude

  • Amplitude is defined as:

The distance from the undisturbed position to the peak (crest) or trough of a wave

  • It is given the symbol bold italic A and is measured in metres (m)

  • Amplitude is the maximum or minimum displacement from the undisturbed position

Wavelength

  • Wavelength is defined as

The distance from one point on the wave to the same point on the next wave

  • In a transverse wave:

    • The wavelength can be measured from one peak to the next peak

  • In a longitudinal wave:

    • The wavelength can be measured from the centre of one compression to the centre of the next

  • The wavelength is given the symbol bold italic lambda (lambda) and is measured in metres (m)

Graphical representation of transverse waves

  • The amplitude and wavelength of a transverse wave can be represented graphically

  • The distance along a wave is typically put on the x-axis of a wave diagram

A diagram of a transverse wave

A wave on a graph of displacement against distance of wave travel. The wavelength is shown by a double headed arrow from the peak of one wave to the peak of the next wave. The amplitude is shown by a double headed arrow between the points of maximum displacement and zero displacement
Diagram showing the amplitude and wavelength of a transverse wave

Frequency

  • Frequency is defined as:

The number of waves passing a point in a second

  • Frequency is given the symbol bold italic f and is measured in hertz (Hz)

    • The unit hertz is equivalent to 'per second'

    • 5 Hz = 5 waves per second

Time Period

  • The time period (or sometimes just 'period') of a wave is defined as:

The time taken for a single wave to pass a point

  • The time period can be calculated using:

T space equals 1 over f

  • Where:

    • T = time period measured in seconds (s)

    • f = frequency measured in hertz (Hz)

Wavefront

  • Wavefronts are a useful way of picturing waves from above: each wavefront is used to represent a single wave

  • The image below illustrates how wavefronts are visualised:

    • The arrow shows the direction the wave is moving and is sometimes called a ray

    • The space between each wavefront represents the wavelength

    • When the wavefronts are close together, this represents a wave with a short wavelength

    • When the wavefronts are far apart, this represents a wave with a long wavelength

A series of wavefronts

Series of wavefronts, for IGCSE & GCSE Physics revision notes
The distance between wavefronts in the wavelength

Wave speed

  • Wave speed is the speed at which energy is transferred through a medium

  • Wave speed is defined as:

The distance travelled by a wave each second

  • Wave speed is given the symbol bold italic nu and is measured in metres per second (m/s),

Examiner Tips and Tricks

The wavelength is often shown graphically between the peaks of two consecutive waves. However, the wavelength can be shown between any two corresponding points on two consecutive waves - the distance will still be the same!

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