The Doppler effect
- The Doppler effect is defined as:
The apparent change in observed wavelength and frequency of a wave emitted by a moving source relative to an observer
- The Doppler effect can be observed whenever sources of waves move
- The frequency of the sound waves emitted by ambulance or police sirens goes from a high pitch (high frequency) to a low pitch (low frequency) as the vehicle whizzes past
- Galaxies in outer space emit light waves which appear redder (longer wavelength) to an observer on Earth because the stars are moving away from us
Explaining the Doppler effect
- Usually, when a stationary object emits waves, the waves spread out symmetrically
A stationary source of sound waves
This stationary police car emits sound from the siren and the waves spread out symmetrically
- To an observer standing in front of an object moving towards them:
- The waves appear to get squashed together because the wavelength appears to get shorter (and the frequency appears to get higher)
- To an observer standing behind an object moving away from them:
- The waves appear to get stretched apart because the wavelength appears to get longer (and the frequency appears to get lower)
The Doppler effect is observed when the source of the sound waves is moving
To an observer in front of the moving car, the wavelength appears smaller because they squash together. To an observer behind the moving car, the waves appear to stretch out
Examiner Tip
Remember that the Doppler effect is an apparent change in wavelength and frequency. This only happens because a wave emitter moves away from or towards an observer. The speed of the waves emitted stays constant, so if the wavelength of the wave appears to decrease this must mean the frequency appears to increase, and vice versa.
