Physics
Textbooks
Boundless Physics
Electromagnetic Waves
Electromagnetic Waves and their Properties
Physics Textbooks Boundless Physics Electromagnetic Waves Electromagnetic Waves and their Properties
Physics Textbooks Boundless Physics Electromagnetic Waves
Physics Textbooks Boundless Physics
Physics Textbooks
Physics
Concept Version 8
Created by Boundless

The Doppler Effect

The Doppler Effect is the change in a wave's perceived frequency that results from the source's motion, the observer, and the medium.

Learning Objective

  • Give examples of daily observations of the Doppler effect


Key Points

    • The Doppler effect is very commonly observed in action.
    • The Doppler effect can be observed in the apparent change in pitch of a siren on an emergency vehicle, according to a stationary observer.
    • The observer will notice the Doppler effect on the pitch of the stationary siren when moving relative to its pitch, or if the medium moves when the observer is stationary.

Term

  • doppler effect

    Apparent change in frequency of a wave when the observer and the source of the wave move relative to each other.


Full Text

The Doppler Effect

The Doppler effect is a periodic event's change in frequency for an observer in motion relative to the event's source. Typically, this periodic event is a wave.

Most people have experienced the Doppler effect in action. Consider an emergency vehicle in motion, sounding its siren . As it approaches an observer, the pitch of the sound (its frequency) sounds higher than it actually is. When the vehicle reaches the observer, the pitch is perceived as it actually is. When the vehicle continues away from the observer, the pitch is perceived as lower than it actually is. From the perspective of an observer inside the vehicle, the pitch of the siren is constant.

The Doppler Effect and Sirens

Waves emitted by a siren in a moving vehicle

The difference in the perceived pitch depending on observer location can be explained by the fact that the siren's position changes as it emits waves. A wave of sound is emitted by a moving vehicle every millisecond. The vehicle 'chases' each wave in one direction. By the time the next wave is emitted, it is closer (relative to an onlooker ahead of the vehicle) to the previous wave than the wave's frequency would suggest. Relative to an onlooker behind the vehicle, the second wave is further from the first wave than one would expect, which suggests a lower frequency.

The Doppler effect can be caused by any kind of motion. In the example above, the siren moved relative to a stationary observer. If the observer moves relative to the stationary siren, the observer will notice the Doppler effect on the pitch of the siren. Finally, if the medium through which the waves propagate moves, the Doppler effect will be noticed even for a stationary observer. An example of this phenomenon is wind.

Quantitatively, the Doppler effect can be characterized by relating the frequency perceived (f) to the velocity of waves in the medium (c), the velocity of the receiver relative to the medium (vr), the velocity of the source relative to the medium (vs), and the actual emitted frequency (f0):

$f=(\frac{c+v_r}{c+v_s})f_0$

The Doppler Effect

Wavelength change due to the motion of source

[ edit ]
Edit this content
Prev Concept
The Speed of Light
Momentum Transfer and Radiation Pressure Atom
Next Concept
Subjects
  • Accounting
  • Algebra
  • Art History
  • Biology
  • Business
  • Calculus
  • Chemistry
  • Communications
  • Economics
  • Finance
  • Management
  • Marketing
  • Microbiology
  • Physics
  • Physiology
  • Political Science
  • Psychology
  • Sociology
  • Statistics
  • U.S. History
  • World History
  • Writing

Except where noted, content and user contributions on this site are licensed under CC BY-SA 4.0 with attribution required.