If the source and reciver are at rest realative to each other but the wave medium is moving realative to them, will the reciver delect wavelength or frequency shift.

How are frequency and wavelength related to each other ?

Source of sound and observer are moving towards each other, the observer will hear

If a wave of wavelength lambda is travelling in a medium with velocity V, then its frequency is

In the case of sound waves, wind a blowing from source to reciver with speed U_(W) . Both source and receiver are stationary.If lambda_(0) is the original wavelength with no wind and V is speed of sound in air then wavelength as received is given by :

The observer is moving with velocity 'v'_(0) towards the stationary source of sound and then after crossing moves away from the source with velocity 'v'_(0) . Assume that the medium through which the sound waves travel is at rest. If v is the velocity of sound and n is the frequency emitted by the source, then the difference between appearent frequencies heard by the observer is

A source of sound is located in a medium in which speed of sound is V and an observer is located in a medium in which speed of sound is 2V. Both the source and observer are moving directly towards each other at velocity V/5 . The source has a frequency of f_(0) . (a) Find the wavelength of wave in the medium in which the observer is located. (b) Find the frequency received by the observer.

Assertion : The apparent frequency will remain same as the frequency of source of sound if source and listener move at right angles to each other. Reason : Apparent frequency will always increase whether source is moving towards the listener or listener is moving towards the source.

A source and an observer are moving towards each other with a speed equal to v/2 where v is the speed of sound. The source is emitting sound of frequency n . The frequency heard by the observer will be

A conveyor belt moves to the right with speed upsilon = 300 m//s . A very fast pieman puts pies on the belt at a rate of 20 per minute and they are recived at the other end by a pieeater. (a) If the pieman is stationary find the spacing x betweenthe pies and the frequency with which they are recived by the stationary pieeater. (b) the pieman now walks with speed 30 n//min towards the reciver while continuing to put pies on the recived by the stationary pieeater.