A source of sound and a listener both are moving in the same direction,the source following the listener. If the respective velocities of sound ,source and listener are ` v, v_s and v_'//s` then the ratio of the actual frequency of the source and the apparent frequency as received by the listener is

A source of sound and a listener are both moving in the same direction, the source following the listener. If the respective velocities of sound, source and listener are v, v_s and v_l , then the ratio of the actual frequency of the source and the apparent frequency as received by the listener is

When both source and listener approach each other with a velocity equal to half the velocity of sound, the change in frequency of the sound as detected by the listener is

A source of sound when moves towards a stationary observer, then frequency of the sound heard by listener is more than actual frequency because the

What should be the velocity of sound from a source w.r.t. an observer, so that the frequency listened by the observer becomes half of the initial frequency?

Derive an expression for apparent frequency when source is moving and listener is stationary.

State the expression for apparent frequency when source of sound and listener are moving towards each other

The apparent change in frequency of a sounding source and observer in relative motion is

Write an expression for apparent frequency when both source and listener are moving and explain it.

State the expression for apparent frequency : i. when source of sound and listener are moving towards each other.

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 spurce then the difference between apparent frequencies heard by the observer is