What is the relation between the apparent frequency and true frequency of sound when the source and observer move towards each other along the same line ?

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

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

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.

Explain Doppler effect in sound. Derive the expression for the apparent frequency of sound when the source and listener are i) approaching each other. ii) moving away from each other.

The difference between the apparent frequency of a source of sound as perceived by an observer during its approach and recession is 2% of the natural frequency of the source. Then the speed of the source will be

When an observer moves towards a stationary source, then the apparent pitch will

An observer moving towards a stationary source observes that the apparent frequency is three times the actual frequency of the source. If the velocity of sound is V, the velocity of the observer would be-

When the observer moves towards the stationary source with velocity, v_1 , the apparent frequency of emitted note is f_1 . When the observer moves away from the source with velocity v_1 , the apparent frequency is f_2 . If v is the velocity of sound in air and f_1/f_2 = 2,then v/v_1 = ?

The velocity of sound in air is 330 ms^(-1) . To increase the apparent frequency of the sound by 50%, the source should move towards the stationary observer with a velocity equal to