With what velocity should a source of sound move towards a listener so that apparent frequency is twice the actual frequency ? Take velocity of sound in air `=330m//s`

What should be the velocity of a sound source moving towards a stationary observer so that apparent frequency is double the actual frequency (Velocity of sound is v )

At what speed should a source of sound move so that stationary observer finds the apparent frequency equal to half of the original frequency

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-

What will be the velocity of source of sound if the apparent frequency received by a stationary observer is double of the original frquency ? Velocity of sound is 340 m/s.

A source is moving towards a stationary observer, so that the apparent frequency increases by 50%. If velocity of sound is 330 m/s, then velocity of source is

The speed of sound in air is 340 m/s. The speed with which a source of sound should move towards a stationary observer so that the apparent frequency becomes twice of the original

A source of sound moves towards a stationary listener. The apparent pitch of the sound is found to be higher than the actual value. This happens because

With what velocity should you approach tuning fork of frequency 256 Hz so that the apparent frequency is 512 Hz. Velocity of sound in air is 340 m/s

The difference between the apparent frequency of a sound of soun as perceived by an observer during its approach and recession is 2% of the natural frequency of the source. If the velocity of sound in air is 300m//s , the velocity of the source is (It is given that velocity of source ltlt velocity of sound )