When a source moves away from a stationary observer, the frequency is `(6)/(7)` times the original frequency. Given: speed of sound `=330(m)/(s)` . The speed of the source is

A source of sound is travelling towards a stationary observer. The frequency of sound heard by the observer is 25% more that the actual frequency. If the speed of sound is v, that of the source is

When a source of frequency f_(0) moves away from a stationary observer with a certain velocity, an apparent frequency f' is observed. When it moves with the same speed towards the observer, the observed frequecy is 1.2 f' . If the velocity of sound is v, then the acutual frequency f_(0) is

(A): When an observer moves towards a stationary source, the frequency of sound heard is greater than the actual frequency (R) : Apparent frequency increases because the observer intercepts more number of waves when he moves towards the source.

An observer moves on the same line on which two sources of sound of frequency 660 Hz are present. The observer observes beat frequency of 10Hz . If speed of sound is 300m//s then speed of the observer is:

An observer moves towards a stationary source of sound. The percentage change in the apparent frequency is

(A) : When a source moves towards a stationary observer, the speed of source relative to the observer remains unchanged. (R): The apparent change in frequency is due to change in the wavelength brought by the motion of the source.

when a source is going away from a stationary observer with the velocity equal to that of sound in air , then the frequency heard by observer is n times the original frequency . The value of n is

A sound source is moving towards a stationary observer with 1/10 of the speed of sound. The ratio of apparent to real frequency is

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

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 = ?