source and observer both start moving simultaneously from origion one along y - axis with speed of source = 2 (speed of observer ). The graph between the apparent frequency observed by observer (f) and time (t) would be

Source and observer start moving simulatneously along x and y-axis respectively. The speed of source is twice the speed of observer V_0 . If the ratio of observer frequency to the frequency of the source is 0.75 , find the velocity of sound.

Source and observer start moving simulatneously along x and y-axis respectively. The speed of source is twice the speed of observer V_0 . If the ratio of observer frequency to the frequency of the source is 0.75 , find the velocity of sound.

A sound source has frequency f. Source and observer both have same speed.For the apparent frequency observed by observer match the following.

A source and detector both start moving simultaneously from the position shown in the figure, one along x-axis and the other along y-axis with speeds 40 ms^(-1) and 30 ms^(-1) respectively. If n is the frequency of the source then the graph between the apparent frequency n' observed by detector and time t would be [assume that source and detector do not collide]

An observer starts moving with unifrom acceleration a towards a stationary sound soure of frequency f_(o) . As the observer approaches the source ,the apparent frequency f heard by the observer varies with time t as

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

A source is approaching towards an observer with constant speed along the line joining them. After crossing the observer, source recedes from observer with same speed. Let f is apparent frequency heard by observer. Then, 1) f will keep on increasing during approaching 2) f will keep on decreasing during receding 3) f will remain constant during approaching 4) f will remain constant during receding

A source of sound S emitting waves of frequency 100 Hz and an observer O are located at some distance from each other. The source is moving with a speed of 19.4ms^-1 at an angle of 60^(@) with the source observer line as shown in the figure. The observer is at rest. The apparent frequency observed by the observer (velocity of sound in air 330ms^-1 ) is

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

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