A source of sound and detector are arranged as shown in Fig. The detector is moving along a circle with constant angular speed `omega`. It start from the shown location in anticlockwise direction at `t=0`
(Take velocity of sound in air as v)
Find the time interval between minimum and maximum frequency as received by the detector.

A source of sound and detector are arranged as shown in Fig. The detector is moving along a circle with constant angular speed omega . It start from the shown location in anticlockwise direction at t=0 (Take velocity of sound in air as v) Q. Find the time at which the detector will hear the maximum frequency for the first time.

A source of sound and detector are arranged as shown in Fig. The detector is moving along a circle with constant angular speed omega . It start from the shown location in anticlockwise direction at t=0 (Take velocity of sound in air as v) Q. Find the time at which the detector will hear the maximum frequency for the first time.

A source of sound and detector are arranged as shown in Fig. The detector is moving along a circle with constant angular speed omega . It start from the shown location in anticlockwise direction at t=0 (Take velocity of sound in air as v) What is the frequency as received by detector, when it rotates by an angle (pi)/(2) ?

A source of sound and detector are arranged as shown in Fig. The detector is moving along a circle with constant angular speed omega . It start from the shown location in anticlockwise direction at t=0 (Take velocity of sound in air as v) What is the frequency as received by detector, when it rotates by an angle (pi)/(2) ?

A source of sound and detector are moving as shown in Fig. at t=0 . Take velocity of sound wave to be v . For this situation mark out the correct statement(s).

A source of sound and detector are moving as shown in Fig. at t=0 . Take velocity of sound wave to be v . For this situation mark out the correct statement(s).

A source of sound and detector are moving as shown in Fig. at t=0 . Take velocity of sound wave to be v . For this situation mark out the correct statement(s).

A sound source capable of producing sound of variable frequencies is located at a distance of 1 m from a reflecting wall as shown in the figure. A detector D is lying at a point shown in the figure. The various distances are also indicated. If the speed of sound in air is 340" "ms^(-1) , find the frequencies of sound within the audible range, which will have maximum intensity at detector?