A source of sound of frequency 256 Hz is moving towards a wall with a velocity of 5 m/s. How many beats per second will be heard by an observer O standing in such a positoin that the source S is between O and wall? `(c=330(m)/(s)`)

A progressive wave of frequency 500Hz is travelling with a velocity of 360 m // s. How far part are two points 60^(@) out of phase ?

A vehicle of 100 kg is moving with velocity of 5 m/s. How much force will be required to stop in 1/10 sec ?

A siren emitting sound of frequency 800 Hz is going away from a static listener with a speed of 30 m/s. Frequency of the sound to be heard by the listener is (Take velocity of sound as 330 m/s)

A source of sound of frequency 600 Hz is placed inside water. The speed of sound in water is 1500 m//s and in air it is 300 m//s . The frequency of sounds recorded by an observer who is standing in air is :-

A source whistling a sound of frequency 450 Hz moves towards a stationary listener with a speed of 33 m/s. If velocity of sound is 333 m/s, then find frequency of sound heard by this listener.

A tuning fork P of unknown frequency gives 7 beats in 2 seconds with another tuning fork Q is moved towards a wall with a speed of 5 m//s , it gives 5 beats per second for an observer located left to it. On filling, P gives 6 beat per second with Q . The frequency (in Hz) of P is given by (80 xx alpha)+beta, (alpha, beta in I, 0 le alpha, beta le 9) then find the value of alpha + beta . Assume speed of sound = 332 m//s .

A source of sound emits sound waves at frequency f_(0) . It is moving towards an observer with fixed speed v_(s)(v_(s) lt v where v is the speed in air). If the observer were to move towards the source with speed v_(0) one of the following two graphs (A and B) will give the correct variation of the frequency f heard by the observer as v_(0) is changed, The variation of f with v_(0) is given correctly by :-

A whistle emitting a sound of frequency 440 H z is tied to string of 1.5 m length and rotated with an angular velocity of 20 rad//sec in the horizontal plane. Then the range of frequencies heard by an observer stationed at a large distance from the whistle will (v=330 m//s)

A source of sound is moving along a circular orbit of radius 3 meter with an angular velocity of 10 rad//s . A sound detector located far away from the source is executing linear simple harmonic motion along the line BD with an amplitude BC = CD = 6 meters . The frequency of oscillation of the detector is (5)/(pi) per second. The source is at the point A when the detector is at the point B . If the source emits a continuous sound wave of frequency 340 Hz , Find the maximum and the minimum frequencies recorded by the detector.