A source is moving along a circle `X^2 + Y^2 = R^2` with constant speed `V_s = (330pi)/(6 sqrt3)`m/s in clockwise direction while on observer is stationary at point (2R,0) with respect to the centre of circle frequency emitted by the source is f [velocity of sound V= 330 m/s]

Maximum wave length received observer

A source is moving along a circle X^2 + Y^2 = R^2 with constant speed V_s = (330pi)/(6 sqrt3) m/s in clockwise direction while on observer is stationary at point (2R,0) with respect to the centre of circle frequency emitted by the source is f [velocity of sound V= 330 m/s] Maximum frequency heard by observer

A source is moving across a circle given by the equation x^(2) + y^(2) = R^(2) with constant speed v_(S) = (330pi)/(6sqrt(3))m//s . In clockwise sense. A detector is stationary at the point (2R, 0) w.r.t. the centre of the circle. The frequency emitted by the source is f_(S) . (a) What are the co-ordinates of the source when the detector records the maximum and minimum frequencies. Take speed of sound v = 330 m//s .

A small source of sound moves on a circle of radius r with constant speed V_s . eta is the actual frequency of the source. For the positions of the source indicated in the figure find the frequency as heard by three observers at the points P,O & Q respectively

A statinary observer receives a sound of frequency 2000 Hz. The variation of apparent frequency and time is shown. Find the speed of source, if velocity of sound is 300(m)/(s)

A car is moving with a constant velocity 10 m//s towards the stationary wall. The car blows a horn of frequency 320 Hz . The velocity of sound in air is 330 m//s . The beats frequency received by the observer is

A source is moving towards an observer with a speed of 20 m / s and having frequency of 240 Hz . The observer is now moving towards the source with a speed of 20 m / s . Apparent frequency heard by observer, if velocity of sound is 340 m / s , is

In the figure shown, a source of sound of frequency 510 Hz moves with constant velocity v_S=20(m)/(s) in the direction shown. The wind is blowing at a constant velocity v_W=20(m)/(s) towards an observer who is at rest at point B. corresponding to the sound emitted by the source at initial position A, the frequency detected by the observer is equal to (speed of sound relative to air is 330(m)/(s) )

In the figure shown, a source of sound of frequency 510 Hz moves with constant velocity v_S=20(m)/(s) in the direction shown. The wind is blowing at a constant velocity v_W=20(m)/(s) towards an observer who is at rest at point B. corresponding to the sound emitted by the source at initial position A, the frequency detected by the observer is equal to (speed of sound relative to air is 330(m)/(s) )

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

An observer is moving towards a source with speed 15 m/s. The source is moving with speed 5 m/s in the same direction. Air is blowing with speed 10 m/s from observer to source. If frequency of sound emitted is 325 Hz then find frequency of sound heard by observer (velocity of sound in air = 330 m/s) in Hz .