A small source of sound moves on a circle as shown in figure and an observer is sitting at O. Let `v_1,v_2,v_3` be the frequencies heard when the source is at A,B and C respectively.
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A small source of sound moves on a circle as shown in the figure and an observer is standing on O. Let n_1 , n_2 and n_3 be the frequencies heard when the source is at A, B and C respectively. Then

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

The source (S) of sound is moving constant velocity v_(0) as shown in diagram. An observer O listens to the sound emmited by the source. The observed frequency of the sound

A source of sound with frequency 256 Hz is moving with a velocity V towards a wall and an observer is stationary between the source and the wall. When the observer is between the source and the wall will he hear beats?

A source of sound with frequency 256 Hz is moving with a velocity V towards a wall and an observer is stationary between the source and the wall. When the observer is between the source and the wall he will hear beats.

A source of sound of frequency 500 Hz is moving towards an observer with velocity 30 m/s . The speed of sound is 330 m/s . the frequency heard by the observer will be

An incompressible liquid is flowing through a horizontal pipe as shown in figure. If V_1 , V_2 and v_3 be the velocity and a, a/2 and a/3 be the area of orifice A, B and C respectively, then

When a source and observer move in a parallel track as shown in the figure, the ratio of appeares and actual frequency can be

In an AC circuit as shown in the figure, the source is of r.m.s voltage 200 V and variable frequency. At resonance, the circuit

Two sound sources are moving away from a stationary observer in opposite direction with velocities V_1 and V_2(V_1gtV_2) . The frequency of both the sources is 900 Hz. V_1 and V_2 are both quite less than speed of sound, V=300(m)/(s) . Find the value of (V_1-V_2) so that beat frequency observed by observer is 9 Hz. (in m/s).