Two trains, one coming towards and another going away from an observer both at 4 m/s produce whistle simultaneously of frequency 300 Hz . Find the number of beats produced

A man is watching two trains, one leaving and the other coming in with equal speed of 4 m/s . If they sound their whistles, each of frequency 240 Hz, the number of beats heard by the man (velocity of sound in air is 320(m)/(s) ) will be equal to

Two trains are moving towards each other at speeds of 20 m/s and 15 m/s relative to the ground. The first train sounds a whistle of frequency 600 Hz . the frequency of the whistle heard by a passenger in the second train before the train meets is (the speed of sound in air is 340 m/s )

Two trains are moving towards each other on parallel tracks at speeds of 144kmph and 54kmph . The first train sounds a whistle of frequency 600Hz . Frequency of the whistle as heard by a passenger in the second train is ( V=340m//s )

A boy is walking away from a wall towards an observer at a speed of 1 metre / sec and blows a whistle whose frequency is 680 Hz . The number of beats heard by the observer per second is (Velocity of sound in air = 340 metres / sec

Two sources of sound moving with same speed v and emitting frequency of 1400 Hz are moving such that one source s_1 is moving towards the observer and s_2 is moving away from observer. If observer hears beat frequency of 2 Hz. Then find the speed of source. Given v_(sound) gt gt v_(source) and v_(sound) = 350m/s

A source of sound is moving away from an observer at rest with a velocity of 50 m s^(-1) . If the frequency of sound is 200 Hz , find the apparent frequency observed by the observer. (Take velocity of sound = 300 m s^(-1))

Two sounds of very close frequencies, say 256 Hz and 260 Hz are produced simultaneously. What is the frequency of resultant sound and also write the number of beats heard in one second?