A train in approaching a station with a uniform velocity of `72kmph` and the frequency of the whistle of that train is `480Hz`. The apparent increase in the frequency of that whistle heard by a stationary observer on the platform is (Velocity of sound in air is `340m//s`)

Two aeroplanes 'A' and 'B' are moving away from one another with a speed of 720kmph . The frequency of the whistle emitted by 'A' is 1100Hz . The apparent frequency of the whistle as heard by the passenger of the aeroplane 'B' is (velocity of sound in air is 350ms^(-1) ).

A train is approaching towards a platform with a speed of 10 ms^(-1) , while blowing a whistle of frequency 340 Hz. What is the frequency of whistle heard by a stationary observer on the platform ? (given, speed of sound =340 ms^(-1) )

A train is travelling at 120kmph and blows a whistle of frequency 1000Hz . The frequency of the note heard by a stationary observer if the train is approaching him and moving away from him are (Velocity of sound in air =330=ms^(-1) )

The apparent frequency of the whistle of an engine changes in the ratio 13 : 12 as the engine passes a stationary observer. If the velocity of sound is 350 m/s. The velocity of engine is

An engine of a train is moving towards a platform with a velocity of 100 m s^(-1) . If the frequency of sound produced is 200 Hz , find the apparent frequency of the sound as observed by an observer standing on the platform (Taking velocity of sound = 320 m s^(-1) ) .

An observer is approaching a stationary source with a velocity 1/4 th of the velocity of sound. Then the ratio of the apparent frequency to actual frequency of source is

The frequency of the whistle of a train is observed to drop from 280 Hz to 260 Hz as the train moves away from a stationary listerner on the platform. Calculate the speed of the train, if speed of sound in air is 340 m/s.

An observer on a railway platform noticed that when a train passed through the station, at a speed of 72 kg h^(-1) , the frequency of the whistle appeared to drop by 500 Hz. Calculate the actual frequency of the note produced by the whistle. Velocity of sound in air = 340 ms^(-1) .