A stationary source is emitting sound at a fixed frequency `f_(o)`, which is reflected by two cars approaching the source. The difference between the frequencies of sound reflected from the cars is 1.2 % of `f_(o)`. What is the difference in the speeds of the cars (in km per hour) to the nearest integer? Thee cars are moving at constant speeds much smaller than the speed of sound which is 330 `ms^(-1)`

A stationary source is emitting sound at a fixed frequency f_(0) , which is reflected by two cars approaching the source. The difference between the frequencies of sound reflected from the cars is 1.2% of f_(0) . What is the difference in the speeds of the cars (in km per hour) to the nearest integer ? The cars are moving at constant speeds much smaller than the speed of sound which is 330 ms^(-1) .

A car emitting sound of frequency 500 Hz speeds towards a fixed wall at 4(m)/(s) . An observer in the car hears both the source frequency as well as the frequency of sound reflected from the wall. If he hears 10 beats per second between the two sounds, the velocity of sound in air will be

A stationary source emits the sound of frequency f_0 = 492 Hz. The sound is reflected by a large car approaching the source with a speed of 2 ms^(-1) . The reflected signal is received by the source and superposed with the original. What will be the beat frequency of the resulting signal in Hz? (Given that the speed of sound in air is 330 ms^(-1) and the car reflects the sound at the frequency it has received).

A fixed source of sound emitting a certain frequency appears as f_(a) when the observer is apporoaching the source with upsilon_(0) and f_(r) when the observer recedes from the source with the same speed. The frequency of source is

At what speed should a car approach a stationary observer if the hears the music of the car radio with a frequency 20% higher than it actully is ? The speed of sound is 340 ms^(-1)

A source of sound is travelling towards a stationary observer. The frequency of sound heard by the observer is 25% more that the actual frequency. If the speed of sound is v, that of the source is

The driver of as car approaching a vertical wall notices that the frequency of his car's horn charges from 440 Hz to 480 Hz when it gets reflected from the wal. Find the speed of the car if that of the sound is 330 ms^-1 .

A sound wave of frequency f propagating through air with a velocity c , is reflected from a surface which is moving away from the source with a constant speed v . Find the frequency of the reflected wave, measured by the observer at the position of the source.

A siren emitting a sound of frequency 2000 Hz moves away from you towards a cliff at a speed of 8 m/s. (a) What is the frequency of the sound you hear coming directly from the siren. (b) What is the frequency of sound you hear reflected off the cliff. Speed of sound in air is 330(m)/(s) .

A car moves at a constant speed of 56.4 km per hour. How much distance does it cover in 3.5 hours ?