A stationary source emits sound of frequency `f_(0)=492Hz`. The sound is reflected by a large car approaching the source with a speed of `2ms^(-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 `330ms^(-1)` and the car reflects the sound at the frequency it has received).

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 source emits a sound of frequency of 400 Hz , but the listener hears it to be 390 Hz . Then

Calculate the beat frequency heard when two sound sources of wavelength 35cm and 35.2 cm are sounded together. The speed of sound in air is 330 ms^(-1)

A source and a detector move away from each other, each with a speed of 10 ms^-1 with respect to the ground with no wind. If the detector detects a frequency 1950 Hz of the sound coming from the source, what is the original frequency of the source? Speed of sound in air =340 ms^-1 .

A car is moving with 90 km h^(-1) blows a horn of 150 Hz, towards a cliff. The frequency of the reflected sound heard by the driver will be (speed of sound in air is 340 ms^(-1) )

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 sound source moves with a speed of 80 m//s relative to still air toward a stationary listener. The frequency of sound is 200 H_(Z) and speed of sound in air is 340 m//s . (a) Find the wavelength of the sound between the source and the listener. (b) Find the frequency heard by the listener.

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 stationary sound sound 's' of frequency 334 Hz and a stationary ovserver 'O' are placed near a reflecting suface moving away from the source with velocity 2 m/s as shown in the figure. If the velocity of the sound waves is air is v= 330 m/s the apparent frequency of the echo is

A man standing 25 m away from a wall produces a sound and receives the reflected sound. Calculate the time after which he receives the reflected sound if the speed of sound in air is 350ms^(-1) .