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)`

Two waves of wavelength 50 cm and 51 cm produce 12 beat/s . The speed of sound is

Two sound waves of wavelengths 40 cm and 40.5 cm produce 10 beats per second. What will be the speed of sound in air ?

Calculate the frequency of beats produced in air when two sources of sound are activated, one emitting a wavelength of 32 cm and the other of 32.2 cm. The speed of sound in air is 350 ms^-1 .

Two similar open organ pipes of length 50 cm and 50.5 cm produce 3 beats per second when sounded together. The velocity of sound in air is

A van is moving with a speed of 3ms^(-1) towards a large wall. A person standing on the line of motion of the van observes the van to be moving away from him. The horm of the van is now blown. The frequency of the sound produced by the horn is 600 Hz. what is (i) The frequency of sound heard by the person for the sound produced directly by the horn? (ii) The freuquency of sound reflected by the wall. (iii) The baat frequency heard by the driver. the speed of sound in air is 330ms^(-1)?

On a quiet day, two persons A and B, each sounding a note of frequency 580 Hz, are standing a few metres apart. Calculate the number of beats heard by each in one second when A moves towards B with a velocity of 4 ms^(-1) . (Speed of sound in air = 330 ms^(-1) .)

In a Kundt's tube experiment it was found that the distance between nodes was 6.6 cm when the sounding rod used was of total length 80 cm. Calculate the velocity of sound in the rod if velocity of sound in air 330 ms^(-1) .

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 locomotive approaching a crossing at a speed of 20 ms^(-1) sounds a whistle of frequency 640 Hz when 1 km from the crossing. There is no wind and the speed of sound in air is 330 ms^(-1) . What frequency is heard by an observer sqrt(3) km on the straight road from the crossing at right angle :-