A source 'S' emitting a sound of frequency 300 Hz is fixed on block ‘A’ while detector is fixed on block 'B' detects the sound. The block 'A' and 'B' are simultaneously displaced towards each other through a distance of 1 m and then left to vibrate. If the velocity of sound in air is `340ms^(-1)` and `S_A , S_B` are identical the frequency of block A is 2Hz. Then

A source S emitting sound of 300 Hz is fixed on block A which is attache to free end of a spring S_(A) as shown in figure. The detector D fixed on block B attached to free end of spring S_(B) detects this sound. The blocks A and B simultaneously displaced towards each other thrugh a distance of 2.0m and then left to vibrate. If the product of maximum and minimum freuquencies of sound detected by D is K + 10^(4) sec^(-2) . Find K . Given the vibrational frequencies of each block is 5//pi Hz . speed of sound in air = 300 m//s

A source S emitting sound of 300 Hz is fixed of block A which is attached to free end of a spring S_A as shown in the figure. The detector D fixed on block B attached to the free end of spring S_B detects this sound. The blocks A and B are simultaneously displaced towards each other through of 1.0 m and then left to vibrate. Find the maximum and minimum frequencies of sound detected by D if the vibrational frequency of each block is 2 Hz (velocity of sound is 340 m/s).

What is the fundamental frequency of an open organ pipe of length 42.5 cm, if the velocity of sound in air is 340 m/s?

In Quincke's experiment the sound detected is changed from a maximum to a minimum when the sliding tube is moved through a distance of 2.50 cm. Find the frequency of sound if the speed of sound in air is 340 m s^-1 .

A closed organ pipe can vibrate at a minimum frequency of 500 Hz. Find the length of the tube. Speed of sound in air = 340 m s^-1 .

Distance travelled by the sound produced by a tuning fork of frequency 50 Hz completing 200 vibrations is, (the velocity of sound in air is 330 m/s)

The velocity of sound in air is 340m/s . If the density of air is increased to 4 times, the new velocity of sound will be

A man standing on a platform observes that the frequency of the sound of a whistle emitted by a train drops by 140 Hz. If the velocity of sound in air is 330 m/s and the speed of the train is 70 m/s, the frequency of the whistle is

The driver of a car travelling with speed 30ms^-1 towards a hill sounds a horn of frequency 600 Hz. If the velocity of sound in air is 330ms^-1 , the frequency of reflected sound as heard by driver is

Calculate the frequency of the fundamental note of 0.35m long open and closed pipes? Velocity of sound is 340ms^(-1) .