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).

A source S emitting sound of frequency 300Hz is fixed on block A which is attached to the 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 are simultaneously displaced towards each other through a distance of 1.0m and then left to vibrate. The maximum and minimum frequencies of sound detected by D, if the vibrational frequency of each block is 2Hz are (Velocity of sound v=340m//s )

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

One end of a spring is rigidly fixed. A block attached to the free end of the spring is pulled through a distance x_(0) . On releasing the block, its amplitude of motion cannot exceed +-x_(0) . Why?

A block of mass m is attached to two unstretched springs of spring constant k , each as shown. The block is displaced towards right through a distance x and is released The speed of the block as it passes through the mean position will be

A small block is connected to a massless rod, which in turns attached to a spring of force constnat (K =2N//m) as shown in the fig. The block is displaced down slightly and left free. Find its time period.

Two identical springs of spring constant k are attached to a block of mass m and to fixed supports as shown in the figure. The time period of oscillation is

A block of mass m is attached to the two springs in vertical plane as shown in the figure - 3.95. If initially both the springs are at their natural lengths then velocity of the block is maximum at displacement x given as

A block of mass m is attached to two unstretched springs of spring constants k_1 and k_2 as shown in figure. The block is displaced towards right through a distance x and is released. Find the speed of the block as it psses through the mean position shown.

In the figure shown a block of masss m is atteched at ends of two spring The other ends of the spring are fixed The mass m is released in the vertical plane when the spring are released The velocity of the block is maximum when