The system shown in the figure can move on a smooth surface. The spring is initially compressed by `6 cm` and then released.Find

(a) time perod
(b) amplitude of `3 kg` block
(c ) maximum momentum of `6 kg` block

The system shown in the figure can move on a smooth surface. They are initially compressed by 6cm and then released, then choose the correct options. (a) The system performs, SHM with time period (pi)/(10)s (b) The block of mass 3kg perform SHM with amplitude 4 cm ( c) The block of mass 6kg will have maximum momentum of 2.40kg - m//s (d) The time periods of two blocks are in the ratio of 1:sqrt(2)

The block shown in figure is released from rest. Find out the speed of the block when the spring is compressed by 1 m

All surfaces shown in figure are smooth. System is released with the spring instretched. In equilibrium, compression in the spring will be

All surfaces shown in figure are smooth system is released with the spring unstretched In equilibrium, compression in the spring will be

For the arrangement shown in figure, the spring is initially compressed by 3 cm . When the spring is released the block collides with the wall and rebounds to compress the spring again. (a) If the coefficient of restitution is (1)/sqrt(2) , find the maximum compression in the spring after collision. (b) If the time starts at the instant when spring is released, find the minimum time after which the block becomes stationary.

In the figure shown, all surfaces are smooth and force constant of spring is 10N//m . Block of mass (2 kg) is attaced with the spring. The spring is compressed by (2m) and then released. Find the maximum distance d travelled by the block over the inclined plane. Take g=10m//s^(2) . .

A block of mass m is released from rest onto a spring. A having stiffness k_A=mg//2h as shown in figure. If the block compresses spring B through a distance h, find the: a. stiffness of the spring B b. equilibrium position of the block c. maximum velocity of the block d. maximum acceleration of the block

Two blocks of masses m_(1) and m_(2) are kept on a smooth horizontal table as shown in figure. Block of mass m_(1) (but not m_(2) is fastened to the spring. If now both the blocks are pushed to the left so that the spring is compressed a distance d. The amplitude of oscillatin of block of mass m_(1) after the system is released is

A block is attached to a spring and is placed on a horizontal smooth surface as shown in which spring is unstretched. Now the spring is given an initial compression 2x_(0) an block is released from rest. Collision with the wall PQ are elastic. Find the time period of motion of the block: