Find the time period of SHM of the block of mass M

Find the time period of oscillation of block of mass m. Spring, and pulley are ideal. Spring constant is k.

A and B are two thin rubber bands, each of force constant k . Assuming that they obey Hooke's law, the time period of horizontal SHM of the mass m is given by

Calculate the period of oscillations of block of mass m attached with a set of springs as shown

figure (a) and (b) represent spring- block system. If m is displacement slightly , find the time period of ascillation of the system.

Assuming all the surfaces to be smooth, find the acceleration of the triangular block of mass M when the block of mass m slides on it.

A block of mass m is connected to another block of mass M by a spring (massless) of spring constant k. The block are kept on a smooth horizontal plane. Initially the blocks are at rest and the spring is unstretched. Then a constant force F starts acting on the block of mass M to pull it. Find the force of the block of mass M.

A spring of force constant K is attached with a mass executes with S.H.M has a time period T . It is cut into three equal parts If the springs are connected in parallel then the time period of the combination for the same mass is

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)