Find the ratio of the extension in upper spring to lower spring

Find the tension in the string and the extension in the spring at equilibrium . Where pulley, strings and springs are ideal.

Find the maximum tension in the spring if initially spring at its natural length when block is released from rest.

In the adjoining figure, block A is of mass (m) and block B is of mass 2m. The spring has force constant k. All the surfaces are smooth and the system is released form rest with spring unstretched. Find the maximum extension in the spring and acceleration of block B at time of maximum extension .

If a spring extends by x on loading, then the energy stored by the spring is (if T is tension in the spring and k is spring constant)

A block of mass m is connected to a massless pulley and mass-less spring of stiffness k. The pulley is frictionless. The string is mass-less. Initially the spring is unstretched when the block is released. When the spring is maximum stretched, find the ratio of tenstion in the rope and weight of the block.

A block tied between two identical springs is in equilibrium. If upper spring is cut then the acceleration of the block just after cut is 6m//s^(2) downwards. Now, if instead of upper spring, lower spring is being cut then the acceleration of the block just after the cut will be.

From the fixed pulley, masses 2kg, 1kg and 3kg are suspended as shown in the figure. Find the extension in the spring if k=100 N//m . (Neglect oscillations due to spring)

A mass M is suspended as shown in fig. The system is in equilibrium. Assume pulleys to be massless. K is the force constant of the spring. The extension produced in the spring is given by

A block of mass m attached with a an ideal spring of force constant k is placed on a rough inclined plane having inclination theta with the horizontal and coefficient of friction mu=1//2 tan theta , Initially the block is held stationary with the spring in its relaxed state, find the maximum extension in the spring if the block is released.

From the fixed pulley, masses 2 kg, 1 kg and 3 kg are suspended as shown is figure. Find the extension in the spring when acceleration of 3 kg and 1 kg is same if spring constant of the spring k = 100 N/m. (Take g = 10 ms^(-2) )