consider the situastion of the previous problem. Suppose the block of mass `m_1` is pulled by a constant force `F_1` and the other block is pulled by a constant force `F_2`. Find the maximum elongation that the spring will suffer.

Cionsider the situation of the previous problem. Suppose each of tbe blocks is pulled by a constant foerce F instead of any impulse. Find the maximum elongation that the spring will suffer and the distancews moved by the two blocks in the process.

Cionsider the situation of the previous problem. Suppose each of tbe blocks is pulled by a constant foerce F instead of any impulse. Find the maximum elongation that the spring will suffer and the distancews moved by the two blocks in the process.

At t = 0 , a constant force is applied on 3 kg block. Find out maximum elongation in spring in cm.

At t = 0 , a constant force is applied on 3 kg block. Find out maximum elongation in spring in cm.

At t = 0 , a constant force is applied on 3 kg block. Find out maximum elongation in spring in cm.

Two blocks of mass m_(1) and m_(2) are connected by a spring of force constant k. Block of mass m_(1) os pulled by a constant force f_(2) [see fig 4E.19 (a)] find the maximum elongation in the spring .

The block of mass m is released when the spring was in its natrual length. Spring constant is k. Find the maximum elongation of the spring.

The block of mass m is released when the spring was in its natrual length. Spring constant is k. Find the maximum elongation of the spring.

Two blocks of masses m_1 and m_2 are connected by a spring of spring constant k figure. The block of mass m_2 is given a shape impulse so that it acquires a velocity v_0 towards right. Find a. the velocity of the centre of mass b. the maximum elongation that the spring will suffer.

Two blocks of masses m_1 and m_2 are connected by a spring of spring constant k figure. The block of mass m_2 is given a shape impulse so that it acquires a velocity v_0 towards right. Find a. the velocity of the centre of mass b. the maximum elongation that the spring will suffer.