A mass of `0.98 kg` suspended using a spring of constant `K = 300 Nm^(-1)` is hit by a bullet of `20g` moving with a velocity `3m//s` vertically. The bullet gets embeded and oscillates with the mass. The amplitude of oscillation is (neglect gravity)

A mass of 0.98kg attached on a spring of constant K = 100Nm^(1) is hit by a bules of 20gm moving with a velocity 20ms^(1) horizontally The bullet gas ambated and system oscilation with the mass on horizontal and surface The amplitude of oscilation will be

A wooden bob of mass 1 kg is suspended from a string of length 1 m . It is struck by a bullet of mass 0.02 kg , moving with a speed of 300 m/s , such that the bullet gets embedded inside it . Calculate the maximum height up to which the bob will rise after the impact .

Two masses 8 kg 4 kg are suspended together by a massless spring of spring constant 1000 Nm^(-1) . When the masses are in equilibrium 8 kg is removed without disturbing the system . The amplitude of oscillation is

A bullet of mass m moving with velocity v strikes a block of mass M at rest and gets embedded into it. The kinetic energy of the composite block will be

A block of mass m suspended from a spring of spring constant k . Find the amplitude of S.H.M.

A body of mass 1kg is suspended from a weightless spring having force constant 600N//m . Another body of mass 0.5 kg moving vertically upward hits the suspended body with a velocity of 3.0m//s and get embedded in it. Find the frequency of oscillations and amplitude of motion.

A body of mass 0.5 kg is suspended by a weightless spring of force constant 500 Nm^(-1) . Another body of mass 0.1 kg moving vertically upwards with velocity of 5 ms^(-1) hits the suspended body and gets embeded into the suspended body. What will be the frequency of oscillation ?

A bullet of mass 20 gram moving with a velocity of 300m//s gets embedded in a freely suspened wooden block of mass 880 gram . What is the velocity acquired by the blocks?