In the figure `m_(A) = m_(B) = 1 kg`. Block A is neutral while `q_(B) = -1C`. Sizes of A and B are negligible. B is released from rest at a distance 1.8 m fromt A. Initially spring is neither compressed nor elongated.

If collision between A and B is perfectly inelastic, what is velocity of combined mass just after collision ?

In the figure m_(A) = m_(B) = 1 kg . Block A is neutral while q_(B) = -1C . Sizes of A and B are negligible. B is released from rest at a distance 1.8 m fromt A. Initially spring is neither compressed nor elongated. The amplitude of oscillation of the combined mass will be

In the figure m_(A) = m_(B) = 1 kg . Block A is neutral while q_(B) = -1C . Sizes of A and B are negligible. B is released from rest at a distance 1.8 m fromt A. Initially spring is neither compressed nor elongated. Equilibrium position of the combined mass is at x = ........m.

Electrostatic force on a charged parricle is given by overset(.)F=qvec(E) . If q is positive vec(F)uarrrArrvec(E)uarr and if q negative vec(F) uarr rArr vec(E ) darr Question : In the figure m_(A) = m_(B) =1kg . Block A is neutral while q_(B) = - 1C . Sizes of A and B are negligible. B is relased from rest at a distance 1.8 m from A. Initially spring is neither compressed nor elongated The amplitude of oscillation of the combined mass will be :

Two balls of masses m each are moving at right angle to each other with velocities 6 m/s and 8 m/s respectively. If collision between them is perfectly inelastic, the velocity of combined mass is

A small particle of mass m is released from a height h on a large smooth sphere kept on a perfectly smooth surface as shown in the figure. Collision between particle and sphere is perfectly inelastic. Determine the velocities of particle and sphere after collision.

Velocity of the ball A after collision with the ball B as shown in the figure is (Assume perfectly inelastic and head - on collision)

The track shown in figure is frictionless. The block B of mass 2 m is lying at rest and the block A of mass m is placed along the track with some speed. The collision between A and B is perfectly elastic. With what velocity should the block A be started to get the sleeping man awakened ?

A particle of mass m strikes a disc of radius R and mass m with a speed u as shown in the figure. What is the speed of the particle just after the collision if the collision is perfectly inelastic ?

Consider on object of mass m moving with velocity v_0 and all other masses at rest initially. Find the % loss in energy after final collision. If all collision are perfectly inelastic.

Consider the elastic collision f two bodies A and B of equal mass. Initially B is at rest and A moves with velocity v . After the collision -