Two blocks A and B having different kinetic energies `K_(A)` and `K_(B)(gt K_(A))` are released on rough horizontal ground. Coefficient of friction for both of them is same. Then

Assertion: Two blocks of masses m_(A) and m_(B) (gtm_(A) are thrown towards each other with same speed over a rough ground. The coefficient of friction of both the blocks with ground is same. Initial velocity of CM is towards left. Reason: Initial acceleration of center of mass is towards right.

The system of two blocks is at rest an shown in the figure. A variable Horizontal force is applied to the upper block. The maximum possible constant force exerted by the horizontal ground surface on the lower block is ( coefficient of friction for both the contracts is mu )

A ring of radius R is rotating with an angular speed omega_0 about a horizontal axis. It is placed on a rough horizontal table. The coefficient of kinetic friction is mu_k . The time after it starts rolling is.

Two spring have their force constants K_(1) and K_(2)(K_(2) gt K_(1)) . When they are stretched by the same force, work done is

Time varying force horizontal F=K_(0)t is applied on a block of mass placed at rest on a rough horizontal surface ( mu is coefficient of friction).At a time t=(3 mu mg)/(K_(0)) the acceleration of the block is given by a =p mu g where p=...........( K_(0) is a positive constant)

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.