Statement I: In fig., ground is smooth and masses of both the block are differents. The net force acting on each of the block is not same.

Statement II: Acceleration of both will be different.

Statement-1: Tension in a massless string may be different at different points. Statement-2: Net force on a massless object is zero.

Statement I: A block of mass m is placed on a smooth inclined plane of inclinaton theta with the horizontal. The force exerted by the plane on the block has a magnitude mg cos theta . Statement II: Normal reaction always acts perpendicular to the contact surface.

Find minimum mu between the block so that both blocks move with same acceleration.

If the blocks A and B are moving towards each other with accelerations a and b shown in fig. find the net acceleration of block C.

Find the force of friction acting between both the blocks shown in the figure.

If the mass of a body and the force acting on it are both doubled, what happens to the acceleration ?

In the figure shown, all surfaces are smooth and the pulley is massless. A constant force of magnitude F = (mg)/(2) is acting on the block of mass M. The acceleration of the block M is :

Statement-1: A block is immersed in a liquid inside a beaker which is falling freely buoyant force acting on block is zero. Statement-2: In case of freely falling liquid there is no pressure difference between any two points.

Statement I: A block is lying stationary as on inclined plane and coefficient of friction is mu . Friction on block is mu mg cos theta . Statement II: Contact force on block is mg.