In the figure, the block on the smooth table is set into motion in a circular orbit of radius r around the centre hole. The hanging mass is identicalm to the mass on the table and remains in equilibrium. Neglect friction. The string connecting the two blocks is massless and inextensible. Select the correct alternatives.

The figure shows a disc of radius 3R from which a circular hole of radius R is cut as shown in the figure. The distance of the centre of mass of the remaining object from the point O is

In the arrangement shown in figure what should be the mass of block A , so that the system remains at rest ? Neglect friction and mass of string.

A block of mass 20 kg is set into motion on a frictionless horizontal surface with the help of massless smooth pulley and rope as shown in the figure. Find the acceleration of the pulley

A particle of m_(1) moves in a circular path of radius R on a rotating .A string connecting the particles m_(1) and m_(2) passes over a smooth hole made on the table as shown in figure If mass m_(1) does not slide relative to the rotating table , mark the correct option as applicable.

A block of mass of 20kg is set into motion on a frictionless horizontal surface with the help of massless smooth pulley and rope as shown in figure.Find the acceleration of the pulley .jpg

Two identical masses are attached by a light string that passes over a small pulley, as shown . The table and the pulley are frictionless. The hanging block is moving

A 2kg block lying on smooth table which is connected by a body of mass 1 kg by a string which passes through a pulley. Take 1 kg mass hanging vertically. Find the acceleration of block & tension in string.

A block of mass m is kept on the edge of a horizontal turn table of radius R which is rotating with constant angular verticle omega (along with the block ) about its axis . If coefficient of friction is mu , find the friction force between block and table.

Figure shows two blocks connected by a light inextensible string as shown in figure. A force of 10 N is applied on the bigger block at 60^(@) with horizontal, then the tension in the st ring connection the two masses is -

A thread is passing through a hole at the centre of frictionless table. At the upper end a block of mass 0.5 kg is tied and a block of mass 8.0 kg is tied at the lower end which is freely hanging. The smaller mass is rotate, on the table with a constant angular velocity about the axis passing through the hole so as to balance the heavier mass. If the mass of the hanging block is changed from 8.0 kg to 1.0 kg , what is the fractional change in the radius and the angular velocity of the smaller mass so that it balances the hanging mass again?