Two rigid bodies have the same angular momentum about their axes of symmetry. If the same torque is applied about their axes, then the ratio of the times after which they will be stopped is

A hollow sphere and solid sphere of the same radius rotate about their diameters with the same angular velocity and angular momentum. Then the ratio of their masses is

Two vessels have different base area. They are filled with water to the same height. If the amount of water in one be 6 times that in the other, then the ratio of pressure on their botton will be

A steel ring and a wooden ring have the same mass. Then which will have smaller moment of inertia about the diameter ?

An iron disc and a wooden disc have the same radius. Then which will have larger moment of inertia about the diameter ?

Two current carrying coils have radii r and 2r and have same magnetic induction at their centres. The ratio of voltage applied across them is

A Copper wire and steel of the same diameter and length are connected end to end and a force is applied, which stretches their combined length by 1 cm. The two wires will have

A long horizontal rod has a bead which can slide along its length and initially placed at a distance L from one end A of the rod. The rod is set in angular motion about A with constant angular acceleration alpha. if the coefficient of friction between the rod and the bead is mu , and gravity is neglected, then the time after which the bead starts slipping is

A solid sphere, hollow sphere and ring have the same mass and diameter.If they rotate about axes passing through centre of gravity and in the case of ring it is normal to its plane, which will have more moment of inertia ?

Two bodies of same mass have their kinetic Ie energies in the ratio 9:4 . What will be the ratio of their velocities?

Two identical discs of same radius R are rotating about their axes in opposite directions with the same constant angular speed omega . The discs are in the same horizontal plane. At time t-0, the points P and Q are facing each other as shown in the figure. The relative speed between the two points P and Q is v_r , As a function of time, it is best represented by