By keeping moment of inertia of a body constant, if we double the time period, then angular momentum of body
A. remains constant
B. becomes half
C. Doubles
D. Quadruples

Kinetic energy of a body is 4 J and its moment of inertia is 2 kg m^2 , then angular momentum is

The relation’ between the torque r and angular momentum L of a body of moment of inertia I rotating with angular velocity omega is

A body moves in a circle covers equal distance in equal intervals to time. Which of the following remains constant?

Assertion : If there is no external torque on a body about its centre of mass, then the velocity of the centre of mass remains constant. Reason : The linear momentum of an isolated system remains constant.

A disc of moment of inertia 3 kg m^2 is acted upon by a constant torque of 60 Nm, if the disc is at rest, then the time after which the angular velocity of the disc is 90 rad/s, will be

Choose the correct option? If pressure of air gets doubled, then velocity of sound in air A. gets doubled B. becomes four times C. remains unchanged D. becomes half

For the reaction : 2A + 2B rarr 2C+ D , if concentration of A is doubled at constant [B], the rate increase by a factor of 4. If the concentration of B is doubled with [A] being constant the rate is double. Write the rate law of the reaction.

The rms velocity of a gas at T °C is double the value at 27 °C. The temperature T of the gas in °C is ( assume that the pressure remains constant)

The linear momentum p of a body moving in one dimension varies with time according to the equation p=a+bt^(2) where a and b are positive constants. The net force acting on the body is

A person stands on a uniformly rotating turn table with outstretched arms holding two identical weights. The moment of inertia of the system is 60 kgm^2 . When he brings the arms close to his body, the M.I. of inertia reduces to 58 kgm^2 . The angular speed of the system now becomes 3 rad s^-1 . Find the initial angular speed and the final K.E.