As disc is rotating with angular speed `omega`. If a child sits on it, what is conserved?

A disc is rotating with angular velocity (vecomega) .A force vecF acts at a point whose position vector with respect to the axis of rotation is vecr . The power associated with the torque due to the force is given by

A wheel is rotating at an angular speed omega about its axis which is kept vertical. An identical wheel initially at rest is gently dropped into the same axle and the two wheels start rotating with a common angular speed. Find this common angular speed.

A non-conducting charged ring of charge q. mass m and radius r is rotated with constant angular speed omega . Find the ratio of its magnetic moment with angular momentum is ............. .

A non - conducting charged ring of charge q , mass m and radius r is rotated with constant angular speed omega . Find the ratio of its magnetic moment with angular momentum is

A child stands at the centre of turn table with his two arms out stretched. The turn table is set rotating with an angular speed of 40 rpm. How much is the angular speed of the child if he folds his hands back and thereby reduces his moment of inertia to 2/5 times the initial value? Assume that the turn table rotates without friction (ii) Show that the child's new kinetic energy of rotation is more than the initial kinetic energy of rotation. How do you account for this increase in kinetic energy?

A thin circular ring of mass M and radius r is rotating about its axis with an angular speed omega . Two particles having mass m each are now attached at diametrically opposite points. The angular speed of the ring will become

A disc rotating about its axis with angular speed ω_(o) is placed lightly (without any translational push) on a perfectly frictionless table. The radius of the disc is R. What are the linear velocities of the points A, B and C on the disc shown in Fig. 7.41? Will the disc roll in the direction indicated ?