The following motion is based on the law of conservation of angular momentum
(A) rotation of top (B) diving of driver
(C) rotation of ballet dancer on smooth horizontal surface
(D) a solid sphere that rolls down on an inclined plane

The law of conservation of angular momentum is obtained from Newton's II law in rotational motion when

A uniform solid sphere rolls on a horizontal surface at 20 m/s. It, then, rolls up a plane inclined at

The kirchoff's first law (sum i=0 ) and second law (sum iR=sum E) where the symbols have their usual meanings are respectively based on (A) Conservation of charge conservation of momentum (B) Conservation of energy conservation of charge (C) Conservation of momentum conservation of charge (D) Conservation of charge, conservation of energy

A sphere rolling on a horizontal rough surface Collides elastically with a smooth vertical wall, as shown in Fig. State which of the following statements is true or false. a. After collision, the velocity of the centre of mass gets reversed. b. Angular momentum of the sphere about the point of contact with the wall is conserved. c. Angular momentum of the sphere about a stationary point on the horizontal surface is conserved. d. Just after collision the point of contact with the horizontal surface is moving towards the wall. e. After collision the friction force acts on the sphere such that it decreases the linear speed and increases the angular speed. f. Finally, when the sphere starts rolling, it is moving away from the wall.

A ballet dancer is rotating about his own vertical axis on smooth horizontal floor. I, omega, L, E are moment of inertia, angular velocity, angular momentum, rotational kinetic energy of ballet dancer respectively. If ballet dancer stretches himself away from his axis of rotation, then

A solid sphere rolls on horizontal surface without slipping. What is the ratio of its rotational to translation kinetic energy.

A uniform sphere of mass m and radius R starts rolling without slipping down an inclined plane at an angle alpha to the horizontal. Find the time dependence of the angular momentum of the sphere relative to the point of contact at the initial moment. How will the obtained result change in the case of a perfectly smooth inclined plane?

Which of the following statements is incorrect (A) Torque is the rotational analogue of force (B) Rolling motion of a cylinder down an inclined plane is combination of translational and rotational motion (C) If the effort arm is larger than the load arm, the mechanical advantage is lesser than one (D) For the extended body. centre of mass and centre of gravity do not coincide