A boy comes running and sits on a rotating platform. What is conserved ?

A dancer is standing on a rotating platform taking two sphere on her hands. If she drops down the sphere on ground, then dancer's:

A man stands on a rotating platform, with his arms stretched horizontal holding a 5 kg weight in each hand. The angular speed of the platform is 30 revolutions per minute. The man then brings his arms close to his body with the distance of each weight from the axis changing from 90 cm to 20 cm . moment of inertia of the man together with the platform may be taken to be constant and equal t 7.6 kg m^(2) . (a) What is the his new angular speed ? (Neglect friction.) (b) Is kinetic energy conserved in the process ? If not, from where does the change come about ?

What is in-situ conservation ?

What are conserved quantities?

A disc is rotating with angular velocity omega . If a child sits on it, what is conserved?

A long belt is moving horizontally with a speed of 5 km/h. A child is running on belt to and fro with a speed of 9 km/h with respect to belt between his father and mother located 50 m apart on the belt. For an observer on a stationary platform outside, what is the speed of the child running opposite to the direction of the belt ?

What are conservation laws?

A boy is sitting on the horizontal platform of a joy wheel at a distance of 5 m from the center. The wheel begins to rotate and when angular speed exceeds 1 rad/s, the boy just slips. The coefficient of friction between the boy and the wheel is (g=10m//s^(2))

A rotating platform for a stationary observer outside, it is

A boy stands over the centre of a horizontal platform which is rotating freely with a speed of 2 "revolutions"//s about a vertical axis through the centre of the platform and straight up through the boy. He holds 2 kg masses in each of his hands close to his body. The combined moment of inertia of the system is 1 kg xx metre^(2) . The boy now stretches his arms so as to hold the masses far from his body. In this situation, the moment of inertia of the system increases to 2 kgxxmetre^(2) , The kinetic energy of the system in the latter case as compared with that in the previous case will