A mass of 60 g remains attached to the end of a thread of length 4 m. The mass is rotated uniformly in a horizontal circular path. The plane of this circular path is at a vertical distance of 3.2 m from the upper end of the thread. Determine the tension in the thread and the time period of revolution of the mass.

A sphere of mass 200 g remains suspended from a rigid support by means of a thread of length 130 cm. The sphere is rotated in a horizontal circular path of radius 50 cm. Determine its time period of rotation and tension in the thread.

A piece of stone of mass 2 kg is tied with a thread of length 5 m and is rotated along a horizontal circular path. The thread can withstand a maximum tension of 30 N. What is the maximum velocity with which the stone can be rotated without snapping the thread? Also find the maximum number of revolutions that the stone can complete in one minute.

A particle of mass 100 g is suspended from the end of a weightless string of length 100 cm and is rotated in a vertical plane. The speed of the particle is 200 cm*s^(-1) when the string makes an angle of theta =60^@ with the verctcal. Determine (i) the tension in the string when theta =60^@ and

A piece of mass 1 kg is tied with a thread of length 10 m and is rotating along a horizontal circular path making an angle theta with the vertical. The thread can withstand a maximum tension of 12 N. What is the maximum velocity with which the stone can be rotated without snapping the thread?

Two satellites A and B are revolving along circular paths of the same radius. The mass of A is 16 times the mass of B. The ratio of the time period of revolution of B to that of A is

A stone of mass 500 g is tied at one end of a thread . If the stone is rotated along a circular path of radius 100 cm in a vertical plane with velocity 4m*s^(-1) , what will be the tensions in the thread at the highest and the lowest positions of the stone ? ( g=980 cm*s^(-2) )

A body of mass 1 kg is tied with a thread of length 20 cm and is rotated in a vertical circle. Determine the minimum velocity of the body at its highest position and its velocity at the lowest position, as well as tension in the thread under the same conditions .