A ball tied to the end of the string swings in a vertical circle under the influence of gravity.

A ball tied to the end of the string swings in a verticlal in a verticle circle under the influence of gravity.

A small body tied to one end of the string is whirled in a vertical circle. Represent the forces on a diagram when the string makes an angle theta with initial position.

A stone of mass m, tied to the end of a string, is. whirled around in a horizontal circle (neglect gravity). The length of the string is reduced gradually such that mvr = constant. Then, the tension in the string is given · by T = Ar '', where A is a constant and r is the instantaneous radius of the circle. Then, n is equal to:

A stone is tied to one end of a string and rotated in a vertical circle . What is the difference in tensions of the string at lowest and highest points of the vertical circle ?

A child revolves a stone of mass 0 .5 kg tied to the end of a string of length 40 cmin a vertical circle . The speed of the stone at the lowest point of the circle is 3 m//s Calculate tension in the string at this point.

IF a stone is tied to one end of the string and whirled in verticle circle, then the tension in the string at the lowest point is equal to

A massless, inextensible string of length 1 m has a breaking strength of 1 kg wt. A stone of mass 0.2 kg tied to one end of the string is made to move in a vertical circel. Can te stone decribe the vertical circle? (g=10 ms^(-2))

A massless string of length 1.2 m has a breaking strength of 2 kg wt . A stone of mass 0.4 kg tied to one end of the string is made to move in a vertical circle by holding the other end in hand . Can the particle describe the vertical circle ? Take g = 10 ms^(-2) .

A particle tied with a string is whirled along a vertcial circle.

A body of mass 100 gram , tied at the end of a string of length 3m rotes in a vertical circle and is just able to complete the circle . If the tension in the string at its lowest point is 3.7 N, then its angular velocity will be _____ [ g= 10 m//s^(2)]