A body of mass m hangs at one end of a string of length l , the other end of which is fixed. It is given a horizontal velocity so that the string would just reach where it makes an angle of `60^(@)` with the vertical. The tension in the string at mean position is

A body of mass m hangs at one end of a string of length Z, the other end of which is fixed. It is given a horizontal velocity so that the string would just become slack, when it makes an angle of 60^@ with the upward drawn vertical. The tension in string at this at this position is A. 4.5mg B. 2 mg C. 3 mg D. sqrt(mg)

A body of mass m is tied to a string of length l and whirled in a verticle cirlce. The velocity of the body at the lowest position is u. Then the tension in the string at a position when the string makes an angle theta with the vertical is

A body of mass m tied to a string of length r is at its lowest position. What should be the minimum speed given to it so as just to complete one revolution ?

A sphere of mass m is tied to end of a string of length l and rotated through the other end along a horizontal circular path with speed v . The work done in full horizontal circle is

A body of mass m is suspended from a string of length l. What is minimum horizontal velocity that should be given to the body in its highest position so that it may complete one full revolution in the vertical plane with the point of suspension as the centre of the circle.

Consider a simple pendulam of length 1 m. Its bob performs a circular motion is horizontal plane with its string making an angle 60^@ with the vertical. The centripetal accleration experienced by the bob is

In a conical pendulam, when the bob moves in a horizontal circle of radius r with uniform speed v, the string of length L describes a cone of semivertical angle theta . The tension in the string is given by

A stone of mass 1 kg is whirled in horizontal circle attached at the end of a 1 m long string. If the string makes an angle of 30^@ with vertical, calculate the centripetal force acting on the stone. (g = 9.8 m/s^2)

If a body of mass 0.1 kg tied with a string of length 1m, is rotated in vertical circle, then the energy of the body at the highest position will be

A standing wave is produced on a string fixed at one end with the other end free. The length of the string