A sphere of mass 300 grams is rotated at uniform angular velocity `2rads^(-1)` along a circle of radius 1.25 m in horizontal plane with help of light horizontal string. The tension in the string is

A body of mass m is made to revolve along a circle of radius r in horizontal plane at a speed Vm//s with help of light horizontal string such that the tension in the string is 10 N. Keeping speed constant if mass is increased to 2m und radius is decreased to r//2 then tension in the string is

A body is made to revolve along a circle of radius r in horizontal plane at a time period T with the help of light horizontal string such that the tension in the string is F. If the radius of circle is increased to 2r and time period of revolution is decreased to T//2 then the tension in the string is

A stone of mass 0.25 kg tied to the end of a string is whirled round in a circle of radius 1.5 m with a speed of 40 rev./min in a horizontal plane. What is the tension in the string ? What is the maximum speed with which the stone can be whirled around if the string can withstand a maximum tension of 200 N ?

A 0.4 kg body is rotated with a constant angular speed of 2 rps in a verticle circle of radius 1.2 m with the help of a string. The tension in the string when it is at the highest point is (g = 10 ms^(-2) and pi^(2) = 10)

Two bodies A, B of masses m_(1), m_(2) are knotted to a mass less string at different points rotated along concentric circles in horizontal plane. The distances of A.B from common centre are 50cm, 1m. If the tensions in the string between centre to A and A to B are in the ratio 5:4, then the ratio of m_(1) to m_(2) is

Two point size bodies of same mass are knotted to a horizontal string one at the end, and the other at the mid point of it. The string is rotated in horizontal plane with the other end as centre. If T is tension in the string between centre of circles and first body then the tension in the string between the two bodies is