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, 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 circle. Can the stone describe 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 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 the hand. Can the particle describe the vertical circle? (Take g = 10 m s^-2 )

A stone is tied to the end of a string of length 1 and whirled in a horizental circle. When the string breaks then stone

A stone of mass 1 kg tied to a string 4 m long and is rotated at constant speed of 40 m/s a vertical circle. The ratio of the tension at the top and the bottom, is (g=10" m"//"s"^(2))

A stone of mass 1 kg tied to a string 4 m long and is rotated at constant speed of 40 m/s a vertical circle. The ratio of the tension at the top and the bottom, is (g=10" m"//"s"^(2))