A stone of mass `m` tied to a light inextensible sting of length `L(=(10)/(3)m)` is whirling in a circular path of radius `L` in a verticle plane. If the ratio of the maximum to the minimum tension is four, find the speed of the stone at the highest point of the circle.

A stone of mass 2 kg tied to a light inextensible string of length (5)/(3) m is whirling in a circular path in a vertical plane. If the ration of the maximum tension to the minimum tension in the string is 4 then the speed of the stone at the highest point of the circle is (g= 10 ms^(-2))

A stone of mass 1 kg tied to a light inextensible string of lenth L=(10)/(3)m , whirling in a circular path in a vertical plane. The ratio of maximum tension to the minimum tension in the string is 4. If g is taken to be 10ms^(-2) , the speed of the stone at the highest point of the circle is

A stone of mass 1 kg tied to a light inextensible string of lenth L=(10)/(3)m , whirling in a circular path in a vertical plane. The ratio of maximum tension to the minimum tension in the string is 4. If g is taken to be 10ms^(-2) , the speed of the stone at the highest point of the circle is

A stone of mass 1kg tied to a light inextensible string of length L=10m is whirling in a circular path of radius L in vertical plane. If the ratio of the maximum tension in the string to the minimum tension in the string is 4 and if g is taken to be 10ms^(-2) , the speed of the stone at the highest point of the circle is.

A stone of mass 1kg tied to a light inextensible sstring of length L=10m is whirling in a circular path of radius L in vertical plane. If the ratio of the maximum tension in the string to the minimmum tension in the string is 4 and if g is taken to be 10ms^(-2) , the speed of the stone at the highest point of the circle is.