A body moves along a circular path of radius 10m and the coefficient of friction is 0.5.What should be its angular speed `(in rad s^(-1))`, if is not to slip from the surface ? `(Given,g =9.8ms^(-2))`

A body moves along circular path of radius 50 m and the coefficient of friction is 0.4. What should be its angular velocity is rad//s if it is not to slip from the surface? (g=9.8 m//s^2 )

A body moves along circular path of radius 50 m and the coefficient of friction is 0.4. What should be its angular velocity is rad//s if it is not to slip from the surface? (g=9.8 m//s^2 )

An electron moves along a circular path of radius 10 cm. If the centripetal acceleration is 4xx10^(11) m//s^(2) , then its linear speed is

A body moves in a circular path of radius 4m with a velocity of 6 ms^(-1) . Find the angular velocity.

A body moves along a circular path of radius 5m. The coefficient of friction between the surface of the path and body is 0.5. The angular velocity is radian s_1 with which the body should move so that it does not leave the path is (g= 10ms^(-2) )

A body moves along a circular path of radius 5m . The coefficient of friction between the surface of the path and the body is 0.5 . The angular velocity in rad//s with which the body should move so that it does not leave the path is (g-10m//s^(-2))

A body moves along a circular path of radius 5m . The coefficient of friction between the surface of the path and the body is 0.5 . The angular velocity in rad//s with which the body should move so that it does not leave the path is (g-10m//s^(-2))