A particle is projected along the inner surface of a smooth vertical circle of radius `R`, its velocity at the lowest point being `(1//5)(sqrt(95 gR))`. If the particle leaves the circle at an angular distance `cos^(-1)(x//5)` from the highest point, the value of `x` is.

The linear speed of a particle revolved in a vertical circle of radius r is sqrt(7gr) at the lowest point. What is the linear speed half way to the top?

A particle slides down the surface of a smooth fixed sphere of radius R starting from rest at the highest point B . Particle leaves the sphere at some point and then strikes the horizontal plane passing through the lowest point A of the sphere at point P . The distance AP is given by AP=n/27[sqrt(n)+4sqrt(2)]R where 'n' is an integer, find n (Take g=10m//s^(2) )

The velocity of a body of mass m revolving in a vertical circle of radius R at the lowest point 2sqrt2gR . The minimum tension in the string will be

A particle is moving in a vertical circle with radius 1 m. It the ratio of T_(max)/T_(min) =5 find the velocity at highest point ?

A particle has velocity sqrt(3 rg) at the highest point in vertical circle. Find the ratio of tenions at the hightest and lowest point

The velocity of a body moving in a vertical circle of radius r is sqrt(7gr) at the lowest point of the circle. What is the ratio of maximum and minimum radius r is tension?

The velocity of a body moving in a vertical circle of radius r is sqrt(7gr) at the lowest point of the circle. What is the ratio of maximum and minimum tension ?