A particle tied to a string moves in a circular path in vertical plane. Its velocity at lowerst point is such that it just completes circle. Find the ratio of resultant force on particle at the lowerst point to that at highest point.

In vertical circular motion, the ratio of kinetic energy of a particle at highest point to that at lowest point is

A particle tied to a string describes a vertical circular motion of radius r continually if it has a velocity sqrt(3gr) at the highest point, then the ratio of the respective tensions in the string holding it at the highest point and lowest points is:

A stone of mass 0.2 kg is tied to one end of a string of length 80cm Holding the other end, the stone is wirled into a vertical circle. What is the minimum speed of the stone at the lowest point so that it just completes the circle What is the tension in the string at the lowest point of the circular path ? . (g =10^(-2)) .

A particle is tied to 20 cm long string. It performs circular motion in vertical plane. What is the angular velocity of string when the tension in the string at the top is zero

A particle tied to a string describes a vertical circular motion of radius r continually. If it has a velocity sqrt(3 gr at the highest point, then the ratio of the respective tensions in the string holding it at the highest and lowest points is

In a vertical circle the minimum or critical velocity at highest point of path will be

A particle is attached to a string and the other end of the string is attached to a fixed support. In order to just complete the vertical circular motion, what should be the ratio of the kinetic energy of the particle at its highest point of that at its highest point to that at its lowest point?

A particle is projected with a velocity vecv=ahati+bhatj . Find the radius of curvature of the trajectory of the particle at the (f) point of projection (ii) highest point.

The maximum velocity at the lowest point, so that the string just slack at the highest point in a vertical circle of radius l.