The kinetic energy of a particle moving along a circle of radius depends on distance(s) as `Kas^2`, where a is a constant. The centripetal force is given by

The kinetic energy K of a particle moving along a circle of radius R depends upon the distance S as K=betaS^2 , where beta is a constant. Tangential acceleration of the particle is proportional to

The kinetic energy of a particle moving along a circle of radius R depends on the distance covered s as T = KS2 where K is a constant. Find the force acting on the particle as a function of S -

Kinetic energy of a particle moving along a circle of radisu R depends on the distance covered as K =as^(2) where a is a constant . Find the force acting on the particle as a function of s.

The kinetic energy K of a particle moving along a circle of radius R depends upon the distance s as K=as^2 . The force acting on the particle is

The kinetic energy of a particle moving along a circle of radius R depends on the distance covered s as T=as^2 , where a is ticle as a function of s.

The kinetic energy of a particle moving along a circle of radius R depends on the distance covered s as K=lambdas^(2) , where lambda is a constant. Find the force acting on the particle as a function of s .

The kinetic energy of partical moving along a circule of radius R depends upon the distance covered S and given by K = aS where a is a constant. The the force acting on the partical is

Thekinetic energyofaparticle movingalong a circle of radius R depends on the distance covered S as K =alphaS^(2), where alpha is a constant. Find theaorce acting on the particle as a function of S.

The kinetic energy K of a particle moving along a circle of radius R depends on the distance covered a as K=as^(2) . The force acting on the particle is

The K.E (K ) of a particle moving along a circle r depends upon the distance covered (s) as K= as ^(2) The centripetal force acting on the particle is given by