A particle moves in a straight line with retardation proportional to its displacement. Its loss of kinetic energy for any displacement x is proportional to:

A particle moves in a straight line with retardation proportional to its displacement. Its loss in kinetic energy for any displacement x is proportional to

A particle moves in a straight line with acceleration proportional to x^2 , ( Where x is displacement). The gain of kinetic energy for any displacement is proportional to

A particle starts from origin and moves on a straight line path with an acceleration proportional to square of its displacement.Kinetic energy during displacement x will be

A particle moves in a straight line so that s=sqrt(t) , then its acceleration is proportional to

A particle moves in a straight line so that s=sqrt(t) , then its acceleration is proportional to

A particle starts with speed v_(0) from x = 0 along x - axis with retardation proportional to the square of its displacement. Work done by the force acting on the particle is proportional to

The slope of kinetic energy displacement curve of a particle in motion is

The retardation of a particle moving in a straight line is proportional to its displacement proportionallity constant being unity. Find the total distance convered by the particle till it comes to rest. Given that velocity of particle is v_(0) at zero displacement.

The acceleration of a particle moving in a straight line varies with its displacement as, a= 2s +1 veocity o particle is zero at zero displacement. Find the corresponding velocity - displacement equation.

The acceleration (a) of a particle moving in a straight line varies with its displacement (s) as a=2s . The velocity of the particle is zero at zero displacement. Find the corresponding velocity-displacement equation.