For a particle moving under the action of a variable force, kinetic energy (k) varsus position (x) graph is given, then

Under the action of variable force, at any instant the displacement is

A particle is constrained to move along x axis under the action of a conservative force. The potential energy of the particle varies with position x as shown in the figure. When the particle is at x = x0, it is given a kinetic energy (k) such that 0 lt k lt 4U0 (a) Does the particle ever reach the origin? (b) Qualitatively describe the motion of the particle

A body of mass 4kg moving along a straight line under the action of a force.If kinetic energy varies with time as k=8t .The force acting on the body is ?

A particle is moving along x-axis under the action of a force F, which varies with its position (x)as fprop(1)/(sqrtx). Find the variation of power due to this force with x.

The position of a particle moving on a stringht line under rthe action of a force is given as x=50t-5t^(2) Here, x is in metre and t is in second. If mass of the particle is 2 kg, the work done by the force acting on the particle in first 5 s is.

A particle of mass m moves under the action of a central force. The potential energy function is given by U(r)=mkr^(3) Where k is a positive constant and r is distance of the particle from the centre of attraction. (a) What should be the kinetic energy of the particle so that it moves in a circle of radius a0 about the centre of attraction? (b) What is the period of this circualr motion ?

Potential energy of a particle moving along x-axis under the action of only conservative force is given as U=10+4cos(4pi x) . Here, U is in Joule and x in metres. Total mechanial energy of the particle is 16 J. Choose the correct option.

A particle of mass 9 kg is moving under the action of a central force whose potential energy is given by U=10//r For what energy it will orbit a circle of radius 10 m ? Calculate the time period of this motion

A particle of mass 3 kg is moving under the action of a central force whose potential energy is given by U(r) = 10r3 joule. For what energy and angular momentum will the orbit be a circle of radius 10 m ?