A particle can move along x axis under influence of a conservative force. The potential energy of the particle is given by `U = 5x^2 – 20x + 2` joule where x is co-ordinate of the particle expressed in meter. The particle is released at x = –3 m (a) Find the maximum kinetic energy of the particle during subsequent motion. (b) Find the maximum x co-ordinate of the particle.

The potential energy of a particle is given by formula U=100-5x + 100x^(2), where U and are .

A particle of mass m = 1 kg is free to move along x axis under influence of a conservative force. The potential energy function for the particle is U=a[(x/b)^(4)-5(x/b)^(2)] joule Where b = 1.0 m and a = 1.0 J. If the total mechanical energy of the particle is zero, find the co-ordinates where we can expect to find the particle and also calculate the maximum speed of the particle.

Potential energy of a particle along x-axis varies as U = - 30 + (X-2)^2 , where U is in joule and x is in meter. Hence the particle is in

particle is executing the motion x=A cos (omegat-theta) The maximum velocity of the particle is

The potential energy of a particle under a conservative force is given by U ( x) = ( x^(2) -3x) J. The equilibrium position of the particle is at

The potential energy U in joule of a particle of mass 1 kg moving in x-y plane obeys the law U = 3x + 4y , where (x,y) are the co-ordinates of the particle in metre. If the particle is at rest at (6,4) at time t = 0 then :

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

The potential energy of a particle moving along x-axis is given by U = 20 + 5 sin (4 pi x) , where U is in J and x is in metre under the action of conservative force :

Potential energy of a particle at position x is given by U=x^(2)-5x . Which of the following is equilibrium position of the particle?