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

The potential energy of a particle is given by formula U=100-5x + 100x^(2), where U and 'x' are in SI unit .if mass of particle is 0.1 Kg then find the magnitude of its acceleration

The potential energy of a particle is given by the formula U= 100 -5x+100x^2 , U and x are in SI units. If mas of the particle is 0.1 kg then magnitude of its acceleration .

The potential energy of a particle of mass m is given by U(x)=U_0(1-cos cx) where U_0 and c are constants. Find the time period of small oscillations of the particle.

The potential energy of a particle (U_(x)) executing SHM is given by

The potential energy of a particle oscillating on x-axis is given as U = 20 + (x-2)^(2) where .U. is in joules and .x. is in metres. Its mean position is

The potential energy of a particle varies with distance x as U=(Ax^(1//2))/(x^(2)+B) where a and B are constants. The dimensional formula for AXB is :

The potential energy of a certain particle is given by U = 30x^2 - 20 y^2 . Find the force acting on the particle.

The potential energy of the moving particle along x-axis is given by U=20+5sin (4pix) where U is in joule and x is in metre under the action of conservative force.