The potential energy of a particle varies with distance x from a fixed origin as `U=(Asqrtx)/(x+B)` where A and B are constants. The dimension of AB are

The potential energy U of a particle varies with its distance x from a predefined origin as U = (Asqrt(x))/(x+B) , where A and B are constants . Find out the dimension of the quantity AB.

prove that E(ax+b)=aE(x)+b where a and b are constants

The potential energy of a particle of mass 0.02 kg moving along x -axis is given by V = Ax(x - 4) J where x is in metres and A is a constant. Which of the following is/are correct statement (s)? (A) The particle is acted upon by a constant force. (B) The particle executes simple harmonic motion. (C) The speed of the particle is maximum at x = 2 m. (D) The period of oscillation of the particle is pi/5 sec.

Potential energy of a particle is 1/2momega^(2)x^(2) , where m and omega are constants. Prove that the motion of the particle is simple harmonic.

Find the differential equation of y = Ax + (B)/(x) , where A and B are arbitrary constants .

The kinetic energy of a particle is 1/2momega^(2)(A^(2)-x^(2)) , where m, omega and A are constants. Prove that the motion of the particle is simple harmonic.

The refractive index ( mu ) of glass is related to the wavelength (lambda) of incident light as mu = A +(B)/(lambda^(2)) , where A and B are constants. Find out the dimensions of A and B.

A particle of mass m is located in a one dimensional potential field where potential energy is given by V(x) = A(1- cos Px) , where A and P are constant . The period of small oscillations of the particle is