The motion of a particle is given by `x=A sinomegat+Bcosomegat`. The motio of the particle is

The displacement of particle along the X-axis is given by x= a sin^(2) omega t . The motion of the particle corresponds to………..

How motion of any particle is described ?

A particle moves in the x-y the accoding to the equation, r = (hati + 2hatj) A cos omegat . The motion of the particle is

A particle is subjected to two mutually perpendicular simple harmonic motions such that its X and y coordinates are given by X=2 sin omegat , y=2 sin (omega+(pi)/(4)) The path of the particle will be:

A particle is acted simultaneouosly be mutually perpendicular simple harmonic motion x= a cos omega t" and "y= a sin omega t . The trajectory of motion of the particle will be………

Statement-I : Graph (1) represent one dimensional motion of a particle. While graph (2) can not represent 1-D motion of the particle. (here x is position and t is time) Statement-II : Particle can have only one position at an instant.

The potential energy of a particle oscillating along x-axis is given as U=20+(x-2)^(2) Here, U is in joules and x in meters. Total mechanical energy of the particle is 36J . (a) State whether the motion of the particle is simple harmonic or not. (b) Find the mean position. (c) Find the maximum kinetic energy of the particle.

The coordinates of a moving particle at time t are given by x=ct^(2) and y=bt^(2) . The speed of the particle is given by :-

The equation of motion of a particle is x= a cos (alpha t)^(2) . The motion is………..