In the one-dimensional motion of a particle, the relation between position `x` and time `t` is given by `x^(2)+2x=t` (here `xgt0`). Choose the correct statement.

The position of a particle moving in the x-y plane at any time t is given by , x=(3t^2-6t) metres, y =(t^2-2t) metres. Select the correct statement.

For the one dimensional motion, described by x=t-sint

A particle moves in a straight line and its position x at time t is given by x^(2)=2+t . Its acceleration is given by :-

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 energy E of a particle at position x at time t is given by E=a/(t(b+x^(2)) Where a and b are constants. The dimensional formula of a is

The energy of a particle executing simple harmonic motion is given by E=Ax^2+Bv^2 where x is the displacement from mean position x=0 and v is the velocity of the particle at x then choose the correct statement(s)