If the velocity of a moving particle `vpropx^(n)`, where `x` is the displacement then

The power supplied by a force acting on a particle moving in a straight line is constant. The velocity of the particle varies with the displacement x as :

The power supplied by a force acting on a particle moving in a straight line is constant. The velocity of the particle varies with the displacement x as :

The acceleration (a) of moving particle varies with displacement according to the following relation a = X^(2)+3X , Then correct relation between velocity and displacement is :-

The acceleration (a) of a particle moving in a straight line varies with its displacement (s) as a=2s+1 . The velocity of the particle is zero at zero displacement. Find the corresponding velocity-displacement equation.

The acceleration (a) of a particle moving in a straight line varies with its displacement (s) as a=2s . The velocity of the particle is zero at zero displacement. Find the corresponding velocity-displacement equation.

A particle moves along x-axis obeying the equation x=t(t-1)(t-2), where x (in metres) is the position of the particle at any time t (in seconds). The displacement when the velocity of the particle is zero, is

The acceleration (a) of a particle moving in a straight line varies with its displacement (S) as a=2S . The velocity of the particle is zero and zero displacement. Find the corresponding velocity-displacement equation.

Acceleration v/s displacement graph of a particle moving in a straight line is as shown in the figure. The initial velocity of the particle is zero. The velocity v/s displacement graph of the particle would be :