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 displacement as x^(1/K) . Find the value of K.

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.

Displacement time graph of a particle moving in a straight line is a shown in figure.

Force acting on a particle of mass m moving in straight line varies with the velocity of the particle as F=K//V K is constant then speed of the particle in time t

The variation of velocity of a particle moving along a straight line is shown in . is .

If average velocity of particle moving on a straight line is zero in a time interval, then

Forces acting on a particle moving in a straight line varies with the velocity of the particle as F = (alpha)/(upsilon) where alpha is constant. The work done by this force in time interval Delta t is :

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

Velocity versus displacement graph of a particle moving in a straight line as shown in figure. The acceleration of the particle.

Acceleration (a)-displacement(s) graph of a particle moving in a straight line is shown here. The initial velocity of the particle is zero. The v-s graph of the particle would be