Referring to `a-x` graph, find the velocity when thedisplacement of the particle is `100 m`. Assume intial velocity as zero.
.

A particle moves along the x-axis obeying the equation x=t(t-1)(t-2) , where x is in meter and t is in second a. Find the initial velocity of the particle. b. Find the initial acceleration of the particle. c. Find the time when the displacement of the particle is zero. d. Find the displacement when the velocity of the particle is zero. e. Find the acceleration of the particle when its velocity is zero.

Referring to a-s diagram as shown in , findthe velocity of the particle when the particle when the spaarticle justcovers 20 m , (v_(0)=sqrt50 ms^(-1) . .

Refering to v-s diagram, find: . a. Acceleration of the particle when its velocity becomes half of the initial velocity. b. Total distance covered by the particle.

The escape velocity of a particle of mass 'm'

velocity time graph of a particle is shown in figure. Find displacement of the particle.

The velocity - time graph of a particle is as shown in figure

The acceleration-displacement graph of a particle moving in a straight line is as shown in figure, initial velocity of particle is zero. Find the velocity of the particle when displacement of the particle is s=12 m .

Referring a-s diagram in the figure , find the velocity after particle travel 250 m from starting. Assume v_(0)=0 . .

The displacement 'x' (in meter) of a particle of mass 'm' (in kg) moving in one dimension under the action of a force is released to time 't' (in sec) by t^2 = sqrt(x) + 2 . The displacement of the particle when its velocity is zero will be.

If v = x^2 - 5x + 4 , find the acceleration of the particle when velocity of the particle is zero.