The acceleration of a particle moving along x-axis is `a=-100x+50`. It is released from `x=2`. Here `a` and `x` are in S.I units. The motion of particle will be:

Position of particle moving along x-axis is given as x=2+5t+7t^(2) then calculate :

Acceleration of a particle moving along the x-axis is defined by the law a=-4x , where a is in m//s^(2) and x is in meters. At the instant t=0 , the particle passes the origin with a velocity of 2 m//s moving in the positive x-direction. (a) Find its velocity v as function of its position coordinates. (b) find its position x as function of time t. (c) Find the maximum distance it can go away from the origin.

A particle moves along the X-axis as x=u(t-2s)+a(t-2s)^2 .

For a particle moving along x- axis, speed must be increasing for the following graph :

V_(x) is the velocity of a particle of a particle moving along the x- axis as shown. If x=2.0m at t=1.0s , what is the position of the particle at t=6.0s ?

The velocity of a particle moving along x-axis is given as v=x^(2)-5x+4 (in m // s) where x denotes the x-coordinate of the particle in metres. Find the magnitude of acceleration of the particle when the velocity of particle is zero?

The rate of doing work by force acting on a particle moving along x-axis depends on position x of particle and is equal to 2x. The velocity of particle is given by expression :-

If the velocity of a particle moving along x-axis is given as v=(3t^(2)-2t) and t=0, x=0 then calculate position of the particle at t=2sec.

The position of a particle moving along x-axis varies eith time t as x=4t-t^(2)+1 . Find the time interval(s) during which the particle is moving along positive x-direction.

The x-coordinate of a particle moving on x-axis is given by x = 3 sin 100 t + 8 cos^(2) 50 t , where x is in cm and t is time in seconds. Which of the following is/are correct about this motion