Figure shows the position of a particle moving on the X-axis as a function of time.

Figure shows the displacement of a particle going along the X-axis as a function of time. The force acting on the particle is zero in the region

Figure shows the displacement time graph of a particle moving on the X-axis

Figure shows the x coordinate of a particle as a function of time. Find the signs of v_x and a_x at t=t_1 , t=t_2 and t=t_3 .

A particle of unit mass undergoes one -dimensional motion such that its velocity varies according to v(x)= betax^(-2n) where beta and n are constants and x is the position of the particle.The acceleration of the particle as a function of x, is given by:

Figure shows the position-time graph of a particle of mass 4 kg. What is the (a) force on the particle for t 4 s, 0

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

The position of a particle moving along a horizontal line of any time t is given by s(t)=3t^(2)-2t-8 . The time at which the particle is at rest is

The position of a particle moving along a horizontal line of any time t is given by s(t)=3t^(2)-2t-8 . The time at which the particle is at rest is …………….. .

In the given figure , a= 15m//s^2 represent the total acceleration of a particle moving in the clockwise direction in a circle of radius R=2.5m at a given instant of time . The speed of the particle is , .