The force acting on a body moving along X-axis varies as shown.Its stable equilibrium position is :

The force acting on a body moving along x -axis varies with the position of the particle as shown in the fig. The body is in stable equilibrium at.

The force acting on a body moving along x-axis varies with the position of the particle shown in the figure. The body is in stable equilibrium at .

The only force acting on a 2.0-kg body as it moves along the x-axis varies as shown in figure. The velocity of the body at x=0 is 4.0ms^-1 . a. What is the kinetic energy of the body at x=3.0m ? b. At what value of x will the body have a kinetic energy of 8.0J ? c. What is the maximum kinetic energy attained by the body between x=0 and x=5.0m ?

The variation of potential energy U of a body moving along x - axis varies with its position (x) as shown in figure The body is in equilibrium state at

The variation of potential energy U of a body moving along x - axis varies with its position (x) as shown in figure The body is in equilibrium state at

The magnitude of force acting on a particle moving along x-axis varies with time (t) as shown in figure. If at t = 0 the velocity of particle is v_(0) , then its velocity at t=T_(0) will be

The force acting on a particel moving along X-axis is F=-(x-v_0t) where k is a positive constant An observer moving at a constant velocity v_0 along the X-axis looks the prticle . What kind of motion does he find for the particle?

The force acting on a particle moving along a straight line varies with time as shown in diagram. Which of the following graphs is best representative of its speed and time graphs. Initial velocity the particle is zero.