Home
Class 11
PHYSICS
The force acting on a body moving along ...

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

Text Solution

Verified by Experts

If particle at `x_(2)` is displaced to right, the force on it is negative and is brought back to `x_(2)`. Similarly if particle is displaced to left, the force on it is positive and is again brought back to `x_(2)`. Hence the particle is in stable equilibrium at `x_(2)`.
Promotional Banner

Similar Questions

Explore conceptually related problems

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 variation of the particle particle shown in the figure. The body is in stable equilibrium at .

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

The variation of force F acting on a body moving along x - axis varies with its position (x) as shown in figure The body is in stable equilibrium stable 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 kinetic energy of a body moving along a straight line varies with time as shown in figure. The force acting on the body:

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 velocity (upsilon) of a particle moving along X-axis varies with its position x as shown in figure. The acceleration (a) of particle varies with position (x) as

The kinetic energy K of a particle moving along x - axis varies with its position (x) as shown in figure The magnitude of force acting on particle at x = 9 mis

A force F acting on a particle varies with the position x as shown in figure. Find the work done by this force in displacing the particle from