Home
Class 11
PHYSICS
Force acting on a particle constrained t...

Force acting on a particle constrained to move along x-axis is `F=(x-4)`. Here, F is in newton and x in metre. Find the equilibrium position and state whether it is stable or unstable equilibrium.

Promotional Banner

Similar Questions

Explore conceptually related problems

potential enrgy of a particle along x-axis varies as, U=-20 + (x-2)^(2) , where U is in joule and x in meter. Find the equilibrium position and state whether it is stable or unstable equilibrium.

potential enrgy of a particle along x-axis varies as, U=-20 + (x-2)^(2) , where U is in joule and x in meter. Find the equilibrium position and state whether it is stable or unstable equilibrium.

Potential energy of a particle moving along x-axis is by U=(x^(3)/3-4x + 6) . here, U is in joule and x in metre. Find position of stable and unstable equilibrium.

Potential energy of a particle moving along x-axis is by U=(x^(3)/3-4x + 6) . here, U is in joule and x in metre. Find position of stable and unstable equilibrium.

A block is constrained to move along x-axis under a force F=-2x. Here, F is in newton and x in metre. Find the work done by this force when the block es desplaced from x=2m to x=-4 m.

A block is constrained to move along x-axis under a force F=-2x . Here, F is in newton and x in metre. Find the work done by this force when the block is displaced from x=2m to x=-4 m.

A block is constrained to move along x-axis under a forc F=4/(x^(2))(xne0) . Here, F is in newton and x in metre. Find the work done by this force when the block is displaced from x=4 m to x=2m .

A block is constrained to move along x-axis under a forc F=4/(x^(2))(xne0) . Here, F is in newton and x in metre. Find the work done by this force when the block is displaced from x=4 m to x=2m .

Force acting on a particle moving along x-axis as shown in figure. Find points of stable and unstable equlibrium. .