A particle is moving along the x-axis and force acting on it is given by `F=F_0sinomega_xN`, where `omega` is a constant. The work done by the force from `x=0` to `x=2` will be

A particle is moving along the x-axis and force acting on it is given by F=F_0sinomegaxN , where omega is a constant. The work done by the force from x=0 to x=2 will be

The velocity (v) of a particle of mass m moving along x-axis is given by v=alphasqrt(x) , where alpha is a constant. Find work done by force acting on particle during its motion from x=0 to x=2m :-

The velocity (v) of a particle of mass m moving along x-axis is given by v=alphasqrt(x) , where alpha is a constant. Find work done by force acting on particle during its motion from x=0 to x=2m :-

The velocity (v) of a particle of mass m moving along x-axis is given by v=alphasqrt(x) , where alpha is a constant. Find work done by force acting on particle during its motion from x=0 to x=2m :-

A particle moving along the X-axis executes simple harmonic motion, then the force acting on it is given by where, A and K are positive constants.

A particle moving along the X-axis executes simple harmonic motion, then the force acting on it is given by where, A and K are positive constants.

A particle moving along the X-axis executes simple harmonic motion, then the force acting on it is given by where, A and K are positive constants.

A particle moving along the x axis is acted upon by a single force F = F_0 e^(-kx) , where F_0 and k are constants. The particle is released from rest at x = 0. It will attain a maximum kinetic energy of :

A particle moving along the x axis is acted upon by a single force F = F_0 e^(-kx) , where F_0 and k are constants. The particle is released from rest at x = 0. It will attain a maximum kinetic energy of :

A particle moving along the x- axis is subjected to a force given by F=F_(0)(e^(x//a)-1) where F_(0) and are constants Determine an expression for the work done by this force as the particle moves from the origin to the point x=r