The work done by an applied variable force `F=x+x^(3)` from x = 0 m to x = 2m, where x is displacement, is

A particle is subjected to a force F_(x) that varies withes position as shown in figure. Find the work done by the force on the body as it moves (a) from x =10.0 m to x =5.0 m , (b) from x =5.0 m to x =10.0 m , (c ) from x =10. 0 m to x =15.0 m , (d) what is the total work done by the force over the distance x =0 to x =15.0 ? .

A force F=-k/x_2(x!=0) acts on a particle in x-direction. Find the work done by this force in displacing the particle from. x = + a to x = 2a . Here, k is a positive constant.

The work done by a force vec(F)=(-6x^(3)hat(i)) N in displacing a particle from x = 4m to x = - 2m is

A particle moves under the effect of a force F=kx^(2) from x=0 to x=4 , the work done by force is ?

A force F_(y)=(3x+2)" N" is acting on a body. The work done by this force if it tends to displace the body from x = 0 m to x = 4 m will be

A force F=(10+0.5 x) acts on a particle in the x-direction. What would be the work done by this force during a displacement from x=0 to x=2m (F is in newton and x in metre)

A force (F) acting on a particle varoes work done by a particle varies with the with the position x as shown in figure . Find the work done by by force in displacing the particle from . (a) x =-2m to x=0 (b) x=0 to x =2m. .