A force (F) acting on a body is dependent on its desplacement s. as `Fprops^(-1//3)` . Therefore , the power delivered by the force varies with its displacment as

A force F acting on a body depends on its displacement S as FpropS^(-1//3) . The power delivered by F will depend on displacement as

A force Facting on a body depends on its displacement 'S' as F∝ s^(-(1)/(3) .The power delivered by F will depend on displacement as

A force F acting on a body depends on its displacement x as Fpropx^(a) . The power delivered by F will be independent of x if n is -

The force F acting on a body varies with its displacement x as F=Kx^(2/3) .The power delivered by the force will be proportional to?

Buoyant force acting on a body immersed in a fluid depends on:

A variable force F acts on a body which is free to move. The displacement of the body is proportional to t^(3) , where t = time. The power delivered by F to the body will be proportional to

Force acting on a particle varies with the distance travelled by the particle as F prop(1)/((x)^(1/3)) then power due to this force varies with as:

A force F=(3thati + 5hatj)N acts on a body due to which its displacement varies as S=(2t^(2)hat-5hatj)m . Work done by these force in 2 s is .