Power

Energy

Work

Momentum

As the derivative of position with respect to velocity

As the sum of velocity and position

As the product of the derivative of velocity with respect to position and the derivative of position with respect to time

As the derivative of velocity with respect to time

Velocity cubed

Velocity squared divided by 2

Velocity times time

Velocity plus position

It is equal to the change in kinetic energy

It is equal to the change in potential energy

It is equal to the change in momentum

It is equal to the change in total energy

Both involve work and changes in energy

Both involve changes in potential energy

Both involve changes in mechanical energy

Both involve changes in momentum

When work done by applied force is zero

When work done by friction is zero

When work done by net force is zero

When both work done by friction and applied force are zero

No assumptions are made

Assumptions about zero friction

Assumptions about constant force

Assumptions about constant velocity