56789N
Work = (force) x (distance)Work = (33N) x (13m) = 429 N-m = 429 joulesIF the force is in exactly the same direction as the motion of the wagon.
pull
gravitational energy pulling on the wagon
Momentum is something that can cause a wagon to continue rolling when you stop pulling it. Momentum equals mass X velocity.
Friction is necessary to cause the wheels to rotate about the axis of the wagon-- without it the wagon would just slide over the surface.
Depends... they are doing the same amount of work on the wagon/child. HOwever, if you take everything into account... say the diffrent masses of the father and mother, then the bigger of the two would be doing more work.
Work = (force) x (distance)Work = (33N) x (13m) = 429 N-m = 429 joulesIF the force is in exactly the same direction as the motion of the wagon.
4,000
In wagon pulling, there is a harnessing system involved which is attached to the breast of the horse. When a horse pulls forward, the harness, which is attached to the wagon moves with him as well, therefore moving the wagon forward.
Of course not. But decreasing the mass of the wagon mayincrease the effectiveness of the force used to pull it.Look at it this way:Whether I'm trying to pull a truck or a little red wagon, makes no differencein the maximum amount of force I'm able to apply. But my maximum can movethe little red wagon a lot faster and a lot farther than it can move the truck.
pull
force
force
gravitational energy pulling on the wagon
Momentum is something that can cause a wagon to continue rolling when you stop pulling it. Momentum equals mass X velocity.
Pull your wagon on a straight angle. Easy as that! :D
Friction is necessary to cause the wheels to rotate about the axis of the wagon-- without it the wagon would just slide over the surface.