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.
Inertia
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gravitational energy pulling on the wagon
Yes, the gravitational potential energy is increased. The potential energy in joules is equal to mgh (mass * gravity * height), so increasing the height increases this energy.
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.
They traveled by foot with a horse pulling a Conestoga wagon this wagon carried the colonists stuff.
It's a team of oxen.
Inertia
Yes; gravity is a constant force. It never loses its ability to "pull." A human being pulling a wagon on a rope would eventually not be able to run any faster. But gravity isn't like that. It's a constant energy, and can keep pulling faster, no matter how fast it is already pulling.
The object can be stationary and have gravity pulling on it ergo no kinetic energy
On horse, on foot, in a wagon or pulling a handcart.
hydraulic energy is manageable and used for lifting or pushing and pulling etc. wind energy can not be manufactured but rather stored in electrical reserves,(batteries)