Its handbreak! Friction between the wheels and the road.
so your car doesnt roll down the hill
At rest and in motion are relative terms. When we say 'in motion' or 'at rest' we mean relative to something else. If you were travelling in a car for instance, you would be at rest relative to the car but in motion relative to the outside world.
depends apon car
The car is being acted upon by gravity and friction. The reason that the car doesn't slide down the hill is because friction is keeping the car in place.
A real life example of kinetic energy is something........ Sike!!!!!! A ball rolling down a hill, A person typing on a keyboard.
Yes. not no it is not
A chain pulls the car to the top of the hill then gravity takes the rest. A chain pulls the car to the top of the hill then gravity takes the rest.
The handbrake is used to stop a stationary car rolling downhill. The transmission can also stop a car from moving when parked.
When a car goes over a hill, the physics principles involved include potential energy, kinetic energy, and centripetal force. As the car goes up the hill, potential energy increases due to its height. At the top of the hill, this potential energy is converted into kinetic energy as the car accelerates downward. Centripetal force keeps the car moving in a curved path as it goes over the hill.
its not a ghost car, its a car in a high speed, maybe the driver jump off the car and it keeps rolling down the hill. just a wreck car i think so.
Stone keeps are built on top of a hill to get the vantage point.
Inertia
mill hill keeps floating on an island. it now stands near the vagina rain forest and diarea hill
No. The car is applying a force to keep going up the hill and the hill and car are providing forces to keep it up.
There is two main purposes of the body shell. It keeps the car together. It also keeps the body rigid in the event of a car crash.
None. It is at rest. No forces.
Static friction.