The force of gavity on car exerts friction on the wheels and axle that eventually stop the car from exerting forward force.
An equal or opposing force. fool. Also friction could stop it, EX: the toy car stops because it goes into grass.
- The slope and length of the ramp. - The rolling friction between the tires and the ramp/ground. - The air resistance (which is dependent on the velocity and geometrical shape of the car). - The direction and speed of the wind. - The smoothness of the ground (a rugged surface will slow the car down).
If you are talking about a car rolling down a ramp then yes. The taller the ramp the more momentum the car will create there for the car will travel farther and faster.
it all depends on the height of either the ramp or how far up the ramp the toy car rolls from
No, because you are pushing it.
it isn't. The weight of the car just makes it seem that way. If you were built to scale with a car it would be just as easy to stop as a toy car.
Rolling friction causes a car to stop.
The braking system makes a car stop.
The surface of the floor underneath is it a factor, eg the more smooth the floor is, the faster the toy car will go as there is less friction occouring as there is nothing for the toy cars wheels to grip onto.
The handbrake is used to stop a stationary car rolling downhill. The transmission can also stop a car from moving when parked.
Your wheels must come to a stop, or in other words stop rotating. Otherwise its called a "rolling stop" and you can be ticketed.
Friction is what makes the brakes stop the car.
Gravity and friction !
"Brakes" make your car slow down.Additional answerSo does friction and air resistance and the rolling resistance of the rubber tyres.
A rolling boll on a plane surface will stop after some distance due to friction.
Your car may stall or stop running after idle because of a problem with its fuel or electrical system.
The brakes.