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The friction between the road and the tires creates and screeching sound.
When a driver wants to stop a car, they apply the brakes. The friction between the tires and the road surface help stop the car. How a vehicle handles is determined by the traction between the tires and roadway.
Road bikes have thin tires because they are operating on smooth surface and should be light.
I believe that would be friction.
umm the road, friction between your tires and the roads surface.
no, just decelerate and drive straight ahead without hitting the brakesSupplemental Information: When you are hydroplaning your tires have no contact with the road and applying the brakes or attempting a turning maneuver will send you into a spin. As stated above, when you sense that your vehicle is hydroplansing remove your foot gently from the gas allowing the vehicle to slow down so that the tires get a grip on the road surface, and THEN apply your brakes or make your maneuver.
This is a difficult question to answer, since factors involving the condition of each vehicle, especially the brakes, road and weather conditions dictate how far the vehicle will travel before it comes to a rest.
Both air brakes and hydraulic brakes are capable of locking up the wheels. It would depend on the weight of the vehicle, tires and road conditions.
The forces that occur between tyres and the road when a car brakes are traction and friction. Traction is the gripping of the tyre on the road, while friction is the force that occurs when two surfaces rub together.
That varies a lot depending upon what kind of car it is, what kind of brakes it has, what kind of tires, the condition of the tires, the condition of the brakes, how much weight it is carrying, what is the road condition, is there snow, ice, or rain on the road.
Friction between the tire and the road surface
Stopping distance as in braking distance: Braking distance refers to the distance a vehicle will travel from the point where the brakes are fully applied to when it comes to a complete stop. It is affected by the original speed of the vehicle, the type of brake system in use, the reaction time of the driver/rider and the cefficient of friction between the tires and the road surface.