Friction
this is usually the indicator that you need new brakes so dont worry just get them replaced problem solved
no
have your brakes checked
THE ONE TO THE LEFT
When a car stops on a flat road, the frictional force acting on the car is static friction and its direction is opposite to the direction of motion. The magnitude of the static frictional force is equal in magnitude and opposite in direction to the force applied by the car's brakes to bring it to a stop.
If the brakes works it will stop UFDA
There's a short to ground in the brake light circuit. When you step on the brakes, it diverts all the power in the car to ground, and stops the engine.
A car slowing down when the brakes are applied.
yes, but only when the brakes are applied.
Newton's First Law: objects at rest tend to stay at rest, objects in motion tend to stay in motion. When the brakes are applied, the friction with the road surface is the force that stops the car -- on ice, this friction is greatly reduced.
The friction caused by the brakes causes the car to decelerate. This negative acceleration, in turn, causes a force to be applied to all those in the car. This is the lurch you feel.
When car brakes are applied, they create friction between the brake pads and the wheels. This friction slows down the wheels, reducing the car's speed.