Yes
Interesting - static friction is greater than moving friction; but if the car is not in a skid, then the part of the tires in contact with the road is not moving ... thus static friction holds in both cases.
The braking system on a car depends on lots of friction between the brake pads and the brake disk.
it is harder because there is less friction with lubrication -which is what water is -and you need friction for the breaks to work
Friction is desirable on your tyres and brakes. Tyres need to grip the road, to push the car forward, stop and go round corners. Brakes need friction to stop the wheels turning.
Resistance from air and friction.
When driving a car, friction between the tires and the road is crucial for traction and control. Without friction, the tires would not be able to grip the road surface effectively, leading to skidding and loss of control.
it is harder because there is less friction with lubrication -which is what water is -and you need friction for the breaks to work
the front boot of the car increases the friction on the car
Sufficient to overcome the inertia and friction of the vehicle.
A common example of friction in a car is the friction between the brake pads and the rotors when you press the brake pedal to stop the car. This friction helps convert the car's kinetic energy into heat, slowing down the car.
The reaction force to the friction acting on the car is the friction force acting on the road. It acts on the car in the opposite direction to the friction force acting on the car.
Yes. If there wasn't any friction the wheels would just spin w/o the car going anywhere.