Look and steer in the direction you want your car to go.
The slick roads do not provide enough friction to the wheels to turn. Thus, the car slides.
Direction
No not fully slick
Steering into the turn. When you enter a LEFT hand turn, you turn the steering wheel so the tires turn to the Left. If the back of the car begins to slide out of the curve, then you can steer RIGHT and it will slide the car back around.
Steering into the turn. When you enter a LEFT hand turn, you turn the steering wheel so the tires turn to the Left. If the back of the car begins to slide out of the curve, then you can steer RIGHT and it will slide the car back around.
The roads become slick when it rains and driving the car can be dangerous.
Cars "grab" the road through the resistance of the tires on the road surface. When it rains, you get a layer of water in between - water produces much less friction than asphalt, and the surface becomes slick. Making matters worse, rain also washes and distributes oils found in materials such as asphalt, so now you have water AND oil to deal with.
no
The Spanish for "aquaplanning" is: "acuaplaneo", which means that the car is in contact with a thin layer of water and not in contact with the surface. This will cause the car to slide if not driven properly.
The damp road surface, plus the momentum of the car's weight going round a bend, could cause a loss of friction, resulting in a slide.
Some of us slide on a shiny floor because there is less. Friction on a smooth surface are a car travels faster on a smooth road. Than a rough road.
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.