The force that stops a car from sinking into the road is the normal force, which is the force exerted by the road surface in the opposite direction to the force of gravity. This force supports the weight of the car and prevents it from sinking into the road.
Surface tension, and upthrust. If the object is small and light enough, the force provided by the intermolecular bonding in the liquid will create a surface underneath the object, preventing it from sinking. An example of this is a skitterbug jumping across the surface of a pond. Upthrust is generated by the force of the liquids molecules bumping against the object. Upthrust is proportional to the amount of liquid displaced by the object.
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.
The up force on a moving car is the force exerted by the tires on the road in the opposite direction of gravity. This force helps to support the weight of the car and keep it from sinking into the ground. It is crucial for providing traction and stability while the car is in motion.
The force that stops a car from moving is friction between the tires and the road surface. This friction provides the necessary resistance to slow down and eventually halt the car's motion. Additional forces, such as air resistance and braking, also play a role in stopping a moving car.
In a car taking a turn, the centripetal force required to keep it moving in a curved path is provided by the friction between the tires and the road. As the car turns, the frictional force between the tires and the road acts as the centripetal force, pulling the car towards the center of the curve and preventing it from sliding outwards. The car's tires generate this force through their contact with the road surface.
Surface tension, and upthrust. If the object is small and light enough, the force provided by the intermolecular bonding in the liquid will create a surface underneath the object, preventing it from sinking. An example of this is a skitterbug jumping across the surface of a pond. Upthrust is generated by the force of the liquids molecules bumping against the object. Upthrust is proportional to the amount of liquid displaced by the object.
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.
Very big because it has no grip on the surface for the frictional force to stop and it takes time to stop the car.
The car's tires apply a force against the road, therefore the road applies a force against the car in the opposite direction (Newton's Third Law).
The up force on a moving car is the force exerted by the tires on the road in the opposite direction of gravity. This force helps to support the weight of the car and keep it from sinking into the ground. It is crucial for providing traction and stability while the car is in motion.
Friction
air resistance
The force that stops a car from moving is friction between the tires and the road surface. This friction provides the necessary resistance to slow down and eventually halt the car's motion. Additional forces, such as air resistance and braking, also play a role in stopping a moving car.
A force called inertia.
Force of Inertia
trac light comes on the car and it stops in middle of the road turn car back on it shakes and step on gas doesn't move what do i do
something that stops and object from movementexample:there is friction on the road . when the road is slippery your car eventually has to stop and what makes you car stop is friction.