Brakes use friction to stop the car. .
The serpentine belt uses friction between the belt and the pulleys to power the secondary systems (water pump, alternator, Power Steering pump, A/C pump, etc.)
Creates heat in the engine (friction of moving parts creates heat) Reduces efficiency (friction in the drivetrain, as well as air resistance, slows the car down) Causes the tires to wear out (friction between the road and the rubber causes the rubber to wear)
There are many ways that friction is helpful while driving a car. Probably the most obvious one is the frictional force that exists between the tires and the road surface. If there was no friction, the car would not be able to move. The tires would simply spin in place. Various tire compounds will yield a different coefficient of friction dependent on the application (for example, you would want a higher coefficient of friction in racing slicks than you would need for street tires). There are areas of the car where reducing the coefficient of friction based on the specific materials used would be more helpful. For example, you would want as little friction as possible to occur between internal engine components like that between the piston rings and the cylinder wall because you want your engine to be more efficient (the engine doesn't have to work as hard to produce power if it doesn't have to work against it's own internal friction). Hope that helps!
Friction Is Useful For Lots Of Things Like Walking Or Riding a Bike
When you drive a car and stop it is because of friction you stopped. If there was no friction your car won't stop and will slide. Friction also helps with waking, if there was no friction with every step you take you would slip. Friction lets your foot stay in one spot while you move the other foot. Ice has no friction so it is hard to walk on and hard to brake on (if driving a car.)
High friction is helpful for traction. For example getting a vehicle moving, making sure it turns on curves, and stopping. Sanding might be another use of high friction. Low friction is helpful for many other things. For example, back to the car, wheels must turn easily, engine parts must turn. Everything runs better and uses less fuel with low friction. Bearings help with lowering the friction. Moving a heavy container from one side of the room to another might be benefited by low friction. You could either slide it... or perhaps pick it up with a low friction handtruck. Ice skating? As we make things move faster, even the friction of air becomes significant. So people choose aerodynamic (or low friction) shapes.
Creates heat in the engine (friction of moving parts creates heat) Reduces efficiency (friction in the drivetrain, as well as air resistance, slows the car down) Causes the tires to wear out (friction between the road and the rubber causes the rubber to wear)
Creates heat in the engine (friction of moving parts creates heat) Reduces efficiency (friction in the drivetrain, as well as air resistance, slows the car down) Causes the tires to wear out (friction between the road and the rubber causes the rubber to wear)
There are many ways that friction is helpful while driving a car. Probably the most obvious one is the frictional force that exists between the tires and the road surface. If there was no friction, the car would not be able to move. The tires would simply spin in place. Various tire compounds will yield a different coefficient of friction dependent on the application (for example, you would want a higher coefficient of friction in racing slicks than you would need for street tires). There are areas of the car where reducing the coefficient of friction based on the specific materials used would be more helpful. For example, you would want as little friction as possible to occur between internal engine components like that between the piston rings and the cylinder wall because you want your engine to be more efficient (the engine doesn't have to work as hard to produce power if it doesn't have to work against it's own internal friction). Hope that helps!
Friction Is Useful For Lots Of Things Like Walking Or Riding a Bike
When you drive a car and stop it is because of friction you stopped. If there was no friction your car won't stop and will slide. Friction also helps with waking, if there was no friction with every step you take you would slip. Friction lets your foot stay in one spot while you move the other foot. Ice has no friction so it is hard to walk on and hard to brake on (if driving a car.)
Cars don't get better gas or mileage.
An example using a car:Advantage: friction on car tires makes the car stop. Without friction, the car would continue without stopping (e.g. such as mass in space once given a push in one direction)Disadvantage: friction on car tires means more energy is required to propel the car forward = more gas is required for a trip.
Speed is how fast something is moving. When to things are traveling at the same speed and rubbing together, they can cause friction.
High friction is helpful for traction. For example getting a vehicle moving, making sure it turns on curves, and stopping. Sanding might be another use of high friction. Low friction is helpful for many other things. For example, back to the car, wheels must turn easily, engine parts must turn. Everything runs better and uses less fuel with low friction. Bearings help with lowering the friction. Moving a heavy container from one side of the room to another might be benefited by low friction. You could either slide it... or perhaps pick it up with a low friction handtruck. Ice skating? As we make things move faster, even the friction of air becomes significant. So people choose aerodynamic (or low friction) shapes.
High friction is helpful for traction. For example getting a vehicle moving, making sure it turns on curves, and stopping. Sanding might be another use of high friction. Low friction is helpful for many other things. For example, back to the car, wheels must turn easily, engine parts must turn. Everything runs better and uses less fuel with low friction. Bearings help with lowering the friction. Moving a heavy container from one side of the room to another might be benefited by low friction. You could either slide it... or perhaps pick it up with a low friction handtruck. Ice skating? As we make things move faster, even the friction of air becomes significant. So people choose aerodynamic (or low friction) shapes.
Age of the driver.
That one kind thats really hot sometimes