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An inclined plane reduces friction when kinetic energy is present. If the object is in motion down the ramp, then there would be gravity assisting it downwards. The normal force would decrease, as well as the friction. For rough surfaces there usually is more friction than smooth surfaces. For instance, if a car travels on an unpaved road, it travels slower due to friction. Compare that to a paved road and the car moves a lot faster.
A screw is simply thought of to be a inclined plane wrapped around a cylinder, an inclined plane just wrapped around nothing would make it a cone.
A ramp would be an inclined plane because a ramp goes up as walk or ride across it. And it helps to make things easier.
Since the Mechanical Advantage of the inclined plane is inversely proportional to its height, increasing the height would lower your mechanical advantage and lowering the height would increase it.Alternately, mechanical advantage is directlyproportional to an inclined plane's length, therefore increasing the length would increase your mechanical advantage.
It is a type of Nut and Bolt
Reduce the friction
The thread running around the screw is an inclined plane. If you were to straighten it out, it would be an inclined plane. The screw itself can be considered a combination of wedge and inclined plane.
An inclined plane reduces friction when kinetic energy is present. If the object is in motion down the ramp, then there would be gravity assisting it downwards. The normal force would decrease, as well as the friction. For rough surfaces there usually is more friction than smooth surfaces. For instance, if a car travels on an unpaved road, it travels slower due to friction. Compare that to a paved road and the car moves a lot faster.
The forces acting on the car include: 1) Weight (mass x gravity) of the car. 2) Normal force between the inclined plane at each tire (perpendicular to the inclined plane). 3) Force of static (rolling) friction acting between the tires and the inclined plane (parallel to the plane and acting against the direction of rotation of the tires). 4) Force exerted by the car on the plane (parallel and opposing friction on the inclined plane). 5) Drag force depending on air resistance and velocity of the car. The car is allowed to climb the hill because of the static friction opposing the force it is exerting. Without this friction, it would not be able to climb the hill.
In geometry an inclined plane would be infinite and so would not have and edge. And edge does not need an inclined plane. In school mechanics (physics or mathematics), an inclined plane is often used to study forces. But in almost all cases the edges of the inclined plane are "out-of-bounds".
A steep inclined plane is worse than a more flat inclined plane.
Yes. Since an inclined plane is slanted, the stairs fit the definition. Another example of an inclined plane would be the seats of a stadium.
Lesser the height of inclined plane, and more the length of it, More will be the mechanical advantage of inclined plane i.e less effort would be applied.
Since it slopes up I would put in inclined plane.
No a ramp would be an example.
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An inclined plane is a hard, smooth, inflexible surface. An inclined plane is a simple machine, an example of which would be a ramp.