It's either LESS force over a GREATER distance or MORE force over a SHORTER distance.
time and distance.
The reason that inclined planes allow us to reduce the force necessary to move items is because the work required to do both (Work = Force x Distance) is the same. When pushing up an inclined plane, the pusher only has to counteract the component of gravity that wants to slide the object back down the plane, instead of fighting against the entire force of gravity. Using an inclined plane decreases the force necessary to accomplish the task but increases the distance required for force against the vertical component. (An angled plane shortens the distance of travel overall).
slanted,easier work, simple machine,and force
Yes, but it also decreases that force.
the less force is needed.
time and distance.
an inclined olane allows you to lift a heavy load by using greater force over a shorter distance
Levers, inclined planes, and compound pulleys all do that.
We use inclined planes to make it easier to lift objects by reducing the amount of force required. The inclined plane allows us to spread the work of lifting an object over a longer distance, which reduces the force needed to move the object. Additionally, inclined planes can also be used to change the direction of a force.
A) Inclined planes are simple machines that reduce the amount of force required to lift an object by increasing the distance over which the force is applied. C) Inclined planes allow objects to be moved from a lower to a higher position with less effort compared to lifting the object vertically. E) Inclined planes can be found in everyday objects such as ramps, stairs, and slides.
it works because it clever
There are many kinds of inclined planes. Some examples are: driveways, slide, and a ramp. There are many kinds of inclined planes. Some examples are: driveways, slide, and a ramp.
To increase speed and distance traveled of a load in relation to force, mechanisms such as using gears, pulleys, or inclined planes can be employed. Gears can increase speed by transferring force between different sized gears, while pulleys can increase distance traveled by changing the direction of the force applied. Inclined planes reduce the force required to move a load over a longer distance.
The formula for the mechanical advantage of an inclined plane is MA = L / H, where L is the length of the inclined plane and H is the height. The formula for the force required to move an object up an inclined plane is F = W / L, where W is the weight of the object.
Using tools such as levers, pulleys, and inclined planes allows people to lift heavy objects with relatively little force by converting the force applied over a longer distance into a smaller force applied over a shorter distance. This allows the work done to remain the same while reducing the amount of force needed to lift the object.
A double inclined plane is a simple machine that consists of two inclined planes placed back to back. It allows for the raising or lowering of objects with less force by providing a larger distance over which the force can be applied. The mechanical advantage of a double inclined plane depends on the angle of inclination of each plane.
slanted,easier work, simple machine,and force