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increased
the work performed is the weight of the block times the height, or rise, of the incline
i think this happens due to friction between the ground and the toy car :)
The values of work found for different lengths of inclined plane depend on the mass of the object being moved and the angle of the incline. Generally, as the length of the inclined plane increases, the amount of work required to move the object decreases. This is because a longer incline allows for a smaller vertical distance over which the gravitational force acts, reducing the amount of work needed. However, the angle of the incline also plays a role, as a steeper incline requires more work to move the object regardless of its length.
it reduces the work by making an object easier to carry or lift to a higher or lower ground
By reducing the incline angle.
increased
An increased flow...
Yes the longer the incline plane the easier you finish the work
the work performed is the weight of the block times the height, or rise, of the incline
Usually it will roll.
The E4 Elliptical Cross Trainer could be used on an incline as long you keep proper posture. On an incline your weight is kind of shifted and it could be more difficult, but other than that, it should work.
Check and check.Going uphill causes an increased engine workload, try downshifting your gears. it it doesn't work, have your clutch checked.
The answer depends on a number of factors: - the weight of the car - the steepness of the incline - the frictions of the of both the car to the incline surface and the pusher to the incline surface
the effort is decreased
In incline happens when a flat surface is higher at one end making it a slanted surface. Examples of inclines include wedges and ramps.
If you mean using a longer incline to reach the same height, the answer is no. Energy is the ability to do work. Work = Force x distsance. A longer incline will require less force, but since the distance is greater the total energy stays the same.