dude, think before you ask a question. if you had to push a 500 pound wheel up a steep hill would it be easy? of course not. so no, a steep incline or a long gradual incline would not make the job of pushing a heavy object easier. sometimes i am amazed at peoples stupidity.
yes it would.
dude, think before you ask a question. if you had to push a 500 pound wheel up a steep hill would it be easy? of course not. so no, a steep incline or a long gradual incline would not make the job of pushing a heavy object easier. sometimes i am amazed at peoples stupidity.
Yes, it makes it easier to push the object up.
it reduces the work by making an object easier to carry or lift to a higher or lower ground
( Assuming mass of object on incline plane is in kilograms (kg) ) . Force pulling down incline on object (kilogram force) = object mass * sin (incline angle) . Force of object acting on and normal to incline (kilogram force) = object mass * cos (incline angle) . Mechanical Advantage = 1 / ( sin ( incline angle ) )
which requires more energy, pulling a load, lifting, or pushing a load?
with a speed gun
Yes, if the incline angle becomes great enough. > As the angle increases, the force on the object down the incline increases but the effective weight on the slope surface decreases. > When the object breaks away the angle of incline can be used to calculate the coefficient of friction between the two surfaces. > coefficient of friction = sine ( incline angle ) / cosine ( incline angle )
no
Yes. It is easier to push an object up a plane than lift it straight up. It does not reduce the total amount of energy needed to lift it up.
The grade of an object is the actual incline or slope of a landform or constructed line. The degree of an object is what is used to measure that incline or slope in mathematical equations.
The Earth's gravity will force a round object to roll down an incline (slope).