Want this question answered?
It creates a mechanical advantage and reduces the force required to lift or move an object.
Mechanical Advantage: F(out)/ F(in) Actual Mechanical Advantage is the ratio of Force outputed to Force inputed. (AMA=Fo/Fi) Similarly, IMA (Ideal Mechanical Advantage) = di/do
The weight of the 50 kg object is (50 x 9.8) = 490 newtons.In order to lift the object with a force of 100 N, you need a mechanical advantage of 4.9 .That's the net mechanical advantage of the lever system, including all of its friction losses.
The answer is 5. To find mechanical advantage, divide the force required by the force given. 200/40 = 5
You get mechanical advantage by the slope of the ramp. You move the object horizontally and raise the object slowly as you do so.
It only takes half the effort to move an object but twice the distance
The Mechanical advantage becomes smaller decreasing the amount of work that needs to be done. It will take less effort to lift the object or load
The mechanical advantage would be 1 because the force required to life the mass of an object becomes 1/2 the original weight of the object.
It creates a mechanical advantage and reduces the force required to lift or move an object.
Levers multiply the mechanical force that can be applied to another object, thus making work easier.
It only takes half the effort to move an object but twice the distance
The Mechanical advantage becomes smaller decreasing the amount of work that needs to be done. It will take less effort to lift the object or load
Force required to move the object forward.
Mechanical Advantage: F(out)/ F(in) Actual Mechanical Advantage is the ratio of Force outputed to Force inputed. (AMA=Fo/Fi) Similarly, IMA (Ideal Mechanical Advantage) = di/do
The mechanical advantage of the lever is that smaller persons can move heavier objects. The lever can be placed under the object and the person can then push down on the lever.
we find mechanical advantage of pulley by using principle of lever. according to this moment of effort is equal to moment of moment of load. As in this case effort arm is equal to load arm. so mechanical advantage is equal to one. but we know we can never finish friction between rope used and pulley so mechanical advantage is less than one
The mechanical advantage is 5.