When you multiply you x virable and you y virable that's your answer
The effort force is the force that is applied to an object that causes it to move. The object reciprocates with a resistance force. If the effort force is greater than the resistance force, the object moves.
Class 2.
by the negative force and the positive force
At each end, (the force) x (the distance) defines the quantity of work, or energy. They're known to be equal because of the law of conservation of energy.
resistance force
The effort required would be proportional to the resistance.
it is the distance of force
Resistance force is the force that an effort force must overcome to work on an object by way of a simple machine.
The effort-to-load force in a first class lever is decreased when the distance between the effort and the fulcrum is less than the distance between the fulcrum and the load.
The ratio of resistance force to effort force is a mechanical advantage.
Resistance force is the force which an effort force must overcome in order to do work on an object via a simple machine. Resistance force, like most other forces, is measured in newtons or in pound-force. Resistance force is used to calculate the work output using the equation: Work output = Resistance force * resistance distance
the resistence force will be equal to 50 Newtons times the distance from the point of the effort force to the object along the lever.