the acceleration of the effort force
Work is the product of (force) x (distance).If, as you allege, the force increased but the work didn't change, thenthe distance must have decreased, by exactly the same factor as theincrease in the force, so that their product is not changed.
If the input force is applied at a greater distance than the length of the effort arm is increased thereby reducing the effort.
Resistance force is the force which an effort force must overcome in order to do work.
The two things are momentum and acceleration when the effort force is applied to a machine
Resistance force is the force that an effort force must overcome to work on an object by way of a simple machine.
If force is increased and pressure remained the same, then the area must have been decreased.
Work is the product of (force) x (distance).If, as you allege, the force increased but the work didn't change, thenthe distance must have decreased, by exactly the same factor as theincrease in the force, so that their product is not changed.
By using a lever or a pulley. But the reduced force must then act through an increased distance.
If the input force is applied at a greater distance than the length of the effort arm is increased thereby reducing the effort.
No, if the force is increased, the distance must be decreased, and vice versa. Anything else would violate the Law of Conservation of Energy.
The voltage drop in a line can be decreased by
Resistance force is the force which an effort force must overcome in order to do work.
The two things are momentum and acceleration when the effort force is applied to a machine
Resistance force is the force that an effort force must overcome to work on an object by way of a simple machine.
output force
To do this you first have to calculate your ideal mechanical advantage (IMA). The IMA is equal to the effort distance (the distance from the fulcrum to where you will apply the effort) divided by the load distance (the distance from the fulcrum to the load). You can then set your IMA equal to your acutal mechanical advatage (AMA) which assumes 100% efficiency. The AMA is equal to the load force (the weight of what you are lifting) divided by the effort force (the # you are looking for). So, for example, if your IMA is 5 and your load force is 500 lbs: 5=500/effort force. Therefore the effort force would be 100 pounds.
assets must have decreased by 7000