Levers
First Class Levers:
The first class lever is the one you may be most familiar with. It uses a fulcrum in between, and the applied force and load are at opposite ends.
The diagram above shows a first class lever set up to move a heavy load with a small applied force.
The force must be applied over a long distance, in order to make the heavy load move just a small amount.
By adjusting how far the fulcrum is from the load, you can control the mechanical advantage. The closer it is to the load, the more force is applied.
Second Class Levers:
The second class lever is one where the fulcrum is at one end, and the applied force at the other. The load that is to be moved is between them.
This lever is different in how it works ... it causes the load to move in the same direction as the force you apply.
Just as with a first class lever, how close the load is to the fulcrum determines by how much your force will be multiplied. If you want to move a very large load with a small applied force, you must put the load very close to the fulcrum.
Third Class Levers:
The third class lever is the strangest and the one you use the most!
The fulcrum is once again at one end of the lever, but this time the load is at the other end, and you apply a force in between.
This lever can not give any mechanical advantage. Regardless of where you apply the force, the force you apply must always be greater than the force of a load.
If you were using this lever to lift an object at a distance, it would require less force to just stand above it and lift it up ... using the lever will require more force!
So why use a third class lever at all?
The answer lies in the fact that the load moves in the same direction as the force you apply, which is convenient. So is the application of force between the load and the fulcrum.
About Simple Machines:
Reference: http://www.mca.k12.nf.ca/sm/lever/lever.htm
http://en.wikipedia.org/wiki/Lever
