The MA would be 6cm because the formula to find the MA is input arm divided by output arm
fd=MA
Mechanical Advantage is given by the following equation: MA = Load Effort On a class 2 lever, the fulcrum (pivot) is at one end of the lever and the work applied is at the other end. The load is then applied near the fulcrum, as common with the wheel barrow. A class 3 lever has the effort applied between the fulcrum and the resistance. Therefore, a much greater effort will be required to produce the same moment value. A typical C2 lever has a much greater distance in which to produce the load than a C3 lever.
A foot lever is a lever that is operated with the foot.
The function of a lever is used to move or lift objects.
Class-III Lever . . . MA always less than 1. Class-II Lever. . . . MA always more than 1. Class-I Lever . . . . MA can be 1, more than 1, or less than 1.
The MA would be 6cm because the formula to find the MA is input arm divided by output arm
Move the fulcrum closer to the load.
fd=MA
The ideal MA is 47.
Mechanical advantage: Class-I lever . . . can be any positive number Class-II lever . . . always less than ' 1 ' (and more than zero) Class-III lever . . . always more than ' 1 '
you take the lever and turn it around and than the thingey ma bober should be done you take the lever and turn it around and than the thingey ma bober should be done
It is (distance from fulcrum to effort)/(distance from fulcrum to load).
Move the fulcrum farther from the force and closer to the load.
They are not hard to find or buy as I bought lots of Lever actions
You can go to apartments.com and type in brighton, MA to find Home for Sale.
Yes