Move the fulcrum (pivot) farther from the effort and closer to the load.
The mechanical advantage of a First Class lever is Distance of the effort from the fulcrum/Distance of the load from the fulcrum
answer is 4
answer is 4
If a first class lever with a resistance arm measuring 2 feet and an effort arm measuring 8 feet are being used, what's the mechanical advantage
yes because my science teacher told me it was possible. :) your welcome!
The mechanical advantage of a First Class lever is Distance of the effort from the fulcrum/Distance of the load from the fulcrum
Move the focal point of the leaver.
Yes, but its Mechanical advantage is usually less than 1
The advantage of a first class lever is that by using less input force, you get more output force. Teehee!
It's the ratio of the distances effort-fulcrum/load-fulcrum.
It depends upon where the fulcrum is, and it can be changed by moving the fulcrum.
It depends upon where the fulcrum is, and it can be changed by moving the fulcrum.
answer is 4
It depends upon where the fulcrum is, and it can be changed by moving the fulcrum.
Second class lever. . . . Always greater than 1 . Third class lever . . . . . Always less than 1 . First class lever . . . . . Can be greater than 1 or less than 1 depending on position of fulcrum.
answer is 4
If a first class lever with a resistance arm measuring 2 feet and an effort arm measuring 8 feet are being used, what's the mechanical advantage