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You get greater mechanical advantage the closer the fulcrum is to the resistance (load).
The mechanical advantage of a First Class lever is Distance of the effort from the fulcrum/Distance of the load from the fulcrum
A simple pulley is one fulcrum with no mechanical advantage.
the one with the fulcrum closer to the weight you needed to lift
The closer the load is to the fulcrum the greater the mechanical advantage. The closer to the fulcrum, the less the load moves when the lever is used.
You get greater mechanical advantage the closer the fulcrum is to the resistance (load).
The mechanical advantage is when the fulcrum is closer to the effort and creates a advantage
The mechanical advantage of a First Class lever is Distance of the effort from the fulcrum/Distance of the load from the fulcrum
The mechanical advantage is when the fulcrum is closer to the effort and creates a advantage
One.
The mechanical advantage of a lever can be increased by moving the fulcrum towards the load and away from the power end.
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.
It depends upon where the fulcrum is, and it can be changed by moving the fulcrum.
In the distance from the fulcrum to the input forcedivided by the distance from the fulcrum to theoutput force.
Up your bum.