If we look at the screw as a simple machine the distance moved by the resistance is going to be the pitch of the thread times the number of turns of the screw, where the pitch is the distance advanced in a single turn. The distance moved by the effort will depend on the radius from the axis of the screw to the point where the effort is applied. If the screw is turned by a screwdriver whose handle is 2 cm in diameter, the radius of the effort is going to be 1 cm so the distance of the effort will be 2*pi*1cm per turn of the screw. If the screw is turned by a wrench where the force is applied 10 cm from the axis of the screw, then the distance of the effort will be 2*pi*10 cm per turn. With this in mind we can express the ideal mechanical advantage of the screw as 2*pi*r/p where r is the radius at which the effort is applied and p is the pitch of the thread.
You could plug any consistent units into this relationship, r in centimeters and p in centimeters per thread, r in inches and p in inches per thread or any other unit of length as long as you use the same units for radius and pitch.
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