25.2: Wheel and Axle

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A wheel and axle consists of a large wheel rigidly attached to a smaller axle. The resistive force is attached to the axle, and the applied effort force is attached to the larger wheel. Then the distance traveled by the resistive force is \(2 \pi r_{a}\), where \(r_{a}\) is the axle radius. The distance through which the effort force is applied is \(2 \pi r_{w}\), where \(r_{w}\) is the wheel radius. (Figure \(\PageIndex{1}\).)

Figure \(\PageIndex{1}\): (a) The wheel and axle. (b) The windlass, another type of wheel and axle. Here \(R\) is the resistance (resistive force) and \(E\) is the effort (effort force). (Ref. [17])

The input and output work are

\[ W_{i}=F_{E} 2 \pi r_{w} \]
\[W_{o}=F_{R} 2 \pi r_{a} \]

In the absence of friction, \(W_{i}=W_{o}\), so

\[F_{E} 2 \pi r_{w}=F_{R} 2 \pi r_{a}\]

The mechanical advantage is then

\[M . A .=\frac{F_{R}}{F_{E}}=\frac{2 \pi r_{w}}{2 \pi r_{a}}\]

\[M . A .=\frac{r_{w}}{r_{a}}\]

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