Question

The small piston of a hydraulic press has an area of 3.2 in2. If the applied force is 2.0 lb, what must the area of the large piston be to exert a pressing force of 795 lb?

Answer 1

Given data:

The area of the hydraulic press is,

`A_1=3.2in^2`

The applied force is,

`F_1=2\text{ lb}`

The pressing force on the large piston is

`F_2=795\text{ lb}`

Given hydraulic press works on Pascal's law principle.

From the Pascal's law, the equation can be given as,

`(F_1)/(A_1)=(F_2)/(A_2)`

Here,

`A_2`

is the area of the larger piston.

Substituting the values in the above equation, we get:

`\begin{gathered} \frac{2\text{ lb}}{3.2in^2}=\frac{795\text{ lb}}{A_2} \\ A_2=1272in^2 \end{gathered}`

Thus, the area of the large piston is

`1272in^2`