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A force exerted on a hydraulic cylinder with a diameter of 16.0 cm produces a pressure increase of 275 kPa. Calculate the force exerted on the cylinder.

User Mr Mystery Guest
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1 Answer

9 votes
9 votes

Answer:

5527.5 N

Step-by-step explanation:

The pressure can be calculated as


P=(F)/(A)

Where F is the force exerted and A is the area. Solving for F, we get:


F=PA

Then, we can calculate the area as the area of the base of the cylinder. This area is equal to:


A=\pi r^2

Where r is the radius. In this case, the diameter is 16.0 cm, so the radius is

r = diameter/2

r = 16.0 cm / 2

r = 8.0 cm

r = 0.08 m

Then, replacing the radius, we get:


\begin{gathered} A=(3.14)(0.08\text{ m\rparen}^2 \\ A=0.0201\text{ m}^2 \end{gathered}

Therefore, replacing P = 275 kPa = 275000 Pa and A = 0.0201 m², we get that the force exerted is equal to


\begin{gathered} F=(275000Pa)(0.0201\text{ m}^2) \\ F=5527.5\text{ N} \end{gathered}

So, the answer is 5527.5 N

User Wayne Smallman
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