Calculating Force to Raise a Dentist Chair

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To calculate the force needed to raise a dentist chair using a hydraulic lift, the relationship between pressure and area is crucial, expressed as Fp/Ap = Fc/Ac. The chair's weight, derived from its mass of 207 kg, must be converted to force using the gravitational constant (9.81 N/kg), leading to a force of approximately 2037.87 N. The small piston area is 78.0 cm², while the large piston area is 1403.0 cm². The calculated force required on the small piston to lift the chair is approximately 112.78 N, confirming the principle that pressure is transmitted equally throughout the hydraulic fluid. Understanding these concepts is essential for solving similar problems in hydraulics.
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Homework Statement


A dentist's chair of mass 207kg is supported by a hydraulic lift having a large piston of cross-sectional area 1403.0cm^2. The dentist has a foot pedal attached to a small piston of cross-sectional area 78.0cm^2. What force must be applied to the small piston to raise the chair.


Homework Equations


P=F/A
Fp/Ap = Fc/Ac


The Attempt at a Solution


Fp = Fc/Ac * Ap
Fp = 207kg/1403 * 78 = 112.78

Okay so I have already gotten the answer 112.78N but I don't understand a few things about this question...
- Why does Fp/Ap = Fc/Ac??
- Why is 207kg relate to 1403cm^2?
- What is the subscripts p and c?
 
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Suggestion in your calculations when you said...
BuBbLeS01 said:
Fp = 207kg/1403 * 78 = 112.78

F=mg...so the force should be the weight..so you have to multiply by 9.81Nkg^-1 or whatever value you take as g and convert the cm^2 to m^2


"Why does Fp/Ap = Fc/Ac??"

Does this not mean that P_p=P_c which just basically says that pressure is transmitted equally throughout a fluid...i.e. the pressure at one end is equal to the pressure at the other.

the subscripts p and c would be piston and chair respectively
 

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