A spring is attached to the back of the frictionless piston. Initially, the spring exerts no force on the piston.also a constant force F1 exerted on the piston. The gas is heated until the pressure inside the cylinder increased from P, to P, kPa. Determine the boundary work done by the gas on the piston „W, as a function of P,, P2, Agiston m, K, P F,,V,, V, and draw the relation between pressure and volume for this process whrere P1, V1 pressure and volume at state 1 respectively P2, V2 pressure and volume at state 2 respectively A "piston piston area k_ spring constant Po atmospheric pressure F1 constant external force m piston mass

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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A spring is attached to the back of the frictionless piston. Initially,
the spring exerts no force on the piston.also a constant force F1 exerted
on the piston.
The gas is heated until the pressure inside the cylinder increased from P, to P, kPa.
Determine the boundary work done by the gas on the piston ,W, as a function
1 P2, Apiston m, K, Po, F,,V,, V2 and draw the relation between pressure and volume for this
process whrere
P1, V1 pressure and volume at state 1 respectively
P2, V2 pressure and volume at state 2 respectively
Apiston piston area
k spring constant
Po atmospheric pressure
F1 constant external force
of'1
m, piston mass
Po
g
mp
Transcribed Image Text:A spring is attached to the back of the frictionless piston. Initially, the spring exerts no force on the piston.also a constant force F1 exerted on the piston. The gas is heated until the pressure inside the cylinder increased from P, to P, kPa. Determine the boundary work done by the gas on the piston ,W, as a function 1 P2, Apiston m, K, Po, F,,V,, V2 and draw the relation between pressure and volume for this process whrere P1, V1 pressure and volume at state 1 respectively P2, V2 pressure and volume at state 2 respectively Apiston piston area k spring constant Po atmospheric pressure F1 constant external force of'1 m, piston mass Po g mp
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