Two spheres each 3.0 ft in diameter are connected by a pipe in which there is a valve. Each sphere contains nitrogen gas with sphere A has a temperature of 80°F, while the other is is 120°F. With the valve closed, sphere A has a gage pressure 51.9 psi and the other 10.9 psi. After the valve has been open long enough for equilibrium to obtain, what is the equilibrium temperature if the final pressure is 35.2 psig?

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Pls explain if the value of ideal gas R is included
Two spheres each 3.0 ft in diameter are connected by a pipe in which
there is a valve. Each sphere contains nitrogen gas with sphere A has a
temperature of 80°F, while the other is is 120°F. With the valve closed,
sphere A has a gage pressure 51.9 psi and the other 10.9 psi. After the
valve has been open long enough for equilibrium to obtain, what is the
equilibrium temperature if the final pressure is 35.2 psig?
Transcribed Image Text:Two spheres each 3.0 ft in diameter are connected by a pipe in which there is a valve. Each sphere contains nitrogen gas with sphere A has a temperature of 80°F, while the other is is 120°F. With the valve closed, sphere A has a gage pressure 51.9 psi and the other 10.9 psi. After the valve has been open long enough for equilibrium to obtain, what is the equilibrium temperature if the final pressure is 35.2 psig?
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