Exercise 2 A closed container containing an ideal gas is divided into two volumes by a moving piston that does not transmit heat (V₁ = 100 cm³, V₂ = 200 cm³). The initial temperature throughout the container is the same (for the two gases) and is To= 300 K and the initial pressure is also the same throughout the container (for the two gases) and is Po = 1.01 - 105 Pa Then, the smaller volume gas is cooled until it reaches T₁ = 273 K, and the larger volume gas is heated until it reaches T2= 373 K. Assuming that the final pressure of the two gases is the same, calculate this pressure.

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Exercise 2
A closed container containing an ideal gas is divided into two volumes by a moving piston
that does not transmit heat (V₁ = 100 cm³, V₂ = 200 cm³). The initial temperature
throughout the container is the same (for the two gases) and is To = 300 K and the initial
pressure is also the same throughout the container (for the two gases) and is Po 1.01 105
Pa Then, the smaller volume gas is cooled until it reaches T₁ = 273 K, and the larger volume
gas is heated until it reaches T2 = 373 K. Assuming that the final pressure of the
two gases is the same, calculate this pressure.
=
Transcribed Image Text:Exercise 2 A closed container containing an ideal gas is divided into two volumes by a moving piston that does not transmit heat (V₁ = 100 cm³, V₂ = 200 cm³). The initial temperature throughout the container is the same (for the two gases) and is To = 300 K and the initial pressure is also the same throughout the container (for the two gases) and is Po 1.01 105 Pa Then, the smaller volume gas is cooled until it reaches T₁ = 273 K, and the larger volume gas is heated until it reaches T2 = 373 K. Assuming that the final pressure of the two gases is the same, calculate this pressure. =
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