The initial state of 1.00 mol of a dilute gas is P = 3.00 atm, V = 1.00 L, and Ent 1 = 456 J and its final state is P2 = 2.00 atm, V2 = 3.00 L, and Ejnt 2 = 912 J. The gas is heated and is allowed to expand such that it follows a single straight-line path on a PV diagram from its initial state to its final state. (a) Illustrate this process on a PV diagram and calculate the work done by the gas. (b) Find the heat absorbed by the gas during this process.

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
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The initial state of 1.00 mol of a dilute gas is P1 = 3.00 atm, V1 = 1.00 L, and Eint1 = 456 J and its final state is ?2 = 2.00 atm, V2 = 3.00 L, and Eint 2 = 912 J. The gas is heated and is allowed to expand such that it follows a single straight-line path on a PV diagram from its initial state to its final state. (a) Illustrate this process on a PV diagram and calculate the work done by the gas. (b) Find the heat absorbed by the gas during this process.
The initial state of 1.00 mol of a dilute gas is P, = 3.00 atm, V1 = 1.00 L, and Ejnt 1 = 456 J and
its final state is P2 = 2.00 atm, V2 = 3.00 L, and Ejnt 2 = 912 J. The gas is heated and is allowed
to expand such that it follows a single straight-line path on a PV diagram from its initial state to its
final state. (a) Ilustrate this process on a PV diagram and calculate the work done by the gas. (b)
Find the heat absorbed by the gas during this process.
Transcribed Image Text:The initial state of 1.00 mol of a dilute gas is P, = 3.00 atm, V1 = 1.00 L, and Ejnt 1 = 456 J and its final state is P2 = 2.00 atm, V2 = 3.00 L, and Ejnt 2 = 912 J. The gas is heated and is allowed to expand such that it follows a single straight-line path on a PV diagram from its initial state to its final state. (a) Ilustrate this process on a PV diagram and calculate the work done by the gas. (b) Find the heat absorbed by the gas during this process.
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