4.If 1 atmFour (4) moles of helium gas undergo the following cyclic process (A-→B→C→A).1.0 x 10° Pa, and the total internal energy of such an ideal gas equals nRT,where n, R and T are the number of moles of the gas, the universal gas constant andtemperature in kelvin, respectively,(а)what is the total amount of work done on the gas in one cycle?(b)what is the amount of heat involved in one cycle?(c)universal gas constant?what is the change in entropy of the gas from A to B in terms of R, theP (atm)A16A to B:Constant TCBV (Liter)Figure 2: P-V diagram.38CO

Answered: Image /qna-images/answer/9041b5e2-6fe7-4b4f-a013-5dd632925970.jpg

4. Four (4) moles of helium gas undergo the following cyclic process (A→B¬C→A). If 1 atm = 1.0 x 105 Pa, and the total internal energy of such an ideal gas equals nRT, where n, R and T are the number of moles of the gas, the universal gas constant and temperature in kelvin, respectively, (a) what is the total amount of work done on the gas in one cycle? (b) what is the amount of heat involved in one cycle? what is the change in entropy of the gas from A to B in terms of R, the universal gas constant? P (atm) The 16 A to B: Constant T 3 8 V (Liter) Figure 2: P-V diagram.

4. Four (4) moles of helium gas undergo the following cyclic process (A→B¬C→A). If 1 atm = 1.0 x 105 Pa, and the total internal energy of such an ideal gas equals nRT, where n, R and T are the number of moles of the gas, the universal gas constant and temperature in kelvin, respectively, (a) what is the total amount of work done on the gas in one cycle? (b) what is the amount of heat involved in one cycle? what is the change in entropy of the gas from A to B in terms of R, the universal gas constant? P (atm) The 16 A to B: Constant T 3 8 V (Liter) Figure 2: P-V diagram.

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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