3. Find the coefficient of thermal expansion a and the isothermal compressibility k from each of the following p-v-T relations: RT (a) Ideal gas equation, p = (b) Dieterici equation, p = RT e a/RTU (c) Saha-Bose equation, p = RT a/RTV In 2b In the above equations R is the gas constant and a and b are specific constants. Verify that for large values of T and v all the expressions for and K go over into the corresponding expressions for an ideal gas.
3. Find the coefficient of thermal expansion a and the isothermal compressibility k from each of the following p-v-T relations: RT (a) Ideal gas equation, p = (b) Dieterici equation, p = RT e a/RTU (c) Saha-Bose equation, p = RT a/RTV In 2b In the above equations R is the gas constant and a and b are specific constants. Verify that for large values of T and v all the expressions for and K go over into the corresponding expressions for an ideal gas.
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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Transcribed Image Text:3. Find the coefficient of thermal expansion a and the isothermal
compressibility k from each of the following p-v-T relations:
RT
(a) Ideal gas equation, p =
(b) Dieterici equation, p =
RT
e-a/RTU
RT aRTV In
2b
(c) Saha-Bose equation, p =
In the above equations R is the gas constant and a and b are specific constants.
Verify that for large values of T and v all the expressions for and K go over into
the corresponding expressions for an ideal gas.
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