Assume as a first approximation that the molar volume of a van der Waals gas and pressure are given by the following equations: RT + (b - RT RT a V -b V² From the previous equations and the...

Assume as a first approximation that the molar volume of a van<br>der Waals gas and pressure are given by the following equations:<br>RT<br>+ (b - RT<br>RT<br>a<br>V -b V²<br>From the previous equations and the fundamental equations of<br>thermodynamics and relations of Maxwell of appropriate<br>Thermodynamics, calculate DH and DS for isothermal<br>compression to 300 K for a given gas, behaving like a van der<br>Waals gas, of 0.1 MPa (MPa = Megapascal) to 10 MPa (MPa =<br>Megapascal). Data: a=0.37Pa m6 mol² and b=42.90x10-6 m³ mol·1<br>for the considered gas.<br>

Extracted text: Assume as a first approximation that the molar volume of a van der Waals gas and pressure are given by the following equations: RT + (b - RT RT a V -b V² From the previous equations and the fundamental equations of thermodynamics and relations of Maxwell of appropriate Thermodynamics, calculate DH and DS for isothermal compression to 300 K for a given gas, behaving like a van der Waals gas, of 0.1 MPa (MPa = Megapascal) to 10 MPa (MPa = Megapascal). Data: a=0.37Pa m6 mol² and b=42.90x10-6 m³ mol·1 for the considered gas.

Jun 11, 2022

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Assume as a first approximation that the molar volume of a van der Waals gas and pressure are given by the following equations: RT + (b - RT RT a V -b V² From the previous equations and the...

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