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Science Chemistry Thermodynamics, Statistical Thermodynamics, & Kinetics

From equation C p = C v + TV ( β 2 /K ) , the relation between C p − C v for an ideal gas needs to be identified. Concept Introduction : The relationship between C p and C v with β and K is represented as follows: C p = C v + TV ( β 2 / κ ) Here, C p is the specific heat capacity at constant pressure, C v is the specific heat capacity at constant volume, T is temperature, V is volume, β is the coefficient of volumetric thermal expansion at constant pressure. and κ is isothermal compressibility.

From equation C p = C v + TV ( β 2 /K ) , the relation between C p − C v for an ideal gas needs to be identified. Concept Introduction : The relationship between C p and C v with β and K is represented as follows: C p = C v + TV ( β 2 / κ ) Here, C p is the specific heat capacity at constant pressure, C v is the specific heat capacity at constant volume, T is temperature, V is volume, β is the coefficient of volumetric thermal expansion at constant pressure. and κ is isothermal compressibility.

Thermodynamics, Statistical Thermodynamics, & Kinetics

Thermodynamics, Statistical Thermodynamics, & Kinetics

3rd Edition

ISBN: 9780321766182

Author: Thomas Engel, Philip Reid

Publisher: Prentice Hall

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Repulsive and Total Interactions Between Molecules

Intermolecular forces are the repulsive or attractive interaction between the molecules. Due to the coulomb’s law, there will be a coulomb force that exists between two or more charged species. If the charge of both molecules is positive or negative, the…

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Chapter 3, Problem 3.13NP

Interpretation Introduction

Interpretation:

From equation Cp= Cv+ TV(β2/K) , the relation between C_p − C_v for an ideal gas needs to be identified.

Concept Introduction :

The relationship between C_p and C_v with β and K

is represented as follows:

Cp= Cv+ TV(β2/κ)

Here, C_p is the specific heat capacity at constant pressure, C_v is the specific heat capacity at constant volume, T is temperature, V is volume, β is the coefficient of volumetric thermal expansion at constant pressure.

and κ is isothermal compressibility.

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Chapter 3, Problem 3.12NP

Chapter 3, Problem 3.14NP

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Chapter 3 Solutions

Thermodynamics, Statistical Thermodynamics, & Kinetics

Ch. 3 - Prob. 3.1CP Ch. 3 - Prob. 3.2CP Ch. 3 - Prob. 3.3CP Ch. 3 - Prob. 3.4CP Ch. 3 - Why can qv be equated with a state function if q...Ch. 3 - Prob. 3.6CP Ch. 3 - Prob. 3.7CP Ch. 3 - Prob. 3.8CP Ch. 3 - Prob. 3.9CP Ch. 3 - Why is qv=U only for a constant volume process? Is...

Ch. 3 - Prob. 3.11CP Ch. 3 - Why are q and w not state functions?Ch. 3 - Prob. 3.13CP Ch. 3 - What is the relationship between a state function...Ch. 3 - Prob. 3.15CP Ch. 3 - Is the following statement always, never, or...Ch. 3 - Is the following statement always, never, or...Ch. 3 - Prob. 3.18CP Ch. 3 - Prob. 3.19CP Ch. 3 - Is the expression UV=T2T1CVdT=nT1T2CV,mdT only...Ch. 3 - Prob. 3.1NP Ch. 3 - Prob. 3.2NP Ch. 3 - Prob. 3.3NP Ch. 3 - Prob. 3.4NP Ch. 3 - Prob. 3.5NP Ch. 3 - Prob. 3.6NP Ch. 3 - Integrate the expression =1/VV/TP assuming that ...Ch. 3 - Prob. 3.8NP Ch. 3 - Prob. 3.9NP Ch. 3 - Prob. 3.10NP Ch. 3 - Prob. 3.11NP Ch. 3 - Calculate w, q, H, and U for the process in which...Ch. 3 - Prob. 3.13NP Ch. 3 - Prob. 3.14NP Ch. 3 - Prob. 3.15NP Ch. 3 - Prob. 3.16NP Ch. 3 - Prob. 3.17NP Ch. 3 - Prob. 3.18NP Ch. 3 - Prob. 3.19NP Ch. 3 - Prob. 3.20NP Ch. 3 - Prob. 3.21NP Ch. 3 - Prob. 3.22NP Ch. 3 - Derive the following relation, UVmT=3a2TVmVm+b for...Ch. 3 - Prob. 3.24NP Ch. 3 - Prob. 3.25NP Ch. 3 - Prob. 3.26NP Ch. 3 - Prob. 3.27NP Ch. 3 - Prob. 3.28NP Ch. 3 - Prob. 3.29NP Ch. 3 - Prob. 3.30NP Ch. 3 - Prob. 3.31NP Ch. 3 - Prob. 3.32NP Ch. 3 - Prob. 3.33NP Ch. 3 - Prob. 3.34NP Ch. 3 - Derive the equation H/TV=CV+V/k from basic...Ch. 3 - Prob. 3.36NP Ch. 3 - Prob. 3.37NP Ch. 3 - Show that CVVT=T2PT2V Ch. 3 - Prob. 3.39NP

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