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The value of Δ S for the isobaric change in temperature of 4.55 g of gallium metal is to be calculated when it is heated from 298 K to 600 K . Concept introduction: The term entropy is used to represent the randomness in a system. When a system moves from an ordered arrangement to a less order arrangement, then the entropy of the system increases. The second law of thermodynamics state that the entropy of the system either increases or remain the same.

The value of Δ S for the isobaric change in temperature of 4.55 g of gallium metal is to be calculated when it is heated from 298 K to 600 K . Concept introduction: The term entropy is used to represent the randomness in a system. When a system moves from an ordered arrangement to a less order arrangement, then the entropy of the system increases. The second law of thermodynamics state that the entropy of the system either increases or remain the same.

Solution Summary: The author explains the relation between molar heat capacity at constant pressure and entropy.

Physical Chemistry

Physical Chemistry

2nd Edition

ISBN: 9781133958437

Author: Ball, David W. (david Warren), BAER, Tomas

Publisher: Wadsworth Cengage Learning,

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Chapter 3, Problem 3.66E

Interpretation Introduction

Interpretation:

The value of ΔS for the isobaric change in temperature of 4.55 g of gallium metal is to be calculated when it is heated from 298 K to 600 K.

Concept introduction:

The term entropy is used to represent the randomness in a system. When a system moves from an ordered arrangement to a less order arrangement, then the entropy of the system increases. The second law of thermodynamics state that the entropy of the system either increases or remain the same.

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Chapter 3, Problem 3.65E

Chapter 3, Problem 3.67E

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Chapter 3 Solutions

Physical Chemistry

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