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Science Chemistry Student Solutions Manual for Chemistry

Thevalue of enthalpy of a reaction, which corresponds to the enthalpy of formation, out of the given values is to be identified. Concept introduction: The standard enthalpy for a reaction is the amount of enthalpy at standard conditions The standard enthalpy of reaction is to be determined using the equation as given below: Δ H ° rxn = ∑ n Δ H f ° ( products ) − ∑ m Δ H f ° ( reactants ) Here, the stoichiometric coefficients are represented by m for reactants and n for products, enthalpy of formation at standard conditions are represented by Δ H f ° . The value of enthalpy of formation of an element is zero at its most stable state.

Thevalue of enthalpy of a reaction, which corresponds to the enthalpy of formation, out of the given values is to be identified. Concept introduction: The standard enthalpy for a reaction is the amount of enthalpy at standard conditions The standard enthalpy of reaction is to be determined using the equation as given below: Δ H ° rxn = ∑ n Δ H f ° ( products ) − ∑ m Δ H f ° ( reactants ) Here, the stoichiometric coefficients are represented by m for reactants and n for products, enthalpy of formation at standard conditions are represented by Δ H f ° . The value of enthalpy of formation of an element is zero at its most stable state.

Solution Summary: The author explains the enthalpy of a reaction, which corresponds to the formation of an element, is zero at its most stable state.

Student Solutions Manual for Chemistry

Student Solutions Manual for Chemistry

4th Edition

ISBN: 9781259626661

Author: Julia Burdge

Publisher: McGraw-Hill Education

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Question

Chapter 5.6, Problem 3CP

Interpretation Introduction

Interpretation:

Thevalue of enthalpy of a reaction, which corresponds to the enthalpy of formation, out of the given values is to be identified.

Concept introduction:

The standard enthalpy for a reaction is the amount of enthalpy at standard conditions

The standard enthalpy of reaction is to be determined using the equation as given below: ΔH°rxn=∑nΔHf°(products)−∑mΔHf°(reactants)

Here, the stoichiometric coefficients are represented by m for reactants and n for products, enthalpy of formation at standard conditions are represented by ΔHf°.

The value of enthalpy of formation of an element is zero at its most stable state.

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Chapter 5.6, Problem 2CP

Chapter 5.6, Problem 4CP

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Chapter 5 Solutions

Student Solutions Manual for Chemistry

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