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Science Chemistry General Chemistry: Principles and Modern Applications (11th Edition)

The standard enthalpy ( ΔH r 0 ) of reaction by using given standard enthalpy of formation of compounds. Concept introduction: The enthalpy of reaction can be determined by Hess’s law. According to this law, the enthalpy of a reaction is independent of the path taken and it depends on the initial reactants and final products. The mathematical expression to calculate the enthalpy of reaction: ΔH r 0 = ∑ H f 0 (products) − ∑ H f 0 (reactants) ΔH r 0 = [c × H f 0 (C) + d × H f 0 (D)]-[a × H f 0 (A) + b × H f 0 (B)]

The standard enthalpy ( ΔH r 0 ) of reaction by using given standard enthalpy of formation of compounds. Concept introduction: The enthalpy of reaction can be determined by Hess’s law. According to this law, the enthalpy of a reaction is independent of the path taken and it depends on the initial reactants and final products. The mathematical expression to calculate the enthalpy of reaction: ΔH r 0 = ∑ H f 0 (products) − ∑ H f 0 (reactants) ΔH r 0 = [c × H f 0 (C) + d × H f 0 (D)]-[a × H f 0 (A) + b × H f 0 (B)]

Solution Summary: The author explains that the enthalpy of a reaction can be determined by Hess's law. It depends on the initial reactants and final products.

General Chemistry: Principles and Modern Applications (11th Edition)

General Chemistry: Principles and Modern Applications (11th Edition)

11th Edition

ISBN: 9780132931281

Author: Ralph H. Petrucci, F. Geoffrey Herring, Jeffry D. Madura, Carey Bissonnette

Publisher: PEARSON

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Chapter 7, Problem 83E

Interpretation Introduction

Interpretation:

The standard enthalpy ( ΔHr0 ) of reaction by using given standard enthalpy of formation of compounds.

Concept introduction:

The enthalpy of reaction can be determined by Hess’s law. According to this law, the enthalpy of a reaction is independent of the path taken and it depends on the initial reactants and final products.

The mathematical expression to calculate the enthalpy of reaction:

ΔHr0=∑Hf0(products)−∑Hf0(reactants)

ΔHr0= [c × Hf0(C) + d × Hf0(D)]-[a × Hf0(A) + b× Hf0(B)]

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Chapter 7, Problem 82E

Chapter 7, Problem 84E

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Chapter 7 Solutions

General Chemistry: Principles and Modern Applications (11th Edition)

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