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Science Chemistry Chemical Principles

The preferred products for the decomposition of N 2 O 3 from NO 2 & NO and O 2 & N 2 O needs to be determined on the basis of bond energies. Concept Introduction: A chemical compound can be formed by either ionic bond or covalent bond between bonded atoms. The ionic compound is formed by opposite charge ions; cations and anions. The covalent compound is formed by sharing of electrons between bonded atoms. The bond energy of a chemical bond can be defined as the energy required to break that chemical bond. The bond energy that is needed to break the bonds in reactant molecule and the energy released to form chemical bonds in product can be used to calculate the Δ H of the chemical reaction. Δ H= ∑ BE reactant - ∑ BE product

The preferred products for the decomposition of N 2 O 3 from NO 2 & NO and O 2 & N 2 O needs to be determined on the basis of bond energies. Concept Introduction: A chemical compound can be formed by either ionic bond or covalent bond between bonded atoms. The ionic compound is formed by opposite charge ions; cations and anions. The covalent compound is formed by sharing of electrons between bonded atoms. The bond energy of a chemical bond can be defined as the energy required to break that chemical bond. The bond energy that is needed to break the bonds in reactant molecule and the energy released to form chemical bonds in product can be used to calculate the Δ H of the chemical reaction. Δ H= ∑ BE reactant - ∑ BE product

Solution Summary: The author explains that a chemical compound can be formed by either ionic bond or covalent bond between bonded atoms.

Chemical Principles

Chemical Principles

8th Edition

ISBN: 9781305581982

Author: Steven S. Zumdahl, Donald J. DeCoste

Publisher: Cengage Learning

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Question

Chapter 18, Problem 48E

Interpretation Introduction

Interpretation: The preferred products for the decomposition of N2O3 from NO2 & NO and O2 & N2O needs to be determined on the basis of bond energies.

Concept Introduction:

A chemical compound can be formed by either ionic bond or covalent bond between bonded atoms. The ionic compound is formed by opposite charge ions; cations and anions. The covalent compound is formed by sharing of electrons between bonded atoms.

The bond energy of a chemical bond can be defined as the energy required to break that chemical bond. The bond energy that is needed to break the bonds in reactant molecule and the energy released to form chemical bonds in product can be used to calculate the ΔH of the chemical reaction.

ΔH=∑BEreactant - ∑BEproduct

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Chapter 18, Problem 47E

Chapter 18, Problem 49E

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Chapter 18 Solutions

Chemical Principles

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