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Science Chemistry Chemistry Principles And Practice

Δ H has to be determined for the reaction, Mg ( s ) + 1 2 O 2 ( g ) → MgO ( s ) . Concept Introduction: According to Hess’s Laws, change in enthalpy in an overall reaction can be calculated from the change in enthalpy of other reactions. If an equation is obtained by the addition of more than one thermochemical equations, then the enthalpy change of that equation is the sum of change in enthalpy of all the equations added. If an equation is the reverse direction of a thermochemical equation, then the change in enthalpy has same numerical value but opposite sign. The enthalpy change depends on the mass of reacting substance. If the coefficients present in an equation is multiplied with a factor, then change in enthalpy also should be multiplied with that same factor.

Δ H has to be determined for the reaction, Mg ( s ) + 1 2 O 2 ( g ) → MgO ( s ) . Concept Introduction: According to Hess’s Laws, change in enthalpy in an overall reaction can be calculated from the change in enthalpy of other reactions. If an equation is obtained by the addition of more than one thermochemical equations, then the enthalpy change of that equation is the sum of change in enthalpy of all the equations added. If an equation is the reverse direction of a thermochemical equation, then the change in enthalpy has same numerical value but opposite sign. The enthalpy change depends on the mass of reacting substance. If the coefficients present in an equation is multiplied with a factor, then change in enthalpy also should be multiplied with that same factor.

Solution Summary: The author explains that change in enthalpy in an overall reaction can be calculated from the change of other reactions according to Hess's Laws.

Chemistry Principles And Practice

Chemistry Principles And Practice

3rd Edition

ISBN: 9781305295803

Author: David Reger; Scott Ball; Daniel Goode

Publisher: Cengage Learning

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Chapter 5, Problem 5.70QE

Interpretation Introduction

Interpretation:

ΔH has to be determined for the reaction, Mg(s) + 12 O2(g) → MgO(s).

Concept Introduction:

According to Hess’s Laws, change in enthalpy in an overall reaction can be calculated from the change in enthalpy of other reactions.

If an equation is obtained by the addition of more than one thermochemical equations, then the enthalpy change of that equation is the sum of change in enthalpy of all the equations added.

If an equation is the reverse direction of a thermochemical equation, then the change in enthalpy has same numerical value but opposite sign.

The enthalpy change depends on the mass of reacting substance. If the coefficients present in an equation is multiplied with a factor, then change in enthalpy also should be multiplied with that same factor.

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Chapter 5, Problem 5.69QE

Chapter 5, Problem 5.71QE

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Chemistry Principles And Practice

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