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Science Chemistry Chemistry: Atoms First

Hess’s law and its usefulness in thermochemistry have to be explained. Concept Introduction: The enthalpy change for given set of reactants to the given set of products is the same, whether the process takes place in single or sequence of steps. This is known as Hess’s law. Enthalpy is generally calculated from the standard enthalpy of formation. ΔH° reaction = ∑ n p ΔH ° f (products)- ∑ n p ΔH ° (reactants) In thermochemistry, it is used to determine the lattice energy of ionic compounds.

Hess’s law and its usefulness in thermochemistry have to be explained. Concept Introduction: The enthalpy change for given set of reactants to the given set of products is the same, whether the process takes place in single or sequence of steps. This is known as Hess’s law. Enthalpy is generally calculated from the standard enthalpy of formation. ΔH° reaction = ∑ n p ΔH ° f (products)- ∑ n p ΔH ° (reactants) In thermochemistry, it is used to determine the lattice energy of ionic compounds.

Solution Summary: The author explains Hess's law and its usefulness in thermochemistry. The enthalpy change for reactants to products is the same, whether the process takes place in single or sequence of steps.

Chemistry: Atoms First

Chemistry: Atoms First

3rd Edition

ISBN: 9781259638138

Author: Julia Burdge, Jason Overby Professor

Publisher: McGraw-Hill Education

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Chapter 10, Problem 10.43QP

Interpretation Introduction

Interpretation: Hess’s law and its usefulness in thermochemistry have to be explained.

Concept Introduction:

The enthalpy change for given set of reactants to the given set of products is the same, whether the process takes place in single or sequence of steps. This is known as Hess’s law.

Enthalpy is generally calculated from the standard enthalpy of formation.

ΔH°reaction=∑npΔH°f(products)-∑npΔH°(reactants)

In thermochemistry, it is used to determine the lattice energy of ionic compounds.

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Chapter 10, Problem 10.42QP

Chapter 10, Problem 10.44QP

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Chemistry: Atoms First

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