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Science Chemistry EBK GENERAL, ORGANIC, & BIOLOGICAL CHEM

(a) Interpretation: Whether the bonds of products are stronger than the bond of reactants or not needs to be determined. Concept introduction: Bond dissociation energy is defined as the amount of energy needed to break a bond into the respective atoms. It is equal to the bond energy, that is, the amount of energy required to make the bond. It is equal to the sum of bond dissociation energies of all the bonds present in the molecule.

(a) Interpretation: Whether the bonds of products are stronger than the bond of reactants or not needs to be determined. Concept introduction: Bond dissociation energy is defined as the amount of energy needed to break a bond into the respective atoms. It is equal to the bond energy, that is, the amount of energy required to make the bond. It is equal to the sum of bond dissociation energies of all the bonds present in the molecule.

Solution Summary: The author explains how bond dissociation energy is defined as the amount of energy required to break a chemical bond.

EBK GENERAL, ORGANIC, & BIOLOGICAL CHEM

EBK GENERAL, ORGANIC, & BIOLOGICAL CHEM

3rd Edition

ISBN: 9781259298424

Author: SMITH

Publisher: VST

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Formula Formula Bond dissociation energy (BDE) is the energy required to break a bond, making it an endothermic process. BDE is calculated for a particular bond and therefore consists of fragments such as radicals since it undergoes homolytic bond cleavage. For the homolysis of a X-Y molecule, the energy of bond dissociation is calculated as the difference in the total enthalpy of formation for the reactants and products. X-Y → X + Y BDE = Δ H f X + Δ H f Y – Δ H f X-Y where, ΔHf is the heat of formation.

Chapter 6, Problem 6.43P

Interpretation Introduction

(a)

Interpretation:

Whether the bonds of products are stronger than the bond of reactants or not needs to be determined.

Concept introduction:

Bond dissociation energy is defined as the amount of energy needed to break a bond into the respective atoms.

It is equal to the bond energy, that is, the amount of energy required to make the bond. It is equal to the sum of bond dissociation energies of all the bonds present in the molecule.

Interpretation Introduction

(b)

Interpretation:

The amount of energy absorbed when 4.00 mol of glucose metabolize to form CO₂ and H₂O needs to be determined.

Concept Introduction:

In glucose metabolism bonds in glucose break to form CO₂ and H₂O. Bond dissociation energy is defined as the amount of energy which is required to break a chemical bond. In an endothermic reaction, energy is required but it is released in an exothermic reaction.

Interpretation Introduction

(c)

Interpretation:

The amount of energy absorbed when 3.00 mol of O₂ reacts with glucose to form CO₂ and H₂O.

Concept Introduction:

In glucose metabolism bonds in glucose break to form CO₂ and H₂O. Bond dissociation energy is defined as the amount of energy which is required to break a chemical bond. In an endothermic reaction, energy is required but it is released in an exothermic reaction.

Interpretation Introduction

(d)

Interpretation:

The amount of energy absorbed when 10.0 g of glucose metabolize to form CO₂ and H₂O needs to be determined.

Concept Introduction:

In glucose metabolism bonds in glucose break to form CO₂ and H₂O. Bond dissociation energy is defined as the amount of energy which is required to break a chemical bond. In an endothermic reaction, energy is required but it is released in an exothermic reaction.

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Chapter 6, Problem 6.42P

Chapter 6, Problem 6.44P

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Complete combustion of a 0.6250 g sample of the unknown crystal with excess O2 produced 1.8546 g of CO2 and 0.5243 g of H2O. A separate analysis of a 0.8500 g sample of the blue crystal was found to produce 0.0465 g NH3. The molar mass of the substance was found to be about 310 g/mol. What is the molecular formula of the unknown crystal?

4. C6H100 5 I peak 3 2 PPM Integration values: 1.79ppm (2), 4.43ppm (1.33) Ipeak

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Chapter 6 Solutions

EBK GENERAL, ORGANIC, & BIOLOGICAL CHEM

Ch. 6.1 - Prob. 6.1P Ch. 6.1 - Prob. 6.2P Ch. 6.1 - Prob. 6.3P Ch. 6.1 - Prob. 6.4P Ch. 6.2 - Using the values in Table 6.2, give H for each...Ch. 6.2 - Prob. 6.6P Ch. 6.2 - Answer the following questions using the given...Ch. 6.2 - Given the H and balanced equation in Sample...Ch. 6.2 - Prob. 6.9P Ch. 6.3 - Prob. 6.10P

Ch. 6.4 - Consider the reaction of ozone (O3) with nitrogen...Ch. 6.4 - Draw an energy diagram for an uncatalyzed...Ch. 6.5 - Identify the forward and reverse reactions in each...Ch. 6.5 - Write the expression for the equilibrium constant...Ch. 6.5 - Consider the reversible reaction AB, with K=1....Ch. 6.5 - Given each equilibrium constant, state whether the...Ch. 6.5 - Consider the following reaction:...Ch. 6.5 - Calculate the equilibrium constant for each...Ch. 6.5 - Prob. 6.19P Ch. 6.6 - Prob. 6.20P Ch. 6.6 - Prob. 6.21P Ch. 6.6 - Prob. 6.22P Ch. 6.6 - Prob. 6.23P Ch. 6.6 - Prob. 6.24P Ch. 6 - Prob. 6.25P Ch. 6 - Prob. 6.26P Ch. 6 - Prob. 6.27P Ch. 6 - Prob. 6.28P Ch. 6 - Prob. 6.29P Ch. 6 - Prob. 6.30P Ch. 6 - Prob. 6.31P Ch. 6 - Prob. 6.32P Ch. 6 - Prob. 6.33P Ch. 6 - Prob. 6.34P Ch. 6 - Prob. 6.35P Ch. 6 - Prob. 6.36P Ch. 6 - Prob. 6.37P Ch. 6 - Prob. 6.38P Ch. 6 - Prob. 6.39P Ch. 6 - Prob. 6.40P Ch. 6 - Prob. 6.41P Ch. 6 - Ammonia ( NH3 ) decomposes to hydrogen and...Ch. 6 - Prob. 6.43P Ch. 6 - Ethanol ( C2H6O ), a gasoline additive, is formed...Ch. 6 - Prob. 6.45P Ch. 6 - Prob. 6.46P Ch. 6 - Prob. 6.47P Ch. 6 - Prob. 6.48P Ch. 6 - Draw an energy diagram for the following reaction...Ch. 6 - Prob. 6.50P Ch. 6 - Prob. 6.51P Ch. 6 - Explain why a high energy of activation causes a...Ch. 6 - State two reasons why increasing temperature...Ch. 6 - Why does decreasing concentration decrease the...Ch. 6 - Prob. 6.55P Ch. 6 - Prob. 6.56P Ch. 6 - Which of the following affect the rate of a...Ch. 6 - Prob. 6.58P Ch. 6 - How does a catalyst affect each of the following:...Ch. 6 - What is the difference between a catalyst and an...Ch. 6 - Prob. 6.61P Ch. 6 - Consider the representation depicted in the...Ch. 6 - For each value, are the reactants or products...Ch. 6 - Prob. 6.64P Ch. 6 - Prob. 6.65P Ch. 6 - Prob. 6.66P Ch. 6 - Prob. 6.67P Ch. 6 - Prob. 6.68P Ch. 6 - Prob. 6.69P Ch. 6 - Consider three different equilibrium mixtures...Ch. 6 - Write an expression for the equilibrium constant...Ch. 6 - Write an expression for the equilibrium constant...Ch. 6 - Prob. 6.73P Ch. 6 - Use each expression for the equilibrium constant...Ch. 6 - Prob. 6.75P Ch. 6 - Consider the following reaction:...Ch. 6 - Prob. 6.77P Ch. 6 - Consider the following reaction. H2(g)+I2(g)2HI(g)...Ch. 6 - Prob. 6.79P Ch. 6 - Prob. 6.80P Ch. 6 - Consider the reaction of N2(g)+O2(g)2NO(g). What...Ch. 6 - Consider the reaction of H2(g)+F2(g)2HF(g). What...Ch. 6 - Prob. 6.83P Ch. 6 - Consider the reversible reaction ABA+B, shown at...Ch. 6 - Consider the endothermic conversion of oxygen to...Ch. 6 - Consider the exothermic reaction:...Ch. 6 - Consider the exothermic reaction:...Ch. 6 - Consider the endothermic reaction:...Ch. 6 - Consider the gas-phase reaction of ethylene...Ch. 6 - Methanol (CHO), which is used as a fuel in race...Ch. 6 - Prob. 6.91P Ch. 6 - How does a catalytic converter clean up automobile...Ch. 6 - Prob. 6.93P Ch. 6 - The reaction of salicylic acid with acetic acid...Ch. 6 - Prob. 6.95P Ch. 6 - Prob. 6.96P Ch. 6 - Prob. 6.97P Ch. 6 - Prob. 6.98P Ch. 6 - Prob. 6.99CP Ch. 6 - Prob. 6.100CP

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