Organic Chemistry - MasteringChemistry - 7th Edition - by Bruice - ISBN 9780321867148

Organic Chemistry - MasteringChemistry
7th Edition
Bruice
Publisher: PEARSON
ISBN: 9780321867148

Solutions for Organic Chemistry - MasteringChemistry

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Chapter 1.12 - The Bonds In WaterChapter 1.13 - The Bond In A Hydrogen HalideChapter 1.14 - Hybridization And Molecular GeometryChapter 1.15 - Summay: Hybridization, Bond Lengths, Bond Strengths, And Bond AnglesChapter 1.16 - The Dipole Moments Of MoleculesChapter 2 - Acids And Bases: Central To Understanding Organic ChemistryChapter 2.1 - An Introduction To Acids And BasesChapter 2.2 - Pka And PhChapter 2.3 - Organic Acids And BasesChapter 2.4 - How To Predict The Outcome Of An Acid-base ReactionChapter 2.5 - How To Determine The Position Of EquilibriumChapter 2.6 - How The Structure Of An Acid Affects Its Pka ValueChapter 2.7 - How Substituents Affect The Strength Of An AcidChapter 2.8 - An Introduction To Delocalized ElectronsChapter 2.9 - A Summary Of The Factors That Determine Acid StrengthChapter 2.10 - How Ph Affects The Structure Of An Organic CompoundChapter 2.11 - Buffer SolutionsChapter 2.12 - Lewis Acids And BasesChapter 3 - An Introduction To Organic Compounds: Nomenclature, Physical Properties, And Representation Of StructureChapter 3.1 - How Alkyl Substituents Are NamedChapter 3.2 - The Nomenclature Of AlkanesChapter 3.3 - The Nomenclature Of Cycloalkanes • Skeletal StructuresChapter 3.4 - The Nomenclature Of Alkyl HalidesChapter 3.5 - The Nomenclature Of EthersChapter 3.6 - The Nomenclature Of AlcoholsChapter 3.7 - The Nomenclature Of AminesChapter 3.8 - The Structures Of Alkyl Halides, Alcohols, Ethers, And AminesChapter 3.9 - The Physical Properties Of Alkanes, Alkyl Halides, Alcohols, Ethers, And AminesChapter 3.10 - Rotation Occurs About Carbon-carbon Single BondsChapter 3.11 - Some Cycloalkanes Have Angle StrainChapter 3.12 - Conformers Of CyclohexaneChapter 3.13 - Conformers Of Monosubstituted CyclohexanesChapter 3.14 - Conformers Of Disubstituted CyclohexanesChapter 4 - Isomers: The Arrangement Of Atoms In SpaceChapter 4.1 - Cis-trans Isomers Result From Restricted RotationChapter 4.2 - A Chiral Object Has A Nonsuperimposable Mirror ImageChapter 4.3 - An Asymmetric Center Is A Cause Of Chirality In A MoleculeChapter 4.4 - Isomers With One Asymmetric CenterChapter 4.6 - How To Draw EnantiomersChapter 4.7 - Naming Enantiomers By The R,s SystemChapter 4.8 - Chiral Compounds Are Optically ActiveChapter 4.9 - How Specific Rotation Is MeasuredChapter 4.10 - Enantiomeric ExcessChapter 4.11 - Compounds With More Than One Asymmetric CenterChapter 4.12 - Stereoisomers Of Cyclic CompoundsChapter 4.13 - Meso Compounds Have Asymmetric Centers But Are Optically InactiveChapter 4.14 - How To Name Isomers With More Than One Asymmetric CenterChapter 4.15 - How Enantiomers Can Be SeparatedChapter 4.16 - Nitrogen And Phosphorous Atoms Can Be Asymmetric CentersChapter 5 - Alkenes: Structure, Nomenclature, And An Introduction To Reactivity • Thermodynamics And KineticsChapter 5.1 - Molecular Formulas And The Degree Of UnsaturationChapter 5.2 - The Nomenclature Of AlkenesChapter 5.4 - Naming Alkenes Using The E,z SystemChapter 5.6 - How Alkenes React • Curved Arrows Show The Flow Of ElectronsChapter 5.7 - Thermodynamics And KineticsChapter 5.9 - The Difference Between The Rate Of A Reaction And The Rate Constant For A ReactionChapter 5.10 - A Reaction Coordinate Diagram Describes The Energy Changes That Take Place During A ReactionChapter 5.11 - CatalysisChapter 6 - The Reaction Of Alkenes • The Stereochemistry Of Addition ReactionsChapter 6.1 - The Addition Of A Hydrogen Halide To An AlkeneChapter 6.2 - Carbocation Stability Depends On The Number Of Alkyl Groups Attached To The Positively Charged CarbonChapter 6.3 - What Does The Structure Of The Transition State Look Like?Chapter 6.4 - Electrophilic Addition Reactions Are RegioselectiveChapter 6.5 - The Addition Of Water To An AlkeneChapter 6.6 - The Addition Of An Alcohol To An AlkeneChapter 6.7 - A Carbocation Will Rearrange If It Can Form A More Stable CarbocationChapter 6.8 - The Addition Of Borane To An Alkene: Hydroboration-oxidationChapter 6.9 - The Addition Of A Halogen To An AlkeneChapter 6.10 - The Addition Of A Peroxyacid To An AlkeneChapter 6.11 - The Addition Of Ozone To An Alkene: OzonolysisChapter 6.12 - The Addition Of Hydrogen To An AlkeneChapter 6.13 - The Relative Stabilities Of AlkenesChapter 6.14 - Regioselective, Stereoselective, And Stereospecific ReactionsChapter 6.15 - The Stereochemistry Of Electrophilic Addition Reactions Of AlkenesChapter 6.16 - The Stereochemistry Of Enzyme-catalyzed ReactionsChapter 6.17 - Enantiomers Can Be Distinguished By Biological MoleculesChapter 6.18 - Reactions And SynthesisChapter 7 - The Reaction Of Alkynes • An Introduction To Multistep SynthesisChapter 7.1 - The Nomenclature Of AlkynesChapter 7.2 - How To Name A Compound That Has More Than One Functional GroupChapter 7.3 - The Physical Properties Of Unsaturated HydrocarbonsChapter 7.4 - The Structure Of AlkynesChapter 7.6 - The Addition Of Hydrogen Halides And The Addition Of Halogens To An AlkyneChapter 7.7 - The Addition Of Water To An AlkyneChapter 7.8 - The Addition Of Borane To An Alkyne: Hydroboration-oxidationChapter 7.9 - The Addition Of Hydrogen To An AlkyneChapter 7.10 - A Hydrogen Bonded To An Sp Carbon Is "acidic"Chapter 7.12 - An Introduction To Multistep SynthesisChapter 8 - Delocalized Electrons: Their Effect On Stability, Pka, And The Products Of A ReactionChapter 8.1 - Delocalized Electrons Explain Benzene's StructureChapter 8.4 - How To Draw Resonance ContributorsChapter 8.5 - The Predicted Stabilities Of Resonance ContributorsChapter 8.6 - Delocalization Energy Is The Additional Stability Delocalized Electrons Give To A CompoundChapter 8.8 - The Two Criteria For AromaticityChapter 8.9 - Applying The Criteria For AromaticityChapter 8.10 - Aromatic Heterocyclic CompoundsChapter 8.11 - AntiaromaticityChapter 8.12 - A Molecular Orbital Description Of Aromaticity And AntiaromaticityChapter 8.13 - More Examples That Show How Delocalized Electrons Increase StabilityChapter 8.14 - A Molecular Orbital Description Of StabilityChapter 8.15 - How Delocalized Electrons Affect Pka ValuesChapter 8.16 - Delocalized Electrons Can Affect The Product Of A ReactionChapter 8.17 - Reactions Of DienesChapter 8.18 - Thermodynamic Versus Kinetic ControlChapter 8.19 - The Diels-alder Reaction Is A 1,4-addition ReactionChapter 8.20 - Retrosynthetic Analysis Of The Diels-alder ReactionChapter 9 - Substitution Reactions Of Alkyl HalidesChapter 9.1 - The Mechanism For An Sn2 ReactionChapter 9.2 - Factors That Affect Sn2 ReactionsChapter 9.3 - The Mechanism For An Sn1 ReactionChapter 9.4 - Factors That Affect Sn1 ReactionsChapter 9.5 - Benzylic Halides, Allylic Halides, Vinylic Halides, And Aryl HalidesChapter 9.6 - Competition Between Sn2 And Sn1 ReactionsChapter 9.7 - The Role Of The Solvent In Sn1 And Sn2 ReactionsChapter 9.8 - Intermolecular Versus Intramolecular ReactionsChapter 9.9 - Methylating Agents Used By Chemists Versus Those Used By CellsChapter 10 - Elimination Reactions Of Alkyl Halides● Competition Between Substitution And EliminationChapter 10.2 - An E2 Reaction Is RegioselectiveChapter 10.3 - The E1 ReactionChapter 10.4 - Benzylic And Allylic HalidesChapter 10.5 - Competition Between E1 And E2 ReactionsChapter 10.6 - E1 And E2 Reactions Are StereoselectiveChapter 10.7 - Elimination From Substituted CyclohexanesChapter 10.8 - A Kinetic Isotope Effect Can Help Determine A MechanismChapter 10.9 - Competition Between Substitution And EliminationChapter 10.10 - Substitution And Elimination Reactions In SynthesisChapter 10.11 - Approaching The ProblemChapter 11 - Reactions Of Alcohols, Ethers, Epoxides, Amines, And ThiolsChapter 11.1 - Nucleophilic Substitution Reactions Of Alcohols: Forming Alkyl HalidesChapter 11.2 - Other Methods Used To Convert Alcohols Into Alkyl HalidesChapter 11.3 - Converting An Alcohol Into A Sulfonate EsterChapter 11.4 - Elimination Reactions Of Alcohols: DehydrationChapter 11.5 - Oxidation Of AlcoholsChapter 11.6 - Nucleophilic Substitution Reactions Of EthersChapter 11.7 - Nucleophilic Substitution Reactions Of EpoxidesChapter 11.8 - Arene OxidesChapter 11.9 - Amines Do Not Undergo Substitution Or Elimination ReactionsChapter 11.10 - Quaternary Ammonium Hydroxides Undergo Elimination ReactionsChapter 11.11 - Thiols, Sulfides, And Sulfonium SaltsChapter 12 - Organometallic CompoundsChapter 12.1 - Organolithium And Organomagnesium CompoundsChapter 12.2 - TransmetallationChapter 12.3 - OrganocupratesChapter 12.4 - Palladium-catalyzed Coupling ReactionsChapter 12.5 - Alkene MetathesisChapter 13 - Radicals • Reactions Of AlkanesChapter 13.2 - The Chlorination And Bromination Of AlkanesChapter 13.3 - Radical Stability Depends On The Number Of Alkyl Groups Attached To The Carbon With The Unpaired ElectronChapter 13.4 - The Distribution Of Products Depends On Probability And ReactivityChapter 13.5 - The Reactivity-selectivity PrincipleChapter 13.6 - Formation Of Explosive PeroxidesChapter 13.7 - The Addition Of Radicals To An AlkeneChapter 13.8 - The Stereochemistry Of Radical Substitution And Radical Addition ReactionsChapter 13.9 - Radical Substitution Of Benzylic And Allylic HydrogensChapter 13.10 - More Practice With Multistep SynthesisChapter 13.11 - Radical Reactions Occur In Biological SystemsChapter 14 - Mass Spectrometry, Infrared Spectroscopy, And Ultraviolet/visible SpectroscopyChapter 14.1 - Mass SpectrometryChapter 14.2 - The Mass Spectrum • FragmentationChapter 14.3 - Using The M/z Value Of The Molecular Ion To Calculate The Molecular FormulaChapter 14.4 - Isotopes In Mass SpectrometryChapter 14.5 - High-resolution Mass Spectrometry Can Reveal Molecular FormulasChapter 14.6 - The Fragmentation Patterns Of Functional GroupsChapter 14.9 - Spectroscopy And The Electromagnetic SpectrumChapter 14.13 - The Position Of Absorption BandsChapter 14.14 - The Position And Shape Of An Absorption Band Is Affected By Electron Delocalization, Electron Donation And Withdrawal, And Hydrogen BondingChapter 14.15 - The Absence Of Absorption BandsChapter 14.16 - Some Vibrations Are Infrared InactiveChapter 14.17 - How To Interpret An Infrared SpectrumChapter 14.19 - The Beer-lambert LawChapter 14.20 - The Effect Of Conjugation On ΛmaxChapter 14.21 - The Visible Spectrum And ColorChapter 14.22 - Some Uses Of Uv/vis SpectroscopyChapter 15 - Nmr SpectroscopyChapter 15.1 - An Introduction To Nmr SpectroscopyChapter 15.4 - The Number Of Signals In An 1h Nmr SpectrumChapter 15.5 - The Chemical Shift Tells How Far The Signal Is From The Reference SignalChapter 15.6 - The Relative Positions Of 1h Nmr SignalsChapter 15.7 - The Characteristic Values Of Chemical ShiftsChapter 15.8 - Diamagnetic AnisotropyChapter 15.9 - The Integration Of Nmr Signals Reveals The Relative Number Of Protons Causing Each SignalChapter 15.10 - The Splitting Of Signals Is Described By The N+1 RuleChapter 15.11 - What Causes Splitting?Chapter 15.12 - More Examples Of 1h Nmr SpectraChapter 15.13 - Coupling Constants Identify Coupled ProtonsChapter 15.14 - Splitting Diagrams Explain The Multiplicity Of A SignalChapter 15.15 - Diastereotopic Hydrogens Are Not Chemically EquivalentChapter 15.17 - Protons Bonded To Oxygen And NitrogenChapter 15.20 - 13c Nmr SpectroscopyChapter 15.22 - Two-dimensional Nmr SpectroscopyChapter 16 - Reactions Of Carboxylic Acids And Carboxylic DerivativesChapter 16.1 - The Nomenclature Of Carboxylic Acids And Carboxylic Acid DerivativesChapter 16.2 - The Structures Of Carboxylic Acids And Carboxylic Acid DerivativesChapter 16.4 - Fatty Acids Are Long-chain Carboxylic AcidsChapter 16.5 - How Carboxylic Acids And Carboxylic Acid Derivatives ReactChapter 16.6 - The Relative Reactivities Of Carboxylic Acids And Carboxylic Acid DerivativesChapter 16.7 - The General Mechanism For Nucleophilic Addition-elimination ReactionsChapter 16.8 - The Reactions Of Acyl ChloridesChapter 16.9 - The Reactions Of EstersChapter 16.10 - Acid-catalyzed Ester Hydrolysis And TransesterificationChapter 16.11 - Hydroxide-ion-promoted Ester HydrolysisChapter 16.12 - How The Mechanism For Nucleophilic Addition-elimination Was ConfirmedChapter 16.13 - Fats And Oils Are TriglyveridesChapter 16.14 - Reactions Of Carboxylic AcidsChapter 16.15 - Reactions Of AmidesChapter 16.16 - Acid-catalyzed Amide Hydrolysis And AlcoholysisChapter 16.18 - The Hydrolysis Of An Imide: A Way To Synthesize Primary AminesChapter 16.19 - NitrilesChapter 16.20 - Acid AnhydridesChapter 16.21 - Dicarboxylic AcidsChapter 16.22 - How Chemists Activate Carboxylic AcidsChapter 17 - Reactions Of Aldehydes And Ketones • More Reactions Of Carboxylic Acid Derivatives • Reactions Of Α,β-unsaturated Carbonyl CompoundsChapter 17.1 - The Nomenclature Of Aldehydes And KetonesChapter 17.2 - The Relative Reactivities Of Carbonyl CompoundsChapter 17.4 - The Reactions Of Carbonyl Compounds With Gringard ReagentsChapter 17.5 - The Reactions Of Carbonyl Compounds With Acetylide IonsChapter 17.6 - The Reactions Of Aldehydes And Ketones With Cyanide IonChapter 17.7 - The Reactions Of Carbonyl Compounds With Hydride IonChapter 17.8 - More About Reduction ReactionsChapter 17.9 - Chemoselective ReactionsChapter 17.10 - The Reactions Of Aldehydes And Ketones With AminesChapter 17.11 - The Reactions Of Aldehydes And Ketones With WaterChapter 17.12 - The Reactions Of Aldehydes And Ketones With AlcoholsChapter 17.13 - Protecting GroupsChapter 17.15 - The Reaction Of Aldehydes And Ketones With A PeroxyacidChapter 17.17 - Disconnections, Synthons, And Synthetic EquivalentsChapter 17.18 - Nucleophilic Addition To Α,β-unsaturated Aldehydes And KetonesChapter 17.19 - Nucleophilic Addition To Α,β-unsaturated Carboxylic Acid DerivativesChapter 18 - Reactions At The Α-carbon Of Carbonyl CompoundsChapter 18.1 - The Aciidity Of An Α-hydrogenChapter 18.2 - Keto-enol TautomersChapter 18.3 - Keto-enol InterconversionChapter 18.4 - Halogenation Of The Α-carbon Of Aldehydes And KetonesChapter 18.5 - Halogenation Of The Α-carbon Of Carboxylic Acids: The Hell-volhard-zelinski ReactionChapter 18.6 - Forming An Enolate IonChapter 18.7 - Alkylating The Α-carbon Of Carbonyl CompoundsChapter 18.8 - Alkylating And Acylating The Α-carbon Using An Enamine IntermediateChapter 18.9 - Alkylating The Β-carbon: The Michael ReactionChapter 18.10 - An Aldol Addition Forms Β-hydroxyaldehydes Or Β-hydroxyketonesChapter 18.11 - The Dehydration Of Aldol Addition Products Forms Α,β-unsaturated Aldehydes And KetonesChapter 18.12 - A Crossed Aldol AdditionChapter 18.13 - A Claisen Condensation Forms A Β-keto EsterChapter 18.14 - Other Crossed CondensationsChapter 18.15 - Intramolecular Condensations And Intramolecular Aldol AdditionsChapter 18.16 - The Robinson AnnulationChapter 18.17 - Carboxylic Acids With A Carbonyl Group At The 3-position Can Be DecarboxylatedChapter 18.18 - The Malonic Ester Synthesis: A Way To Synthesize A Carboxylic AcidChapter 18.19 - The Acetoacetic Ester Synthesis: A Way To Synthesize A Methyl KetoneChapter 18.20 - Making New Carbon-carbon BondsChapter 18.21 - Reactions At The Α-carbon In Living SystemsChapter 19 - Reactions Of Benzene And Substituted BenzenesChapter 19.1 - The Nomenclature Of Monosubstituted BenzenesChapter 19.2 - How Benzene ReactsChapter 19.4 - The Halogenation Of BenzeneChapter 19.6 - The Sulfonation Of BenzeneChapter 19.7 - The Friedel-crafts Acylation Of BenzeneChapter 19.8 - The Friedel-crafts Alkylation Of BenzeneChapter 19.10 - Using Coupling Reactions To Alkylate BenzeneChapter 19.12 - How Some Substituents On A Benzene Ring Can Be Chemically ChangedChapter 19.13 - The Nomenclature Of Disubstituted And Polysubstituted BenzenesChapter 19.14 - The Effect Of Substituents On ReactivityChapter 19.15 - The Effect Of Substituents On OrientationChapter 19.16 - The Effect Of Substituents Oh PkaChapter 19.18 - Additional Considerations Regarding Substituent EffectsChapter 19.19 - The Synthesis Of Monosubstituted And Disubstituted BenzenesChapter 19.20 - The Synthesis Of Trisubstituted BenzenesChapter 19.21 - The Synthesis Of Substituted Benzenes Using Arenediazonium SaltsChapter 19.22 - The Arenediazonium Ion As An ElectrophileChapter 19.23 - The Mechanism For The Reaction Of Amines With Nitrous AcidChapter 19.24 - Nucleophilic Aromatic Substitution: An Addition-elimination ReactionChapter 19.25 - The Synthesis Of Cyclic CompoundsChapter 20 - More About Amines • Reactions Of Heterocyclic CompoundsChapter 20.1 - More About Amine NomenclatureChapter 20.2 - More About The Acid-base Properties Of AminesChapter 20.3 - Amines React As Bases And As NucleophilesChapter 20.5 - Aromatic Five-membered-ring HeterocyclesChapter 20.6 - Aromatic Six-membered-ring HeterocyclesChapter 20.7 - Some Amine Heterocycles Have Important Roles In NatureChapter 21 - The Organic Chemistry Of CarbohydratesChapter 21.1 - The Classification Of CarbohydratesChapter 21.2 - The D And L NotationChapter 21.3 - The Configurations Of The AldosesChapter 21.4 - The Configurations Of The KetosesChapter 21.5 - The Reactions Of Monosaccharides In Basic SolutionsChapter 21.6 - The Oxidation-reduction Reactions Of MonosaccharidesChapter 21.7 - Lengthening The Chain: The Kiliani-fischer SynthesisChapter 21.8 - Shortening The Chain: The Wohl DegradationChapter 21.9 - The Stereochemistry Of Glucose: The Fischer ProofChapter 21.10 - Monosaccharides Form Cyclic HemiacetalsChapter 21.11 - Glucose Is The Most Stable AldohexoseChapter 21.15 - DisaccharidesChapter 21.16 - PolysaccharidesChapter 21.17 - Some Naturally Occuring Compounds Derived From CarbohydratesChapter 21.18 - Carbohydrates On Cell SurfacesChapter 22 - The Organic Chemistry Of Amino Acids, Peptides, And ProteinsChapter 22.1 - The Nomenclature Of Amino AcidsChapter 22.2 - The Configuration Of Amino AcidsChapter 22.3 - The Acid-base Properties Of Amino AcidsChapter 22.4 - The Isoelectric PointChapter 22.5 - Separating Amino AcidsChapter 22.6 - The Synthesis Of Amino AcidsChapter 22.7 - The Resolution Of Racemic Mixtures Of Amino AcidsChapter 22.8 - Peptide Bonds And Disulfide BondsChapter 22.9 - Some Interesting PeptidesChapter 22.10 - The Strategy Of Peptide Bond Synthesis: N-protection And C-activationChapter 22.11 - Automated Peptide SynthesisChapter 22.13 - How To Determine The Primary Structure Of A Polypeptide Or ProteinChapter 22.14 - Secondary StructureChapter 22.15 - Tertiary StructureChapter 22.16 - Quaternary StructureChapter 23 - Catalysis In Organic Reactions And In Enzymatic ReactionsChapter 23.2 - Acid CatalysisChapter 23.3 - Base CatalysisChapter 23.5 - Metal-ion CatalysisChapter 23.6 - Intramolecular ReactionsChapter 23.7 - Intramolecular CatalysisChapter 23.9 - The Mechanisms For Two Enzyme-catalyzed Reactions That Are Reminiscent Of Acid-catalyzed Amide HydrolysisChapter 23.10 - The Mechanism For An Enzyme-catalyzed Reaction That Involves Two Sequential Sn2 ReactionsChapter 23.11 - The Mechansim For An Enzyme-catalyzed Reaction That Is Reminiscent Of The Base-catalyzed Enediol RearrangementChapter 23.12 - The Mechanism For An Enzyme-catalyzed Reaction That Is Reminiscent Of An Aldol AdditionChapter 24 - The Organic Chemistry Of The Coenzymes, Compounds Derived From VitaminsChapter 24.1 - Niacin: The Vitamin Needed For Many Redox ReactionsChapter 24.2 - Riboflavin: Another Vitamin Used In Redox ReactionsChapter 24.3 - Vitamin B1: The Vitamin Needed For Acyl Group TransferChapter 24.5 - Vitamin B6: The Vitamin Needed For Amino Acid TransformationsChapter 24.6 - Vitamin B12: The Vitamin Needed For Certain IsomerizationsChapter 24.7 - Folic Acid: The Vitamin Needed For One-carbon TransferChapter 24.8 - Vitamin K: The Vitamin Needed For Carboxylation Of GlutamateChapter 25 - The Organic Chemistry Of The Metabolic Pathways • Terpene BiosynthesisChapter 25.6 - The Catabolism Of FatsChapter 25.7 - The Catabolism Of CarbohydratesChapter 25.8 - The Fats Of PyruvateChapter 25.9 - The Catabolism Of ProteinsChapter 25.10 - The Citric Acid CycleChapter 25.11 - Oxidative PhosphorylationChapter 25.12 - AnabolismChapter 25.15 - Amino Acid BiosynthesisChapter 25.16 - Terpenes Contain Carbon Atoms In Multiples Of FiveChapter 25.17 - How Terpenes Are BiosynthesizedChapter 25.18 - How Nature Synthesizes CholesterolChapter 26 - The Chemistry Of The Nucleic AcidsChapter 26.1 - Nucleosides And NucleotidesChapter 26.2 - Other Important NucleotidesChapter 26.3 - Nucleic Acids Are Composed Of Nucleotide SubunitsChapter 26.4 - Why Dna Does Not Have A 2'-oh GroupChapter 26.5 - The Biosynthesis Of Dna Is Called ReplicationChapter 26.7 - The Biosynthesis Of Rna Is Called TranscriptionChapter 26.9 - The Biosynthesis Of Proteins Is Called TranslationChapter 26.10 - Why Dna Contains Thymine Instead Of UracilChapter 26.12 - How The Base Sequence Of Dna Is DeterminedChapter 27 - Synthetic PolymersChapter 27.2 - Chain-growth PolymersChapter 27.4 - Polymerization Of Dienes • The Manufacture Of RubberChapter 27.7 - Classes Of Step-growth PolymersChapter 27.8 - Physical Properties Of PolymersChapter 27.10 - Biodegradable PolymersChapter 28 - Pericyclic ReactionsChapter 28.1 - There Are Three Kinds Of Pericyclic ReactionsChapter 28.2 - Molecular Orbitals And Orbital SymmetryChapter 28.3 - Electrocyclic ReactionsChapter 28.4 - Cycloaddition ReactionsChapter 28.5 - Sigmatropic RearrangementsChapter 28.6 - Pericyclic Reactions In Biological SystemsChapter 28.7 - Summary Of The Selection Rules For Pericyclic Reactions

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