Overview

Get Ready for Organic Chemistry takes a unique approach to preparing students for one of the most challenging courses in the undergraduate curriculum by emphasizing fundamental chemical concepts and helping students develop a productive mindset for studying Organic Chemistry. The Second Edition offers new learning tools within the text to further student understanding and promote retention of key Organic principles.  Get Ready for Organic Chemistry can also be discounted when packaged with Pearson Chemistry titles.

Full Product Details

Author:   Joel Karty
Publisher:   Pearson Education (US)
Imprint:   Pearson
Edition:   2nd edition
Dimensions:   Width: 18.40cm , Height: 0.90cm , Length: 23.40cm
Weight:   0.406kg
ISBN:  

9780321774125

ISBN 10:   0321774124
Pages:   288
Publication Date:   05 April 2012
Audience:   College/higher education ,  Tertiary & Higher Education
Format:   Paperback
Publisher's Status:   Out of Print
Availability:   Awaiting stock  

Table of Contents

1. Why Do Most Students Struggle with Organic Chemistry? 1.1 Introduction 1.2 How Organic Chemistry Is Different 1.3 The Wrong Strategy 1.4 The Right Strategy 1.5 Organization and Goals of the Book 1.6 Features of This Book2. Lewis Dot Structures and the Chemical Bond 2.1 Introduction 2.2 Lewis Dot Structures 2.3 Formal Charge 2.4 Resonance 2.5 Application: Drawing Lewis Structures of Complex Molecules Quickly 2.6 Application: Draw All Resonance Contributors Of. . . 2.7 Application: Shorthand notations What Did You Learn?3. Molecular Geometry, Dipole Moments, and Intermolecular Interactions 3.1 Introduction 3.2 VSEPR Theory and 3-D Molecular Geometry 3.3 Tetrahedral Geometry and the Dash-Wedge Notation 3.4 Rotations about single and double bonds 3.5 Bond Dipoles and polarity 3.6 intermolecular interactions 3.7 Application: Cis and Trans Isomers 3.8 Application: Melting Point and Boiling Point Determination 3.9 Application: Solubility What Did You Learn?4. Isomerism 4.1 Introduction 4.2 Isomers: A Relationship 4.3 Constitutional Isomerism 4.4 Stereoisomerism: Enantiomers and Diastereomers 4.5 Physical and Chemical Behavior of Isomers 4.6 Application: Index of Hydrogen Deficiency (Degree of Unsaturation) 4.7 Application: Draw All Constitutional Isomers Of. . . 4.8 Application: Draw all Stereoisomers of... What Did You Learn?5. Reaction Mechanisms 1: Elementary Steps 5.1 Introduction 5.2 Bond Formation (Coordination) and Bond Breaking (Heterolysis) 5.3 Proton Transfers 5.4 Bimolecular Nucleophilic Substitution (SN2) 5.5 Nucleophilic Addition and Elimination 5.6 Electrophilic Addition and Elimination 5.7 Carbocation Rearrangements 5.8 Bimolecular Elimination (E2) 5.9 Application: Simplifying Assumptions about Electron-Rich and Electron-Poor Sites 5.10 Application: Stereochemistry of Reactions and the Production of a New Stereocenter 5.11 Application: Stereospecificity of SN2 Steps What Have You Learned?6. Charge Stability: Charge is Bad! 6.1 Introduction 6.2 Atomic Ions 6.3 Molecular Ions 6.4 Resonance Effects 6.5 Inductive Effects 6.6 Putting it all together 6.7 Application: Strengths of Acids and Bases 6.8 Application: Strengths of Nucleophiles, and the Hammond Postulate 6.9 Application: Solvent Effects on Nucleophile Strength 6.10 Application: The Best Resonance Contributor What Have You Learned? 7. Reaction Mechanisms 2: SN1 and E1 Reactions and Rules of Thumb for Multistep Mechanisms 7.1 Introduction 7.2 Elementary Steps as Part of Multistep Mechanisms: SN1 and E1 Reactions 7.3 Consequences of Single-Step vs. Multistep Mechanisms 7.4 Proton Transfers as Part of Multistep Mechanisms 7.5 Molecularity of Elementary Steps 7.6 Application: Tautomerization Reactions-Neutral, Acidic, and Basic Conditions 7.7 Application: Dealing With Relatively Lengthy Mechanisms-Fischer, Esterification, and Imine Formation What Have You Learned?8. SN1/SN2/E1/E2 Reactions: The Whole Story 8.1 Introduction 8.2 Rate-Determining Steps: Rate Laws and the Role of the Attacking Species 8.3 Factor #1: Strength of Attacking Species 8.4 Factor #2: Concentration of Nucleophile/Base 8.5 Factor #3: Stability of the Leaving Group 8.6 Factor #4: Type of Carbon Atom Bonded to the Leaving Group 8.7 Factor #5: Solvent Effects 8.8 Substitution vs. Elimination 8.9 Sample Problems-Putting It All Together What Have You Learned?9. Concluding Remarks-What Now?

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