Introductory Organic Chemistry helps students by teaching organic chemistry based on the broader and simplified use of quantum chemistry theories. Presentation of these topics will also help students to apply physical chemistry concepts (of thermodynamics and quantum chemistry) to organic chemistry and show how they are interrelated.
Introductory Organic Chemistry helps students by teaching organic chemistry based on the broader and simplified use of quantum chemistry theories. Presentation of these topics will also help students to apply physical chemistry concepts (of thermodynamics and quantum chemistry) to organic chemistry and show how they are interrelated.
The author is a graduate of chemistry (UFRuralRJ), MSc in Polymer Science and PhD in Physical Organic Chemistry at Federal University of Rio de Janeiro (UFRJ). Since 2009, he is professor of organic chemistry at Federal University of Rio Grande do Norte (UFRN). He has one patent, three books and 33 papers to his credit. His primary research is on theoretical chemistry to investigate chemical bonds, aromaticity, intermolecular interactions and mechanisms of organic chemistry reactions.
Inhaltsangabe
TABLE OF CONTENTS Notions of Quantum Mechanics and Wave Function Molecular Orbital, Valence Bond, Atoms in Molecules and Non-Covalent Interaction Theories and Their Applications in Organic Chemistry Quantum Mechanics and Electrostatic Force in Molecules Notions of Thermodynamics, Molecular Energy and Use of Theoretical Thermodynamic Data Quantum Mechanics and Periodic Table Quantum Mechanical Resonance, Chemical Bond and Hybridization Electron Delocalization, Resonance Types and Resonance Theory Quantum Chemistry of Potential Energy Surface (geometric parameters, energy derivatives, optimized geometries and transition states) Representations of Organic Molecules, Atomic Charge and Formal Charge Kinetics and Mechanism: Notions and The Quantum Statistical Influence Intermolecular Interactions Carbocations Isomerism Alkanes (nomenclature, properties and reactions) Cycloalkanes, Bicyclic and Caged Hydrocarbons Alkenes (nomenclature and properties) Alkenes (reactions) Alkynes (properties and reaction) Aromaticity and Aromatic Compounds Substituent Groups and Electrophilic Aromatic Substitution Appendix
TABLE OF CONTENTS Notions of Quantum Mechanics and Wave Function Molecular Orbital, Valence Bond, Atoms in Molecules and Non-Covalent Interaction Theories and Their Applications in Organic Chemistry Quantum Mechanics and Electrostatic Force in Molecules Notions of Thermodynamics, Molecular Energy and Use of Theoretical Thermodynamic Data Quantum Mechanics and Periodic Table Quantum Mechanical Resonance, Chemical Bond and Hybridization Electron Delocalization, Resonance Types and Resonance Theory Quantum Chemistry of Potential Energy Surface (geometric parameters, energy derivatives, optimized geometries and transition states) Representations of Organic Molecules, Atomic Charge and Formal Charge Kinetics and Mechanism: Notions and The Quantum Statistical Influence Intermolecular Interactions Carbocations Isomerism Alkanes (nomenclature, properties and reactions) Cycloalkanes, Bicyclic and Caged Hydrocarbons Alkenes (nomenclature and properties) Alkenes (reactions) Alkynes (properties and reaction) Aromaticity and Aromatic Compounds Substituent Groups and Electrophilic Aromatic Substitution Appendix
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