Rate Law and Mechanism Reaction Mechanisms Derive Rate Laws Elementary Processes or Steps Deriving Rate Laws from Mechanisms Reaction Mechanism - Elementary Process Elementary Reaction Steps Molecularity Chain Reactions Enzyme Kinetics Rates and Rate Laws Principles of Chemical Dynamics Factors Affecting Reaction Rate the Rate Law Finite Difference Methods of Numerical Analysis Elementary Processes and Reaction Mechanism Rate Law and Reaction Mechanism Requirements for Collision to Lead to Reaction The Mode of Catalyst Function The Production of Sulfuric Acid Parallel Reactions Consecutive Reactions Reversible Reactions Enzymes as Catalysts Mechanisms of Substitution Reactions The Second-Order Pathway Substitution in Transition Metal Complexes Fundamental Substitution Mechanisms Stereochemical Change Atropisomer Cis–Trans Isomerism Diazenes Diastereomer Naming Conventions Properties of Enantiomers Criterion of Enantiomerism Enantioselective Preparations Protein Rotamer Libraries
Ligand Substitution Reactions Strong Field and Weak Feld Ligands Crystal Field Theory Analysis Types of Magnetic Behaviour Volume Susceptibility Magnetism Electricity and Special Relativity Diamagnetism Demonstrations of Diamagnetism Theory of Diamagnetism Paramagnetism Exchange Interactions between Localised Electron Magnetic Moments Main Group Elements and Organic Compounds Crystal Field Stabilisation Energy Denticity Hapticity Ligand Motifs Ambidentate Ligand Conventions Specialised Ligand Types Associative Substitution Oxidation-Reduction Reactions Redox Hydroboration Oxidation Reaction Related Reactions Reducers Oxidation-Reduction Reactions Assigning Oxidation Numbers...
AUTOR: Parker, Owen
EDITORA: Auris Reference
DISPONIBILIDADE DO PRODUTO: Sob Encomenda - Até 40 dias ( Importação )