Publisher's Synopsis
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... -