CML743: Difference between revisions

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Latest revision as of 16:25, 14 April 2026

CML743
physical Organic Chemistry Advanced
Credits	3
Structure	3-0-0
Pre-requisites
Overlaps

CML743 : physical Organic Chemistry Advanced

Overlap with: CML696 Basic MO theory, Frontier Orbits and orbital mixing; Reactive intermediates; Relationship between potential energy and the perturbation to a chemical bond: Potential Energy Surfaces and the Reaction Coordinate; Simple rate laws (unimolecular and bimolecular); Arrhenius equation and Eyring equation, Transition State theory. Kinetics vs Thermodynamics control; Experimental investigation of reaction mechanisms and short lived intermediates; The Kinetic Isotope Effect; Reaction trajectories: Cross-over experiments; Characterisation of short lived intermediates; Examples of reactive species and their behavior Supramolecular chemistry. Electron transfer reactions. Organic photochemical transformation (including catalysis).

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	== CML743 : physical Organic Chemistry Advanced ==		== CML743 : physical Organic Chemistry Advanced ==
	Overlap with: CML696 Basic MO theory, Frontier Orbits and orbital mixing; Reactive intermediates; Relationship between potential energy and the perturbation to a chemical bond: Potential Energy Surfaces and the Reaction Coordinate; Simple rate laws (unimolecular and bimolecular); Arrhenius equation and Eyring equation, Transition State theory. Kinetics vs Thermodynamics control; Experimental investigation of reaction mechanisms and short lived intermediates; The Kinetic Isotope Effect; Reaction trajectories: Cross-over experiments; Characterisation of short lived intermediates; Examples of reactive species and their behavior Supramolecular chemistry. Electron transfer reactions. Organic photochemical transformation (including catalysis).		Overlap with: [[CML696]] Basic MO theory, Frontier Orbits and orbital mixing; Reactive intermediates; Relationship between potential energy and the perturbation to a chemical bond: Potential Energy Surfaces and the Reaction Coordinate; Simple rate laws (unimolecular and bimolecular); Arrhenius equation and Eyring equation, Transition State theory. Kinetics vs Thermodynamics control; Experimental investigation of reaction mechanisms and short lived intermediates; The Kinetic Isotope Effect; Reaction trajectories: Cross-over experiments; Characterisation of short lived intermediates; Examples of reactive species and their behavior Supramolecular chemistry. Electron transfer reactions. Organic photochemical transformation (including catalysis).