Lecture
Photomedicine: Introduction
Related lectures (34)
Quantum and Nanocomputing
Covers quantum wire analysis, transmission function, and tunneling in dots.
Reactive Hard Spheres Model
Discusses the reactive hard spheres model, collision cross sections, reaction cross sections, and two-body classical scattering.
Chemical Kinetics: Lindemann-Hinshelwood Mechanism
Explains the Lindemann-Hinshelwood mechanism in chemical kinetics and the concept of a transition state on a potential energy surface.
Quantum Jump: Theory and Algorithms
Explores the theory of quantum jumps in open quantum systems and their simulation.
Basic Concepts of Kinetics: Reactions and Rate Constants
Covers the basic concepts of kinetics, including reaction mechanisms and rate laws.
Chemical Kinetics: Reaction Rates
Covers chemical kinetics, reaction rates, pseudo-first-order method, and key products.
Classical Scattering Theory
Covers the classical scattering theory for two-body systems and the behavior of molecules in critical conditions.
Collision Kinetics: Theory and Applications
Covers the theory and applications of collision kinetics in understanding molecular interactions.
Symmetry in XCOSV-y-Sind
Explores symmetry in XCOSV-y-Sind and staggered ethane molecules.
Molecular Orbital Theory
Covers the concept of eigenfunctions of H as bases for irreducible representations and integrals.