Subject: Subject Sylbus: Intr.to Quantum Chemi.and Applications - 124408

Intr.to Quantum Chemi.and Applications - 124408
Credit
Points
3.5
 
Given In
Semester
a
 
  Lecture Exercise Laboratory Project or
Seminar
House
Work
Weekly
Hours
3 1     5

Determination of the grade according to progress during the semester and a final examination.


Prerequisites: ( Differential and Integral Calculus 2 104004
and Ordinary Differential Equations/H 104131
and Physics 2 114052
and Principles of Chemistry a 124117
and Principles of Chemistry B 124118 )
or ( Differential and Integral Calculus 2 104004
and Ordinary Differential Equations/H 104131
and Physics 2L 114078
and Principles of Chemistry a 124117
and Principles of Chemistry B 124118 )
or ( Differential and Integral Calculus 2 104004
and Ordinary Differential Equations/H 104131
and Physics 2 114052
and Principles of Chemistry a 124115
and Principles of Chemistry B 124116 )
or ( Differential and Integral Calculus 2 104004
and Ordinary Differential Equations/H 104131
and Physics 2 114052
and Principles of Chemistry 124120 )
or ( Differential and Integral Calculus 2 104004
and Ordinary Differential Equations/H 104131
and Physics 2L 114078
and Principles of Chemistry 124120 )
 
Overlapping Courses: Quantum Optoelectronics 046052
Quantum Optoelectronics 049052
Quantum Chemistry 1a 124405
Quantum Chemistry 1B 124406
Int. to Quantum Chemistry for Engineers 125000
 
Incorporated Courses: Introduction to Quantun Chemistry and Applications )to Molecular Biochemistry( 124407
 
Incorporating Courses: Quantum Chemistry 1 124400
 
Identical Courses: Quantum Mechanics 046241


Experiments That Lead to the Birth of Quantum Mechanics. the Time Dependent Schroedinger Equation,the Stationary Schroedinger Equation, the Uncertainty Principle, the Schroedinger Equation in One- Dimensional Cases. Pay-Electrons in Conjugated Polyenes, Potential Barrier Tunneling and Classically Forbidden Reactions, Particle in a Box, Quantum Wells, Rotor in a Plane and the Electronic Spectrum of Benzene, Harmonic Oscillator and Molecular Vibrations, Rotation Spectrum of Di-Atomic Molecules, the Hydrogen Atom and the Definition of Orbital, Perturbation Theory, Fermi Golden Rule Variational Methods, Electronic Spin, Singlet and Triplet States, Potential Surfaces and Molecular Structure Via the Born- Oppenheimer Approximation, Franck-Condon Transition, Molecular Orbitals.




Textbooks
PublishedPublisherAuthorsBook
1997מכלולנ. מוסייבמכניקה קוונטית מזוית ראיה של הכימיה
1991prentice hallv.i.levinequantum mechanics

Created in 22/04/2021 Time 14:26:35