| Course Contents |
| Phenomena that support quantum chemistry; black-body radiation; photoelectric effect; atomic spectra; Schrödinger equation; properties of operators; postulates of quantum mechanics; application of quantum mechanical principles to simple systems; two-particle systems; electronic structure of atoms; introduction to molecular structure.
|
| Weekly Course Content |
| Week |
Subject |
Learning Activities and Teaching Methods |
| 1 |
Introduction to quantum chemistry: the structure of matter, electromagnetic radiation, black body radiation, photoelectric event |
solution of the relevant question |
| 2 |
Atomic spectra, the spectrum of the hydrogen atom, Bohr's atomic model, de Broglie relation, the classical wave equation, Schrödinger equation, the wave function |
solution of the relevant question |
| 3 |
Principles of quantum mechanics: postulates of quantum mechanics, operators, self-worth and the Schrödinger equation, and the degeneration of the spectrum of self-worth |
solution of the relevant question |
| 4 |
Principles of quantum mechanics: postulates of quantum mechanics, operators, self-worth and the Schrödinger equation, and the degeneration of the spectrum of self-worth |
solution of the relevant question |
| 5 |
Structure of atoms: hydrogen atom, quantum numbers |
solution of the relevant question |
| 6 |
Orbital shapes, spin quantum numbers; many-electron atoms |
solution of the relevant question |
| 7 |
Molecular structure of Born-Oppenheimer approximation, the molecules of Schrödinger equations, linear combination of atomic orbitals; Hückel approaches, H2 + molecular orbitals of the |
solution of the relevant question |
| 8 |
mid-term exam |
|
| 9 |
And types of covalent bond; approach, uses molecular orbital calculations |
solution of the relevant question |
| 10 |
And types of covalent bond; approach, uses molecular orbital calculations |
solution of the relevant question |
| 11 |
Electrocyclic reactions; |
solution of the relevant question |
| 12 |
Cyclo addition reactions |
solution of the relevant question |
| 13 |
Principles of Spectroscopy: Nuclear movements; harmonic oscillator, tunneling effect, the molecular vibrational and rotational movements |
solution of the relevant question |
| 14 |
Rotational spectra, vibrational-rotational spectra, electronic spectra |
solution of the relevant question |
| 15 |
Rotational spectra, vibrational-rotational spectra, electronic spectra |
solution of the relevant question |
| 16 |
final exam |
|
| Recommend Course Book / Supplementary Book/Reading |
| 1 |
[1] Çınar, Z., Kuantum Kimyası, Çağlayan Kitabevi, İstanbul, 1994 |
| Required Course instruments and materials |
| projection |
