| Learning Outcomes |
PO |
MME |
| The students who succeeded in this course: |
|
|
| LO-1 |
Can learn instrumental analysis methods |
PO-9 Recognizes and explains the molecular biology and genetics of the problems of other disciplines
PO-11 Explains the basic functions of scientific processes, critically discusses and solves problems using appropriate statistical and computational methods, chooses contemporary experimental and theoretical approaches that will ultimately lead to the solution of molecular biology and genetic research problems
|
Examination
|
| LO-2 |
Can learns to prepare the samples and appropriate methods can analyze it. |
PO-11 Explains the basic functions of scientific processes, critically discusses and solves problems using appropriate statistical and computational methods, chooses contemporary experimental and theoretical approaches that will ultimately lead to the solution of molecular biology and genetic research problems
|
Examination
|
PO: Programme Outcomes
MME:Method of measurement & Evaluation |
| Course Contents |
| Fluorometry, ionic and molecular fluorescence, energy exchange in fluorescence energy levels, refractometry; correlation between diffraction and concentration, special and molar diffraction, qualitative and quantitative analysis. Turbidimetry and nephelometrine theory, measurement techniques, properties of cells using light beam and light source, inorganic and organic applications. Theoretical knowledge of ESR, properties of used device, substance determination by ESR, spectral parameters, ESR spectrum of free radicals and analytical applications. |
| Weekly Course Content |
| Week |
Subject |
Learning Activities and Teaching Methods |
| 1 |
Flourescence and the nature of the conference, factors affecting them |
Lecture, question and answer |
| 2 |
Joblonsky diagram and transition types |
Lecture, question and answer |
| 3 |
Refractometry theory and analytical applications |
Lecture, question and answer |
| 4 |
Turbidimetry and nephelometrine theory |
Lecture, question and answer |
| 5 |
Inorganic and organic applications |
Lecture, question and answer |
| 6 |
Theory of electron spectroscopy and its application areas |
Lecture, question and answer |
| 7 |
Electron spectroscopy device and its properties |
Lecture, question and answer |
| 8 |
mid-term exam |
|
| 9 |
Auger electron spectroscopy and application fields |
Lecture, question and answer |
| 10 |
Theory of electron spin resonance spectroscopy |
Lecture, question and answer |
| 11 |
Electron spin resonance spectroscopy device |
Lecture, question and answer |
| 12 |
Fields of application of electron spin resonance |
Lecture, question and answer |
| 13 |
Seminar |
Lecture, question and answer |
| 14 |
Seminar |
Lecture, question and answer |
| 15 |
Seminar |
Lecture, question and answer |
| 16 |
final exam |
|
| Recommend Course Book / Supplementary Book/Reading |
| 1 |
D.A. Skoog, F.J. Holler, T.A. Nieman, Principles of Instrumental Analysis,5th edition, Saunders College Publishing, New York 1997 |
| Required Course instruments and materials |
| projection |
