|Title||ΦΥΣΙΚΕΣ ΜΕΘΟΔΟΙ ΣΤΗΝ ΑΝΟΡΓΑΝΗ ΧΗΜΕΙΑ / Physical Methods in Inorganic Chemistry|
|Cycle / Level||1st / Undergraduate|
Programme of Study: PPS-Tmīma CΗīmeías (2016-sīmera)
Registered students: 35
|THEŌRĪTIKĪ CΗĪMEIA KAI CΗĪMIKĪ EKPAIDEUSĪ||Optional Courses||8||4||5|
|CΗĪMIKĪ ANALYSĪ-PERIVALLON-ĪLEKTROCΗĪMEIA||Optional Courses||8||4||5|
|CΗĪMIKĪ SYNTHESĪ-VIOCΗĪMEIA KAI VIOEFARMOGES||Elective Course belonging to the selected specialization (Elective Specialization Course)||8||4||5|
|CΗĪMIKĪ TECΗNOLOGIA KAI VIOMĪCΗANIKĪ CΗĪMEIA||Optional Courses||8||4||5|
|Academic Year||2019 – 2020|
|Class ID|| |
Type of the Course
- Scientific Area
- Skills Development
Specific Foundation / Core
Mode of Delivery
- Face to face
Digital Course Content
Language of Instruction
- Greek (Instruction, Examination)
A general background in the theory and application of spectroscopy. This is achieved within several courses offered in previous semesters of the curriculum.
Understand the method discussed from the pattern and measurement units of a spectrum. Understand the physical or chemical process taking place during a physical study of an inorganic system. Define the kind of measurement that must be made in order to obtain specific information about a substance they synthesize or possess. Understand the main and secondary observables of a physical measurement and their relation to the structure of the system studied. Perform typical processes for smoothing, correction and optimization of the spectra line through specific algorithms.
- Apply knowledge in practice
- Adapt to new situations
- Make decisions
- Work autonomously
- Work in teams
- Work in an interdisciplinary team
- Respect natural environment
- Advance free, creative and causative thinking
Course Content (Syllabus)
Principles of spectroscopic and other physical methods applied to inorganic and organometallic compounds. Selection rules in spectroscopy. Analysis of a spectral line with mathematical algorithms. Electronic absorption and emission spectroscopy. The interferometer and Fourier analysis. Mathematical background and applications. Vibrational spectroscopy and normal coordinate analysis. Techniques of obtaining infrared and Raman spectra. Basics of photoelectronic spectroscopy and its applications. Applications of mass spectrometry in inorganic systems. Nuclear spectroscopies. Principles of NMR and Mossbauer spectroscopy. Analysis of complex spectral lines and derivation of chemical infromation. Magnetic measurements and electron paramagnetic resonance.
Educational Material Types
- Slide presentations
- Interactive excersises
|Field trips and participation in conferences / seminars / activities||6||0.2|
Recording and analysis of a spectrum in the laboratory. Deconvolution of a spectral line by provided algorithm on a university server. Writen examinations at the end of the lectures.
Student Assessment methods
- Written Exam with Multiple Choice Questions (Summative)
- Written Exam with Short Answer Questions (Summative)
- Written Assignment (Summative)
- Oral Exams (Summative)
- Written Exam with Problem Solving (Summative)
- Labortatory Assignment (Formative, Summative)
Course Bibliography (Eudoxus)
Σημειώσεις που είναι αναρτημένες στο διαδίκτυο και παρέχονται από τον διδάσκοντα.
Additional bibliography for study
Εργασίες που έχουν δημοσιευτεί και παρατίθενται στη διαδικτυακή σελίδα όπου και το πρόσθετο υλικό της διδασκαλίας.