1. Problems delimitation. Basic concepts. Processes obtaining information. Analytical methods absolute and comparative. Calibration methods. Developments in instrumentation methods of analyses.
2. - 3. Results classification of analyses and way their explication. Statistical interpretation of analytical results. Referential material, circular test. Principles of chemometric accesses and methods. Testing of metrological results properties.
4. Fundamental principles of electroanalytical methods and their classification. Theoretic principles.
5. Electroanalytical methods: methods based on measuring of potential (equilibrium potentiometry, potentiometric titrations). Axioms, instrumentation, utilization, advantages and disavantages.
6. Electroanalytical methods: methods based on current (voltammetry and polarography, coulometry, electrogravimetry) and conductivity (conductometry). Axioms, instrumentation, utilization, advantages and disavantages.
7. Optical analytical methods: theoretic principles. Optical spectral apparatus. Methods without exchange of energy (refractometry, polarimetry, nephelometry). Axioms, instrumentation, utilization, advantages and disavantages.
8. - 9. Emissive atomic spectral frequency bands. Flame photometer photometry. Atomic absorptive spectrometric: UV/Vis spectrometric, luminescent analysis. Principles theory, instrumentation, qualitative and quantitative aspects, application, analytical utilization. Automatic analyzers with optical detection: FIA, CFA.
10. Infra - red spectrometric - method axiom, instrumentation, analytical utilization. Raman spectra - method axiom , analytical utilization.
11. Separative and concentration steps: theory. Separative methods:classification according to axiom and according to experimental ordering, operation separative of the process. Extraction.
12. Diaphragm separation. Mass spectrometry. Bases theory, instrumentation, qualitative and quantitative aspects, application.
13. Chromatographic methods. Planar chromatography: Chromatography on thin layer, bases theory, instrumentation, qualitative and quantitative aspects, application.
11. Column chromatography: Liquid chromatography. Gas chromatography. Theory, bases instrumentation, qualitative and quantitative characteristics, analytical utilization.
14. Electromigration methods: theory, zonal and capillary electrophoresis, isotachophoresis. Bases instrumentation, qualitative and quantitative characteristics, analytical utilization.
2. - 3. Results classification of analyses and way their explication. Statistical interpretation of analytical results. Referential material, circular test. Principles of chemometric accesses and methods. Testing of metrological results properties.
4. Fundamental principles of electroanalytical methods and their classification. Theoretic principles.
5. Electroanalytical methods: methods based on measuring of potential (equilibrium potentiometry, potentiometric titrations). Axioms, instrumentation, utilization, advantages and disavantages.
6. Electroanalytical methods: methods based on current (voltammetry and polarography, coulometry, electrogravimetry) and conductivity (conductometry). Axioms, instrumentation, utilization, advantages and disavantages.
7. Optical analytical methods: theoretic principles. Optical spectral apparatus. Methods without exchange of energy (refractometry, polarimetry, nephelometry). Axioms, instrumentation, utilization, advantages and disavantages.
8. - 9. Emissive atomic spectral frequency bands. Flame photometer photometry. Atomic absorptive spectrometric: UV/Vis spectrometric, luminescent analysis. Principles theory, instrumentation, qualitative and quantitative aspects, application, analytical utilization. Automatic analyzers with optical detection: FIA, CFA.
10. Infra - red spectrometric - method axiom, instrumentation, analytical utilization. Raman spectra - method axiom , analytical utilization.
11. Separative and concentration steps: theory. Separative methods:classification according to axiom and according to experimental ordering, operation separative of the process. Extraction.
12. Diaphragm separation. Mass spectrometry. Bases theory, instrumentation, qualitative and quantitative aspects, application.
13. Chromatographic methods. Planar chromatography: Chromatography on thin layer, bases theory, instrumentation, qualitative and quantitative aspects, application.
11. Column chromatography: Liquid chromatography. Gas chromatography. Theory, bases instrumentation, qualitative and quantitative characteristics, analytical utilization.
14. Electromigration methods: theory, zonal and capillary electrophoresis, isotachophoresis. Bases instrumentation, qualitative and quantitative characteristics, analytical utilization.