Course detail
Basics of Analytical Chemistry
FCH-BC_ANC3Acad. year: 2024/2025
The aim of the course is to give students an basic overview of the structure and content of classical analytical chemistry and of the basic methods and techniques of instrumental analytical chemistry.
The course consists of the following thematic units:
Basic notions in analytical chemistry. Explanation and analytical aspects of chemical equilibrium. Classification of methods of classical qualitative and quantitative analysis. Principles of selected instrumental methods. Electroanalytical methods. Optical methods, their classification, properties of electromagnetic radiation. Principles and importance of chromatographic and electromigration methods. Introduction to analytical chemometry. Evaluation of analytical results. Analytical errors and methods of quantitative evaluation.
Language of instruction
Number of ECTS credits
Mode of study
Guarantor
Entry knowledge
Rules for evaluation and completion of the course
Credit may be obtained for successful completing of partial written tests during the semester (ie getting at least 6 points out of 10 possible). In case of failure in one partial test (or more) course credit could be awarded for the successful completing of the final test (ie, obtaining at least 60 points out of 100).
Examination consists of a written and oral part.
Attendance at lectures is recommended, but not controlled.
Attendance at seminars is compulsory and is checked.
The students' work is controlled by the partial written tests during the semester in computational exercises.
Consultations are provided on request.
Aims
Increased knowledge, skills and competencies of students will be reflected mainly in the following areas:
1.Students will became acquainted with the theoretical foundations of analytical chemistry.
2. Students will have cognizance of classical qualitative and quantitative analysis methods.
3. They will know the principles of simple instrumental analytical methods and possibilities of their application.
4. They will adopt the basic principles of chemometrictreatment of analytical results obtained using simple instrumental-analytical methods.
5. Students will improve their skills in computing solutions to solve simple analytical problems.
Study aids
Prerequisites and corequisites
Basic literature
Jančářová I., Jančář L.: Základní chemické výpočty. MZLU, Brno 2002. (CS)
Recommended reading
Elearning
Classification of course in study plans
- Programme BKCP_ECHBM Bachelor's 2 year of study, winter semester, compulsory
- Programme BPCP_ECHBM Bachelor's 2 year of study, winter semester, compulsory
Type of course unit
Lecture
Teacher / Lecturer
Syllabus
Introduction in Analytical Chemistry
Explanation and analytical aspects of chemical equilibrium
Block 2: Classical methods of analytical chemistry
Qualitative analysis
Gravimetric analysis
Volumetry
Block 3: Electroanalytical methods
Potentiometry
Voltammetry and polarography
Block 4: Optical methods
Basic physical principles and properties of electromagnetic radiation
Spectral , Non-spectral and Luminescence methods
Basics of otical atomic spectrometry
Block 5: Principles and applications of basic chromatographic and electromigration techniques
Basic principles of chromatography, separation mechanisms
Chromatographic techniques - paper chromtaography, thin-layer chromatography, column chromatography
Basics of modern liquid and gas chromatography
Separation in electric field - principles, application (electrophoresis)
Block 6: Basics of statistical treatment of analytical results
Exercise
Teacher / Lecturer
Syllabus
1.-2. Roztoky. Hmotnostní zlomky, látková množství, koncentrace, obsahy analytu ve směsích, směšovací rovnice. Iontová síla roztoků, aktivitní koeficienty, aktivitní a koncentrační rovnovážné konstanty.
3. Volumetrická a gravimetrická stechiometrie.
4.-5. Acidobazické reakce. Výpočty pH silných a slabých elektrolytů, kyselin, bazí, solí, amfolytů. Acidobazické tlumiče, jejich pH a kapacita. (Distribuční diagramy)
6. Komplexotvorné reakce. Výpočty koncentrací analytů v roztocích komplexů, distribuční koeficienty komplexů ve směsích, konstanty stability komplexů.
7. Reakce za vzniku sraženin. Součin rozpustnosti a rozpustnost iontových sraženin. Vlivy dalších iontů na rozpustnost.
8.-9. Redoxní reakce. Oxidačně-redukční potenciály, konstanta redoxních rovnováh. Výpočty z průběhu reakce dvou redoxních párů. Výpočty koncentrací analytů z rovnic pro Nernstovy potenciály.
10.-12. Základní výpočty z oblasti elektroanalytických, spektrofotometrických a separačních metod.
13. Příklady základního statistického vyhodnocování analytických výsledků.
Elearning