PdF:FC3013 Analytical Chemistry - Course Information

FC3013 Analytical Chemistry

Extent and Intensity

3/0/0. 4 credit(s). Type of Completion: zk (examination).
Taught in person.

Teacher(s)

Mgr. Jana Horská, Ph.D. (lecturer)

Guaranteed by

Mgr. Jana Horská, Ph.D.
Department of Physics, Chemistry and Vocational Education – Faculty of Education
Contact Person: Jana Jachymiáková
Supplier department: Department of Physics, Chemistry and Vocational Education – Faculty of Education

Timetable

Tue 17:00–19:50 učebna 3

Prerequisites

Knowledge of general, inorganic and organic chemistry.

Course Enrolment Limitations

The course is only offered to the students of the study fields the course is directly associated with.

fields of study / plans the course is directly associated with

• Chemistry for Education (programme PdF, B-CH3S) (2)
• Chemistry for Education (programme PdF, B-SPE)
• Lower Secondary School Teacher Training in Chemistry (programme PdF, B-SPE)

Course objectives

Main objectives can be summarised as follows:
to learn bases of the qualitative and quantitative analytical chemistry, instrumental analytical methods and their applications, analytical calculations and methods of processing and analysis of chemical data and results.

Learning outcomes

Upon completion of this course the student will gain:  knowledge of the theoretical foundations of qualitative and quantitative analytical chemistry, instrumental analytical methods, analytical calculations and methods of processing and analysis of chemical data and results  Skills to use theoretical knowledge to assess and compare the suitability of using chemical and simple instrumental methods in qualitative and quantitative sample analysis  Comprehensive overview of the content of the course (subject of analytical chemistry, qualitative and quantitative analysis, chemical and instrumental methods, chemical calculations).

Syllabus

• 1. Subject of analytical chemistry. Qualitative and quantitative analysis. Chemical and instrumental methods.
• 2. Theoretical foundations of analytical methods. Analytical reactions. Chemical equilibria. Acid/base reactions. Acid/base theories - Arrhenius, Brönsted, Lewis. Dissotiation constants of protolytic equilibria. pH. pH calculations in strong and weak solutions of acids a bases. pH calculations of hydrolysed salts. pH calculations of buffers. pH calcultions of ampholytes. Buffers. Complex reactions. Complex equilibria. The use of complex reactions in the analytical chemistry. Precipitate reaction. Constant of solubility. Calculations of the solubility of less soluble matters. Properties and formations of precipitations. Oxidation/reduction reactions. Oxidation/reduction equilibria.
• 3. Qualitative chemical analysis. Proof ability of analytical reactions. Basic process in qualitative chemical analysis. Preparation of reagents solutions and purity of chemicals. Preliminary proofs. Proofs in the flame. Proofs of solubility. Qualitative inorganic analysis on the wet way. The transfer of solid sample into the solution. Usual operations with solutions. Analytical procedures of ions separations. Group ions reactions. Group cations reactions. Reactions of HCl. Reactions of H₂SO₄. Reactions of H₂S. Reactions of (NH₄)₂S. Reactions of KOH. Reactions of NH₃. Reaction of KI. Group anionic reactions. Reactions of Ba²⁺ ions. Reactions of Ag⁺ ions. Oxidation/reduction reactions of anions. Selective reactions of cations. Characteristics of alkalic metal ions. Reactions Li⁺ ions. Reactions of Na⁺, K⁺, NH₄⁺ ions. Characteristics of alkalic earth ions. Reactions of Mg²⁺ ions. Reactions of Ca²⁺, Sr²⁺, Ba²⁺ ions. Reaction of Al³⁺, Sn²⁺ and Sn⁴⁺, Pb²⁺ ions. Reactions of As³⁺ and As⁵⁺ ions. Reactions of Sb³⁺ and Sb⁵⁺, Bi³⁺ ions. Characteristics of ions of the iron group. Reactions of Fe²⁺ and Fe³⁺, Co²⁺, Ni²⁺ ions. Reaction of Cu²⁺, Ag⁺, Zn²⁺ ions. Reactions of Cd²⁺ ions. Reactions of Hg₂²⁺ and Hg²⁺, Cr³⁺ ions. Reactions of Mn²⁺ ions. Selective reactions of anions. Reactions of F^- ions. Reactions of Cl^-, Br^-, I^- ions. Reactions of SO₄^2-, SO₃^2-, S^2- ions. Reactions of S₂O₃^2- ions. Reactions of NO₃^-, NO₂^-, PO₄^3-, CO₃^2- ions.
• 4. Quantitative chemical analysis. Subscription, modification and transfer of the sample into solution. Weighting of the sample. Gravimetry. Basic operations in gravimetry. Precipitation. Filtration. Drying and burning. Calculations of the content of the finding component. Volumetry. Basic terms in volumetry. General procedures in volumetry. Acid/base titrations. Solutions in acidimetry and alcalimetry. Acid/base indicators. Titrations curves and the choice of the indicator. Examples of acid/base determinations. Acid/base titrations in non-water media. Complex titrations. Chelatometry. Mercurimetry. Precipitate titrations. Argentometric titrations. Oxidation/reduction titration. Indications of oxidation/reduction titrations. Oxidimetric methods. Reductometric methods.
• 5. Evaluation of analytical results. Errors of analytical determinations. Random errors. Gauss’s normal distribution of errors, estimates of the x and s parameters, Deanův-Dixon‘s coefficient, interval of the reliability, level of the significance. Systematic errors. Student’s test, Lord‘s test. Rough errors. Grubbs‘s Q-test.
• 6. Instrumental analysis and dividing of the instrumental analytical methods. Optical methods. Refractometry. Interferometry. Polarimetry. Emission spectral analysis. Flame photometry. Inductively Coupled Plasma - ICP. Absorption spectral analysis. Nephelometry and turbidimetry. Photoluminiscent methods. Absorption spectrometry. Spectrophotometry. Absorption photometry. Colorimetry. Atomic absorption spectrometry.
• 7. Separation methods. Distillation. Extraction. Ions exchange. Electrophoresis. Chromatography. Gass chromatography. Liquid chromatography. Teoretical processing of chromatographic methods.
• 8. Electrochemic methods. Potentiometry. Types of electrodes. Referent electrodes. Electrodes for pH measurements. Ion selective electrodes. Potentiometric titrations. Electrolytic methods. Electrogravimetry.
• 9. Nanoparticles - general characteristcs. Nanoparticles - use in practice and in the chemistry education.

Literature

required literature
• Záruba Kamil a kolektiv. Analytická chemie (2.díl). VŠCHT Praha, 2016. 221 s.
• Klouda, Pavel: Moderní analytické metody. 2. upr. a dopl. vyd. Ostrava 2003. 132 s.
• Záruba Kamil a kolektiv. Analytická chemie (1.díl). VŠCHT Praha, 2016. 224 s.

recommended literature
• Analytická příručka. Edited by Jaroslav Zýka. 4., upr. vyd. Praha: SNTL - Nakladatelství technické literatury, 1988, 831 s. info
• Analytická příručka. Díl I [Zýka, 1988]. Edited by Jaroslav Zýka. 4. upr. vyd. Praha: SNTL - Nakladatelství technické literatury, 1988, 678 s. info
• HOLZBECHER, Záviš and Jaroslav CHURÁČEK. Analytická chemie. 1. vyd. Praha: Státní nakladatelství technické literatury, 1987, 663 s. info
• HOLZBECHER, Záviš. Analytická chemie. 2., přeprac. vyd. Praha: SNTL - Nakladatelství technické literatury, 1974, 506 s. info

Teaching methods

lectures, theoretical preparation

Assessment methods

exam;
written (performance 60 %) and oral exam.

Language of instruction

Czech

Further comments (probably available only in Czech)

Study Materials
The course is taught annually.
Information on the extent and intensity of the course: 12 hodin.

• Enrolment Statistics (recent)
  
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