Module designation
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Module 1. General Chemistry and Biochemistry
Inorganic chemistry
Analitical Chemistry
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Module level, if applicable
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Basic Professional Modules
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Code, if applicable
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IHim 1401
AHim 1402
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Subtitle, if applicable
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not applicable
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Courses, if applicable
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Course
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Credits
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Inorganic chemistry
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3
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Analitical Chemistry
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3
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2 lectures + 1 lab/ week
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Semester(s) in which the module is taught
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1 semester
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Person responsible for the module
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associate Professor, candidate of Chemical Science Oksana Ponomarenko
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Lecturer
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associate Professor, candidate of Chemical Science Oksana Ponomarenko, associate Professor, candidate of Chemical Science Luisa Beisembaeva
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Language
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Kazakh, Russian, English
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Relation to curriculum
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(State/Social/ Vocational/IET)
Vocational
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Type of teaching, contact Hours
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Lecture
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Practicum
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Seminars
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30 hours per semester
2 hours per week
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15 hours per semester
1 hour per week
students
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-
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Workload
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Lectures
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Guided self-study
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Self-study
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30 hours per semester
2 hours per week
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-
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60 hours per semester
4 hours per week
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Credit points
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3 US credit = 5 ECTS
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Requirements according to
the examination regulations
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Students should be to have knowledge of basic inorganic compounds
50% of overall scores
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Recommended prerequisites
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Basic of chemistry
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Module objectives/intended
learning outcomes
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Knowledge
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Skills
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Competences
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Knowledge of basic inorganic compounds
• understanding of the relationship of structure and function of the biological activity of the compounds;
• a basic understanding of their use in medicine and agriculture.
Remember
theoretical basis of inorganic chemistry, composition, structure and chemical properties of the basic simple substances and chemical compounds to understand how the structure of matter and chemical processes
Understand
-understanding of the relationship of structure and function of the biological activity of the compounds;
-a basic understanding of their use in medicine and agriculture
- basis of thermodynamic and kinetic analysis of chemical processes and the stability of the compounds
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Impart skills to practice classical chemical methods.
Apply
-skills of experimental work, independent work with the scientific and technical literature;
-the basic concepts, laws and theories of inorganic chemistry to solve practical problems and perform experimental work
Analysis
-properties of the element and its key compounds on the status element in the periodic D.I.Mendeleev
- the ability and spontaneous way of chemical processes, which are based on various chemical reactions;
-basic research methods of inorganic compound sand be able to interpret the experimental results.
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General competencies:
tools: a holistic understanding of the processes and phenomena occurring in biological systems, to understand the power of modern scientific methods and master them at a professional level; own methods of chemical and physical analysis;
Interpersonal: ability to develop creative individual abilities, commitment to the cultural and ethical values to solve philosophical problems in the field of ecology;
system: to understand the nature and social significance of their future profession, acquire new knowledge, using modern educational technology;
Subject expertise: an understanding of the properties and mechanism of action of drugs, how they identify and obtain from plant, animal and microbial material.
Evaluate
-optimal conditions for carrying out chemical reactions;
- methods and techniques for synthesis of inorganic substances, a description of their properties based on patterns arising from the periodic law of the periodic system of elements;
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Remember
- Basic safety regulations in the laboratory of analytical chemistry;
- Basic concepts and laws of Analytical Chemistry;
- Fundamentals of separation and concentration;
- The basic methods of titrimetric and gravimetric analysis;
- The basis of spectral and electrochemical methods of analysis;
- Metrological basis of analytical chemistry, checking error of analysis.
Understand
- Ways of expressing concentrations of solutions and formulas of transition from one expression of solution concentration to another.
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Apply
- To carry out the basic analytical operations (sampling, sample preparation: concentration, separation and derivatization) and related calculations ;
- To use the analytical equipment, chemicals, to apply them for analysis of various objects;
- To prepare standard solutions of a given concentration;
- To plan and carry out chemical experiments, to interpret the results, to draw conclusions, to prepare reports on research experiments;
- To use reference books to solve analytical problems.
Analysis
- Methods for calculation of the equilibrium concentrations and how to use this information when assessing the suitability of the reaction for given analytical purposes;
- To learn how to solve the problems and perform calculations using quantitative laws of chemistry.
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Evaluate
- Metrological evaluation of the results of analytical determination;
Create
- To be able to choose the optimal method for the analysis of biological
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Content
Inorganic chemistry
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Study of the fundamental branches of the general, inorganic and analytical chemistry, form the fundamental and practical training biotechnologists. Examination of the structure of matter and the relationship between the structure and chemical properties of matter, the basic laws of chemical reactions, the principles and methods of quantitative and qualitative analysis.
1. Subject and tasks of inorganic chemistry
2. Fundamentals of atomic-molecular theory. Basic laws of chemistry.
3. Structure of the atom. Periodic Law.
4. Chemical bonding, molecular structure, characteristic of the interacting atoms.
5. Fundamentals of chemical kinetics. Factors affecting the rate of chemical reactions.
6. Chemical equilibrium. Factors affecting the chemical equilibrium.
7. General information about the solutions. Ways of expressing the concentration of solutions.
8. Redox reactions in aqueous solutions
9. Aqueous electrolyte solutions. Exchange reactions in electrolyte solutions
10. Acid-base equilibrium in aqueous solutions: the dissociation of water, pH, buffers, hydrolysis of salts.
11. Complex compounds: their structure and nomenclature.
12-13. Chemical elements of the main subgroups.
14-15. Chemical sub-group elements
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Analitical Chemistry
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1. Qualitative analysis. Analytical effect of chemical reactions. Chemical equilibrium in a homogeneous system.
2. Acid-base balance. Bronsted -Lowry theory.
3. Acid-base interaction. pH of buffer system, solutions of salts and ampholytes .
4. Equilibrium in solutions of complex compounds.
5. Chemical equilibrium in heterogeneous systems.
6. Equilibrium in redox systems.
7. Quantitative analysis. Purpose. Objects.
8. Gravimetric analysis. The essence of the method. Conditions for obtaining precipitations. Main stages of gravimetric analysis.
9. Basics of titrimetric analysis. Ways of expressing the concentration of solutions in titrimetric analysis.
10. Acid-base titration. Indicators. Objects of analysis. Calculation of the results of the analysis.
11. Methods of redox titration.
12. General characteristics of the physico-chemical methods of analysis, their classification, advantages and disadvantages.
13 Electrochemical methods of analysis, their classification. Potentiometry. General characteristics, theoretical bases, equipment, application of the method.
14 Spectroscopic analysis methods. Basic principles and concepts, classification of the methods.
15 Chromatographic methods of analysis. High performance liquid chromatography. Gas Chromatography.
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Study and examination
requirements and forms of
examination
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Written and oral exam, tests
individual computational work;
test papers;
work in small groups;
colloquium.
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1st interim control: attendance, in-class discussion, problem solving, testing
2nd interim control: attendance, in-class discussion, problem solving, testing
Final examination: written, 2 theoretical questions, 1 practical question
Intermediate control of knowledge: control work (in written form), colloquium (in oral form) and test
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Media employed
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Video lectures, Power Point Presentations
Electronic books and scientific journals
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Reading list
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The main
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Akhmetov N.S. General and inorganic chemistry. - Moscow, 2008 (in russian)
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Karapet'yants M.H. General and inorganic chemistry. - Moscow, 1992 (in russian)
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Pavlov N.N. General and inorganic chemistry. - Moscow, 2002 (in russian)
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Ugai J.A. General and inorganic chemistry. - M., 2000. (in russian)
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Zolotov Y. Fundamentals of Analytical Chemistry: in 2 books. - M.: Higher sc., 2004. (in russian)
Additional
1. Modern methods of analytical chemistry: in 2 volumes / M.Otto, translated from the German, edited by A. Garmash. - M. Technosphere, 2003. (in english)
2. Sharipova N.S. Methodological guidance on analytical chemistry (for biology students.) - Almaty: Kazakh University, 2002. (in kazakh)
3. Zlomanova V.P. Workshop on inorganic chemistry. - Moscow: Moscow State University, 1994. - 318 p. (in russian)
4. Burkitbayev M.M., Bekishev C.B. Workshop on inorganic chemistry. - Almaty: Kazakh University, 2005. - 228 p. (in kazakh)
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