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Course info KVM / LCHLF : Course description

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Department/Unit / Abbreviation	KVM / LCHLF			Academic Year	2023/2024
Academic Year	2023/2024
Title	Medical Chemistry			Form of course completion	Exam
Form of course completion	Exam
Accredited / Credits	Yes, 5 Cred.			Type of completion	Written
Type of completion	Written
Time requirements	lecture 45 [Hours/Semester] practical class 15 [Hours/Week]			Course credit prior to examination	Yes
Course credit prior to examination	Yes
Automatic acceptance of credit before examination	No
Included in study average	YES
Language of instruction	Czech
Occ/max				Automatic acceptance of credit before examination	No
Summer semester	0 / -	0 / -	0 / -	Included in study average	YES
Winter semester	0 / 0	0 / 0	0 / 0	Repeated registration	NO
Repeated registration	NO
Timetable	Yes			Semester taught	Winter semester
Semester taught	Winter semester
Minimum (B + C) students	not determined			Optional course	Yes
Optional course	Yes
Language of instruction	Czech			Internship duration	0
No. of hours of on-premise lessons				Evaluation scale	A|B|C|D|E|F
Periodicity	every year			Evaluation scale for credit before examination	S|N
Specification periodicity				Fundamental theoretical course	No
Fundamental course	No
Fundamental theoretical course	No
Evaluation scale	A|B|C|D|E|F
Evaluation scale for credit before examination	S|N
Substituted course	KCH/LCHLF
Preclusive courses	N/A
Prerequisite courses	N/A
Informally recommended courses	N/A
Courses depending on this Course	KVM/BC1LF
Histogram of students' grades over the years: Graphic PNG ,  XLS

Course objectives:
The aim is to acquire basic knowledge in the areas of general, inorganic and organic chemistry, to adopt fundamentals of terminology and practical calculations of chemical balances.
Requirements on student
Evaluation of the subject as well as the exam grading is made according to the articles No 31 - 33 in the Regulations on Study and Examinations University of Ostrava
Content
Content The subject represents a brief overview of general, inorganic and organic chemistry. Practical calculation exercise is focused on practice of terminology, on conversion of chemical equations, calculations of solution concentration and electrolyte pH. Lectures: 1. Basic terms in chemistry, atom and molecule composition. System of elements. 2. Chemical bond, theory of chemical bond. Chemical compounds. States of matter, phase equilibira. 3. Energy of chemical reactions, thermochemistry, chemical equilibria, reaction kinetics, poorly soluble compounds, complexes. 4. Dispersion systems, compounds, compound division, chemically pure substances. 5. Electrolytes. Theory of acids and alkalis, protolyte reactions, salt hydrolysis, buffers. 6. Redox processes, electrode potentials, cells (elements). 7. - 8. Elements s, p, d, f - basic overview and characteristics. 9. Inorganic compounds significant in biological systems. 10. Structure of organic molecules, basic types of reactions in organic chemistry. 11. Hydrocarbons and simple derivatives of organic compounds. 12. Oxygenated derivatives of organic compounds - alcohols, phenols, ethers, aldehydes and ketones. 13. Organic acids and their derivatives. 14. Toxicity of elements and compounds. Toxic oxygen forms. Antioxidants. 15. Polymers of heterocyclic compounds. Practical classes: 1. Relative atomic and molecular weight, amount of substance. 2. Work with the System of elements. 3. Terminology of inorganic compounds. 4. Calculations: formulation of concentrations. 5. Calculations: preparation of solutions. 6. Calculations: chemical equations. 7. pH calculations of strong, weak acids and alkalis. Test. 8. Conversion of redox equations. 9. Inorganic compounds and their preparation - calculations. 10. Terminology of organic compounds. 11. Terminology in organic chemistry II. 12. Reactions of oxygenated derivatives . 13. Reactions of organic acids and their derivatives. 14. Regulations on work with poisons and toxic elements. 15. Test.
Activities
Fields of study
Guarantors and lecturers
Guarantors: prof. MUDr. David Stejskal, Ph.D., MBA ,  Lecturer: Mgr. Daniel Karas, Ph.D. (25%),  Mgr. Hana Raszková (25%),  prof. MUDr. David Stejskal, Ph.D., MBA (30%),  RNDr. Romana Uřinovská, Ph.D. (25%),  Tutorial lecturer: Mgr. Daniel Karas, Ph.D. (35%),  Mgr. Hana Raszková (30%),  RNDr. Romana Uřinovská, Ph.D. (30%),
Literature
Basic: Graham Patrick. An Introduction to Medicinal Chemistry. Oxford, 2017. ISBN 9780198749691. Basic: Victoria F. Roche PhD, Thomas Lemke Ph.D. Foye's Principles of Medicinal Chemistry. 2019. ISBN 9781496385024. On-line library catalogues
Time requirements
All forms of study Activities Time requirements for activity [h] Being present in classes 60 Preparation for an exam 60 Homework for lessons 30 Total 150
Prerequisites
Competences - students are expected to possess the following competences before the course commences to finish it successfully: Předpokladem je znalost středoškolské chemie.
Learning outcomes
Knowledge - knowledge resulting from the course: The student possesses basic knowledge in general, inorganic and organic chemistry. The student has adopted fundamentals of terminology and practical calculations of chemical balances. The student is able to convert chemical equations and to calculate solution and pH electrolyte concentrations.
Assessment methods
Knowledge - knowledge achieved by taking this course are verified by the following means: IC7 - Written examination IC8 - Didactic test
Teaching methods
Knowledge - the following training methods are used to achieve the required knowledge: A1 - Lecture C1 - Observation of objects/phenomena/processes C2 - Demontration of obejcts/phenomena/processes D9 - Experiment