Applied Chemistry Course code: HEM 220002 | 6 ECTS credits
Basic information
Level of Studies:
Undergraduate applied studies
Year of Study:
1
Semester:
1
Requirements:
Basic knowledge of chemistry, mathematics and physics.
Goal:
Obtaining the knowledge of inorganic and organic chemistry needed to understand and master subjects that belong to the field of technical and technological sciences.
Outcome:
Upon passing the exam, the students will be able to: define the structure of atoms and molecules, elements and compounds, and the properties of inorganic and organic compounds; explain the formation of interatomic and intermolecular bonds, as well as the specifics of chemical reactions; perform stoichiometric calculations based on chemical equations; calculate quantitative solution indicators based on a given set of parameters.
Contents of the course
Theoretical instruction:
- Chemistry, its scope, significance, and connection to other sciences. Matter and forms of matter. Chemical symboly, formulae and equations.
- Basic stoichiometric laws. Relative atomic mass, mole and molar mass.
- Energy changes in chemical reactions – chemical thermodynamics.
- Development of theory on the atom and the atomic structure. Periodic table of elements.
- The structure of atoms and molecules. Electron configuration.
- Atomic number and mass number. Characteristics of elements following the increase of the atomic number in groups and periods. Electron configuration.
- Interatomic and intermolecular bonds. Ionic bond.
- Polar and nonpolar covalent bonds.
- Metallic bond. Intermolecular chemical bonds.
- Hydrogen bond. Fundamental states of matter.
- Dispersion systems. Solutions.
- Solutions. Colloids.
- Chemical kinetics and chemical balance.
- Chemical balance. Ionization of water and the pH value of a solution. Acids and bases.
- Cellulose. Proteins.
Practical instruction (Problem solving sessions/Lab work/Practical training):
- Chemical formulae and equations; calculations based on chemical formulae and equations. Relative atomic mass, mole and molar mass. Energy changes in chemical reactions. Electron configuration. Chemical bonds. Solution concentration; calculating concentration changes. Solubility and the solubility product. The pH value of a solution.
Textbooks and References
- Filipović I., Lipanović S., Opšta i neorganska hemija, Školska knjiga, Zagreb, 1985.
- Dragojević M., Stević S., Popović M., Šćepanović V., Opšta hemija (prvi deo), TMF, BGD. 1993.
- Pejić, Biljana, Osnovi hemije (skripta), Beograd, DTM, 2014
- Petrović S., Mijin D., Stojanović N., Hemija prirodnih organskih jedinjenja, TMF, Beograd, 2005.
- Radojković-Veličković M., Mijin D., Organske boje i pigmenti, TMF, Beograd, 2001.
- Piletić M., Milić B., Đilas S., Organska hemija, 2. deo, Prometej, Novi Sad, 1993.
Number of active classes (weekly)
Lectures:
3
Practical classes:
1
Other types of classes:
0
Grading (maximum number of points: 100)
Pre-exam obligations
Points
activities during lectures
0
activities on practial excersises
0
seminary work
0
colloquium
0
Final exam
Points
Written exam
0
Oral exam
0