| Individual course details | ||||||||||
| Study programme | Applied and Computing Physics | |||||||||
| Chosen research area (module) | Energy-ecological | |||||||||
| Nature and level of studies | Undergraduate Studies | |||||||||
| Name of the course | ENERGETICS | |||||||||
| Professor (lectures) | Dr. Andrijana Žekić, Associate Professor | |||||||||
| Professor/associate (examples/practical) | ||||||||||
| Professor/associate (additional) | ||||||||||
| ECTS | 3 | Status (required/elective) | required | |||||||
| Access requirements | ||||||||||
| Aims of the course | Developing the knowledge about energetics as a scientific discipline, the significance of energy sources, new technologies in energetics. Identifying and understanding the elationships between energetics and physics | |||||||||
| Learning outcomes | For students recognize the importance and practical application of knowledge in physics in energetics, to define the subject of study, the importance and the need for the development of energetics as a scientific discipline, to examine and understand the physical basics of the process of production, conversion, accumulation and transport of energy, to acquire knowledge about conventional and alternative energy sources, introduces new technologies in energetics, establish the connection between energy and the environment. | |||||||||
| Contents of the course | ||||||||||
| Lectures | Basic concepts in energy. Classification of forms of energy. Energy conversion. Thermodynamic basis of energy. The principle of the conversion of mechanical energy into electric and vice versa. Semiconductors. Atomic core as a source of energy. On solar energy. Some concepts of electrochemistry. Internal combustion engines. Nuclear reactors. Solar energy. Solar cells. Solar collectors. MHD generator concepts. New generation of MHD generators. Galvanic elements. Batteries. Fuel cells. Conventional energy sources. Unconventional energy sources. Energy accumulation methods. Fuel and energy transport. Influence of exploitation of energy. The Influence of energy conversion to the environment. Energetic efficiency. | |||||||||
| Examples/ practical classes | ||||||||||
| Recommended books | ||||||||||
| 1 | Osnovi energetike, Snežana Drndarević, Andrijana Žekić, Fizički fakultet, Univerzitet u Beogradu, 2014. | |||||||||
| 2 | ||||||||||
| 3 | ||||||||||
| 4 | ||||||||||
| 5 | ||||||||||
| Number of classes (weekly) | ||||||||||
| Lectures | Examples&practicals | Student project | Additional | |||||||
| 1 | ||||||||||
| Teaching and learning methods | Lectures (theoretical processing of thematic units), seminar papers. | |||||||||
| Assessment (maximal 100) | ||||||||||
| assesed coursework | mark | examination | mark | |||||||
| coursework | 10 | written examination | ||||||||
| practicals | oral examination | 60 | ||||||||
| papers | ||||||||||
| presentations | 30 | |||||||||