|1. Course Title||Fundamentals of electrical engineering|
|3. Study program||EAOIE, EES, EEUM, KHIE, KSIAR, KTI, TKII|
|4. Organizer of the study program (unit, institute, department)||Faculty of Electrical Engineering and Information Technologies|
|5. Degree (first, second, third cycle)||First cycle|
|6. Academic year/semester||I/1||7. Number of ECTS credits||7.00|
|8. Lecturer||Dr Marija Kacarska, Dr Vesna Arnautovski-Tosheva, Dr Blagoja Markovski|
|9. Course Prerequisites|
10. Course Goals (acquired competencies): The course aims to familiarize students with the basic concepts and terms of electrostatics and electromagnetism, the basic laws and theorems in the theory of electrical circuits with some analysis methods of DC electric networks. After completing the course the student will be capable to use the basic electric lows in solving specific engineering problems.
11. Course Syllabus: Electric field. Gauss’s law. Operation of the electric field strength. Potential of the electric field and electric current. Electrostatic induction. Capacitance and capacitor. Energy in an electric field. Dielectrics in the electric field. Polarization. Generalized Gaussian law. Boundary conditions. Stationary electric current. Electrical resistance. Stationary magnetic field. Magnetic flux. Ampere and Faraday’s law. Examples of electromagnetic induction. Inductance (own and mutual) and the inductor. Energy in a magnetic field. Basic concepts of electric circuits. Elements of electric circuits, basic topological concepts. Ohm’s law. Joule’s law. Kirchoff’s laws. Theorems and methods for solving DC electric circuits (circuit equations in matrix form).
12. Learning methods: Combined learning: Lectures, supported by presentations and visualization of concepts, active participation of students through tests and tasks to solve in class, homework, auditory exercises.
|13. Total number of course hours||4 + 3 + 0 + 0|
|14. Distribution of course hours||210|
|15. Forms of teaching||15.1. Lectures-theoretical teaching||60|
|15.2. Exercises (laboratory, practice classes), seminars, teamwork||45|
|16. Other course activities||16.1. Projects, seminar papers||0|
|16.2. Individual tasks||35|
|16.3. Homework and self-learning||70|
|17. Grading||17.1. Exams||10|
|17.2. Seminar work/project (presentation: written and oral)||0|
|17.3. Activity and participation||20|
|17.4. Final exam||70|
|18. Gradingcriteria (points)||up to 50 points||5 (five) (F)|
|from 51 to 60 points||6 (six) (E)|
|from 61 to 70 points||7 (seven) (D)|
|from 71 to 80 points||8 (eight) (C)|
|from 81 to 90 points||9 (nine) (B)|
|from 91 to 100 points||10 (ten) (A)|
|19. Conditions for acquiring teacher’s signature and for taking final exam||Attendance of classes and finished laboratory exercises.|
|20. Forms of assessment||The exam is written and consists of two parts: part one – problems and part two – questions. During the semester, there are two partial exams of part one (problems) (at the middle and at the end of the semester, lasting 90 minutes), tests that are conducted during the classes and a test from laboratory exercises (after the exercises). For students who have passed both partial exams of part one (problems), a final written exam of part two (questions) can be conducted (duration 45 minutes). The points from the partial exams (problems), the tests and the final exam (questions) are included in the final grade.
In the planned exam sessions, a written exam of part one (problems) is taken (duration 120 minutes). For students who have passed this written exam, a final exam (questions) (duration 45 minutes) can be conducted. The points from the written exam (problems), the tests and the final exam (questions) are included in the final grade.
Books and other learning materials are not allowed.
|21. Language||Macedonian and English|
|22. Method of monitoring of teaching quality||Internal evaluations and surveys.|
|23.1. Required Literature|
|1||prof. d-r Leonid Grcev||Lectures for Fundamentals of electrical engineering 1||FEIT||2015|
|2||prof. d-r Leonid Grcev||Lectures for Fundamentals of electrical engineering 21||FEIT||2015|
|23.2. Additional Literature|
|1||C.K.Alexander and M.N.O. Sadiku||Fundamentals of electric circuits||McGraw-Hill, USA||2012|