Erasmus ECTS Information Package

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Erasmus ECTS Information Package Faculty of EEEA 1045 Programming and Computer Application II ECTS credits: 5 Weekly classes: 2lec+0sem+0labs+2ps+2cw Assessment: exam Type of exam: written and oral Departments involved: Department of Informatics and Information Technologies Faculty of Natural Sciences and Education Lecturers: Prof. Margarita Stefanova Teodosieva, MEng, PhD, Dept. of Informatics and Information Technologies, tel.: 888 464, Е-mail: mst@ami.uni-ruse.bg Assoc.Prof. Petar Stephanov Sigalov, MEng, PhD, Dept. of Informatics and Information Technologies, tel.: 888 470, Е-mail: sigalov@ami.uni-ruse.bg Abstract: The objective is to learn the main data structures (multitudes, records, files) and to develop students’ skills to build up complex algorithms and computer programmes using such structures. Course prerequisite is the knowledge of Programming principles and computer application 1. Course content: Procedures and functions. Programme libraries - standard programme libraries, programme libraries of the programmer. Creating and using libraries. Recursion. Symbol sequence. Multitudes. Records. Files. Text files. Teaching and assessment: The lectures are given every other week with a duration of 2 hours. They discuss the theoretical side of the topics and include enough examples. That gives the students the possibility to prepare for the laboratory sessions in advance and then to work on their own during these sessions. Classes are led in laboratory rooms equipped with personal computers and involve practical work for creating and adjusting Pascal programmes. Method of Assesment: written and oral exam of a duration of 2 hours. 1022 Physics II ECTS credits: 5 Weekly classes: 2lec+0sem+2labs+0ps+0.5p Assessment: exam Type of exam: written and oral Departments involved: Department of Physics Faculty of Electrical Engineering, Electronics and Automation Lecturers: Assoc. Prof. Tamara Grigorievna Pencheva, MSc, PhD, Dept. of Physics, tel.: 888 218, E-mail: tgp@uni-ruse.bg Abstract: The course aims at familiarizing the students with the physical character of processes and phenomena in nature and the methods of their investigation, with the most general properties of the matter and material objects. The laboratory exercises aim at creating skills for experimental investigation of physical phenomena. Course content: Magnetic field and electromagnetic induction. Mechanical oscillations and waves. Optical phenomena and laps. Elements of quantum mechanics, solid state physics and laser physics. Teaching and assessment: Lectures give the main theoretical material, supported by some demonstrations of physical phenomena and processes. At the laboratory exercises the student works independently and investigates particular physical phenomena. The knowledge of laboratory exercises is tested regularly. At the exam the students answer two theoretical questions and do one laboratory exercise. 89
Erasmus ECTS Information Package Faculty of EEEA 0377 Electrical Engineering Theory I ЕСТS credits: 5 Weekly classes: 2lec+1sem+1labs+0ps+p Assessment: exam Type of exam: written and oral Department involved: Department of Theoretic and Measuring Electrical Engineering Faculty of Electrical Engineering, Electronics and Automation Lecturers: Prof. Nikola Kolev Armianov, MEng, PhD, Dept. of Theoretical and Measuring Electrical Engineering, tel.: 888 502, E-mail: narmianov@uni-ruse.bg Assoc. Prof. Tania Metodieva Stoianova, MEng, PhD, Dept. of Theoretical and Measuring Electrical Engineering, tel.: 888 502, E-mail: tstoianova@uni-ruse.bg Abstract: The Theoretical Electrical Engineering 1 course familiarizes the students with the main methods for analysis of settled and transient modes in linear electric chains. The acquired knowledge is the basis for Electrical Engineering 2 and all electrical courses. Course content: Physical fundamentals of electro-magnetic field – main concepts, electro-magnetic field, Gauss’ theorem and Maxwell’s postulate, electric current, electric voltage, electric potential, magnetic field, principle of continuity of magnetic flow, intensity, law of the full current, law of electro-magnetic induction, electric and magnetic energy. Settled modes in linear electric chains – main concepts and laps, constant modes in electric and magnetic chains, conversion, methods of analysis, principle and theorems for electric chains, sine modes and quantities, sine modes in serial and parallel RLC bi-pole, laps of Ohm and Kirhof in complex fashion, resonance phenomena, three-phase chains, periodic non-sine modes, quadripoles. Transient processes in linear electric chains - introduction, classical method, operator method, frequency method, transient quantities, Duamelle integral, method with state variables. Teaching and assessment: Lectures present the teaching material according to the syllabus. At the seminars students solve problems covering the topics of the syllabus. At the beginning of the semester each student is given an individual problem as course work. It has to be presented at the end of the semester in written form and is defended orally. Final assessment is accomplished via an exam, conducted in written and oral form. 0411 Materials Science in Electronics ECTS credits: 5 Weekly classes: 3lec+0sem+2labs+0ps+p Assessment: exam Type of exam: written and oral Department involved: Department of Electrical Power Engineering Faculty of Electrical Engineering, Electronics and Automation Lecturers: Prof. Nikolai Petrov Mihajlov, MEng, PhD, Dept. of Electrical Power Engineering, tel.: 888 201, E-mail: mihailov@uni-ruse.bg Principal Assistant Boris Nenov Borisov, MEng, Dept. of Electrical Power Engineering, tel.: 888 843 Abstract: The Materials Science course aims at familiarizing the students with the main electrical materials. They study the more important processes in the dielectrics, semi-conductors, conductors and magnetic materials and explore their main characteristics and parameters. The main processes in dielectrics, semiconductors, conductors and magnetic materials are studied; their main characteristics and parameters are examined. Course prerequisites include Mathematics and Physics and it leads to the courses in Electrical Measurements, Electrical Engineering, Semiconductors, etc. Course content: Polarization of dielectrics in a constant and alternating electric field. Dielectricity of some materials. Electric conductivity of dielectrics. Dielectric losses. Break in the dielectrics. Conductors. Main dielectric and magnetic materials. Magnetic conductors. Active dielectrics. Semi-conducting materials. Influence of the exploitation on the properties of semi-conductors. Semi-conducting chemical compounds. Teaching and assessment: Teaching is based on the use of classical pedagogic forms. Some topics are illustrated by visual materials and videos. The laboratory exercises follow the lecture topics and have practical orientation. When exploring the properties of semi-conductors, computer modelling is utilized. Early taking of the exam is not allowed. At the exam the students work on two questions, which help to estimate the degree of knowledge, after which an oral interview is conducted. 90
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