Electrical Engineering, full time studies, first degree studies (ES1)

possess maturity certificate, positive result of the enrolment procedure

educational standards in accordance with the directive of the Minister of National Education and Sport dated 18 April 2002 concerning the description of educational standards for particular study courses and education levels (Dziennik Ustaw, No. 116, item 1004) including further amendments in accordance with the directive of the Minister of National Education and Sport dated 3 November 2003 (Dz.U.Nr 210 poz. 2040). The standards define general course requirements including the number of teaching hours, graduate's profile, curricula for individual courses including subjects of general, core and specialist education as well as requirements and recommendations concerning internship.

educational standards in accordance with the directive of the Minister of Science and Higher Education, dated July 12, 2007 concerning the description of educational standards for particular study courses and education levels as well as procedures for establishment and the condiontions to be met by the university to conduct both interdisciplinary and conbined studies courses (Dz. U. No 164, item. 1166 incl. later amendments). The standards define general course requirements including the number of teaching hours, graduate`s profile, curricula for individual courses including subjects of general, core and specialist education as well as requirements and recommendations concerning internship.

Resolution No. 21/51/2012 of the Senate of Bialystok University of Technology of 24 May 2012 on determining learning outcomes for first cycle courses in the field of Electrical Engineering at Bialystok University of Technology

Reference of learning outcomes for field of study to learning outcomes for area of study

Meaning of symbols:
EL1 (before underscores) – learning outcomes for first cycle courses in the field of Electrical Engineering;
W – category of knowledge;
U – category of skills;
K – social competence;
T1A – learning outcomes in the educational area of technical sciences for first cycle courses;
01, 02, 03 and subsequent numbers – number of the learning outcome

Symbol - After having completed a first cycle course in the field of Electrical Engineering, graduates - Reference to learning outcomes for the area of technical sciences

KNOWLEDGE
EL1_W01 - have a systematised knowledge of mathematics, involving algebra, analysis, probability theory, mathematical logics, geometry, as well as elements of discrete and applied mathematics, including mathematical and numerical methods, necessary for: describing and analysing the functioning of electrical elements and circuits, the basic electronic elements, as well as simple analogue and digital electronic systems, and also the basic physical phenomena occurring in them; describing and analysing the functioning of electrical systems; describing and analysing the basic signal processing algorithms; combining electrical elements, circuits, and systems - T1A_W01, T1A_W07
EL1_W02 - have a systematised knowledge of classical physics and selected areas of contemporary physics as well as the fundamentals of quantum mechanics, in particular: basic knowledge of general principles of physics, systematised knowledge of linear, rotary, oscillating, and wave motion mechanics as well as acoustics, basic knowledge of electricity, magnetism, and nuclear physics, basic knowledge of optics and solid-state physics - T1A_W01
EL1_W03 - have a systematised and theoretically-based knowledge of the theory of electric circuits - T1A_W02, T1A_W03, T1A_W04
EL1_W04 - have a systematised knowledge of the fundamentals of control and automatics - T1A_W02, T1A_W03, T1A_W04
EL1_W05 - have an elementary knowledge of electromagnetic fields and waves - T1A_W01, T1A_W03
EL1_W06 - have a systematised knowledge of informatics, in particular of information technology, as well as of the programming methodology and techniques, necessary to install, service, and maintain information technology tools for simulating and designing electrical elements, circuits, and systems - T1A_W02, T1A_W03, T1A_W04
EL1_W07 - have a systematised basic knowledge of performing measurements of physical quantities and developing overviews of their results, and of measurement uncertainty (in particular concerning the metrology of electrical quantities); graduates know and understand methods of measuring the basic quantities characterising electrical elements and circuits of various types - T1A_W01, T1A_W03, T1A_W04, T1A_W07
EL1_W08 - have a systematised and theoretically-based knowledge of electrical engines and devices, including the knowledge necessary to understand processes occurring in static and dynamic states - T1A_W02, T1A_W03, T1A_W07
EL1_W09 - have an elementary knowledge of the materials and selected electrotechnologies used in electrical engineering - T1A_W02, T1A_W07
EL1_W10 - have a systematised knowledge of the principles of the functioning of electronic elements and circuits as well as a detailed knowledge of simple electronic systems - T1A_W02, T1A_W04
EL1_W11 - have a systematised knowledge of the architecture, programming, and application of microprocessor systems in electrical and control systems - T1A_W02, T1A_W04, T1A_W07
EL1_W12 - have an elementary knowledge of electric drives, including the knowledge necessary to understand the electro-mechanic conversion of electric energy - T1A_W02, T1A_W04
EL1_W13 - have an elementary knowledge of power electronics, including the knowledge necessary to understand the functioning of the basic power electronic converters - T1A_W02, T1A_W07
EL1_W14 - have an elementary knowledge of lighting technology and the basic optoelectronic elements and systems used in it - T1A_W02, T1A_W06, T1A_W07
EL1_W15 - have an elementary knowledge in high voltage engineering - T1A_W02, T1A_W05
EL1_W16 - have a systematised and theoretically-based knowledge of the construction and principles of operating electric devices and systems - T1A_W03, T1A_W04, T1A_W05, T1A_W06
EL1_W17 - know and understand the methodology of designing selected electric circuits, as well as know in detail selected computer tools for designing and simulating electrical circuits and systems - T1A_W03, T1A_W04, T1A_W07
EL1_W18 - have a basic knowledge of the current state and the latest development trends in selected areas of electrical engineering - T1A_W05
EL1_W19 - have a basic knowledge of the life cycle of electrical devices and systems - T1A_W06
EL1_W20 - have a basic knowledge necessary to understand non-technical constraints in engineering activities; graduates know the basic occupational safety and health regulations as well as the theoretically-based principles of safe operation of electrical devices and systems - T1A_W08
EL1_W21 - have an elementary knowledge of the protection of intellectual property and patent law, as well as a basic knowledge of management (including quality management) and conducting business activity - T1A_W09, T1A_W10
EL1_W22 - know general principles of creating and developing various forms of individual business activity - T1A_W11
EL1_W23 - have a general knowledge of the grammar of a foreign language and a vocabulary enabling them to participate in discussions on technical issues concerning electrical engineering, and also to understand and create sophisticated texts concerning this discipline - T1A_W01
SKILLS
EL1_U01 - can obtain information from literature, databases, and other sources, also in a foreign language; graduates can integrate the obtained information as well as interpret it; they can also draw conclusions, formulate and justify their opinions - T1A_U01
EL1_U02 - can communicate using different technologies, also in a foreign language, in the professional environment and outside it - T1A_U02
EL1_U03 - can develop well-documented overviews of the implementation of simple engineering tasks; graduates can provide texts including analyses of the results of these tasks (in Polish and in a foreign language) - T1A_U03
EL1_U04 - can prepare and give short presentations (in Polish and in a foreign language) on selected detailed issues concerning electrical engineering - T1A_U03, T1A_U04
EL1_U05 - have the ability to self-educate, among others, in order to improve their professional competence - T1A_U05
EL1_U06 - have foreign language skills pertaining to technical sciences, in particular to the electricity industry, pursuant to the requirements determined in the Common European Framework of Reference for Languages for the B2 level - T1A_U06
EL1_U07 - can plan and conduct simulations and measurements of the electrical characteristics, and also of the basic parameters characterising electrical materials, elements, and systems; graduates can present the obtained results in the numerical and graphical form, interpret them, and draw the appropriate conclusions - T1A_U07, T1A_U08
EL1_U08 - can use appropriately selected methods and devices enabling them to measure the basic quantities characterising electrical elements and circuits, also in the areas of lighting technology and high voltage engineering - T1A_U08, T1A_U09
EL1_U09 - can apply the mathematical methods and models they have studied, as well as computer simulations and experiments, to analysing and evaluating the functioning of simple electric circuits and their components - T1A_U08, T1A_U09
EL1_U10 - can make use of appropriately selected integrated development environments, simulators, and computer-aided design tools in simulating, designing, and verifying elements and circuits as well as simple electrical systems - T1A_U07, T1A_U08, T1A_U09
EL1_U11 - can formulate algorithms, use high-level and low-level programming languages and the appropriate information technology tools for programming microcontrollers or control microprocessors in selected electric circuits - T1A_U07, T1A_U09
EL1_U12 - are aware of non-technical aspects of tasks involving the design of electrical elements, circuits, and systems (including also the environmental, economic, and legal aspects) while formulating and solving these tasks - T1A_U10
EL1_U13 - can compare design solutions of electrical elements and circuits according to the predefined utilitarian and economic criteria (power consumption, speed of operating, cost, etc.) - T1A_U09, T1A_U12
EL1_U14 - adhere to the principles of occupational safety and health - T1A_U11
EL1_U15 - can design and critically analyse selected electric circuits and systems, considering the predefined utilitarian and economic criteria, and applying the appropriate methods, techniques, and tools, including computer-aided methods, techniques, and tools - T1A_U12, T1A_U13, T1A_U16
EL1_U16 - can formulate specifications of simple electrical systems at the level adequate to the functions of these systems, also with the use of hardware description languages - T1A_U14
EL1_U17 - can design simple electric circuits and systems for various intended uses - T1A_U16
EL1_U18 - can use specification sheets and application notes in order to select the appropriate components of the designed electric circuits or systems - T1A_U01, T1A_U16
EL1_U19 - can configure software and hardware elements of control systems, taking into account the principles of their cooperation - T1A_U08, T1A_U16
EL1_U20 - can plan the processes of producing simple devices or electric circuits; graduates can perform preliminary cost analyses of these processes - T1A_U12, T1A_U16
EL1_U21 - can evaluate the relevance of standard methods and tools used for solving simple engineering tasks typical of electrical engineering, as well as select and apply the appropriate methods and tools - T1A_U15
EL1_U22 - can construct, launch, and test the designed simple electrical systems - T1A_U16
SOCIAL COMPETENCE
EL1_K01 - understand the need and know the possibilities of further education (second and third cycle courses, postgraduate courses, training courses), thus improving their professional, personal, and social competence; graduates can also inspire educational processes of other people - T1A_K01
EL1_K02 - understand and realise the importance of non-technical aspects and results of professional activities of electrical engineers, including the influence of these activities on the environment, and the responsibility for decisions pertaining to the activities - T1A_K02
EL1_K03 - can work individually as well as in a group; graduates can estimate the time period needed for the realization of a designated task; they can develop and implement work schedules ensuring completing tasks within the specified period of time; taking the specified priorities into consideration - T1A_K03, T1A_K04
EL1_K04 - are aware of responsibility for their own work; they are prepared to obey the rules of working in a team and to take responsibility for tasks implemented together with other people - T1A_K03
EL1_K05 - realise the importance of behaving in a professional way, adhering to the principles of professional ethics and to ethical norms in their private lives, as well as respecting the diversity of opinions and cultures - T1A_K05
EL1_K06 - can think and work in a creative and enterprising way - T1A_K06
EL1_K07 - are aware of the social role of graduates of technical universities; in particular, they understand the need to formulate and communicate to the society (among others, through the mass media) information and opinions concerning achievements in electrical engineering and other aspects of professional activities of electrical engineers; graduates endeavour to communicate such information and opinions in a commonly understandable way - T1A_K07

Resolution No. 463/XXVI/XV/2019 of the Senate of Bialystok University of Technology of 27 June 2019 on determining the learning outcomes for the studies commencing in the academic year 2019/2020 at Bialystok University of Technology

Learning outcomes for the first-cycle studies in field of study: Electrical Engineering, general academic profile

Symbol of learning outcome - Description of learning outcomes for the first-cycle studies in field of study Electrical Engineering, general academic profile - Reference to the universal first stage descriptors of the Integrated Qualification System and the qualifications obtained within the second stage descriptors of the Polish Qualifications Framework - Reference to qualifications including engineering competences.

KNOWLEDGE: THE GRADUATE KNOWS AND UNDERSTANDS
EL1_W01 - to the extent necessary for the engineer, selected issues in mathematics and physics necessary to understand and analyse phenomena occurring in electrical and electronic components, circuits, devices and systems - P6U_W, P6S_WG
EL1_W02 - selected issues in the field of theory of electric circuits, electromagnetic fields and waves, control, automatics and computer science, in particular the methodology and programming techniques used in analysis, design and construction of electrical systems and systems - P6U_W, P6S_WG - P6S_WG
EL1_W03 - methods of measurements of physical quantities, in particular those characterising electrical elements and systems of various types, and issues connected with the processing of their results - P6U_W, P6S_WG - P6S_WG
EL1_W04 - selected issues of electrical machines and electric drive necessary to understand and analyse static and dynamic states occurring in them - P6U_W, P6S_WG - P6S_WG
EL1_W05 - basic issues of materials and selected electrotechnologies used in electrical engineering - P6U_W, P6S_WG - P6S_WG
EL1_W06 - principles of operation of elements, circuits and simple electronic systems - P6U_W,
P6S_WG - P6S_WG
EL1_W07 - selected issues in microprocessor systems architecture, their functioning, programming and application in electrical systems and control systems - P6U_W, P6S_WG
EL1_W08 - selected issues in power electronics, including knowledge necessary to understand the operation of basic power electronic converters - P6U_W, P6S_WG - P6S_WG
EL1_W09 - selected issues in the field of high voltage technology, light technology and basic optoelectronic elements and systems - P6U_W, P6S_WG - P6S_WG
EL1_W10 - issues related to construction of electrical and power devices, installations and systems, as well as renewable energy; processes occurring during the life cycle of devices, facilities and systems - P6U_W, P6S_WG - P6S_WG
EL1_W11 - design methodology of selected electrical systems and in detail selected computer tools for design and simulation of electrical systems and systems - P6U_W, P6S_WG - P6S_WG
EL1_W12 - non-technical conditions of engineering activities, basic health and safety rules and principles of safe operation of electrical equipment and installations - P6U_W, P6S_WK - P6S_WG
EL1_W13 - issues concerning protection of intellectual property and patent law - P6U_W, P6S_WK
EL1_W14 - general principles of creating and developing forms of individual entrepreneurship and managing and running a business - P6U_W, P6S_WK - P6S_WK

SKILLS: THE GRADUATE IS ABLE TO
EL1_U01 - obtain information from literature, databases, datasheets, application notes and other sources, also in a foreign language; integrate acquired information, interpret it and draw conclusions, formulate and justify opinions; use acquired information to select appropriate components of designed electrical system or system - P6U_U, P6S_UW - P6S_UW
EL1_U02 - use appropriately selected methods and equipment to plan and perform measurements of basic quantities characterising electrical components and systems, and their characteristics, including measurements in the field of lighting technology and high voltage - P6U_U, P6S_UW - P6S_UW
EL1_U03 - present results of measurements or simulations of systems operation in appropriate numerical and graphical form, interpret them and draw appropriate conclusions - P6U_U, P6S_UW - P6S_UW
EL1_U04 - use known methods and mathematical models, as well as computer simulations and experiments to analyse, assess operation and design of elements, systems and simple electrical systems, using properly selected programming environments and other tools for computer aided design - P6U_U, P6S_UW - P6S_UW
EL1_U05 - formulate an algorithm, use high and low level programming languages and appropriate computer tools to program microcontrollers or microprocessors controlling selected electrical systems - P6U_UW, P6S_UW
EL1_U06 - compare design solutions of electrical components and systems due to given utility and economic criteria, and also design and critically analyse selected electrical systems and installations, taking into account given criteria - P6U_U, P6S_UW - P6S_UW
EL1_U07 - design and plan the process of building a simple device, electrical or control system; construct, commission and test the designed device; perform initial economic analysis of the proposed solution - P6U_U, P6S_UW - P6S_UW
EL1_U08 - apply the principles of safety and hygiene at work, especially when working with electrical equipment and installations - P6U_U, P6S_UW - P6S_UW
EL1_U09 - communicate in a professional environment and outside of it, using terminology related to electrical engineering, discuss technical issues related to electrical engineering, evaluate different presented positions - P6U_U, P6S_UK
EL1_U10 - prepare in Polish and foreign language a documented study or presentation on implementation of a simple engineering task in the field of electrical engineering - P6U_U, P6S_UK
EL1_U11 - use a foreign language at least at level B2 of the Common European Framework of Reference for Languages and understand and create texts related to electrical engineering - P6U_U, P6S_UK
EL1_U12 - work individually and in a team; estimate the time needed to complete a given task; prepare and complete a work schedule ensuring meeting the deadlines taking into account specified priorities - P6U_U, P6S_UO
EL1_U13 - individually plan and implement the process of own learning and acquiring new qualifications during one's professional life - P6U_U, P6S_UU

SOCIAL COMPETENCE: THE GRADUATE IS READY TO
EL1_K01 - critically evaluate the possessed knowledge and information, recognize their importance in solving various problems, use experts' opinions to solve problems requiring it - P6U_K, P6S_KK
EL1_K02 - think and act in an entrepreneurial way, undertake activities for the social environment and fulfil social obligations - P6U_K, P6S_KO
EL1_K03 - act in a professional manner, observe professional ethics and ethical standards in personal life and respect diversity of views and cultures - P6U_K, P6S_KR

Meaning of symbols:
EL1_ - the learning outcomes for the first-cycle study programme in Electrical Engineering;
W - category of knowledge; U - category of skills; K - category of social competence;
01, 02, ... - number of the learning outcome;
P6U_W, P6U_U, P6U_K – level 6th universal descriptors of the Polish Qualifications Framework
P6S_... - second stage level descriptors of the Polish Qualifications Framework.