(in Polish) zarządzanie i inżynieria produkcji, stacjonarne, pierwszego stopnia (ZAINPDN)(in Polish: zarządzanie i inżynieria produkcji, stacjonarne, pierwszego stopnia) | |
first degree studies (engineering) full- time studies, 3.5 years, 210 ECTS credit points, includig 4-week internship (4 ECTS) Language: Polish | Jump to: Opis ogólny
No description for the programme.
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Qualification awarded:
Access to further studies:
Professional status:
Access requirements
possess maturity certificate, positive result of the enrolment procedure
Teaching standards
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.
Learning outcomes
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Resolution No. 33/51/2012 of the Senate of Bialystok University of Technology of 24 May 2012 on determining learning outcomes for first cycle courses in the field of Management and Production Engineering at Bialystok University of Technology
Symbols:
I – learning outcomes for the field of Management and Production Engineering
W – category of knowledge
U – category of skills
K (after underscores) – category of social competence
01, 02, 03, ... – number of the learning outcome
S – area of social sciences
T – area of technical sciences
1 – first cycle courses
A – general academic orientation
Symbols of learning outcomes for the field of study - Description of learning outcomes for the field of study - Reference to the description of learning outcomes for the areas of social, technical, and engineering sciences
KNOWLEDGE
I_W01 - have basic skills in mathematics, including the knowledge of: functions of a single variable and of several variables and their application, continuity and limits of functions, the fundamentals of the differential and integral calculus, and elements of linear algebra - T1A_W01
I _W02 - have the knowledge of physics, necessary for engineers, concerning, in particular: physical quantities and units, kinematics of material point, fluid and gas mechanics, electrostatics optics - T1A_W01
I _W03 - know the theoretical fundamentals of management sciences, economics and complementary disciplines - S1A_W01
I _W04 - know general principles of the functioning of organisations and their environment - S1A_W02
I _W05 - have knowledge allowing for diagnosing and solving problems connected with basic aspects of the functioning of organisations in complex environments, including technical environments - S1A_W04
I _W06 - know general principles of creating and developing different forms of individual business activity - InzA_K02
I _W07 - understand the basic mechanisms of the functioning of the national financial, legal, and political systems as well as international structures; graduates also understand the influence of these systems and structures on organisation management - S1A_W03
I _W08 - have the knowledge of contemporary information and communication technologies, techniques, and methods used in organisation management - S1A_W06
I _W09 - realise the importance of social, ecological, and ethical aspects of conducting business activity, including occupational safety aspects - S1A_W07
I _W10 - know basic quantitative methods and their application in organisation management - S1A_W06
I _W11 - have the knowledge of the basic notions and principles of the protection of industrial property and copyright - S1A_W10
I _W12 - know the basic notions concerning technical systems as well as production processes and technologies - InzA_W02
I _W13 - have a systematised and theoretically-based general knowledge comprising key issues concerning their field of study, including technical drawing and engineering graphics - T1A_W03
I _W14 - have the knowledge of dissipated energy sources, including renewable energy sources - T1A_W05
I _W15 - know the basic engineering technologies (technological processes) in production engineering - InzA_W05
I _W16 - know the current state of and the most recent development trends in materials engineering - T1A_W05
I _W17 - have a basic knowledge of the life cycle of devices and industrial products - InzA_W01
I _W18 - have a basic knowledge of electronics, electrical engineering, and measuring of electrical and non-electrical quantities - InzA_W01
I _W19 - know basic methods, technologies, tools, and materials used for solving simple engineering problems concerning production engineering in selected branches of industry - InzA_W02
I _W20 - have a basic knowledge necessary to understand social, economic, legal, and environmental constraints of engineering activity - InzA_W03
I _W21 - have a basic knowledge of management (including quality management) and of conducting business activity - InzA_W04
SKILLS
I _U01 - can conduct measurements of physical quantities, provide overviews of the measurement results as well as determine types of measurement uncertainty and the ways of estimating it; graduates can apply the laws of physics both in technology and in everyday life - T1A_U01
I _U02 - can observe and interpret phenomena occurring in organisations and their environment; graduates analyse relationships between organisations and their environment and different areas of business activity - S1A_U01
I _U03 - can find sources of knowledge and use them to analyse particular processes and phenomena - S1A_U02
I _U04 - can apply standard tools and methods in order to predict processes and phenomena occurring in organisations and their environment - S1A_U04
I _U05 - can apply the acquired knowledge in making decisions and solving problems in their professional work - S1A_U06
I _U06 - can apply the acquired knowledge of information and communication techniques, technologies, and methods used in organisation management - S1A_U04
I _U07 - can apply the basic quantitative methods used in organisation management in their professional work - S1A_U02
I _U08 - can interpret and apply legal, professional, and moral standards - S1A_U05
I _U09 - can use a foreign language within the field of management, pursuant to the requirements determined in the Common European Framework of Reference for Languages for the B2 level - T1A_U06
I _U10 - can plan and conduct experiments, including measurements and computer simulations, interpret the obtained results, and draw conclusions - InzA_U01
I _U11 - can use analytical, simulation, and experimental methods for formulating and solving engineering problems - InzA_U02
I _U12 - are aware of system and non-technical aspects of engineering problems, including also their negative impact on the natural environment, and take them into account while formulating and solving such problems - InzA_U03
I _U13 - can carry out preliminary economic analyses of the undertaken engineering activities - InzA_U04
I _U14 - are sufficiently prepared to work in industry, and know safety regulations connected with such work - T1A_U11
I _U15 - can critically analyse the functioning of selected technical solutions, devices, structures, systems, processes, and services - InzA_U05
I _U16 - can identify and formulate the specificity of simple engineering problems of a practical character - InzA_U06
I _U17 - can evaluate the usefulness of standard methods and tools for solving simple engineering problems of a practical character - InzA_U07
I _U18 - can design and construct simple structures as well as implement simple systems and processes - InzA_U08
I _U19 - can obtain information from literature, databases, and other sources, also in the English language; graduates can integrate and interpret the obtained information; they can also draw conclusions as well as formulate and justify their opinions - T1A_U01
I _U20 - can make use of appropriately selected integrated development environments (IDEs) and computer-aided tools in implementing management tasks - S1A_U04
I _U21 - have the ability to prepare typical oral and written presentations (in the Polish language) on detailed issues concerning the areas of science and scientific disciplines connected with their field of study, with the use of basic theoretical approaches and different sources of information - T1A_U04, S1A_U09
SOCIAL COMPETENCE
I _K01 - are aware of the need for self-education and updating their knowledge; graduates can complement and improve their knowledge and skills - S1A_K01, S1A_K06
I _K02 - show the ability to adapt to the changeable requirements of the work surroundings and environment - InzA_K02
I _K03 - can participate in developing different social projects, understanding their economic and managerial aspects - S1A_K05
I _K04 - understand and realise the importance of non-technical aspects and results of engineering activities, including the influence of these activities on the environment, and the responsibility for the decisions they take - InzA_K01
I _K05 - can cooperate and work in teams, assuming different roles - S1A_K02
I _K06 - can think and act in a resourceful way - InzA_K02
Symbols:
S – area of study of social sciences
T – area of study of technical sciences
1 – first cycle courses
A – general academic orientation
I – learning outcomes for the field of study
W – category of knowledge
U – category of skills
K – category of social competence
01, 02, 03, ... – number of the learning outcome
Symbols of learning outcomes for the area of study - Description of learning outcomes for the area(s) of study - Symbols of learning outcomes for the field of study
KNOWLEDGE
T1A_W01 - have the knowledge of mathematics, physics, chemistry, and other areas appropriate for their field of study, useful for formulating and solving simple problems concerning their field of study - I _W01, I _W02
T1A_W03 - have a systematised, theoretically-based general knowledge of key issues concerning their field of study - I _W13
T1A_W05 - have a basic knowledge of development trends concerning the areas of science and scientific disciplines connected with their field of study - I _W14, I _W16
S1A_W01 - have a basic knowledge of the character of social sciences, their position in the system of sciences, and their relationship to other sciences - I _W03
S1A_W02 - have a basic knowledge of different types of social (cultural, political, legal, economic) structures and institutions, in particular of their significant elements - I _W04
S1A_W03 - have a basic knowledge of the relationships among social structures and institutions on a national, international, and intercultural scale - I _W07
S1A_W04 - know the types of social ties corresponding to the areas of science and scientific disciplines connected with the graduates’ field of study; graduates know the regularities governing these ties - I _W05
S1A_W06 - know methods and tools, including techniques for obtaining data, appropriate for the areas of science and scientific disciplines connected with the graduates’ field of study, which make it possible to describe social structures and institutions as well as processes occurring in them and among them - I _W08, I _W10
S1A_W07 - have the knowledge of legal, organizational, moral, and ethical standards and regulations organising social structures and institutions, and of the regularities governing these structures and institutions, as well as of their sources, character, changes, and functioning - I _W09
S1A_W09 - have the knowledge of opinions about social structures and institutions; graduates also know the types of social ties and understand their historical evolution - I _W09
S1A_W10 - know and understand the basic notions and principles concerning the protection of industrial property and copyright - I _W11
S1A_W11 - know general principles of creating and developing different forms of individual business activity, applying their knowledge of different scientific areas and disciplines appropriate for their field of study - I _W06
SKILLS
T1A_U01 - can obtain information from literature, databases, and other appropriately selected sources, also in the English language or another foreign language considered as a language of international communication with regard to their field of study; graduates can integrate the obtained information as well as interpret and critically evaluate it; they can also draw conclusions as well as formulate and justify their opinions - I _U01, I _U19
T1A_U04 - can prepare and give oral presentations (in Polish and in a foreign language) concerning detailed issues in their field of study - I _U21
T1A_U06 - have foreign language skills within the areas of science and scientific disciplines appropriate for their field of study, pursuant to the requirements determined in the Common European Framework of Reference for Languages for the B2 level –
I _U09
T1A_U11 - are sufficiently prepared to work in industry, and know safety regulations connected with such work - I _U14
S1A_U01 - can correctly interpret social (cultural, political, legal, and economic) phenomena in the areas of science and scientific disciplines appropriate for their field of study - I _U02
S1A_U02 - can apply basic theoretical knowledge and obtain data for analysing particular social (cultural, political, legal, and economic) processes and phenomena in the areas of science and scientific disciplines appropriate for their field of study - I _U03,
I _U07
S1A_U04 - can predict social (cultural, political, legal, economic) processes and phenomena , using standard methods and tools in the areas of science and scientific disciplines appropriate for their field of study - I _U04, I _U06, I _U07, I _U20
S1A_U05 - can appropriately use regulation systems and selected legal, professional, and moral standards and rules in order to solve specific problems concerning the areas of science and scientific disciplines appropriate for their field of study - I _U08
S1A_U06 - apply the acquired knowledge to solving dilemmas in their professional work - I _U05
S1A_U09 - have the ability to prepare typical written texts (in the Polish language and in a foreign language considered as a language of international communication with regard to the areas of science and scientific disciplines appropriate for the graduates’ field of study) on detailed issues, with the use of basic theoretical approaches and different sources of information –
I _U21
SOCIAL COMPETENCE
S1A_K01, T1A_K01 - understand the need for life-long learning - I _K01
S1A_K02, T1A_K03 - can cooperate and work in teams, assuming different roles - I _K05
S1A_K05 - can participate in developing different social projects (political, economic, and citizens’ projects), taking into consideration their legal, economic, and political aspects - I _K03
S1A_K06 - complement and improve the obtained knowledge - I _K01
Symbols of learning outcomes for the area(s) of study - Description of learning outcomes for the area(s) of study - Symbols of learning outcomes for the field of study
KNOWLEDGE
InzA_W01, T1A_W06 - have a basic knowledge of the life cycle of devices, structures, and technical systems - I _W17, I _W18
InzA_W02, T1A_W07 - know the basic methods, technologies, tools, and materials used for solving simple engineering problems concerning the graduates’ field of study - I _W12, I _W19
InzA_W03, T1A_W08 - have a basic knowledge necessary to understand social, economic, legal, and other non-technical constraints of engineering activity - I _W20
InzA_W04 ,T1A_W09 - have a basic knowledge of management, including quality management, and of conducting business activity - I _W21
InzA_W05 - know standard engineering technologies in their field of study - I _W15
SKILLS
InzA_U01, T1A_U08 - can plan and conduct experiments, including measurements and computer simulations, interpret the obtained results, and draw conclusions - I _U10
InzA_U02, T1A_U09 - can use analytical, simulation and experimental methods for formulating and solving engineering problems - I _U11
InzA_U03, T1A_U10 - can take into account system aspects and non-technical aspects in formulating and solving engineering problems - I _U12
InzA_U04, T1A_U12 - can carry out preliminary economic analyses of the undertaken engineering activities - I _U13
InzA_U05, T1A_U13 - can critically analyse and evaluate the functioning of the existing technical solutions, in particular, devices, objects, systems, processes, and services, especially with regard to the graduates’ field of study - I _U15
InzA_U06, T1A_U14 - can identify and formulate the specificity of simple engineering problems of a practical character, typical of the graduates’ field of study - I _U16
InzA_U07, T1A_U15 - can evaluate the usefulness of standard methods and tools for solving simple engineering problems of a practical character, typical of the graduates’ field of study, as well as select and apply the appropriate method and tools - I _U17
InzA_U08, T1A_U16 - can design and construct simple devices, structures, systems, or processes typical of their field of study, according to the predefined specification, using the right methods, techniques, and tools - I _U18
SOCIAL COMPETENCE
InzA_K01, T1A_K02 - understand and realise the importance of non-technical aspects and results of engineering activities, including the influence of these activities on the natural environment, and the responsibility for the decisions they take - I _K04
InzA_K02, T1A_K06 - can think and act in a resourceful way - I _W06, I _K02, I_ K06