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applied mathematics (MSDZ1)

(in Polish: Matematyka stosowana, stacjonarne, pierwszego stopnia)
first degree studies
full time studies, 3,5 years, 210 ECTS points, including 14-week work experience internship (14 ECTS)
Language: Polish
No description for the programme.

Qualification awarded:

(in Polish) inżynier

Access to further studies:

possibility of applying for second degree studies, postgraduate studies

Professional status:

right to apply for qualifications related with the field of studies completed

Access requirements

possess maturity certificate, positive result of the enrolment procedure

Learning outcomes

Resolution No. 509/XXXI/XIV/2015 of 25 June 2015, passed by the Senate of the University of Bialystok on determining the effects of education adopted for conducting general academic education profile at the first degree, full time applied mathematics at the University of Technology in Bialystok

Course education outcomes: Knowledge
the student:
K_W01 - has general knowledge of the construction of mathematical theories and understands the role of mathematical formalism in description and solving problems in the field of science and technology - T1P_W01, X1P_W01
K_W02 - knows the mathematical methods to the extent necessary for formal and quantitative description and modeling problems in various areas of science and technology, particularly automation and robotics - T1P_W01, X1P_W02
K_W03 - knows the basic calculation methods and claims of the known branches of mathematics and examples of practical implementation techniques of higher mathematics by using tools - T1P_W01, X1P_W01, X1P_W03
K_W04 - knows selected concepts and methods of mathematical logic, set theory and discrete mathematics; knows and understands the examples of their practical use, especially in applications of information - T1P_W01, X1P_W01
K_W05 - knows the basics of mathematical analysis and its applications, with particular emphasis on differential and integral calculus - T1P_W01, X1P_W01, X1P_W04
K_W06 - knows the theoretical foundations, methods and techniques of algebra, number theory and analytic geometry and their applications, with particular emphasis on linear algebra - T1P_W01, X1P_W01
K_W07 - knows the basics of probabilistics and statistics and their applications - T1P_W01, X1P_W01, X1P_W02, X1P_W03
K_W08 - knows the basis of differential and difference equations and their applications, especially in automation and robotics - T1P_W01, X1P_W01, X1P_W02
K_W09 - knows the principles of programming, notably the structural and basic software engineering - T1P_W02, T1P_W04, T1P_W05, T1P_W06, X1P_W04
K_W10 - knows the basic algorithms and data structures used to solve engineering and scientific problems - T1P_W02, T1P_W04, T1P_W06, X1P_W04
K_W11 - knows the principles of design and the use of databases, particularly relational, and obtaining information from them - T1P_W02, T1P_W03, T1P_W06, X1P_W05
K_W12 - knows the basic methods of acquisition, representation, processing, exploration, analysis and data visualization - T1P_W03, T1P_W05, T1P_W06, X1P_W04
K_W13 - knows the basic level of the selected software packages, used for symbolic computation, numerical and statistical - T1P_W04, T1P_W06, X1P_W04, X1P_W05
K_W14 - has basic knowledge of technical norms and standards, primarily related to computer science - T1P_W07
K_W15 - knows the basic principles of health and safety at work, with particular emphasis on the nature of work of a mathematician and engineer - X1P_W06, T1P_U11
K_W16 - knows the basic principles of creating, maintaining and developing the business, including individual types - T1P_W09, T1P_W11, X1P_W09
K_W17 - understands the social, economic, legal and other non-technical factors of engineering activities - T1P_W08, X1P_W07
K_W18 - knows the basic concepts and principles of the protection of industrial property and copyright, as well as how to use the resources of patent information - T1P_W10, X1P_W07,X1P_W08

Course education outcomes: Skills

K_U01 - can formulate definitions and theorems and carry out the correct mathematical reasoning, in particular proofs - X1P_U01
K_U02 - uses the language of logic and set theory, in particular interpreting issues from different areas of mathematics; can indicate the theoretical aspects that have practical implications, especially in computer science - T1P_U10, X1P_U01
K_U03 - can operate the concepts of discrete mathematics; knows how to apply these concepts to practical problems - T1P_U09, X1P_U01, X1P_U02
K_U04 - uses concepts of convergence, limit and continuity in different contexts - T1P_U09,X1P_U01, X1P_U02
K_U05 - knows how to use theorems and methods of differential and integral calculus of functions of one and many variables in different areas of mathematics and its applications, in particular in automation and robotics - T1P_U09, X1P_U01, X1P_U02
K_U06 - is able to apply the theorem and algebraic methods, with particular emphasis on linear algebra, in different areas of mathematics and its applications, in particular in automation and robotics - T1P_U09, X1P_U01
K_U07 - uses the concepts of group, ring, body, linear space; is able to notice the presence of these algebraic structures in different areas of mathematics and its applications - T1P_U09, X1P_U02
K_U08 - can build and analyze mathematical model of random experiment and use the discrete and continuous probability distributions - T1P_U08, T1P_U09,
T1P_U14, X1P_U01, X1P_U03
K_U09 - has the ability to modeling phenomena and processes on the basis of data from different sources, using mathematics and statistics and computer tools - T1P_U01, T1P_U08, T1P_U09, T1P_U14, X1P_U01, X1P_U02, X1P_U03, X1P_U04
K_U10 - recognizes the problems in the practical issues that can be solved algorithmically; can make specifications of such problem; knows how to arrange and analyze the algorithm in accordance with the specifications - T1P_U08, T1P_U09, T1P_U14, T1P_U15, T1P_U16, X1P_U03, X1P_U04
K_U11 - is able to compile, run and test independently written computer program - T1P_U09, T1P_U13, T1P_U15, T1P_U16, T1P_U17
K_U12 - can select and use an appropriate software package to solve a specific problem; can expand the functionality of selected packagesat a basic level - T1P_U09, T1P_U15, T1P_U17, X1P_U04
K_U13 - can design a program which solves the problem and strives for optimal memorization and time, set and implement and test it; can choose according to a given problem programming algorithms and data structures; can estimate the cost of time and presented memory solutions - T1P_U08, T1P_U09,T1P_U13, T1P_U15, X1P_U03
K_U14 - can design and implement a database, including relational type, and use its resources in information systems; can administer a basic database - T1P_U09, T1P_U13, T1P_U15, T1P_U16, T1P_U17
K_U15 - can, by choosing the appropriate method to the problem, acquire, process and visualize data - T1P_U09, T1P_U15, X1P_U03
K_U16 - is able to apply the basic methods and algorithms in the analysis and data mining - T1P_U09, T1P_U15
K_U17 - can benefit from technical norms and standards, primarily related to computer science - T1P_U19
K_U18 - is able to work in a team taking different roles; plans the work by identifying and defining tasks and verifies its execution - T1P_U02, T1P_U07, T1P_U10, T1P_U12, T1P_U14
K_U19 - can learn independently; recognizes the benefits of training and broadens own skills - T1P_U05, X1P_U07
K_U20 - has experience in solving practical tasks and the use of technology relevant to applied mathematics, gained in an environment dealing with professional activities of engineering - T1P_U18
K_U21 - applies the principles of occupational health and safety and ergonomics - T1P_U11
K_U22 - communicates in Polish and foreign language, both with mathematicians, engineers and people with no technical knowledge using the latest information and communication technologies, to the extent necessary to solve problems, including engineering, requiring the use of mathematical methods - T1P_U01, T1P_U02, T1P_U06, T1P_U07,T1P_U10, X1P_U05, X1P_U06, X1P_U09, X1P_U10
K_U23 - presents, on the basis of materials prepared by themselves and obtained elsewhere, orally and in writing, in Polish and foreign, using the latest information and communication technologies and in an understandable way, even for people without education engineering, technical issues in the field of mathematics and its applications and the results of their work - T1P_U01, T1P_U02, T1P_U03, T1P_U04, T1P_U06, T1P_U07, X1P_U05, X1P_U08, X1P_U10

Course education outcomes: Social competences

K_K01 - understands the need for learning throughout life, primarily in order to improve professional and personal competence - T1P_K01, X1P_K01, X1P_K05
K_K02 - is able to think and act in an entrepreneurial way - T1P_K06, X1P_K07
K_K03 - is able to work in a group, taking on different roles - T1P_K03, X1P_K02
K_K04 - is able to prioritize and identifies and resolve dilemmas related to the implementation specified individually or other tasks - T1P_K04, T1P_K05, X1P_K03, X1P_K04
K_K05 - is aware of the importance and understanding of the non-technical aspects and effects of engineering activities, including its impact on the environment, and the associated responsibility for decisions - T1P_K02
K_K06 - is aware of the social role of technical college graduate, and especially understands the need to formulate and to inform the public, including through the mass media, information and opinions on the achievements of applied mathematics and other aspects of mathematics and engineering; shall endeavor to provide such information and opinions in a universally understandable manner - T1P_K07, X1P_K06
K_K07 - acts ethically and professionally; understands and appreciates the importance of integrity in the profession of mathematician and engineer - T1P_K02, T1P_K05, X1P_K04, X1P_K06

Admission procedures:

Visit the following page for details on admission procedures: https://irk2.uci.pb.edu.pl