Branch Details

Mathematical Engineering

Original title in Czech: Matematické inženýrstvíFSIAbbreviation: B-MAIAcad. year: 2019/2020

Programme: Applied Sciences in Engineering

Length of Study: 3 years

Profile

The graduates will acquire knowledge of the basic mathematical methods used in engineering applications. They will study some particular cases of such applications in technical courses while in informatics they will be taught how to use computers efficiently to solve engineering problems. Thus the Bachelor's degree graduates will be theoretically well equipped to find jobs in engineering practice as leaders of production teams of various specifications.

Key learning outcomes

The students will be equipped with the knowledge of basic technical disciplines and mathematical methods used in a number of applications mostly in engineering fields. This knowledge will help them get more profound understanding of the essence of the technical subjects studied to be able to apply such mathematical methods more efficiently. The knowledge acquired in informatics will then be helpful for the students in an efficient use of computing technology. Thus, in addition to the education about engineering fields, the graduates will also acquire more profound knowledge of mathematics and informatics. It is a well-known fact that bachelors with such education are much in demand.

Occupational profiles of graduates with examples

The graduates from this field are technically educated with more profound knowledge of mathematics and informatics, who will jobs easily mostly in technical fields. They will be demanded not only in production companies of members of various development and realization groups or in lower management positions but also in the non-production sphere such as in services (software companies) and business. It is expected, however, that most of the graduates will continue their studies in a similar field of a Master's degree programme.
Graduates of the Mathematical Engineering Bachelor's degree programme can continue their study for a degree of Ing. in the same field of the follow-up Master's degree programme. However, they can also choose a different follow-up engineering or mathematically oriented Master's programme at BUT or a different university.

Guarantor


Course structure diagram with ECTS credits

2. year of study, winter semester
AbbreviationTitleL.Cr.Com.Compl.Hr. rangeGr.Op.
3FPhysics IIcs8CompulsoryCr,ExP - 39 / L - 26 / C1 - 26yes
0AVGeometrical Algorithmscs3CompulsoryGCrP - 26yes
SA3Mathematical Analysis IIIcs7CompulsoryCr,ExP - 39 / C1 - 33 / CPP - 6yes
SDMMethods of Discrete Mathematicscs5CompulsoryCr,ExP - 26 / C1 - 26yes
SPGComputer Graphicscs3CompulsoryGCrCPP - 26yes
3STStaticscs5CompulsoryCr,ExP - 26 / C1 - 12 / CPP - 14yes
A3English 3en0Compulsory-optionalCrCj - 26 / CPP - 13Englishyes
A5English 5en0Compulsory-optionalCrCj - 26Englishyes
SG0Groups and Ringscs2Elective (voluntary)CrP - 26yes
0S1Programming Methods Ics2Elective (voluntary)CrCPP - 26yes
IPSProgramming Seminarcs, en2Elective (voluntary)CrS - 20 / PR - 6yes
0FKSelected Topics in Physics IIcs2Elective (voluntary)CrP - 26yes
2. year of study, summer semester
AbbreviationTitleL.Cr.Com.Compl.Hr. rangeGr.Op.
6AAAutomationcs5CompulsoryCr,ExP - 26 / L - 4 / CPP - 22yes
VDSDatabase Systemscs5CompulsoryCr,ExP - 26 / CPP - 26yes
SDGDifferential Geometrycs4CompulsoryGCrP - 26 / C1 - 13yes
SU1Functional Analysis Ics5CompulsoryGCrP - 26 / C1 - 26yes
0MSMathematical Softwarecs3CompulsoryCrCPP - 26yes
4PPStrength of Materials Ics7CompulsoryCr,ExP - 52 / C1 - 12 / CPP - 14yes
A4English 4en0Compulsory-optionalCrCj - 26 / CPP - 13Englishyes
A6English 6en0Compulsory-optionalCrCj - 26Englishyes
SA0Mathematical Modelling by Differential Equationscs2Elective (voluntary)CrP - 26yes
0PPSelected Topics in Strength of Materialscs2Elective (voluntary)CrP - 26yes
3. year of study, winter semester
AbbreviationTitleL.Cr.Com.Compl.Hr. rangeGr.Op.
CELElectrical Engineering and Electronicscs5CompulsoryCr,ExP - 26 / L - 26yes
5HYHydromechanicscs5CompulsoryCr,ExP - 39 / C1 - 18 / CPP - 8yes
CKPMachine Design and Machine Elementscs5CompulsoryGCrP - 26 / CPP - 26yes
SN1Numerical Methods Ics4CompulsoryCr,ExP - 26 / CPP - 26yes
SPDPartial Differential Equationscs4CompulsoryCr,ExP - 26 / C1 - 26yes
S1PProbability and Statistics Ics4CompulsoryCr,ExP - 26 / CPP - 26yes
IALAlgorithmscs, en5Elective (voluntary)Cr,ExP - 39 / PR - 13yes
0ZCAcademic Sources and Citationscs2Elective (voluntary)CrCPP - 13yes
0OMOptimization Modelscs2Elective (voluntary)CrCPP - 26yes
0S2Programming Methods IIcs2Elective (voluntary)CrCPP - 26yes
0THIntroduction to Game Theorycs4Elective (voluntary)Cr,ExP - 26 / C1 - 13yes
3. year of study, summer semester
AbbreviationTitleL.Cr.Com.Compl.Hr. rangeGr.Op.
6BMBachelor Project (UM)cs5CompulsoryCrVB - 78yes
SCPLanguage C++cs3CompulsoryGCrP - 13 / CPP - 26yes
SN2Numerical Methods IIcs4CompulsoryCr,ExP - 26 / CPP - 26yes
SOPOptimization Ics3CompulsoryCr,ExP - 26 / CPP - 13yes
SP2Probability and Statistics IIcs4CompulsoryCr,ExP - 26 / CPP - 26yes
SESBachelor Seminar (B-MAI)cs2CompulsoryCrC1 - 13yes
6TTThermomechanicscs6CompulsoryCr,ExP - 39 / C1 - 26yes
SF0Applications of Fourier Analysiscs2Elective (voluntary)CrP - 13 / CPP - 13yes
0ATSeminar of Applied Thermomechanicscs0Elective (voluntary)CrCPP - 26yes
PSTStatistical Methods in Engineeringcs4Elective (voluntary)Cr,ExP - 26 / CPP - 13yes
0SSStatistical Softwarecs2Elective (voluntary)CrCPP - 26yes
3. year of study, both semester
AbbreviationTitleL.Cr.Com.Compl.Hr. rangeGr.Op.
5AZEnglish - Basic Examen6Compulsory-optionalExZ - 1Englishyes
7AZEnglish - Exam B1en6Compulsory-optionalExZ - 1Englishyes
All the groups of optional courses
Gr. Number of courses Courses
English 1 A4, A6
English 1 A3, A5
English 1 5AZ, 7AZ