Course of Study General Engineering Science (English program, 7 semester) (Study Cohort w18)

Sample course plan A  Bachelor General Engineering Science (English program, 7 semester) (GESBS(7))
Specialisation Mechanical Engineering, Focus Energy Systems
Legend:
Core qualification CompulsorySpecialisation CompulsoryFocus CompulsoryThesis Compulsory
Core qualification Elective CompulsorySpecialisation Elective CompulsoryFocus Elective CompulsoryInterdisciplinary complement
LP
Semester 1FormHrs/wk
Semester 2FormHrs/wk
Semester 3FormHrs/wk
Semester 4FormHrs/wk
Semester 5FormHrs/wk
Semester 6FormHrs/wk
Semester 7FormHrs/wk
1
Chemistry (GES)
Chemistry IVL2
Chemistry IIVL2
Chemistry I1
Chemistry II1
Technical Thermodynamics I
Technical Thermodynamics IVL2
Technical Thermodynamics I1
Technical Thermodynamics IUE1
Technical Thermodynamics II
Technical Thermodynamics IIVL2
Technical Thermodynamics II1
Technical Thermodynamics IIUE1
Mechanical Engineering: Design (part 2)
Team Project Design MethodologyPBL2
Mechanical Design Project IIPBL3
Introduction to Control Systems
Introduction to Control SystemsVL2
Introduction to Control SystemsUE2
Foundations of Management
Introduction to ManagementVL3
Management TutorialUE2
Advanced Internship AIW/ GES
2
3
4
Fundamentals of Materials Science (part 2)
Fundamentals of Materials Science II VL2
5
6
Fluid Dynamics
Fluid MechanicsVL3
Fluid Mechanics2
7
Linear Algebra
Linear AlgebraVL4
Linear Algebra2
Linear AlgebraUE2
Mathematical Analysis
Mathematical AnalysisVL4
Mathematical Analysis2
Mathematical AnalysisUE2
Mathematics III
Analysis IIIVL2
Analysis IIIUE1
Analysis III1
Differential Equations 1 VL2
Differential Equations 1 UE1
Differential Equations 1 1
Measurement Technology for Mechanical Engineers
Measurement Technology for Mechanical EngineeringVL2
Measurement Technology for Mechanical Engineering1
Practical Course: Measurement and Control SystemsPR2
Advanced Mechanical Engineering Design (part 2)
Advanced Mechanical Engineering Design IIVL2
Advanced Mechanical Engineering Design II2
8
9
10
Reciprocating Machinery (part 2)
Internal Combustion Engines IVL2
Internal Combustion Engines I1
11
12
Mechanics IV (Kinetics II, Oscillations, Analytical Mechanics, Multibody Systems)
Mechanics IV VL3
Mechanics IV UE2
Mechanics IV 1
13
Advanced Mechanical Engineering Design (part 1)
Advanced Mechanical Engineering Design IVL2
Advanced Mechanical Engineering Design I2
14
Renewables and Energy Systems
Renewable EnergyVL2
Energy Systems and Energy IndustryVL2
Power IndustryVL1
Renewable EnergyUE1
15
Electrical Engineering I
Electrical Engineering IVL3
Electrical Engineering IUE2
Electrical Engineering II
Electrical Engineering IIVL3
Electrical Engineering IIUE2
Mechanics III (GES)
Mechanics III 1
Mechanics III UE2
Mechanics III VL3
16
Heat Transfer
Heat TransferVL3
Heat Transfer2
17
18
Signals and Systems
Signals and SystemsVL3
Signals and SystemsUE2
19
Bachelor Thesis
20
21
Mechanics I (GES)
Mechanics I VL2
Mechanics I 3
Mechanics II (GES)
Mechanics II VL2
Mechanics II 2
Computer Engineering
Computer EngineeringVL3
Computer EngineeringUE1
22
Reciprocating Machinery (part 1)
Fundamentals of Reciprocating Engines and Turbomachinery - Part Reciprocating EnginesVL1
Fundamentals of Reciprocating Engines and Turbomachinery - Part Reciprocating Engines1
23
24
Computational Fluid Dynamics I
Computational Fluid Dynamics IVL2
Computational Fluid Dynamics I2
25
26
27
Programming in C
Programming in CVL1
Programming in CPR1
Fundamentals of Mechanical Engineering (GES)
Fundamentals of Mechanical Engineering VL2
Fundamentals of Mechanical Engineering UE2
Mechanical Engineering: Design (part 1)
Embodiment Design and 3D-CADVL2
Mechanical Design Project IPBL3
28
29
Physics for Engineers (GES)
Physics for Engineers VL2
Physics for Engineers UE1
30
Fundamentals of Materials Science (part 1)
Fundamentals of Materials Science IVL2
Physical and Chemical Basics of Materials ScienceVL2
31
32
33
Nontechnical Complementary Courses for Bachelors (from catalogue) - 6LP

The choice of courses from the catalogue is flexible (depends on the semestral work load), provided the necessary number of required credits is reached.