LP | | | | | | |
1 | | | | |
Basics of Electrical Engineering | Basics of Electrical Engineering | VL | 3 | Basics of Electrical Engineering | GÜ | 2 |
| | | | |
Fundamentals of Mechanical Engineering Design | Fundamentals of Mechanical Engineering Design | VL | 2 | Fundamentals of Mechanical Engineering Design | HÜ | 2 |
| | | | |
Advanced Mechanical Engineering Design (part 1) | Advanced Mechanical Engineering Design I | VL | 2 | Advanced Mechanical Engineering Design I | HÜ | 2 |
| | | | |
Advanced Mechanical Engineering Design (part 2) | Advanced Mechanical Engineering Design II | VL | 2 | Advanced Mechanical Engineering Design II | HÜ | 2 |
| | | | |
Stochastics and Ship Dynamics (part 1) | Statistics and Stochastic Processes in Naval Architecure and Ocean Engineering | VL | 2 |
| | | | |
Stochastics and Ship Dynamics (part 2) | Ship Dynamics | VL | 2 | Ship Dynamics | GÜ | 1 |
|
2 |
3 |
4 | | | | |
Mechanical Engineering: Design (part 1) | Embodiment Design and 3D-CAD Introduction and Practical Training | VL | 2 | Mechanical Design Project I | PBL | 3 |
| | | | |
Mechanical Engineering: Design (part 2) | Team Project Design Methodology | PBL | 2 | Mechanical Design Project II | PBL | 3 |
| | | | |
Computational Fluid Dynamics I | Computational Fluid Dynamics I | VL | 2 | Computational Fluid Dynamics I | HÜ | 2 |
|
5 | | | | |
Structural Design and Construction of Ships (part 2) | Ship Structural Design | VL | 2 | Ship Structural Design | GÜ | 2 |
|
6 |
7 | | | | |
Mathematics I | Mathematics I | VL | 4 | Mathematics I | HÜ | 2 | Mathematics I | GÜ | 2 |
| | | | |
Technical Thermodynamics I | Technical Thermodynamics I | VL | 2 | Technical Thermodynamics I | HÜ | 1 | Technical Thermodynamics I | GÜ | 1 |
| | | | |
Foundations of Management | Introduction to Management | VL | 3 | Management Tutorial | GÜ | 2 |
| | | | |
Hydrostatics and Body Plan (part 2) | Hydrostatics | VL | 2 | Hydrostatics | HÜ | 2 |
|
8 |
9 |
10 | | | | |
Fundamentals of Ship Structural Design and Analysis | Fundamentals of Ship Structural Analysis | VL | 2 | Fundamentals of Ship Structural Design | VL | 2 | Fundamentals of Ship Structural Design | GÜ | 1 | Fundamentals of Ship Structural Analysis | GÜ | 1 |
|
11 | | | | |
Fluid Dynamics | Fluid Mechanics | VL | 3 | Fluid Mechanics | HÜ | 2 |
| | | | |
Ship Design | Ship Design | VL | 2 | Ship Design | HÜ | 2 |
|
12 |
13 | | | | |
Mathematics II | Mathematics II | VL | 4 | Mathematics II | HÜ | 2 | Mathematics II | GÜ | 2 |
| | | | |
Mathematics III | Analysis III | VL | 2 | Analysis III | GÜ | 1 | Analysis III | HÜ | 1 | Differential Equations 1 | VL | 2 | Differential Equations 1 | GÜ | 1 | Differential Equations 1 | HÜ | 1 |
|
14 |
15 | | | | |
Fundamentals of Materials Science | Fundamentals of Materials Science II | VL | 2 | Fundamentals of Materials Science I | VL | 2 | Physical and Chemical Basics of Materials Science | VL | 2 |
|
16 |
17 | | | | |
Mathematics IV | Complex Functions | VL | 2 | Complex Functions | GÜ | 1 | Complex Functions | HÜ | 1 | Differential Equations 2 | VL | 2 | Differential Equations 2 | GÜ | 1 | Differential Equations 2 | HÜ | 1 |
| | | | |
Bachelor thesis (dual study program) | | | |
|
18 | | | | |
Structural Design and Construction of Ships (part 1) | Welding Technology | VL | 3 |
|
19 |
20 |
21 | | | | |
Computer Science for Engineers - Introduction and Overview | Computer Science for Engineers - Introduction and Overview | VL | 3 | Computer Science for Engineers - Introduction and Overview | GÜ | 2 |
| | | | |
Practical module 2 (dual study program, Bachelor's degree) | Practical term 2 | | 0 |
| | | | |
Hydrostatics and Body Plan (part 1) | Body Plan | PS | 2 |
| | | | |
Marine Propulsion | Fundamentals of Reciprocating Engines and Turbomachinery - Part Reciprocating Engines | VL | 1 | Fundamentals of Reciprocating Engines and Turbomachinery - Part Reciprocating Engines | HÜ | 1 | Fundamentals of Marine Engineering | VL | 2 | Fundamentals of Marine Engineering | HÜ | 1 |
|
22 |
23 | | | | |
Practical module 3 (dual study program, Bachelor's degree) | Practical term 3 | | 0 |
| | | | |
Practical module 4 (dual study program, Bachelor's degree) | Practical term 4 | | 0 |
|
24 |
25 |
26 |
27 | | | | |
Practical module 1 (dual study program, Bachelor's degree) | Practical term 1 | | 0 |
| | | | |
Engineering Mechanics II (Elastostatics) | Engineering Mechanics II | VL | 2 | Engineering Mechanics II | GÜ | 2 | Engineering Mechanics II | HÜ | 2 |
| | | | |
Resistance and Propulsion | Resistance and Propulsion | VL | 2 | Resistance and Propulsion | HÜ | 2 |
|
28 |
29 | | | | |
Engineering Mechanics III (Dynamics) | Engineering Mechanics III | VL | 3 | Engineering Mechanics III | GÜ | 2 | Engineering Mechanics III | HÜ | 1 |
| | | | |
Computational Mechanics | Computational Multibody Dynamics | IV | 2 | Computational Mechanics | GÜ | 2 | Computational Stuctural Mechanics | IV | 2 |
| |
30 | |
31 | |
32 | |
33 | | | | |
Engineering Mechanics I (Stereostatics) | Engineering Mechanics I | VL | 2 | Engineering Mechanics I | GÜ | 2 | Engineering Mechanics I | HÜ | 1 |
| | | | | |
Practical module 5 (dual study program, Bachelor's degree) | Practical term 5 | | 0 |
| |
34 | | |
35 | | | | |
36 | | | | |
37 | | | | |
38 | | | | |
| Linking theory and practice (dual study program, Bachelor's degree) (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.