Course of Study Computational Science and Engineering (Study Cohort w14)

Sample course plan M Bachelor Computational Science and Engineering (IIWBS)
Specialisation Engineering Sciences

Legend:
Core qualification Compulsory	Specialisation Compulsory	Focus Compulsory	Thesis Compulsory
Core qualification Elective Compulsory	Specialisation Elective Compulsory	Focus Elective Compulsory	Interdisciplinary complement

Semester 1

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Semester 2

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Semester 3

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Semester 4

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Semester 5

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Semester 6

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Discrete Algebraic Structures
Discrete Algebraic Structures	VL	2
Discrete Algebraic Structures	UE	2


Electrical Engineering II: Alternating Current Networks and Basic Devices
Electrical Engineering II: Alternating Current Networks and Basic Devices	VL	3
Electrical Engineering II: Alternating Current Networks and Basic Devices	UE	2


Engineering Mechanics I
Engineering Mechanics I	VL	3
Engineering Mechanics I	UE	2


Engineering Mechanics II
Engineering Mechanics II	VL	3
Engineering Mechanics II	UE	2


Seminars Computer Science and Mathematics
Seminar Computational Engineering Science	SE	2
Seminar Computational Mathematics/Computer Science	SE	2
Seminar Engineering Mathematics/Computer Science	SE	2


Stochastics
Stochastics	VL	2
Stochastics	UE	2


Procedural Programming
Procedural Programming	VL	1
Procedural Programming	UE	1
Procedural Programming	PR	2


Objectoriented Programming, Algorithms and Data Structures
Objectoriented Programming, Algorithms and Data Structures	VL	4
Objectoriented Programming, Algorithms and Data Structures	UE	1


Numerical Mathematics I
Numerical Mathematics I	VL	2
Numerical Mathematics I	UE	2


Signals and Systems
Signals and Systems	VL	3
Signals and Systems	HÜ	1


Introduction to Control Systems
Introduction to Control Systems	VL	2
Introduction to Control Systems	UE	2


Electrical Machines
Electrical Machines	VL	3
Electrical Machines	HÜ	2


Electrical Engineering I: Direct Current Networks and Electromagnetic Fields
Electrical Engineering I: Direct Current Networks and Electromagnetic Fields	VL	3
Electrical Engineering I: Direct Current Networks and Electromagnetic Fields	UE	2


Logic, Automata and Formal Languages
Logic, Automata Theory and Formal Languages	VL	2
Logic, Automata Theory and Formal Languages	UE	2


Computer Engineering
Computer Engineering	VL	3
Computer Engineering	UE	1


Embedded Systems
Embedded Systems	VL	3
Embedded Systems	UE	1


Technical Thermodynamics II
Technical Thermodynamics II	VL	2
Technical Thermodynamics II	HÜ	1
Technical Thermodynamics II	UE	1


Fluid Dynamics
Fluid Mechanics	VL	3
Fluid Mechanics	HÜ	2


Mathematics I
Linear Algebra I	VL	2
Linear Algebra I	UE	1
Linear Algebra I	HÜ	1
Analysis I	VL	2
Analysis I	UE	1
Analysis I	HÜ	1


Foundations of Management
Introduction to Management	VL	4
Project Entrepreneurship	PBL	2


Computernetworks and Internet Security
Computer Networks and Internet Security	VL	3
Computer Networks and Internet Security	UE	1


Graph Theory and Optimization
Graph Theory and Optimization	VL	2
Graph Theory and Optimization	UE	2


Mechanics III (GES)
Mechanics III	HÜ	1
Mechanics III	UE	2
Mechanics III	VL	3


Bachelor Thesis


Mathematics II
Linear Algebra II	VL	2
Linear Algebra II	UE	1
Linear Algebra II	HÜ	1
Analysis II	VL	2
Analysis II	HÜ	1
Analysis II	UE	1


Mathematics III
Analysis III	VL	2
Analysis III	UE	1
Analysis III	HÜ	1
Differential Equations 1	VL	2
Differential Equations 1	UE	1
Differential Equations 1	HÜ	1


Technical Thermodynamics I
Technical Thermodynamics I	VL	2
Technical Thermodynamics I	HÜ	1
Technical Thermodynamics I	UE	1

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.