Search result: Catalogue data in Spring Semester 2022

Mechanical Engineering Bachelor Information
4. Semester
Compulsory Courses
Examination Block 2
NumberTitleTypeECTSHoursLecturers
402-0034-10LPhysics IIO4 credits2V + 2UL. P. Gallmann
AbstractThis is a two-semester course introducing students into the foundations of Modern Physics. Topics include electricity and magnetism, light, waves, quantum physics, solid state physics, and semiconductors. Selected topics with important applications in industry will also be considered.
ObjectiveThe lecture is intended to promote critical, scientific thinking. Key concepts of Physics will be acquired, with a focus on technically relevant applications. At the end of the two semesters, students will have a good overview over the topics of classical and modern Physics.
ContentIntroduction into Quantum Physics, Absorption and Emission of Electromagnetic Radiation, Basics of Solid State Physics, Semiconductors
Lecture notesLecture notes will be available in German.
LiteraturePaul A. Tipler, Gene Mosca
Physik: für Studierende der Naturwissenschaften und Technik
Springer Spektrum, Springer-Verlag GmbH, 2019, 1500 Seiten, ca. 80 Euro.
Prerequisites / NoticeNo testat requirements for this lecture.
CompetenciesCompetencies
Subject-specific CompetenciesConcepts and Theoriesassessed
Techniques and Technologiesfostered
Method-specific CompetenciesAnalytical Competenciesassessed
Decision-makingfostered
Media and Digital Technologiesfostered
Problem-solvingassessed
Project Managementfostered
Social CompetenciesCommunicationassessed
Cooperation and Teamworkassessed
Customer Orientationfostered
Leadership and Responsibilityfostered
Self-presentation and Social Influence fostered
Sensitivity to Diversityassessed
Negotiationfostered
Personal CompetenciesAdaptability and Flexibilityassessed
Creative Thinkingassessed
Critical Thinkingassessed
Integrity and Work Ethicsassessed
Self-awareness and Self-reflection assessed
Self-direction and Self-management assessed
227-0075-00LElectrical Engineering IO3 credits2V + 2UJ. Leuthold
AbstractBasic course in electrical engineering with the following topics: Concepts of voltage and currents; Analyses of dc and ac networks; Series and parallel resistive circuits, circuits including capacitors and inductors; Kirchhoff's laws and other network theorems; Transient responses; Basics of electrical and magnetic fields;
ObjectiveUnderstanding of the basic concepts in electrical engineering with focus on network theory. The successful student knows the basic components of electrical circuits and the network theorems after attending the course.
ContentDiese Vorlesung vermittelt Grundlagenkenntnisse im Fachgebiet Elektrotechnik. Ausgehend von den grundlegenden Konzepten der Spannung und des Stroms wird die Analyse von Netzwerken bei Gleich- und Wechselstrom behandelt. Dabie werden folgende Themen behandelt:
Kapitel 1 Das elektrostatische Feld
Kapitel 2 Das stationäre elektrische Strömungsfeld
Kapitel 3 Einfache elektrische Netzwerke
Kapitel 4 Halbleiterbauelemente (Dioden, der Transistor)
Kapitel 5 Das stationäre Magnetfeld
Kapitel 6 Das zeitlich veränderliche elektromagnetische Feld
Kapitel 7 Der Übergang zu den zeitabhängigen Strom- und Spannungsformen
Kapitel 8 Wechselspannung und Wechselstrom
Lecture notesDie Vorlesungsfolien werden auf Moodle bereitgestellt.
Als ausführliches Skript wird das Buch "Manfred Albach. Elektrotechnik, Person Verlag, Ausgabe vom 1.8.2011" empfohlen.
LiteratureFür das weitergehende Studium werden in der Vorlesung verschiedene Bücher vorgestellt.
151-0102-00LFluid Dynamics I Restricted registration - show details O6 credits4V + 2UT. Rösgen
AbstractAn introduction to the physical and mathematical foundations of fluid dynamics is given.
Topics include dimensional analysis, integral and differential conservation laws, inviscid and viscous flows, Navier-Stokes equations, boundary layers, turbulent pipe flow. Elementary solutions and examples are presented.
ObjectiveAn introduction to the physical and mathematical principles of fluid dynamics. Fundamental terminology/principles and their application to simple problems.
ContentPhenomena, applications, foundations
dimensional analysis and similitude; kinematic description; conservation laws (mass, momentum, energy), integral and differential formulation; inviscid flows: Euler equations, stream filament theory, Bernoulli equation; viscous flows: Navier-Stokes equations; boundary layers; turbulence
Lecture notesLecture notes (extended formulary) for the course are made available electronically.
LiteratureRecommended book: Fluid Mechanics, Kundu & Cohen & Dowling, 6th ed., Academic Press / Elsevier (2015).
Prerequisites / NoticeVoraussetzungen: Physik, Analysis
151-0052-00LThermodynamics IIO4 credits2V + 2UA. Bardow, N. Noiray
AbstractIntroduction to thermodynamics of reactive systems and to the fundamentals of heat transfer.
ObjectiveIntroduction to the theory and to the fundamentals of the technical thermodynamics. Main focus: Chemical thermodynamics and heat transfer
Content1st and 2nd law of thermodynamics for chemically reactive systems, chemical exergy, fuel cells and kinetic gas theory.
General mechanisms of heat transfer. Introduction to heat conductivity. Stationary 1-D and 2-D heat conduction. Instationary conduction. Convection. Forced convection - flow around and through bodies. Natural convection. Evaporation (boiling) and condensation. Heat radiation. Combined heat transfer.
Lecture notesSlides and lecture notes in German.
LiteratureF.P. Incropera, D.P. DeWitt, T.L. Bergman, and A.S. Lavine, Fundamentals of Heat and Mass Transfer, John Wiley & Sons, 6th edition, 2006.

M.J. Moran, H.N. Shapiro, Fundamentals of Engineering Thermodynamics, John Wiley & Sons, 2007.
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