Search result: Catalogue data in Spring Semester 2017

Materials Science Bachelor Information
2. Semester
Basis Courses Part 1
First Year Examinations
Examination Block A
NumberTitleTypeECTSHoursLecturers
401-0262-GULAnalysis II Information O8 credits5V + 4UA. Steiger
AbstractDifferential and integral calculus for functions of one and several variables; vector analysis; ordinary differential equations of first and of higher order, systems of ordinary differential equations; power series.
For each of these topics many examples from mechanics, physics and other areas.
ObjectiveIntroduction to the mathematical foundations of engineering sciences, as far as concerning differential and integral calculus.
ContentDifferential- und Integralrechnung von Funktionen einer und mehrerer Variablen; Vektoranalysis; gewöhnliche Differentialgleichungen erster und höherer Ordnung, Differentialgleichungssysteme; Potenzreihen. In jedem Teilbereich eine grosse Anzahl von Anwendungsbeispielen aus Mechanik, Physik und anderen Lehrgebieten des Ingenieurstudiums.
Lecture notesU. Stammbach: Analysis I/II
LiteratureU. Stammbach: Analysis I/II
Prerequisites / NoticeDie Übungsaufgaben (inkl. Multiple Choice) sind ein wichtiger Bestandteil der Lehrveranstaltung. Es wird erwartet, dass Sie mindestens 75% der wöchentlichen Serien bearbeiten und zur Korrektur einreichen.
Examination Block B
NumberTitleTypeECTSHoursLecturers
529-3002-00LChemistry IIO5 credits2V + 2UW. Uhlig, P. J. Walde, W. R. Caseri
AbstractGeneral Chemistry II: Chemical bonding, Introduction to organic chemistry, Overview on important classes of inorganic compounds
ObjectiveGeneral base for understanding principles of organic chemistry (structure and reaktivity).
Content1. Chemical Bonding
2. Alkanes, alkenes, alkines
3. Arenes
4. Halogenalkanes
5. Aldehydes and ketones
6. Carboxylic acids
7. Amines
8. Natural products
9. Overview on important classes of inorganic compounds
LiteratureC.E. Mortimer & U. Müller, CHEMIE, 12. Auflage, Thieme: Stuttgart, 2015 (ISBN -978-3-13-484312-5)
402-0040-00LPhysics IO5 credits4V + 2UY. M. Acremann, D. Pescia
AbstractPart A:
Introduction to mechanics, wave phenomena, Kelpler problem, rotational motion.
Part B: electrostatics of metals and isolators, magnetostatics, Maxwell equations.
ObjectiveFundamentals of mechanics, oscillations, waves, electrostatics and magnetostatics.
ContentPart A:
Introduction to mechanics, wave phenomena, Kelpler problem, rotational motion.
Part B: electrostatics of metals and isolators, magnetostatics, Maxwell equations.
Lecture notesA copy of the blackboard is made available online.
Literature(Fakultativ):
Teil A: W. Nolting, "Klassische Mechanik", Springer Verlag, Berlin, 2011.
Teil B: W. Nolting, "Elektrodynamik", Springer Verlag, Berlin, 2011
Examination Block C
NumberTitleTypeECTSHoursLecturers
327-0206-00LMechanicsO5 credits5GT. A. Tervoort
AbstractMechanics of materials: stress and strain, linear elastic deformations, bending, torsion, buckling, plasticity, time-dependent behavior of materials and fracture mechanics. Overview of the mechanical properties of the most important material classes: metals, ceramics and polymers.
ObjectiveThis lecture is an introduction into the mechanical behavior of structures and materials. We will discuss both the continuum description of stress and strain, and the atomistic and molecular mechanisms that determine the required material parameters.
ContentMechanics of materials: stress and strain, linear elastic deformations, bending, torsion, buckling, plasticity, time-dependent behavior of materials and fracture mechanics. Overview of the mechanical properties of the most important material classes: metals, ceramics and polymers.
Lecture notesLink
Additional Basic Courses
NumberTitleTypeECTSHoursLecturers
327-0210-00LResearch Lab Restricted registration - show details O2 credits2PS. Morgenthaler Kobas
AbstractStudents are introduced into different research areas of the department by accompanying doctoral students.
ObjectiveThe students are introduced into current research topics of D-MATL and discuss with doctoral students the scientific practice.
ContentEach student gets to know three doctoral students and their research projects during the semester. At the end of the semester the students present one research project in a short oral presentation in front of their peers.

The groups are assigned by the student office of the department.
327-0211-00LPractical Laboratory Course II Information Restricted registration - show details O5 credits4PM. B. Willeke, M. R. Dusseiller, S. Morgenthaler Kobas, P. J. Walde
AbstractPractical introduction into concepts and basic principles of Materials Science and Chemistry. To become acquainted with important chemical and physical methods.
ObjectivePractical introduction into concepts and basic principles of Materials Science and Chemistry. To become acquainted with important chemical and physical methods.
ContentExperiments in the fields e.g. of synthetic and analytical chemistry (DC, IR- and UV-spec., DSC, DLS), fracture mechanics, mechanical/thermal properties, particle tracking (DLS and classical microscopy), surface techniques (reflection spectroscopy), thermodynamics, corrosion, hardness of metals, electroplating, one computer theory experiment (simulation of molecular vibrations, VASP), "forging, stone and wood processing", "mechanical workshop" (incl. technical drawing) and further.
Lecture notesNotes with information for each experiment (aim of the experiment, theory, experimental procedure, data analysis) can be downloaded from the web (report center: Link or Link).
Prerequisites / NoticeOrganisation: Arbeiten in 2er bzw. 4er Gruppen (Werkstoffteil) und alleine im Chemieteil.
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