Search result: Catalogue data in Autumn Semester 2016
Mechanical Engineering Bachelor | ||||||
1. Semester Registration for the exercises via the application Link with your nETHz login (username, password). | ||||||
First Year Examinations: Compulsory Courses | ||||||
Number | Title | Type | ECTS | Hours | Lecturers | |
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401-0261-G0L | Analysis I | O | 8 credits | 5V + 3U | A. Steiger | |
Abstract | Differential 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. The mathematical methods are applied in a large number of examples from mechanics, physics and other areas which are basic to engineering. | |||||
Objective | Introduction to the mathematical foundations of engineering sciences, as far as concerning differential and integral calculus. | |||||
Literature | U. Stammbach: Analysis I/II | |||||
Prerequisites / Notice | Die 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. | |||||
401-0171-00L | Linear Algebra I | O | 3 credits | 2V + 1U | N. Hungerbühler | |
Abstract | Linear algebra is an indispensable tool of engineering mathematics. The course offers an introduction into the theory with many applications. The new notions are practised in the accompanying exercise classes. The course will be continued as Linear algebra II. | |||||
Objective | Upon completion of this course, students will be able to recognize linear structures, and to solve corresponding problems in theory and in practice. | |||||
Content | Systems of linear equations, Gaussian elimination, solution space, matrices, LR decomposition, Determinants, structure of linear spaces, normed vector spaces, inner products, method of least squares, QR decomposition, introduction to MATLAB, applications | |||||
Literature | * K. Nipp / D. Stoffer, Lineare Algebra, vdf Hochschulverlag, 5. Auflage 2002 * K. Meyberg / P. Vachenauer, Höhere Mathematik 1, Springer 2003 | |||||
Prerequisites / Notice | Active participation in the exercises is part of this course. It is expected, that students submit 3/4 of all exercises for control. | |||||
151-0501-00L | Mechanics 1: Kinematics and Statics | O | 5 credits | 3V + 2U | E. Mazza | |
Abstract | Basics: Position of a material point, velocity, kinematics of rigid bodies, forces, reaction principle, mechanical power Statics: Groups of forces, moments, equilibrium of rigid bodies, reactions at supports, parallel forces, center of gravity, statics of systems, principle of virtual power, trusses, frames, forces in beams and cables, friction | |||||
Objective | The understanding of the fundamentals of statics for engineers and their application in simple settings. | |||||
Content | Grundlagen: Lage eines materiellen Punktes; Geschwindigkeit; Kinematik starrer Körper, Translation, Rotation, Kreiselung, ebene Bewegung; Kräfte, Reaktionsprinzip, innere und äussere Kräfte, verteilte Flächen- und Raumkräfte; Leistung Statik: Aequivalenz und Reduktion von Kräftegruppen; Ruhe und Gleichgewicht, Hauptsatz der Statik; Lagerbindungen und Lagerkräfte, Lager bei Balkenträgern und Wellen, Vorgehen zur Ermittlung der Lagerkräfte; Parallele Kräfte und Schwerpunkt; Statik der Systeme, Behandlung mit Hauptsatz, mit Prinzip der virtuellen Leistungen, statisch unbestimmte Systeme; Statisch bestimmte Fachwerke, ideale Fachwerke, Pendelstützen, Knotengleichgewicht, räumliche Fachwerke; Reibung, Haftreibung, Gleitreibung, Gelenk und Lagerreibung, Rollreibung; Seilstatik; Beanspruchung in Stabträgern, Querkraft, Normalkraft, Biege- und Torsionsmoment | |||||
Lecture notes | Übungsblätter | |||||
Literature | Sayir, M.B., Dual J., Kaufmann S., Ingenieurmechanik 1: Grundlagen und Statik, Teubner | |||||
Prerequisites / Notice | Written session examination in "Mechanics 1" and "Mechanics 2" for D-MAVT Students, Students in Human Movement Sciences and Sport and all other Students, who take "Mechanics 1" and "Mechanics 2": Part 1: 20 minutes: Neither notes nor calculators allowed right afterwards: Part 2: 50 minutes: 3 self-written A4 pages. No caluculator. Prüfungsinformation für alle Studierende, die den Jahreskurs "Mechanics 1" and "Mechanics 2" belegen: Prüfung "Mechanics 1" in Deutsch: 1. Teil: 20 Min. Gleich anschliessend 2. Teil: 50 Min. Falls sich das Ergebnis der drei Semester-Klausuren verbessernd auf die finale Note auswirkt, so zählen diese zu 30 % zum Schlussergebnis von "Mechanics 1". Die Jahreskursnote setzt sich zusammen aus 45 % "Mechanics 1" und 55 % "Mechanics 2". | |||||
151-0711-00L | Engineering Materials and Production I | O | 4 credits | 4G | K. Wegener | |
Abstract | The lecture covers the structure and the properties of metallic materials. In the focus are the branches: microscopic structure; thermally activated processes; solidification; elastic, plastic deformation, creep. Generally the lecture also refers to manufacturing, to the processing, and application of the concerning materials. | |||||
Objective | Understanding the basics of metallic materials for engineers who are confronted with material decisions in design and production. | |||||
Content | The lecture covers the structure and the properties of metallic materials. In the focus are the branches: microscopic structure as ideal and real structure, alloying, thermally activated processes e.g. diffusion, recovery, recrystallisation, solidification, elastic and plastic deformation and creep. Generally the lecture also refers to manufacturing, to the processing, and application of the concerning materials. | |||||
Lecture notes | yes | |||||
151-0301-00L | Machine Elements | O | 2 credits | 1V + 1U | M. Meboldt, Q. Lohmeyer | |
Abstract | Introduction to machine elements and mechanical systems as basics of product development. Case studies of their application in products and systems. | |||||
Objective | The students get an overview of the main mechanical components (machine elements) which are used in mechanical engineering. Selected examples will demonstrate how these can be assembled into functional parts and complete systems such as machinery, tools or actuators. At the same time, also the problem of production (production-oriented design) is discussed. In concurrent lectures / exercises "technical drawing and CAD" the design implementation will be practiced. | |||||
Content | - Innovation Process: A Quick Overview - Stages of the planning and design process - Requirements for a design and technical implementation - Choice of materials - Basic principles of a material-specific design - Manufacturing process - fundamentals of a production-oriented design - Connections, fuses, seals - Machine-standard elements - Storage & guides - Transmission and its components - Drives The idea of machine elements is complemented by case studies and illustrated. | |||||
Lecture notes | The lecture slides will be published beforehand on the website of the pd|z. | |||||
Prerequisites / Notice | For Bachelor studies in Mechanical and Process Engineering, the lecture "Maschinenelemente" (HS) is examined together with "Innovationsprozess" (FS) in the exam "Basisprüfung Maschinenelemente and Innovationsprozess". | |||||
529-0010-00L | Chemistry | O | 3 credits | 2V + 1U | C. Mondelli, A. de Mello | |
Abstract | This is a general chemistry course aimed at first year undergraduate students in the Department of Mechanical and Process Engineering (D-MAVT). | |||||
Objective | The aims of the course are as follows: 1) To provide a thorough understanding of the basic principles of chemistry and its application. 2) To develop an understanding of the atomic and molecular nature of matter and of the chemical reactions that describe their transformations. 3) To emphasize areas considered most relevant in an engineering context. | |||||
Content | Electronic structure of atoms, chemical bonding, molecular shape and bonding theory, gases, thermodynamics, chemical thermodynamics, chemical kinetics, equilibria, solutions and intermolecular forces, redox and electrochemistry. | |||||
Literature | The course is based on "Chemistry the Central Science" by Brown, LeMay, Bursten, Murphy and Woodward. Pearson, 12th Edition (international edition). | |||||
Additional First Year Courses | ||||||
Number | Title | Type | ECTS | Hours | Lecturers | |
151-0321-00L | Technical Drawing and CAD Only for Mechanical Engineering BSc. | O | 4 credits | 4G | K. Shea | |
Abstract | Fundamentals of Technical Drawing and Computer Aided Design (CAD). Introduction to the design process and sketching. Create and read technical drawings. Create 3D models in CAD and fabricate them directly using additive manufacturing (3D printing). | |||||
Objective | The lecture and exercises teach the fundamentals of technical drawing and CAD. After taking the course students will be able to create accurate technical drawings of parts and assemblies as well as read them. Students will also be able to create models of parts and assemblies in a 3D, feature-based CAD system. They will understand the links with simulation, product data management (PDM) and additive manufacturing. | |||||
Content | Introduction to Engineering Design Sketching in Engineering Design Technical Drawing: - projections and views - cuts - notations - primitives - ISO norm elements - dimensioning - tolerances - assemblies - documentation CAD: - CAD basics - CAD modeling methods - sketch modeling - modeling operations - feature-based modeling - assemblies - creating 2D drawings from 3D parts - links to simulation, e.g. kinematics - links to model variants and Product Data Management (PDM) - links to additive manufacturing (3D printing) | |||||
Lecture notes | Lecture slides and exercise handouts are available on the course Moodle website: Link | |||||
Literature | In addition to the lecture material the following books are recommended (only in German): TZ Technisches Zeichnen: selbstständig lernen und effektiv üben Susanna Labisch und Christian Weber 2008 Vieweg ISBN: 978-3-8348-0312-2 ;ISBN: 978-3-8348-9451-9 (eBook) eBook (accessible from the ETH domain): Link VSM Normen-Auszugs 2010 14. Auflage, ISBN 978-3-03709-049-7 (kann in den Übungen bestellt und gekauft werden) CAD Marcel Schmid CAD mit NX: NX 8 J.Schlembach Fachverlag ISBN: 978-3-935340-72-4 | |||||
Prerequisites / Notice | This course is given as a lecture (1h /week) and an exercise (3h/week). Students are split into working groups for the exercises with a maximum of 20 students per group. Semester Fee A fee is charged for printed copies of the course handouts. | |||||
First Year Optional Colloquia | ||||||
Number | Title | Type | ECTS | Hours | Lecturers | |
151-0501-02L | Mechanics 1: Kinematics and Statics (Colloquium) | Z | 0 credits | 1K | E. Mazza | |
Abstract | Basics: Position of a material point, velocity, kinematics of rigid bodies, forces, reaction principle, mechanical power Statics: Groups of forces, moments, equilibrium of rigid bodies, reactions at supports, parallel forces, center of gravity, statics of systems, principle of virtual power, trusses, frames, forces in beams and cables, friction | |||||
Objective | The understanding of the fundamentals of Statics for engineers and their application in simple settings. | |||||
Content | Basics: Position of a material point; velocity; kinematics of rigid bodies; translation, rotation, planar motion; forces, action-reaction principle, internal and external forces, distributed forces; mechanical power. Statics: equivalence and reduction of groups of forces; rest and equilibrium; basic theorem of statics; kinematic and static boundary conditions, applications to supports and clamps of rods and beams; procedures for determination of forces at supports and clamps; parallel forces and centre of gravity; statics of systems, solution using basic theorem and using the principle of virtual power, statically indeterminate systems; statically determinate truss structures, ideal truss structures, nodal point equilibrium, methods for truss force determination; friction, static friction, sliding friction, friction at joints and supports, rolling resistance; forces in cables; beam loading, force and moment vector. | |||||
Lecture notes | Übungsblätter | |||||
Literature | Sayir, M.B., Dual J., Kaufmann S., Ingenieurmechanik 1: Grundlagen und Statik, Teubner |
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