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3 different courses found Cancel search
Faculty of Engineering Sciences
INFO Bachelor's Programme Civil and Environmental Engineering according to the Curriculum 2007 (180 ECTS-Credits, 6 semesters)
Third Semester
Compulsory Module 4: Module Strength of Materials (12.5 ECTS-Credits, 10 h)
Prerequisites for registration: none
Learning Outcome: Mastery of the determination of the tensions and malformations of deformable solid bodies, especially of poles, following static and thermal pressures; these findings form the basis for proving the serviceability and load-bearing capacity of building constructions.
844106
VO Strength of Materials 2 (VO / 3h / 3,5 ECTS-AP)
Günter Hofstetter
Details of this course
INFO Master's Programme Civil Engineering according to the Curriculum 2014 (120 ECTS-AP, 4 Semester)
Elective Modules, Extension Level 2 (30 ECTS-Credits)
Concentration Option MOS: Modeling and Simulation (20 ECTS-Credits)
Elective Module MOS 2-3: Modelling and Simulation 2-3 (5 ECTS-Credits; 4 h)
Prerequisites for registration: none
Learning Outcome: Students are proficient in the theoretical fundamentals and familiar with the application of procedures for structural calculations of beam, slab and shell structures.
844195
VU Shell Structures (VU / 2h / 2,5 ECTS-AP)
Tobias Auinger, Günter Hofstetter
Details of this course
INFO Master's Programme Mechatronics according to the Curriculum 2013 (120 ECTS-Credits, 4 semesters)
Compulsory Modules
Compulsory Module 2: Mechanics and Mechanical Engineering (15 ECTS-Credits, 11 h)
Prerequisites for registration: none
Learning Outcome: Students have an advanced knowledge of and skills for designing mechatronic systems with computer-aided construction and interpretation methods. They understand the relations of product development and are able to apply CAD and CAE modules in the development process. Students possess advanced knowledge of and skills in linear and non-linear strength calculation of building elements under st atic and cyclic stress. Students have the skills to find solutions and alternatives for problems related to machine engineering, to assess them and to realize them in a constructive way. Students possess advanced knowledge of general machine assembly and vibration decoupling and can lay classic vibration absorbers. They understand the effects of imbalances in rotors and have a basic knowledge of the theory of oscillation, oscillator chains and non-linear oscillators.
844192
VU Mechanics of Materials (VU / 3h / 4 ECTS-AP)
Peter Gamnitzer, Günter Hofstetter
Details of this course