pb415 Hyperloop Technologies (Complete module description)

Module label	Hyperloop Technologies
Modulkürzel	pb415
Credit points	6.0 KP
Workload	180 h ( Attendance: 56 hrs, Self study: 124 hrs Active participation in the seminar. )
Verwendbarkeit des Moduls	Fach-Bachelor Betriebswirtschaftslehre mit juristischem Schwerpunkt > Professionalisierungsbereich Fach-Bachelor Biologie > Professionalisierungsbereich Fach-Bachelor Chemie > Professionalisierungsbereich Fach-Bachelor Comparative and European Law > Professionalisierungsbereich Fach-Bachelor Engineering Physics > Professionalisierungsbereich more... Fach-Bachelor Informatik > Professionalisierungsbereich Fach-Bachelor Mathematik > Professionalisierungsbereich Fach-Bachelor Nachhaltigkeitsökonomik > Professionalisierungsbereich Fach-Bachelor Pädagogik > Professionalisierungsbereich Fach-Bachelor Pädagogisches Handeln in der Migrationsgesellschaft > Professionalisierungsbereich Fach-Bachelor Physik, Technik und Medizin > Professionalisierungsbereich Fach-Bachelor Sozialwissenschaften > Professionalisierungsbereich Fach-Bachelor Umweltwissenschaften > Professionalisierungsbereich Fach-Bachelor Wirtschaftsinformatik > Professionalisierungsbereich Fach-Bachelor Wirtschaftswissenschaften > Professionalisierungsbereich Professionalisierungsbereich 2FB > Professionalisierungsbereich Zwei-Fächer-Bachelor außerschulisch
Zuständige Personen	Neu, Walter (module responsibility) Neu, Walter (Prüfungsberechtigt)
Prerequisites
Skills to be acquired in this module	The students are enabled to understand the basic concepts of Hyperloop technologies, an overview of components and safety requirements. The students gain competences in resource planning and procurement in addition to engineering and physics expertise. The application of complex tasks in Hyperloop technologies is imparted using exemplary the development of laboratory demonstrators and experimental vehicles. The students have an overview on the hyperloop transportation ecosystem and a deepened knowledge in practical applications by working on subtasks independently, problems and solu- tion approaches are coordinated in a multidisciplinary and international team, solutions are implemented or designed and documented in a comprehensible way. Part of the course will be an online seminar with presentations from students and industry experts about stateof-the-art research topics on Hyperloop Technology. An optionally excursion to a hyperloop facility enables the students to transfer the acquired course knowledge to practical experience.
Module contents	Hyperloop ecosystem Basic technologies on low pressure tube transport Vacuum technologies Hyperloop control systems Guiding and propulsion Magnetic Levitation Monitoring and safety systems Insight into practical solutions (Excursion, lab demonstrator, optionally)
Literaturempfehlungen	Recent publications on Hyperloop, literature provided by StudIP
Links
Language of instruction	English
Duration (semesters)	1 Semester
Module frequency	Winter
Module capacity	unrestricted

Examination	Prüfungszeiten	Type of examination
Final exam of module		1 Referat (30 – 45 Min.) mit schriftlicher Ausarbeitung (10-15 Seiten) oder 1 Portfolio (max. 3 Leistungen) ↵1 presentation (talk 30 - 45 min. and 10 - 15 pages of written work) or 1 portfolio (max. 3 performances: Exam (30 - 60 minutes) or oral exam (15 - 30 minutes) or home work (5 - 15 pages) or presentation ↵(15-30 minutes)).

Lehrveranstaltungsform	Seminar
SWS
Frequency	--