L.104.33465 Molecular Thermodynamics (Exercises)

Course offering details

Instructors: Gabor Rutkai; Prof. Dr. Jadran Vrabec Event type: Exercise Org-unit: Maschinenbau Displayed in timetable as: MolThermo (Ü) Hours per week: 1 Language of instruction: German Min. \| Max. participants: - \| - Requirements and recommendations: Thermodynamics 1 Aim of the event: To be complemented. Target group: Students of mechanical engineering, chemical engineering, techno mathematics Contents: To be complemented. Contact person: Dr. Gábor Rutkai Literature: To be complemented. Supplementary events: Molcular Simulation

Appointments
	Date	From	To	Room	Instructors
1	Wed, 26. Oct. 2016	17:30	18:15	E 1 143	Gabor Rutkai; Prof. Dr. Jadran Vrabec
2	Wed, 2. Nov. 2016	17:30	18:15	E 1 143	Gabor Rutkai; Prof. Dr. Jadran Vrabec
3	Wed, 9. Nov. 2016	17:30	18:15	E 1 143	Gabor Rutkai; Prof. Dr. Jadran Vrabec
4	Wed, 16. Nov. 2016	17:30	18:15	Termin entfällt	Gabor Rutkai; Prof. Dr. Jadran Vrabec
5	Wed, 23. Nov. 2016	17:30	18:15	E 1 143	Gabor Rutkai; Prof. Dr. Jadran Vrabec
6	Wed, 30. Nov. 2016	17:30	18:15	Termin entfällt	Gabor Rutkai; Prof. Dr. Jadran Vrabec

Connected courses

This course is connected with the following courses:

L.104.33265 Molecular Thermodynamics

Lehrveranstaltung

Gabor Rutkai; Prof. Dr. Jadran Vrabec

Wed, 19. Oct. 2016 [16:00]-Wed, 8. Feb. 2017 [17:30]

Show course offering
L.104.33465 Molecular Thermodynamics (Exercises)

Lehrveranstaltung

Gabor Rutkai; Prof. Dr. Jadran Vrabec

Wed, 26. Oct. 2016 [17:30]-Wed, 30. Nov. 2016 [18:15]

Course offering currently shown

Contained in modules
Module
M.104.6330 Applied Energy Technology (SS 2014)
M.104.6330 Applied Energy Technology (WS 2014/15)
M.104.6330 Applied Energy Technology (SS 2015)
M.104.6330 Applied Energy Technology (WS 2015/16)
M.104.6330 Applied Energy Technology (SS 2016)
M.104.6330 Applied Energy Technology (WS 2016/17)
M.104.6330 Applied Energy Technology (WS 2011/12)
M.104.6330 Applied Energy Technology (SS 2012)
M.104.6330 Applied Energy Technology (WS 2012/13)
M.104.6330 Applied Energy Technology (SS 2013)
M.104.6330 Applied Energy Technology (WS 2013/14)
M.104.6375 Simulation in Process and Plastics Engineering (WS 2014/15)
M.104.6375 Simulation in Process and Plastics Engineering (SS 2015)
M.104.6375 Simulation in Process and Plastics Engineering (WS 2015/16)
M.104.6375 Simulation in Process and Plastics Engineering (SS 2016)
M.104.6375 Simulation in Process and Plastics Engineering (WS 2016/17)
M.104.6375 Simulation in Process and Plastics Engineering (SS 2012)
M.104.6375 Simulation in Process and Plastics Engineering (WS 2012/13)
M.104.6375 Simulation in Process and Plastics Engineering (WS 2013/14)
M.104.6395 Computer-based Engineering (SS 2014)
M.104.6395 Computer-based Engineering (WS 2014/15)
M.104.6395 Computer-based Engineering (SS 2015)
M.104.6395 Computer-based Engineering (WS 2015/16)
M.104.6395 Computer-based Engineering (SS 2016)
M.104.6395 Computer-based Engineering (WS 2016/17)
M.104.6400 Nanotechnology 1: Particles (WS 2014/15)
M.104.6410 Energy Technology (SS 2015)
M.104.6410 Energy Technology (SS 2016)
M.104.6410 Energy Technology (WS 2016/17)
M.104.6415 Process Engineering 1: Modelling and simulation (SS 2014)
M.104.6415 Process Engineering 1: Modelling and simulation (WS 2014/15)
M.104.6415 Process Engineering 1: Modelling and simulation (SS 2015)
M.104.6415 Process Engineering 1: Modelling and simulation (WS 2015/16)
M.104.6415 Process Engineering 1: Modelling and simulation (SS 2016)
M.104.6415 Process Engineering 1: Modelling and simulation (WS 2016/17)
M.104.6415 Process Engineering 1: Modelling and simulation (WS 2013/14)
M.104.6630 Applied Energy Technology (SS 2016)
M.104.6630 Applied Energy Technology (WS 2016/17)
M.104.6675 Simulation in Process and Plastics Engineering (SS 2016)
M.104.6675 Simulation in Process and Plastics Engineering (WS 2016/17)

Class session overview

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Instructors

Prof. Dr. Jadran Vrabec

Gabor Rutkai

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