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

    Course

    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)

    Course

    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 ()
M.104.6330 Applied Energy Technology ()
M.104.6330 Applied Energy Technology ()
M.104.6330 Applied Energy Technology ()
M.104.6330 Applied Energy Technology ()
M.104.6330 Applied Energy Technology ()
M.104.6330 Applied Energy Technology ()
M.104.6330 Applied Energy Technology ()
M.104.6330 Applied Energy Technology ()
M.104.6330 Applied Energy Technology ()
M.104.6330 Applied Energy Technology ()
M.104.6375 Simulation in Process and Plastics Engineering ()
M.104.6375 Simulation in Process and Plastics Engineering ()
M.104.6375 Simulation in Process and Plastics Engineering ()
M.104.6375 Simulation in Process and Plastics Engineering ()
M.104.6375 Simulation in Process and Plastics Engineering ()
M.104.6375 Simulation in Process and Plastics Engineering ()
M.104.6375 Simulation in Process and Plastics Engineering ()
M.104.6375 Simulation in Process and Plastics Engineering ()
M.104.6395 Computer-based Engineering ()
M.104.6395 Computer-based Engineering ()
M.104.6395 Computer-based Engineering ()
M.104.6395 Computer-based Engineering ()
M.104.6395 Computer-based Engineering ()
M.104.6395 Computer-based Engineering ()
M.104.6400 Nanotechnology 1: Particles ()
M.104.6410 Energy Technology ()
M.104.6410 Energy Technology ()
M.104.6410 Energy Technology ()
M.104.6415 Process Engineering 1: Modelling and simulation ()
M.104.6415 Process Engineering 1: Modelling and simulation ()
M.104.6415 Process Engineering 1: Modelling and simulation ()
M.104.6415 Process Engineering 1: Modelling and simulation ()
M.104.6415 Process Engineering 1: Modelling and simulation ()
M.104.6415 Process Engineering 1: Modelling and simulation ()
M.104.6415 Process Engineering 1: Modelling and simulation ()
M.104.6630 Applied Energy Technology ()
M.104.6630 Applied Energy Technology ()
M.104.6675 Simulation in Process and Plastics Engineering ()
M.104.6675 Simulation in Process and Plastics Engineering ()
Class session overview
  • 1
  • 2
  • 3
  • 4
  • 5
  • 6
  •  
  •  
  •  
  •  
Instructors
Prof. Dr. Jadran Vrabec
Gabor Rutkai