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LabView and Femlab for (Bio)Physicists – Übersicht

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Programming in LabView and Simulating in Femlab for (Bio)Physicists

Informationen zur Vorlesung

Zeit und Ort

Friday 12.30 - 14.00, Kleiner Physikhörsaal (N020)

We offer a hands-on course on programming in biophysical (and other) experiment setups with Labview. The second half will introduce to the intricacies of finite element calculations of partial differential equations using Femlab. Course is a "Schlüsselqualifikation" without mark or test, but can be also treated in special cases as Seminar. Value: 3CP. Lecture within the Biophysics Program of the Physics Master

-------- Please bring your own Notebook! ---------

19.4. Introduction.
Installation of Labview, Useful Preferences, Bacterial Growth

26.4. AutoIndexing, For-Loops, Buttons, Array Operators, Stack example (Button Example)

3.5. Hardware: Analog input, output, Digital input, output, Shift Registers (Code examples)

10.5. First Clusters, Runge Kutta / Cash-Karp, Arrays and Shift Registers, Nonlinear Fitting with Levenberg-Marquardt (Beispielprogramm V3, Sinusfit)

17.5. Saving Controls, SubVIs, Calling Fileindexes

24.5. Introduction to Igor

31.5. 2D Gauss Fitting, CIN-Nodes, ODE with Cash-Karp, Error calculation (all Routines of today)

7.6. Femlab, first steps: Wind channel (Tractor in wind tunnel)

14.6.  Stokes Drag of a sphere, Thermal conductivity (Femlab-Files)

21.6. Femlab: Navier Stokes and Diffusion (Model Files)

28.6. Femlab: Convection and Thermophoresis Time Dependent,
Acoustics of a Room, Conducting Copper, Quantum Mechanics, Hydrogen Atom (Model files)

5.7. Femlab: Acoustics Examples and House insulation

12.7. Frequently asked questions

19.7. Oral Exam for Candidates needing a mark

Verantwortlich für den Inhalt: Dieter Braun