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Poslední úprava: T_KFNT (07.05.2015)
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Poslední úprava: doc. Dr. Marco La Mantia, Ph.D. (09.10.2017)
Students can enrol to the course only once. |
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Poslední úprava: doc. Dr. Marco La Mantia, Ph.D. (09.10.2017)
W. Guo, M. La Mantia, D. P. Lathrop and S. W. Van Sciver (2014) Visualization of two-fluid flows of superfluid Helium-4, Proceedings of the National Academy of Sciences of the United States of America 111:4653-4658 M. Raffel, C. E. Villert, S. T. Werely and J. Kompenhans (2007) Particle image velocimetry - a practical guide, Springer L. Skrbek et al. (2011) Fyzika nízkých teplot, Matfyzpress M. Van Dyke (1982) An album of fluid motion, Parabolic Press |
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Poslední úprava: doc. Dr. Marco La Mantia, Ph.D. (09.10.2017)
The course examination is oral. The final mark takes also into account the students' active participation to the course during the semester. |
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Poslední úprava: doc. Dr. Marco La Mantia, Ph.D. (09.10.2017)
Introduction to fluid motions
Qualitative flow visualization techniques, e.g., those that employ rheoscopic fluids
Quantitative flow visualization techniques, such as particle image velocimetry and particle tracking velocimetry (in both techniques small particles are suspended in the fluid and employed to trace its motion); corresponding particle dynamics
Introduction to quantum flows, with special emphasis given to quantized vortex dynamics and thermal counterflow
Cryogenic flow visualization techniques, especially those that employ micrometer-sized solid hydrogen particles and metastable helium molecules
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