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John O Dabiri

Showing results (1-10 of 60) with videos related to

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Nature|March 14, 2019
"Work on problems you most enjoy" - Munk's legacyJohn O Dabiri
Nature|July 13, 2017
Biomechanics: How fish feel the flowJohn O Dabiri
Bioinspiration & Biomimetics|September 13, 2007
Renewable fluid dynamic energy derived from aquatic animal locomotionJohn O Dabiri
The Journal of Experimental Biology|September 13, 2005
On the estimation of swimming and flying forces from wake measurementsJohn O Dabiri
Integrative and Comparative Biology|June 19, 2026
Buoyancy-Dependent Flow Generation by Collectively Migrating SwimmersNina Mohebbi, John O Dabiri
Proceedings. Biological Sciences|July 29, 2005
The role of optimal vortex formation in biological fluid transportJohn O Dabiri, Morteza Gharib
The Journal of Experimental Biology|January 1, 2008
An overview of a Lagrangian method for analysis of animal wake dynamicsJifeng Peng, John O Dabiri
The Journal of Experimental Biology|August 12, 2008
The 'upstream wake' of swimming and flying animals and its correlation with propulsive efficiencyJifeng Peng, John O Dabiri
The Journal of Experimental Biology|September 11, 2003
Sensitivity analysis of kinematic approximations in dynamic medusan swimming modelsJohn O Dabiri, Morteza Gharib
Nature|July 31, 2009
A viscosity-enhanced mechanism for biogenic ocean mixingKakani Katija, John O Dabiri
Pageof 6

Showing results (1-10 of 60) with videos related to

Sort By:
Pageof 6
Nature|March 14, 2019
"Work on problems you most enjoy" - Munk's legacyJohn O Dabiri
Nature|July 13, 2017
Biomechanics: How fish feel the flowJohn O Dabiri
Bioinspiration & Biomimetics|September 13, 2007
Renewable fluid dynamic energy derived from aquatic animal locomotionJohn O Dabiri
The Journal of Experimental Biology|September 13, 2005
On the estimation of swimming and flying forces from wake measurementsJohn O Dabiri
Integrative and Comparative Biology|June 19, 2026
Buoyancy-Dependent Flow Generation by Collectively Migrating SwimmersNina Mohebbi, John O Dabiri
Proceedings. Biological Sciences|July 29, 2005
The role of optimal vortex formation in biological fluid transportJohn O Dabiri, Morteza Gharib
The Journal of Experimental Biology|January 1, 2008
An overview of a Lagrangian method for analysis of animal wake dynamicsJifeng Peng, John O Dabiri
The Journal of Experimental Biology|August 12, 2008
The 'upstream wake' of swimming and flying animals and its correlation with propulsive efficiencyJifeng Peng, John O Dabiri
The Journal of Experimental Biology|September 11, 2003
Sensitivity analysis of kinematic approximations in dynamic medusan swimming modelsJohn O Dabiri, Morteza Gharib
Nature|July 31, 2009
A viscosity-enhanced mechanism for biogenic ocean mixingKakani Katija, John O Dabiri
Pageof 6