Bioengineering Hyperbook

Department of Bioengineering


Category: Reynolds Number

Just Keep Swimming: Structure, Movement, and Light Interactions of Unicellular Green Algae

Unicellular green algae, stress, locomotion, kinematics, swimming, light properties

Ai-Lan Ji-Eun Nguyen, Tesnim Obey, Anders Schwarz, Jackson Yu

Phenotypic Adaptation of Daphnia Throughout Evolution

Compound eye, swimming, adaptation, defense mechanisms, Stokes' law

Eva Otell, Iris Sun, Marwan Sobh, Rémi Ouellette, Xinying Wang

Copepods Through the Lens of Math

Low-Reynolds, swimming, diel vertical migration, reflectance, molting, coloration, crustacean

Johanna Turton, Melodi Rousset, Philippe Mercier, Tanjin Sultana

Copepods Through the Lens of Physics

Mechanoreception, low reynolds, clap and fling or Weis-Fog, fluid mechanics, Wagner effect, coloration

Johanna Turton, Melodi Rousset, Philippe Mercier, Tanjin Sultana

Discussion of Nature’s Design Solutions in Tintinnids: Masters of Microzooplankton Survival

Tintinnids, plankton, geometry, buoyancy, swimming, aquatic ecosystems

Alexa Bailey, Lou Cubberly, Margaux-Blondin Routhier, Niall Slack-Watkins

Physical Principles Governing the Movement of Dinoflagellates and The Implications for Their Interactions in Aquatic Ecosystems

Dinoflagellates, flagella, swimming, kinematics, Reynolds number, fluid dynamics

Thalia Azadian, Arda Barlas, Sophia Chen, Simon Girard

How Computers and Robotics Helped Us Understand Flippers

Flippers, biometrics, fluid dynamics, Reynolds number, biomimicry, swimming

McKenna Baron, Nour Hanna, Guillaume Rodier, Gabriel Straface