Reynolds Number

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

          Popular scientific theory suggests that life on earth originated in a primordial ocean billions of years ago. Basic prokaryotic cells allegedly diverged into eukaryotes, and chloroplasts that produce oxygen later appeared. The first organisms with functioning chloroplasts are presumed to be a kind of marine algae. The genus of…

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Phenotypic Adaptation of Daphnia Throughout Evolution

Abstract Daphnia, referred to as water fleas due to their distinctive hop-and-sink swimming pattern, are commonly found navigating freshwater lakes and ponds. Their phenotype, finely tuned to their environment and way of life, is dynamically adaptive throughout their lifecycle, showcasing variations in eye size, carapace shape, and swimming behaviors. Their compound

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Copepods Through the Lens of Math

Abstract The silent artistic order of the natural world has been revealed through mathematical concepts such as the Fibonacci sequence or the Golden Ratio. The beauty of nature is not random chaos but a manifestation of seemingly abstract mathematics. This review paper will present copepods through the distinct lens of

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Copepods Through the Lens of Physics

Abstract This research paper will present copepods from a physics approach while focusing on three key aspects. To begin, the low Reynolds number environment in which copepods reside makes them face entirely different challenges than larger organisms when it comes to the basics for survival like moving, eating, detecting, and

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

In this essay, we explore tintinnids’ survival designs within the context of fundamental physics principles. Tintinnids employ diverse mechanisms to outmaneuver predators, locate prey, and safeguard themselves. To avoid predators, tintinnids utilize specific swimming patterns, attach to groups of particles, develop symbiotic relationships with diatoms, and have undergone morphological adaptations…

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

Dinoflagellates are unicellular eukaryotic cells. There are around 2400 known species of dinoflagellates. This phylum is very diverse; among different species, we observe several unique characteristics of behavior and morphology. All dinoflagellates, however, have two flagella. These flagella allow them to swim in a unique and interesting manner. A dinoflagellate…

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How Computers and Robotics Helped Us Understand Flippers

Introduction The advancement of technology has allowed researchers to develop efficient software which aids in the recognition of animals based on their flippers, conduct experiments to further examine the parameters which define the efficacy of these limbs, and manufacture robots which simulate marine animals and their flippers to deepen the

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