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Simulations of swimming fish suggest fish may naturally prefer to compete—not cooperate—during swimming

Researchers have shown how different swimming formations may save fish energy and suggest that they only switch positions to save energy for the group when under pressure. ....

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Unraveling the mathematics behind wiggly worm knots

Unraveling the mathematics behind wiggly worm knots
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United States , University Of Southern California , Stanford University , Emily Kaufman , Harry Tuazon , David Qin , Eva Kanso , Catherine Barzler , Candler Hobbs , Vishal Patil , Tuhin Chakrabortty , Saad Bhamla , National Science Foundation , School Of Chemical , Tiny California , Biomolecular Engineering , Georgia Tech ,

Unraveling the mathematics behind wiggly worm

Georgia Tech researchers wanted to understand precisely how blackworms execute tangling and ultrafast untangling movements for a myriad of biological functions. To investigate, they linked up with mathematicians at MIT to understand the topology of the tangles. Their research could inform the design of fiber-like, shapeshifting robotics that self-assemble and move in ways that are fast and reversible. The study also highlights how cross-disciplinary collaboration can answer some of the most perplexing questions in disparate fields. ....

United States , Stanford University , University Of Southern California , Emily Kaufman , Saad Bhamla , Eva Kanso , Candler Hobbs , Vishal Patil , David Qin , Catherine Barzler , Harry Tuazon , Tuhin Chakrabortty , Method Of Research , School Of Chemical , National Science Foundation , Biomolecular Engineering , Georgia Tech ,

Could mapping tiny hairlike structures help treat lung illnesses?

Body Copy
Cilia, microscopic hairlike structures found along the bronchi (air passages throughout the lungs), are the first line of defense against environmental pollutants, viruses and bacteria. But we know little about how they are arranged, how they move or even how they are oriented–all factors which likely impact how well they defend and protect our airways.
With support from the National Institutes of Health, researchers from the USC Viterbi School of Engineering and the Keck School of Medicine of USC are working to bridge mathematical models of cilia behavior to biological and pathological (disease-causing) consequences. In other words, they hope to better understand how changing a variable in how cilia beats or how it is spaced might impact an individual’s health. ....

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