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Bug on waterPodcastSurface tension, which governs the dynamics at the boundary between water and air, is what allows some bugs to walk on water. The mechanisms driven by surface tension involve trigonometry, differential geometry, and differential equations, and are being investigated in order to design more efficient structures, such as hulls with reduced drag. The research is being done by biologists, physicists, mathematicians, and engineers, who form a dynamic human interface that is attempting to understand and harness an important interface in the natural world.

Surface tension also plays a significant role in the transmission of disease. Recent experiments conducted by mathematicians using high-speed video show that droplets emitted by sneezing or coughing are carried in a gas-liquid cloud. The smaller droplets, which may penetrate respiratory tracts more easily, travel 5-200 times farther in the cloud than they would on their own and can reach ventilation ducts meters away. The experiments have guided the development of a class of mathematical models of these clouds based on multiphase flow dynamics incorporating the momentum, buoyancy, and turbulence involved. Results from the experiments should suggest improvements in the designs of classrooms, airplanes, and hospital rooms that would reduce the risk of the transmission of disease-carrying particles.

Lydia Bourouiba
Lydia Bourouiba
MIT
Top image by Christine Walsh

Exploiting a Little-Known Force
Podcast MP3 [ Part 1, Part 2 ]

 

Lydia Bourouiba talks about surface tension and the transmission of disease: "I really think that the language of mathematics in general is something that is continuously growing in terms of impacting the biological and health fields and I am hoping that the next generations will contribute even more in understanding the very, very complex biological systems that are out there with the methods of physical mathematics and mathematical modeling."

For More Information: "Water’s Tough Skin," Elizabeth Pennisi, Science, March 14, 2014.