FYFD

Month: September 2014

  • The Churning of Corals

    The Churning of Corals

    Corals may appear static, but near the surface the tiny hair-like cilia of these polyps are churning the water. Although it has been known for some time that corals have cilia, scientists had previously assumed they only moved water parallel to the coral’s surface. Instead recent flow visualizations show that the cilia’s movements generate larger-scale vortical flows near the coral that can help draw fresh nutrients in as well as flush waste away. This means that, instead of being reliant on currents and tides, corals can exert some control on their environment in order to get what they need. This insight into coral cilia may shed some light on the micro- and macroscopic flows generated by other cilia, like those in our lungs. For a similar example of seemingly-passive organisms generating their own flows, check out how mushrooms create air currents to spread their spores.  (Image credits: O. Shapiro et al. and MIT News; source video; h/t to Katie B)

  • Featured Video Play Icon

    Soap Film Physics

    Soap films consist predominantly of water, yet their thin, virtually two-dimensional nature is impossible for water alone to achieve. The small amount of added soap acts as a surfactant, lowering the surface tension of the fluid and preventing it from bursting into droplets. When forming a film, the soap molecules align themselves along the outer surfaces of the film, with their hydrophilic heads among the water molecules and their hydrophobic tails oriented outward. For the most part, the water molecules stay sandwiched between the surfactant layers, forming a film only about as thick as the wavelength of visible light. In fact, the psychedelic colors of a soap film are directly related to the film’s thickness with the black regions being the thinnest. The video above shows a horizontal soap film at the microscopic scale and some of the dynamics exist therein. (Video credit: J. Hart)

  • ALS Ice Bucket Challenge

    ALS Ice Bucket Challenge

    When fluid dynamicists get into the ALS ice bucket challenge, they give it a good fluidsy twist. Here are some selections, including lots of high speed video and an infrared video. Check out all those liquid sheets breaking up. Links to the full videos are below. (Image credits: Ewoldt Research Group, source videoTAMU NAL, source video; BYU Splash Lab, source videos 1, 2, 3, 4)