Nicole Sharp4d ago

“Arctic Fox in Blizzard”

A blue arctic fox bears the wind and snow of a Norwegian blizzard in this image by photographer Klaus Hellmich. The wind is strong enough to move snowflakes several centimeters in the time the camera’s shutter is open. This leaves the image full of streaklines that reveal the paths taken by the wind and snow. This visualization technique is useful in the lab, too. (Image credit: K. Hellmich; via Colossal)

#flowVisualization #fluidDynamics #fluidsAsArt #physics #science #streaklines
Nicole SharpMar 6

“Crystal Garden – Seasons”

In this latest project, the Beauty of Science team explores colorful crystallization as chemicals precipitate out of evaporating solutions. The variety of shapes and colors is incredible. To see many more of these crystalline “gardens,” check out the video below and the project’s webpage. (Video and image credit: W. Zhu/Beauty of Science; via Colossal)

https://vimeo.com/1155318039?fl=pl&fe=cm

#crystalGrowth #evaporation #fluidDynamics #fluidsAsArt #physics #science #timelapse
Nicole SharpFeb 13

A Bubbly Heart

Next time you fill your water bottle, watch closely and see if you can spot a bubble heart like these. When a jet falls into a pool, it pulls air in with it. The low pressure of the jet pulls bubbles inward, even as shear pulls the bubbles downward with the sinking liquid. If the bubbles are large and there’s enough momentum in the jet, the lower portion of the bubble will get pulled into a conical shape, while the upper portion remains a hemisphere. That forms one lobe of the heart. The other half requires a second bubble. But with a little patience and luck, you can form a complete heart. Happy Valentine’s Day! (Image credit: S. Tuley et al.)

#2025gofm #bubbles #fluidDynamics #fluidsAsArt #jets #physics #science #surfaceTension
Nicole SharpJan 30

Caught in a Spider’s Web

Grains of pollen are caught amid droplets on a spider’s web in this award-winning image by John-Oliver Dum. How droplets behave on fibers has been a popular topic in recent years with research on how droplets nestle into corners, how they slide on straight or twisted wires, the patterns formed by streams of falling drops, and what happens to a droplet on a plucked string. (Image credit: J. Dum; via Ars Technica)

#biology #droplets #fluidDynamics #fluidsAsArt #physics #science #surfaceTension
Nicole SharpJan 23

Radiant Waves

Photographer Kevin Krautgartner captures the powerful waves of Western Australia from above. His latest series, Waves | Ocean Forces, features luminous turquoise waves, crystalline foam, and brilliant beaches. I could delight in staring at them for hours. Fortunately, he sells prints on his website! (Image credit: K. Krautgartner; via Colossal)

#fluidDynamics #fluidsAsArt #oceanWaves #physics #science #turbulence
Nicole SharpJan 16

A Drop of Algae

Spheres of a Volvox colonial algae glow green inside a droplet in this award-winning microphotograph by Jan Rosenboom. Pinned on an inclined surface, the droplet is frozen in a balance between gravity and surface tension that keeps its shape–and its contact angles–asymmetric. Droplets will also take on a shape similar to this when air is blowing past them. (Image credit: J. Rosenboom; via Ars Technica)

#biology #contactLine #droplets #fluidDynamics #fluidsAsArt #science #sessileDrop
Nicole SharpJan 9

“Glacial River Blues”

Glacier-fed rivers are often rich in colorful sediments. Here, photographer Jan Erik Waider shows us Iceland’s glacial rivers flowing primarily in shades of blue. While the wave action and diffraction in these videos is great, the real star is the turbulent mixing where turbid and clearer waters meet. Watch those boundaries, and you’ll see shear from flows moving at different speeds which feeds the ragged, Kelvin-Helmholtz-unstable edge between colors. (Video and image credit: J. Waider; via Laughing Squid)

#flowVisualization #fluidDynamics #fluidsAsArt #glacier #instability #KelvinHelmholtzInstability #physics #rivers #science #turbidity #turbulence #turbulentMixing
Nicole SharpJan 2

“Rivers and Dunes”

Taken from a Cessna aircraft, photographer J. Fritz Rumpf’s image of a Brazilian landscape appears abstract. But it captures a serpentine river and surrounding dunes, dyed brown by decaying plant matter and sculpted by the forces of wind and current. This shot is part of a portfolio that won him the title of 2025 International Landscape Photographer of the Year. (Image credit: J. Rumpf; via ILPOTY)

#dunes #erosion #fluidDynamics #fluidsAsArt #physics #science
Nicole SharpJan 1

The Best of FYFD 2025

Happy 2026! This will be a big year for me. I’ll be finishing up and turning in the manuscript for my first book — which flows between cutting edge research, scientists’ stories, and the societal impacts of fluid physics. It’s a culmination of 15 years of FYFD, rendered into narrative. I’m so excited to share it with you when it’s published in 2027.

As always, though, we’ll kick off the year with a look back at some of FYFD’s most popular posts of 2025. (You can find previous editions, too, for 2024, 202320222021202020192018201720162015, and 2014.) Without further ado, here they are:

  • Charged Drops Don’t Splash
  • Strata of Starlings
  • Espresso in Slow-Mo
  • The Incredible Engineering of the Alhambra
  • Uranus Emits More Than Thought1
  • Kolmogorov Turbulence
  • Bow Shock Instability
  • How Particles Affect Melting Ice
  • The Puquios System of Nazca
  • Cooling Tower Demolition
  • A Glimpse of the Solar Wind
  • Bubbling Up
  • A Sprite From Orbit
  • Cornflower Roots Growing
  • How Sunflowers Follow the Sun

What a great bunch of topics! I’m especially happy to see so many research and research-adjacent posts were popular. And a couple of history-related posts; I don’t write those too often, but I love them for showing just how wide-ranging fluid physics can be.

Interested in keeping up with FYFD in 2026? There are lots of ways to follow along so that you don’t miss a post.

And if you enjoy FYFD, please remember that it’s a reader-supported website. I don’t run ads, and it’s been years since my last sponsored post. You can help support the site by becoming a patronbuying some merch, or simply by sharing on social media. And if you find yourself struggling to remember to check the website, remember you can get FYFD in your inbox every two weeks with our newsletter. Happy New Year!

(Image credits: droplet – F. Yu et al., starlings – K. Cooper, espresso – YouTube/skunkay, fountain – Primal Space, Uranus – NASA, turbulence – C. Amores and M. Graham, capsule – A. Álvarez and A. Lozano-Duran, melting ice – S. Bootsma et al., puquios – Wikimedia, cooling towers – BBC, solar wind – NASA/APL/NRL, Lake Baikal – K. Makeeva, sprite – NASA, roots – W. van Egmond, sunflowers – Deep Look)

  • I know what I did. ↩︎
    • #biology #bowShock #espresso #flowVisualization #fluidDynamics #fluidsAsArt #history #ice #melting #physics #plants #science #shockwave #solarWind #splashes #sprite #turbulence #Uranus
    Nicole SharpDec 26

    “Moment of Creation”

    Bubbles caught in ice resemble the growth of a cellular organism in this photograph of Tatiewa Lake in Japan, taken by Soichiro Moriyama. When water freezes, gases dissolved in it come out of solution, but depending on the speed and direction of freezing, these bubbles do not always escape before ice forms around them, freezing pockets of gas within the ice’s structure. (Image credit: S. Moriyama; via ILPOTY)

    #bubbles #dissolution #fluidDynamics #fluidsAsArt #freezing #ice #physics #science