A viscous fluid flowing through a channel, demonstrating surface tension and Bernoulli’s principle. Image created with help from Brandon Gushlaw, Peilin Yang, and Winston Douglass.
Team Third // Noah Granigan
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Flow Vis Guidebook
- Introduction to the Guidebook
- Overview 1: Phenomena. Why Does It Look Like That?
- Overview 2: Visualization Techniques
- Overview 3: Lighting
- Overview 4 - Photography A: Composition and Studio Workflow
- Overview 4 - Photography B: Cameras
- Overview 4 - Photography C: Lenses - Focal Length
- Overview 4 - Photography C: Lenses - Aperture and DOF
- Overview 4: Photography D: Exposure
- Overview 4 - Photography E - Resolution
- Overview 5 - Post-Processing
- Clouds 1: Names
- Clouds 2: Why Are There Clouds? Lift Mechanism 1: Instability
- Clouds 3: Skew - T and Instability
- Clouds 4: Clouds in Unstable Atmosphere
- Clouds 5: Lift Mechanism 2 - Orographics
- Clouds 6: Lift Mechanism 3 - Weather Systems
- Boundary Techniques - Introduction
- Dye Techniques 1 - Do Not Disturb
- Dye Techniques 2 - High Visibility
- Dye Techniques 3 - Light Emitting Fluids
- Refractive Index Techniques 1: Liquid Surfaces
- Refractive Index Techniques 2: Shadowgraphy and Schlieren
- Particle Physics: Flow and Light
- Particles 2: Aerosols
- Particles 3: In Water - Under Construction
- Art and Science
- TOC and Zotpress test
- Photons, Wavelength and Color
5 Comments. Leave new
I really like the choice to black out all the surroundings. It really makes it pop, and it makes the interesting track color stand out too.
I like this one a lot, the lines are really cool! The blue on black is great, this almost reminds me of yin and yang. Nice!!
This is so cool. The framing is great, and I really am impressed by the impact of the image.
Very cool! Really love the contrast that you were able to capture in this image. The surface tension at the top of the U is very nice!
I really like the bright blue color on the black background. Really nice clearly!