Sander Leondaridis
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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
6 Comments. Leave new
Fun idea with the colored fluid, it adds another level to the effect. I think this project would have benefitted from a slow-motion camera, as I kind of wonder what happens at the instant that the two different colors start to intermix with each other.
The reversal was an awesome choice, love seeing the colors separate again.
I would like to see how different this experiment will go if you used a non teflon pan.
I love the slow motion as the two colors collide, and the overall motion of the liquid was very interesting
Great editing in this vid! I really liked the way you slowed the video down to focus on the boundary between the yellow and blue droplets when they interacted.
I loved the different color droplets mixed and the close view of the bubbles. Very cool!