Total Internal refraction experiment
Team Third // Garrett Gerchar
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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
- Art and Science
- TOC and Zotpress test
- Photons, Wavelength and Color
5 Comments. Leave new
It’s cool that the stream goes further horizontally than the first image, and it’s interesting that the laser seems to more faithfully follow the curve of the stream rather than bouncing around inside of it.
I like how it looks like it becomes more saturated going from left to right. Very interesting effect
Really cool! I think that is a nice image. What type of laser were you using?
Great image idea. I like how you illuminated the water with red light to see the flow better.
Nice image. The red color progressing throughout the water tube is a very cool color. Nice job.