Jeremiah Chen_Team Third Report
Jeremiah Chen – Team Third
Categories
- 2021 Fall (219)
- Admin (5)
- Flow Categories (1,007)
- Clouds (387)
- Altocumulus (60)
- Altocumulus Lenticularis (72)
- Altostratus (49)
- Atmospheric Optical Phenomena (7)
- Anticrepuscular Rays (1)
- Crepuscular Rays (4)
- Banner Cloud (1)
- Cirrocumulus (11)
- Cirrostratus (13)
- Cirrus (34)
- Contrail (9)
- Cumulonimbus (9)
- Cumulus (51)
- Cumulus Congestus (6)
- Foehn Cloud Wall (7)
- Fog (6)
- Kelvin-Helmholtz Waves (7)
- Mountain Wave (85)
- Nighttime (3)
- Nimbostratus (4)
- Radiatus (2)
- Stratocumulus (96)
- Stratus (14)
- Sunrise (24)
- Sunset (83)
- Undulatus (15)
- Combustion/Explosions (67)
- Fire: Partially Premixed/Turbulent Flames (35)
- Ignition (6)
- Premixed flame (4)
- Rubin's Tube (6)
- Sparks (9)
- Convective Cell (4)
- Ferrofluid (34)
- Fluid-Structure Interaction (15)
- Mixing (55)
- Nondiffusive (25)
- Turbulence (13)
- Multiphase (317)
- Foams and Soap Bubbles (46)
- Hydraulic Jump (5)
- Ice (12)
- Leidenfrost (13)
- Lensing (12)
- Liquids in Air (51)
- Rising Bubbles (30)
- Smoke and Fog (53)
- Soap Films (23)
- Splashes (74)
- Worthington Jet (27)
- Sprays (17)
- Surface Tension (69)
- Water Surface (30)
- NonNewtonian (47)
- Kaye Effect and Rope Coiling (14)
- Oobleck (22)
- Paint (5)
- Plumes and Drops (91)
- Buoyant (10)
- Negatively Buoyant (39)
- Rayleigh-Taylor Instability (52)
- Saffman-Taylor Instability (27)
- Vortexes (75)
- Bathtub Drain (4)
- Spiral Vortex View (19)
- Vortex Ring (38)
- Vortex Side View (21)
- Wakes, Jets, Shear (63)
- Waves (21)
- Clouds (387)
- Flow Vis Techniques (427)
- Chemiluminescence (29)
- Fluorescence (14)
- Marked Area (201)
- Laser Sheet (8)
- Particle Tracks (11)
- Refractive Index (118)
- Rheoscopic Fluid (10)
- Slow Motion (28)
- Thermal Emission (45)
- Thin Film Interference (21)
- Time Lapse (9)
- Wall Shear (8)
- flow visualization (1)
- Media (757)
- No category (92)
- z Class & Assignment (2,185)
- 2013 (278)
- 2013 Spring Clouds First (47)
- 2013 Spring Clouds Second (46)
- 2013 Spring Get Wet (48)
- 2013 Spring Team First (46)
- 2013 Spring Team Second (45)
- 2013 Spring Team Third (46)
- 2014 (254)
- 2014 Clouds First (43)
- 2014 Clouds Second (42)
- 2014 Get Wet (43)
- 2014 Team First (43)
- 2014 Team Second (41)
- 2014 Team Third (42)
- 2015 (247)
- 2015 Clouds First (42)
- 2015 Clouds Second (41)
- 2015 Get Wet (41)
- 2015 Team First (41)
- 2015 Team Second (41)
- 2015 Team Third (41)
- 2016 (275)
- 2016 Best of Web (47)
- 2016 Clouds First (38)
- 2016 Clouds Second (38)
- 2016 Get Wet (38)
- 2016 Team First (38)
- 2016 Team Second (38)
- 2016 Team Third (38)
- 2018 Fall (235)
- 2018 Fall Best of Web (36)
- 2018 Fall Clouds First (33)
- 2018 Fall Clouds Second (33)
- 2018 Fall Get Wet (34)
- 2018 Fall Team First (34)
- 2018 Fall Team Second (32)
- 2018 Fall Team Third (33)
- 2018 Spring (423)
- 2019 Fall (304)
- 2019 Extra Images (3)
- 2019 Fall Best of Web (44)
- 2019 Fall Clouds First (43)
- 2019 Fall Clouds Second (43)
- 2019 Fall Get Wet (43)
- 2019 Fall Team First (43)
- 2019 Fall Team Second (43)
- 2019 Fall Team Third (42)
- 2020 Fall (172)
- 2020 Fall Best of Web (29)
- 2020 Fall Clouds First (29)
- 2020 Fall Clouds Second (20)
- 2020 Fall Image-Video 1 (29)
- 2020 Fall Image-Video 2 (29)
- 2020 Fall Image-Video 3 (28)
- 2020 Fall Image-Video 4 (9)
- 2013 (278)
Flow Vis Guidebook
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
- Boundary Techniques - Introduction
- Dye Techniques 1 - Do Not Disturb
- Dye Techniques 2 - High Visibility
- Dye Techniques 3 - Light Emitting Fluids
- Photons, Wavelength and Color
- Refractive Index Techniques
- Art and Science
- TOC and Zotpress test
14 Comments. Leave new
Very festive look to this photo, with a touch of neon! Very cool photo with great focus and composition. The end result looks great.
Love the colors! Very fitting for chirstmas coming up! Love how you can see the details of the paint interacting with the water. Looks like a cloud almost.
Excellent texture in this image. The holiday colors add a nice touch. Possibly consider cropping the image down a little to just below the surface of the water.
Awesome detail and focus. Great contrast between the green and red paint. Great image!
Great focus and illustration of the physics
The light to dark transitions in the folds of the paint are perfectly captured!
1. Artistically great. The turkey baster is well themed with the holiday colors even though it’s not pictured. The vibrancy of the holiday colors is really nice.
2. The physics are well shown.
3. The photographic technique is very good.
this image looks like the paint jets are racing to me and the green is having a tough time getting off the line. cool image.
Seeing the different stages of diffusion is interesting and seeing how the colors react differently.
The image is well-resolved and shows all of the depth in the 3D folds in both plumes during the diffusion. I am curious what the image would have looked like if the plumes over lapped and/or interacted in the latter shots of this sequence.
Interesting comparison between the two different injection methods. The shapes produced by this phenomena are very beautiful, nice capture.
I really like the holiday colors. Very festive. The image is clear and crisp. The flow can be easily seen.
Great contrast. I like the display of two different stages of the jet. Amazing focus and detail shown in the red cloud.
I love the contrast of red and green color to result in very distinct comparison! Great image!