This image is taken of a leaf under a source of laminar flow. When the water hits the leaf, it is spread per the geometry of the surface, flattening into a sheet that is broken in symmetric locations by the leaf’s sharp edges. Different sources of light play off the spray, displaying the contours of the water as it fluctuates from laminar to turbulent. The surface tension of the water is also visible in its rounded shape as it flows.
Image-Video 1// Jillian Weber
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
- 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
- Clouds 3: Skew - T
Categories
- 2022 (89)
- 2022 Best of Web (31)
- 2022 Get Wet (Vis 1) (29)
- 2022 Team First (Vis 2) (25)
- Admin (5)
- Flow Categories (1,011)
- Clouds (388)
- Altocumulus (60)
- Altocumulus Lenticularis (72)
- Altostratus (50)
- Atmospheric Optical Phenomena (7)
- Anticrepuscular Rays (1)
- Crepuscular Rays (4)
- Banner Cloud (1)
- Cirrocumulus (11)
- Cirrostratus (14)
- 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 (68)
- 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 (319)
- Foams and Soap Bubbles (46)
- Hydraulic Jump (5)
- Ice (12)
- Leidenfrost (13)
- Lensing (12)
- Liquids in Air (51)
- Rising Bubbles (31)
- Smoke and Fog (53)
- Soap Films (23)
- Splashes (75)
- 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 (92)
- 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 (388)
- 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 (762)
- No category (91)
- z Class & Assignment (2,404)
- 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)
- 2021 Fall (219)
- 2013 (278)
17 Comments. Leave new
I enjoy how you captured the laminar flow across the top of the leaf and as the flow begins to break up after it leaves the leaf. The intersecting flows at the edges of the leaf are really cool too!
I like how you framed this image and the shape of the laminar flow that the water has taken
You did a really good job with the focus of the image. I also how you were able to capture the water as it was flowing off the leaf.
I love the sharpness captured in this image. Really great job with this!
I like how you captured the effect of the points of the leaf on the water flow. It makes for a very captivating image.
The leaf at the top right is what initial captures my attention with its bright color. I like how the water flows in three distinct directions.
This is an interesting photo. The way that the water flows in a nice mostly smooth sheet looks nice and the mirror makes it look like the whole sheet of water is floating in the air.
The very vibrant green of the leaf is quite eye catching. I think that the amber and white light reflections are interesting as well.
I really love the light reflections on the water – really shows its moving!
Very cool photo, I like the composition and the lighting. The leaf also helps direct your eye to the focused diagnal.
I really like the framing of the image. It almost feels like the leaf is in a stream. Also really like how the center of the image is in focus and it blurs towards the edges. The way the geometry of the leaf redirects the incoming laminar flow differently in different parts is really interesting. Nice work!
How you used the mirror to reflect the light to get the various colors in the photo was a great idea. I wouldn’t have realized this was something done inside rather than at a stream.
The color use in the top right corner is wonderful. It adds warm tone to the photograph, and really improves the aesthetic appeal of the photo.
I really like the shape the water takes on because of the geometry of the leaf, making it look like a subtle variation of the original. The lighting is very nice and makes the water look very beautiful as it covers the leaf.
I really like how you were able to capture the ripples of the of this stream! With no breaks in the stream, it gives off a very calming effect.
Awesome lighting in the photo! the leaf is very sharpened!
I really like the diagonal composition of this photo with the leaf and water source coming from the upper right corner. I also like how we can see the edge of the water flow in the other corners. The framing in this photo is really nice. You also did a good job with the contrast. The water is very visible due to the light reflecting and refracting. It is easy to see the flow of the water.