15.0K
MAFocus stacking a snowflake❄️
Gear used: OM-5 & 90mm F3.5 macro lens & MC-14 teleconverter.
Some tweaks in Lightroom.
@marja_photo
#Snowflake Postgres Feature
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37.4K
ALZoom-in details of 5 real snowflakes
#snowflakes #macro #symmetry #hexagon #reels #design #crystals #macrophotography #macrophoto #snowflake #glitter #dark #glow #physics #science #closeup #zoom #photograper #alexeykljatov #details #photography #elegance #pattern #stars
@alexey_kljatov
466.0K
INIn 1923, Wilson Bentley captured the first-ever successful images, or "photomicrographs," of a single snowflake. ❄️
Through trial and error, Bentley perfected a technique to photograph crystals through a microscope, hoping to highlight the beauty of nature and the uniqueness of each flake.
"Under the microscope, I found that snowflakes were miracles of beauty; and it seemed a shame that this beauty should not be seen and appreciated by others,” Bentley later said. His work was published in @NatGeo magazine, showcasing the delicate beauty and geometry of snow crystals.
@insidenatgeo
211.0K
FAFinite Area , Infinite Perimeter | Koch Snowflake
Sorry about the shaky movements at the end,. It's because the camera is following the fast moving zig zag path. I stabilized the video in capcut , but working on stabilizing it natively from coding side. Hope to post second version soon!
What fascinates you the most when it comes to infinity ?
@fascinating.fractals
1.6M
GEReversed video of snowflake melting — Why are snowflakes hexagonal? Since the molecules in the ice crystals are in a hexagonal structure, an arrangement that allows water molecules — each with an oxygen atom and two hydrogen atoms — to form in the most efficient way. They can form columns and even narrow needles. But the most common is a hexagonal plate. The basic reason is that when water freezes it forms a hexagon made of 6 molecules, which has a bent geometry and a polar design where oxygen is negative and hydrogen is positive.
The shapes of the snowflakes are influenced by the temperature and humidity of the atmosphere and are formed when the drops of water freezes on the particles of dust in the air. Depending on the temperature and humidity of the air where they form, the ice crest can grow in a multitude of different shapes.
The hexagonal fractal pattern is a geometric archetype that recurs at different scales of nature and of the universe, expressing a characteristic of balance and efficiency in the distribution of energy, whether in chemical, material, geological, biological, architectural and astronomical structures and dynamics.
📽 by @alexey_kljatov
#geometryinnature #fractals #snowflake #reverse #reversed #timelapse #reversetimelapse #fractal #nature #fractalsinnature #fractalgeometry #physics #chemistry #molecules #icecrystal #icecrystals #video #reels #instagram #geometry #natureza #flocodeneve #symmetry #hexagon #cymatics #hexagonal #pattern #morphology #science
@geometry.in.nature
132.1K
SC❄️ For snow to form, it needs low temperatures and moisture in the atmosphere. For example, in some deserts, temperatures can drop below zero, but there isn’t enough moisture for snow to form! The same goes with Antarctica’s Dry Valleys; it’s hella cold, but there’s barely any snow because of the low humidity.
Snowflakes form when water vapor freezes around microscopic suspended particles like dust and pollen and then absorb and freeze additional water vapor nearby. When temperatures are below 0°C, snowflakes tend to be tiny, but when temperatures are near 0°C, snowflakes are larger. However, if the ground temperature is above 5°C, snow generally won’t form.
There are two types of snow: wet and dry. Wet snow forms when temperatures are above 0°C. These snowflakes will melt around the edges and stick together, which makes them bigger and heavier than dry snow. When the air is dry and cool, snowflakes won’t melt and will stick together. These snowflakes are generally small and powdery.
During winter, snow can accumulate on the ground quite a lot but acts as a thermal insulator, keeping ground temperature warmer than the air temperature. It’s also a valuable reserve of freshwater!
_____
🔬 courtesy of: @tardibabe
#snow #snowflakes #underthemicroscope #microscopic #microscope #science
@science
74.6K
MAHave you ever seen this Winter phenomenon?
The frost on car windshield was accompanied by beautiful tiny snowflakes that stuck and created beautiful frost crystal composition. Like starry galaxy 🌌❄️
#macrophotography #naturephotography #wintermacro #frost #snowflake
@macro.viewpoint
2.1M
TAEvery end is a new beginning ❄️
We had one HELL of a snow storm last week in Montreal, perfect time to capture snowflakes melting under the microscope 💫
For snow to form, it absolutely needs low temperatures and moisture in the atmosphere. For example, in some deserts, temperatures can drop below zero but there isn’t enough moisture for snow to form! Same goes with Antarctica’s Dry Valleys; it’s hella cold but there’s barely any snow because of the low humidity (thank you @arielwaldman for the correction).
Snowflakes form when water vapor freezes around microscopic suspended particles like dust and pollen and then absorb and freeze additional water vapor nearby. When temperatures are below 0°C, snowflakes tend to be tiny but when temperatures are near 0°C, snowflakes are larger. Although if the ground temperature is above 5°C, snow generally won’t form.
There are two types of snow: wet and dry. Wet snow forms when temperatures are above 0°C These snowflakes will melt around the edges and stick together which makes them bigger and heavier than dry snow. When the air is dry and cool, snowflakes won’t melt and stick together. These snowflakes are generally small and powdery.
During winter, snow can accumulate on the ground quite a lot but acts as a thermal insulator, keeping ground temperature warmer than the air temperature. It’s also a valuable reserve of freshwater!
Video taken with an iPhone 14 Pro mounted on a Olympus SZX16 @evidentlifescience with an @ilabcam adapter 🔬
@tardibabe
19.6K
KEWe use “snowflake” as an insult, like it means weak or fragile.
But scientifically, snowflakes are built in cold, chaotic air, shaped entirely by the conditions they move through.
Their structure isn’t random.
It’s a physical record of temperature, moisture, and change.
So no, being a snowflake isn’t about being soft.
It’s about adaptation.
#WeatherScience
#ScienceExplained
#snowflakes
#WinterWeather
#stemeducation
@kelseymcewen
2.3M
ANCrystals of Frozen
snow crystals grow quietly in the cold air. Each one is small and different, but none of them lives for long. They shine for a moment and then melt back into the same white ground.
In them you can feel how the world works everything appears, everything disappears. There is no hurry, no reason, only a short life that is already complete. The snow does not need anyone to see it. It just exists, like a thought that drifts through the silence of winter
photograph @alexey_kljatov
music: Lila Ravelle-Sweet Dreams
#snow #snowflakes #nature #macro
@animuspax
82.3K
ROReversed video of snowflake melting — Why are snowflakes hexagonal? Since the molecules in the ice crystals are in a hexagonal structure, an arrangement that allows water molecules — each with an oxygen atom and two hydrogen atoms — to form in the most efficient way. They can form columns and even narrow needles. But the most common is a hexagonal plate. The basic reason is that when water freezes it forms a hexagon made of 6 molecules, which has a bent geometry and a polar design where oxygen is negative and hydrogen is positive.
The shapes of the snowflakes are influenced by the temperature and humidity of the atmosphere and are formed when the drops of water freezes on the particles of dust in the air. Depending on the temperature and humidity of the air where they form, the ice crest can grow in a multitude of different shapes.
The hexagonal fractal pattern is a geometric archetype that recurs at different scales of nature and of the universe, expressing a characteristic of balance and efficiency in the distribution of energy, whether in chemical, material, geological, biological, architectural and astronomical structures and dynamics.
📽 by Alexey Kljatov
#geometryinnature #fractals #snowflake #reverse #reversed #timelapse #reversetimelapse #fractal #nature #fractalsinnature #fractalgeometry #physics #chemistry #molecules #icecrystal #icecrystals #video #reels #instagram #geometry #natureza #flocodeneve #symmetry #hexagon #cymatics #hexagonal #pattern #morphology #science
@robertedwardgrant
949.0K
CLWhy do all snowflakes have six sides?
It starts with a dust particle in a cloud…water vapor sticks to it and the molecules eventually freeze!
Every water molecule has a bent “V” shape making them lock together at fixed angles, building a hexagon!
But that’s just at the microscopic scale…
For more optimistic stories like this, subscribe!
#shorts #science #snowflake #winter #snow
@cleoabram
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