
roma★
YOU ARE THE REASON
Mike Driver
let's talk about Bridgerton tea, my ask is open
Keni
Cosmic Funnies

pixel skylines
One Nice Bug Per Day

Janaina Medeiros
hello vonnie

shark vs the universe
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Kaledo Art
Jules of Nature
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★
Sade Olutola

if i look back, i am lost
he wasn't even looking at me and he found me

izzy's playlists!

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@steez-king-blog
It’s different when you see it for yourself. Everything changes.
Sometimes I’m overwhelmed with the insatiable desire to learn. To know astronomy and geography and language and architecture; to recognize each constellation, planet, and star; to speak and understand all languages, be able to decipher ancient Greek and Latin text; to grow my understanding of how the human body works; study the differences and similarities of each religion; recognize the use for each herb and seed and sapling.
I want to better myself, not for fame or recognition or power. I just want to understand.
Niggas wanna piss on your grave, bitch I might piss on your family
📸 : unimerce_
by KEANE LUONG
If people sat outside and looked at the stars each night, I’ll bet they’d live a lot differently.
Bill Watterson
(via the-wolf-and-moon)
i can’t stop running from reality. i don’t want to live, but i don’t want to die
The use of numerical simulations in fluid dynamics has exploded over the past half century with new computational techniques being developed constantly. Most methods involve solving the equations of motion (or an approximation thereof) on a grid of points known as a mesh. To accurately capture the physics, meshes must often be quite closely packed in areas where detail is needed, but they can be more widely spaced in areas where the flow is not changing quickly. An increasingly common technique is adaptive meshing in which the mesh of grid points shifts between time steps; this places more grid points where the flow requires them and removes them from less important areas in order to reduce computational time.
An example of adaptive meshing is shown above. On the left particles are falling into salt water. The colors show the concentration of particles. The right side shows the solid particles and the fluid mesh around them. Notice how the grid shifts as the particles fall. (Image credit: C. Jacobs et al., source)