Quest to put a (simulated) chicken leg on Venus part 1
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- Опубліковано 6 січ 2024
- Experience life vicariously through a chicken leg. Travel to forbidden places. See examples of Eulerian simulation, SPH, physical particles, and FLIP simulations.
Note: I'm dabbling in creating a discord server at / discord Please feel free to join :)
Videos referenced in this video:
- “What If You Spent 5 seconds on Venus?” - What If • What If You Spent 5 Se...
- “Fry Fidelity: The Science Of Fried Chicken” - ChefSteps • Fry Fidelity: The Scie...
- “SPH based real-time liquid simulation” - SPH based real-time liquid simulation • SPH based real-time li...
- “Coding Adventure: Simulating Fluids” - Sebastian Lague • Coding Adventure: Simu...
- “Self organising steel balls explain metal heat treatment” - Steve Mould • Self organising steel ...
- “18 - How to write a FLIP water / fluid simulation running in your browser” - Ten Minute Physics • 18 - How to write a FL...
- “Fluid Simulations for Beginners 💦 (Blender Tutorial)” - Ryan King Art • Fluid Simulations for ...
- “Boiling Water In Houdini | Houdini Tutorial” - Fx Guru • Boiling Water In Houdi...
- “Chocolate floods the metro - Blender animation - Flip fluids simulation” - Rec Ninja • Chocolate floods the m...
- “Blender MantaFlow Fluid Simulation. Water, Oil.” - ImbaPixel • Blender MantaFlow Flui...
- “Let's Make Coffee: Blender Fluid Sim (Manta Flow) For Beginners” - CG Cookie • Let's Make Coffee: Ble...
Paper referenced:
- “Virtual reality in urban water management: communicating urban flooding with particle-based CFD simulations“ - Daniel Winkler; Jonatan Zischg; Wolfgang Rauch iwaponline.com/wst/article/77... - Наука та технологія
The stuff that can be done with Blender is incredible. I look forward to seeing more of your efforts to put a chicken leg on Venus!
Finnaly Aliens can eat fried chicken on venus
Thank you for these videos! I often have the same thoughts about being/experiencing places that would be impossible to get to, and making sims to make it possible, but I’m always so unmotivated to do it. So thank you for not just exploring these questions, but for also making videos to share your work with us!
Thanks! Cool name by the way :)
So far in your fluid simulations, you've pretty consistently adhered to "the incompressibility of fluids," but aren't you going to run into problems with these more advanced simulations when the true compressibility of fluids becomes non-negligible? Like, sure, water doesn't compress very much, but the gasses on Venus do.
Yeah, you're right. Though it might depend what I'm simulating? Im assuming that rocks, over a long period of time, behave somewhat like incompressible fluids. But I might be wrong in this assumption? You're right that the "atmosphere" of Venus is actually a supercritical fluid, which basically behaves like a dense compressible gas.
Oh, this comment is on the venus part 1 video. Oh, yes, right. Good point.
@@rlhugh Yeah I was referring specifically to this video about Venus, but I kind of have the same concern more generally: All fluids *do* compress, but that compression can be neglected in certain low-energy cases with certain fluids, like water at STP. And in general it can *never* be neglected with a gas.
I think even for your example of rocks, you wouldn't want to neglect compression, since a lot of different types of rocks are formed primarily through a process of compression (like metamorphic rock varieties).
In all your research of these sorts of simulations, by the way, have you ever run across a method that represents the fluid pressure explicitly? Eulerian methods don't seem to have any such representation, by your description, but I'm not enough of an expert to know.