Hey thanks dude I appreciate that! :) You can download the images from this folder: drive.google.com/drive/folders/12HifiiRnZ0p6QYpO8BblNdb1r4AlLK0W?usp=sharing
Thanks! I wanted to show off some nice pictures, but I feel like just putting them in a vacuum without the mathematical context is far less interesting :) Next up is probably either the 4d Julia set or elementary cellular automaton :D
Great video! Thanks for your job in this topic!! I wonder what it would be like to see the 4D Mandelbrot/Julia ensemble in a 3D environment. One of the four parameters could be set as a constant and the other three could form a 3D scalar field represented with equipotential surfaces or density clouds. Then the constant could be modified to obtain 3D layers to obtain a 4D view in a 3D+t. Greeds!!
pretty much exactly the idea I’ve followed for my implementation, not a density cloud in my case because I was to stupid to write that up, but I’ve created the border using a signed distance function, creating a 3D slice of the set and then varied the fourth parameter in time. But varying only one parameter doesn’t loop nicely and i’m a sucker for aesthetics so I varied two forming a circle in parameter space, giving a nice animation loop :)
7:50 One of my favorite images of Julia sets is this, but instead of a 5x5, you do 100x100. You end up seeing a Mandelbrot fractal made of Julia fractals. Looking forward to the video on 4D Julia sets, I love them.
I think this is cool because it gives a feeling of the 4D Nature of these structures. Would love to see a video about the 3D projection of that. I made some renders and they also look sick.
This is one of my favorite fractals! As you probably know, it's very slow to render normally due to how many samples are needed, but I was able to run them on a GPU with CUDA which is much faster albeit tricky to setup and program.
Agreed! I started making fractals because I needed a cover for a song of mine, by now I’d probably have to record hundreds of albums to use up all my images 🫠
The image at 6:38 is just amazingly beautiful !!
Please, share it in HD with a link
Hey thanks dude I appreciate that! :)
You can download the images from this folder: drive.google.com/drive/folders/12HifiiRnZ0p6QYpO8BblNdb1r4AlLK0W?usp=sharing
As a math nerd, I really appreciate how you included the actual equations along with the pretty pictures! 🤓 Looking forward to your next one!
Thanks! I wanted to show off some nice pictures, but I feel like just putting them in a vacuum without the mathematical context is far less interesting :) Next up is probably either the 4d Julia set or elementary cellular automaton :D
btw, dont worry about the naming of the Buddhabrot. Buddha get's it 😉 It's not like 'the others' 😆
Wow, this is such a quality content!
Yeah, it's got my whole mind oszillating right now, due to how great the quality of the content truly is!
Great video! Thanks for your job in this topic!!
I wonder what it would be like to see the 4D Mandelbrot/Julia ensemble in a 3D environment.
One of the four parameters could be set as a constant and the other three could form a 3D scalar field represented with equipotential surfaces or density clouds. Then the constant could be modified to obtain 3D layers to obtain a 4D view in a 3D+t.
Greeds!!
pretty much exactly the idea I’ve followed for my implementation, not a density cloud in my case because I was to stupid to write that up, but I’ve created the border using a signed distance function, creating a 3D slice of the set and then varied the fourth parameter in time. But varying only one parameter doesn’t loop nicely and i’m a sucker for aesthetics so I varied two forming a circle in parameter space, giving a nice animation loop :)
7:50 One of my favorite images of Julia sets is this, but instead of a 5x5, you do 100x100. You end up seeing a Mandelbrot fractal made of Julia fractals.
Looking forward to the video on 4D Julia sets, I love them.
Oh true I totally forgot about that! Truly one of the most inefficient ways of creating the Mandelbrot set, but also the coolest :D
I think this is cool because it gives a feeling of the 4D Nature of these structures. Would love to see a video about the 3D projection of that. I made some renders and they also look sick.
This is one of my favorite fractals! As you probably know, it's very slow to render normally due to how many samples are needed, but I was able to run them on a GPU with CUDA which is much faster albeit tricky to setup and program.
0:44 wait until you find out about the Empty Hold album cover :D
Oh true! I totally forgot about that :D I swear I heard about that in some TH-cam video before somewhere
6:50
Oh man, I like this one! It's almost alien-looking.
amazing video
Thank you! :)
the nebulabar would make an amazing album cover
Agreed! I started making fractals because I needed a cover for a song of mine, by now I’d probably have to record hundreds of albums to use up all my images 🫠
@@verymuchtom I've got too many songs and not enough covers, you've got too many covers and not enough songs... what a world
"the nebula ship...also exists"
bahahahahaha
music source?
I’ve written it myself for the video :)
Wow
He didn't even show the 4d Julia Set!
jk 😆
you forgot about me :(