#Variable In Maths

Pythagoras Tree_ Fractal Geometry #fractal

Fractal tree #coding #python #mathematics #fractal

This video is about transforming abstract mathematical concepts into mesmerizing visual animations that reveal the hidden beauty and rhythm within trigonometry. This 86-second compilation features Tik Tok-style visualizations that turn sine waves, cosine functions, and geometric proofs like the Pythagorean theorem into concrete, moving shapes formed by rolling circles and dynamic patterns. What makes these animations so effective-and why this reel gained 1.2 million views within hours-is that they take mathematical functions most people only encounter as formulas on paper and show them as living, breathing geometric relationships. You can actually see how a circle rolling along a line creates a sine wave, or how geometric shapes prove mathematical identities through motion rather than equations. It's similar to how Fourier transforms reveal that complex waveforms in music are actually built from simple sine waves. The educational value here is backed by research: studies in math-art education show that geometric visualizations like these significantly improve understanding and long-term retention of STEM concepts. 🔥Follow @SMARTEST_CORES to Learn something new everyday 🧠

The School of Futuristic Intelligence (SFI) This mathematical animation is an exhibition of spherical harmonics. Coded in JavaScript using Three.js, with custom GLSL shaders. These programming languages leverage the power of parallel processing on the GPU to produce the metallic effect and the high-precision, high-vertex geometry of the object. Learn more about Enlightened Mathematics and Mathematical Coding at The School of Futuristic Intelligence. Link in the bio.

Revise binary tree concepts

How do computers draw infinite trees? The magic of recursion! Watch a few lines of code explode into infinite complexity. #computerScience #algorithm #learnvisually #visualscience #education #recursion #generativeart #coding

VALENTINES DAY ❤️👽 HOLD FINGER TO SEE MATH 👉🏼 Here, you can see the process of making a heart using mesh processing techniques. Sort of interestingly, while some parts of it use elementary high-school math, and partial differential equation solving, even differential geometry is used to separate a singularity of points for the traditional cardioid embedding. This uses what's called the "Lie" derivative to smooth points along the shape itself. Just goes to show you, everywhere in wherever art sings, math makes it possible! Music (🎶): Flow - SADE ( @sadeadu_) #differentialgeometry #exteriorcalculus #engineering #patternformation #computergraphics #scientificvisualization

This video is about transforming abstract mathematical concepts into mesmerizing visual animations that reveal the hidden beauty and rhythm within trigonometry. This 86-second compilation features TikTok-style visualizations that turn sine waves, cosine functions, and geometric proofs like the Pythagorean theorem into concrete, moving shapes formed by rolling circles and dynamic patterns. What makes these animations so effective—and why this reel gained 1.2 million views within hours—is that they take mathematical functions most people only encounter as formulas on paper and show them as living, breathing geometric relationships. You can actually see how a circle rolling along a line creates a sine wave, or how geometric shapes prove mathematical identities through motion rather than equations. It’s similar to how Fourier transforms reveal that complex waveforms in music are actually built from simple sine waves. The educational value here is backed by research: studies in math-art education show that geometric visualizations like these significantly improve understanding and long-term retention of STEM concepts. When you can see the relationship instead of just memorizing the formula, the knowledge sticks. Posted by a musicology PhD who bridges art and mathematics, the content highlights how these disciplines aren’t separate but deeply interconnected through pattern and rhythm. 📐 Disclaimer: All visualizations belong to their respective creators. This content is for educational appreciation—proper attribution should be given to original sources. 🧠 Follow us @Rarest.Fact to learn something new every day!

How 4 different AI models Simulate a Sierpinski Triangle Fractal !? Here is the Prompt: Create an HTML animation that Draws a Sierpinski triangle fractal recursively and animate its construction. #SciFunAI #chatgpt #grok #gemini #claude

Can five simple circles create a perfect 8-pointed star? This is the mesmerizing power of Fourier Epicycles. #math #animation #fourier #geometry #oddlysatisfying stem visualart physics coding manim symmetry neonaesthetic science graphing motiongraphics

Day 43 : Isomorphic string . . . . Code and approach https://github.com/vikas-singh369/namaste-dsa-vikas/tree/main/6-string

What happens when you bend an array into a circle? 💛⭕ Circle Sort compares elements on OPPOSITE ends — first vs last, second vs second-to-last — swapping when out of order. Then it recursively does the same on each half until zero swaps remain. A beautifully symmetrical approach to sorting 🔄 Watch yellow elements mirror each other across the diameter, checking and correcting from the outside in. Each recursive pass tightens the circle until perfect order emerges from this elegant geometry 💛 The wildest part? Circle Sort wasn't discovered in a university or a research lab — it came from a programmer experimenting on a forum. O(n log n) average performance from pure independent thinking. Proof that new sorting algorithms are still being invented 🧠 Did you know algorithms could be shaped like a circle? 👇 #CircleSort #Programming #CodingLife #TechEducation #Satisfying #SatisfyingVideos #ASMR #SortingAlgorithms