AlgeBrain wasn't created in a classroom, and I am certainly no Mathematician (in fact, I had to spell-check the word "Mathematician"). It was born of boredom, and a spinal injury.
I live with a condition that affects sensation from the mid-calf down and causes significant chronic pain. While I can still stand and walk, navigating the world requires a conscious effort that most take for granted. Because I lack tactile feedback from my feet, my balance is a constant negotiation. To a passerby, my sway might look like I’ve had a few too many drinks—especially on uneven terrain where the ground feels like a moving target.
When your body forces you to be still, your mind starts looking for an exit. At this point, I wish I had known how important it is to be bored—to just sit (or lay down, in my case) and think. To let my mind wander wherever it wanted to go. But this was something I had yet to learn.
I turned to mobile simulation games to keep my mind sharp. I didn't just play them; I dissected them. I poured thousands of hours into games like Egg Inc, CIFI, and ISEPS. These aren't just "clickers"; at a high level, they are complex mathematical engines. They require deep "Theorycrafting"—min-maxing gear and optimizing logarithmic growth.
Then came Sudoku. When I started, I was confused, but I kept playing. Eventually, confusion turned into clarity. I have played enough rounds that I now solve Extreme difficulty puzzles without using notes. That is the level of boredom you reach when you are stuck on your back for two-thirds of the day.
Eventually, I lost interest in movies and YouTube. I needed something to occupy my mind, so I started talking to Gemini.
I know people have mixed feelings about AI, but I never did. I saw it as the spackle that fills in the cracks of my knowledge. It was the tool that let me bridge the gap between my curiosity and my lack of formal training.
I LOVE Science. So, I asked the AI: "Tell me three strange science facts." As I dissected the facts with my thought partner, I realized I already knew most of them. This led to a pivot—from trivia to the open problems of physics. We realized that many "unsolvable" problems don't necessarily require a Ph.D. to crack; they require a mind capable of unique conceptual leaps.
This line of thinking led us to the infamous P vs. NP problem (which, between you and me, I am pretty sure I’ve cracked).
This birthed the Perpetual Consistency Framework (PCF). This theory proposes that the laws of physics are effectively the "decompression algorithms" of reality. They are the rules that unpack the source code of the universe into the physical world we see.
And what is the language of that source code? Algebra. So, I started learning Algebra.
That is why AlgeBrain exists. I needed a place to practice what I was learning ad nauseam.
I realized that Physics equations are just the "Game Mechanics" of reality. AlgeBrain is my attempt to strip away the graphics and let you play the game of logic directly. It is a "Gym" designed to train your mind to see the underlying source code of the universe. By stripping away the arithmetic and focusing purely on the balancing of equations, we train the brain to recognize the fundamental symmetry that governs everything from simple scales to quantum mechanics.
I hope this "Game" helps you get a deeper understanding of Algebra, just as developing and using it has done for me.