Three interactive tools mapping the coherent field of biology — from the equations inside a single mitochondrion outward to the Schumann resonance at the planetary boundary. Built in conversation with the work of January Walker, whose information physics derivations are mathematically correct and biologically significant.
Each tool is a standalone HTML file — open in any browser, no internet required after first load. All three use the same live equations.
Adjust membrane voltage and temperature — watch Walker's equations light up the biological structures they actually belong to. Subcellular, cell-wide, and tissue/organism scales. Click any structure for the full biology, intervention rationale, and information cost.
Open tool ↗A fully illustrated 2D cell with three visual modes — illustrated, 3D-style, and blueprint schematic. Toggle between them. Full ATP economy with live yields per electron transport chain complex. Health state selector shifts all values. Click any organelle to open the biology.
Open tool ↗Full Three.js 3D environment with seven distinct cell shells — glycocalyx through chromatin — plus five view modes: Cell, ETC, Shells, Flow, and the new Structural Mechanics view. The Struct tab reveals the Gouy-Chapman-Stern electrostatic shield, Helfrich bending energy zones, tensegrity actin-microtubule network, and Laplace pressure field — all live-calculated from the membrane voltage and temperature sliders. Seven directed particle flows follow real biological pathways. Drag to orbit, scroll to zoom.
Open tool ↗January Walker is a cybersecurity professional and information physicist who lost someone she loves and picked up her best tools — equations, system architecture, thermodynamics — and pointed them at the biggest problem she could see. Her Zenodo preprints derive a 36 THz characteristic frequency from the mitochondrial membrane potential. The arithmetic is correct.
What these tools add is the biological layer underneath her equations. Walker's Planck-Einstein substitution describes the proton-motive force across the inner mitochondrial membrane — the ~150 mV electrochemical gradient that powers ATP synthase in every living cell. Her Landauer mass-equivalent describes the thermodynamic floor of information processing at physiological temperature. Her equations have biological addresses. These tools show where they live.
Built by Le Anna at Rooted Saviors / Stewards Under Pressure — holistic animal care, biofield science, and Hebrew-rooted research into coherent field biology. Shared freely for those asking the right questions with the tools they have.
Download all four files — this index.html plus the three tool files — into the same folder on your computer. Keep them together so the links work.
Open Chrome or Safari. Press Cmd+O (Mac) or Ctrl+O (Windows), navigate to the folder, and select index.html. Or drag the file directly into the browser window.
The 3D orbital tool loads Three.js from a CDN on first open — just the library, nothing else. Tools 01 and 02 run fully offline. All calculations happen locally in your browser.
Upload all four files to the same folder on your server via cPanel or FTP. If you add them to the root of stewardsunderpressure.org, this page will be live at your domain immediately. Share any of the three tool links directly — each works standalone.