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T O O L A N D S I M U L A T O R P R O T O T Y P I N G
A I I N M A T H E M A T I C S A N D C O N J E C T U R E S ///
N A V I E R S T O K E S C O N J E C T U R E S I M U L A T O R S ///
Experimental Research Tools for Fluid Dynamics
As part of Quantum Q's exploration into whether artificial intelligence can assist in solving complex mathematical problems, we have developed two early-stage, browser-based simulation environments. These tools are openly accessible and are currently part of an internal unpublished research paper.
🌐 3D NAVIER-STOKES SIMULATOR
🌐 3D NAVIER-STOKES SIMULATOR
Visualising Complexity in Three Dimensions
This 3D simulator models simplified 3D fluid dynamics scenarios. It allows interactive adjustments and visualizations to test how various inputs impact the flow behaviour. Though not a formal solver, it acts as a visual and interactive sandbox for examining how fluid patterns emerge and evolve.
🔗 LAUNCH THE 3D NAVIER-STOKES SIMULATOR
🌐 2D NAVIER-STOKES SIMULATOR
🌐 2D NAVIER-STOKES SIMULATOR
A Foundational Environment for Early-Stage Exploration
This 2D simulator provides a conceptual visualization of 2D incompressible fluid dynamics. It numerically solves a simplified version of the Navier-Stokes equations, which are fundamental to describing how fluids like air and water move in a 2D plane. The goal is to help you build an intuition for complex fluid phenomena like turbulence, vortex dynamics, and energy dissipation.
🔗LAUNCH THE 2D NAVIER-STOKES SIMULATOR
🌐 1D NAVIER-STOKES SIMULATOR
🌐 1D NAVIER-STOKES SIMULATOR
A Foundational Environment for Early-Stage Exploration
This 1D simulator provides a linear testbed to model how small perturbations in a one-dimensional fluid system evolve over time. It’s particularly useful for building intuition around divergence, stability, and non-linear interactions in reduced-dimensional space.
🔗LAUNCH THE 1D NAVIER-STOKES SIMULATOR
A I I N P H Y S I C S A N D C O S M O L O G Y ///
New research updates and subjects of interest will appear herein when available.
D I S C L A I M E R N O T E F O R A L L T O O L U S E R S
The tools, simulators, and experimental applications provided on this site as is, and are designed for conceptual exploration, prototype testing, and early-stage visualization of scientific or computational ideas. They are not intended as high-fidelity simulations, nor should they be used as definitive proofs or validations of mathematical or scientific theories These resources aim to aid in understanding principles, generating hypotheses, and facilitating dialogue — not to substitute for peer-reviewed research or validated engineering-grade systems.
D I S C L A I M E R F O R A L P H A A N D B E T A S O F T W A R E
The tools, simulators, and experimental applications provided on this site are designed for conceptual exploration, prototype testing, and early-stage visualization of scientific or computational ideas. They are not intended as high-fidelity simulations, nor should they be used as definitive proofs or validations of mathematical or scientific theories These resources aim to aid in understanding principles, generating hypotheses, and facilitating dialogue — not to substitute for peer-reviewed research or validated engineering-grade systems.
E X P E R I M E N T T O I N N O V A T E
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