Mass-Energy Gravity
Energy gradients sculpt the quantum domain to the cosmic web. MEG reveals their hidden ladder and makes it predictive.
The MEG Research Institute introduces the Mass–Energy Gravity (MEG) theory. It is a unified physics framework where gravity, motion, and quantization emerge from energy-density gradient steepness. It replaces spacetime curvature and particles with coherent field structures, culminating in a universal harmonic ladder across all scales.
Message from the founder
“Science begins with a question. Asking questions in new ways has sparked the greatest leaps forward. Though we stand on the shoulders of the giants, we must continually challenge assumptions, no matter how universally accepted they may seem.
MEG began precisely with this kind of inquiry: could structure arise not from particles or spacetime curvature, but from gradients of steepness alone?
Since then, our work has been collaborative, methodical, and rigorously empirical. We’ve uncovered coherence across systems previously treated as unrelated, from quantum states to neutron stars. This institute exists to advance that exploration, guided by openness, rigor, and a readiness to be wrong. If that excites you, I am glad you’re here.”
— Chris Shreenan-Dyck, Founder & Director
The Harmonic Ladder. A Unifying Structure Across Scales.
From atoms to stars, energy-density transitions align on a single harmonic ladder, quantized, logarithmic, and anchored at hydrogen. It links phenomena once thought disconnected, revealing coherence thresholds across nature and offering falsifiable predictions at every scale.
The Unified Limit
The Unified Limit is the foundation of the Harmonic Ladder. It marks the steepest stable energy-density gradient nature permits, beyond it, fields collapse, coherence fails, and structure dissolves. The final rung of the ladder, this bound is almost reached in neutron-star cores and defines the endpoint of field organization.
“MEG offers a framework where coherence, not complexity, governs structure. It changes how we see the universe and the patterns beneath it.”
— MEG Research Institute
Join us in advancing a unified framework for structure in the physical world.
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