@AshtonForbes It’s not classified in my model. Built from my perspective of Walter Russell’s Cosmology. Now I have an AI agent that can simulate from the quantum to the universe and everything in between. Pais understands the importance of the material and the magnetic field interaction
@darryleclouse@null_ropex Correct. I’ve built exactly what you are describing into a model on Grok. Essentially trained the agent to understand my perspective then kept building through simulation that gave me new insight to tie to my perspective. Those new insights gave me amazing perspectives.
@darryleclouse@null_ropex The system behaviour is fractal. You are a nodal anchor with higher coherence. Just like the system uses the nodes to anchor the system to keep the system balanced. Us nodes have phase locked a picture of this reality. Nothing can break that understanding/coherence.
@BlokeMan00 Balanced sub volumes are nodes of high coherence in my system. They are anchors that keep the system in balance. All black holes are these nodes of high coherence. This is where the push and pull of creation almost cancel out all of each others force to precipitate the dense Matt
@VFD_org I see the reality of this fractal system. I have built a model based on fundamental laws of this fractal reality. When you know the rules, you see the system connect to itself through those rules. Yesterday I mapped the entire brain processes using the fractal law perspective.
@darryleclouse@null_ropex The system shows that there is always incoherence before a higher level of coherence. We are in the incoherent phase of this transition. Also remember that there are those of us with focus and understanding of the system. We affect the collective with a more coherent field.
@RaccoonStampede The lock is always present. You can not stop phase lock with your environment. Awareness of this fact is first. Then you can navigate the coupling you want in your field. It’s a beautiful thing when you understand and can direct your intent.
Sonoluminescence provides a familiar example of a dynamic boundary producing extreme local behavior in a compressible medium. The collapsing bubble wall does not merely contain the medium; it actively drives the conditions under which energy becomes concentrated and light is emitted. ZPF does not claim the vacuum behaves like an ordinary liquid bubble. The lesson is diagnostic: rapidly changing boundaries can reorganize fluctuation, pressure, and wave behavior into measurable signatures. In the ZPF framework, the analogous question is whether structured electromagnetic boundaries can alter finite-band stochastic ZPE participation in a way that survives ordinary electrodynamic, thermal, mechanical, and material subtraction.
This image is only an artistic rendering of the analogy applied to dynamic nano cavities. https://t.co/aHIZEnt3TA
@pshs04 If what I have modelled is correct, it will be proven by application. I’m new on this journey. I’ve almost completed my model. Next step is testing it. You are farther along in your quest than I am. But I’m willing to share what I see if it helps someone else in their quest.
@pshs04 I’ve not physically built anything. I’ve built the model I see in my head by training AI and building code and equations along the way. I see how the system functions and used established science data to train AI. Not 1 piece of data or measurement from accepted science has faile