(under construction) Messy Notes
Meandering rivers of photonic flows through excited bodies like the sun. Tetrahedral Balance Convergence (tetraBC); Mini-Particularities , color hues on a bubble and wondering about points that match in space where magnifications of photonic amplification characterized by (converging planes of/funneling together) meandering photonic flows creating mini-particularities a funnely note of uniqueness , absorption/decay characteristics , and photonic to spherical links spin for strong binding forces.
How would you illustrate that operation?
Perhaps the voltage induced via electronic flux effects from the photonic flows within a Mini-Particularity is enough for the binding forces of particle physics. The weak force might not need to redirect significant motions if the photonic flows are of loops held via a thin magnetic force. Triangulations of the trifecta identified through gluons; clumps of strong folding forces -- b@ller particles.
Do you find it less engaging or too fast of a pulse of information then the consideration of particles building up like layers of a jaw breaker, from the chart of nuclides? I suppose a near zero time span would draft an interesting future merger in a virtual environment for any particular particle xyz.
Press every digit against the equivalent or against a mirror, then stretch them out with some jostle to perfect the sphere. Bring your palms closer together to shape a biconvex lens, imagining your fingers as flows of photons. The mirror or flat space between your hands represents the X and Y planes, with the Z axis being the distance to each palm's center. If the X and Y planes pass through your center, you’re visualizing an electromagnetic flux with photonic force carriers, similar to how electricity through a wire creates a magnetic field. The photonic balance between X and Y isn’t always equal, but it’s closer than between X and Z, or Y and Z.
Press every digit against the equivalent or against a mirror, stretch them out with some jostle to perfect the sphere. Then bring the palms closer together to shape a biconvex lens, roughly imagine your digits are flows of photons. The mirror or flat between both hands being X & Y with Z being distance to each palm's center. It's almost like if the X & Y plane goes through your center then you're seeing a electonic flux derived particle with photonic force carriers. Similar to an electromagnetic left/right hand rule of electricity through a wire creating a magnetic through center force. You can consider the total photonic balance between quadrants of [X to Y] isn't always equal although it's closer then [X to Z] or [Y to Z].