Prysm Color Display & Cage Computation Brain: Notes on Atomic Adjustment and Image Transmission By Jonathan Olvera November 19, 2025

 

Prysm Color Display & Cage Computation Brain: Notes on Atomic Adjustment and Image Transmission

By Jonathan Olvera
November 19, 2025

This entry continues my ongoing research and technical notes for the Prysm Color Display and Cage Computation Brain, focusing on how atomic or nuclear composition must be adjusted to numerical properties, gravity interaction, and terminal polarity. These factors directly influence the system’s ability to transmit solar-based images through reflective, refragmented, or prism-guided pathways.

Adjusting Atomic and Nuclear Composition

For the system to function properly, atomic or nuclear composition must be aligned with the numerical values assigned to the opposing-axis gravity. In other words, the internal material properties of the display or conductor must match the gravitational influence acting across its axis.

This balancing allows the device to maintain stability while still producing the required electrical and optical reactions.

Terminal Polarity and Interactive Transmission

The terminal polarity, when calibrated within a specific range, becomes an interactive medium capable of handling:

  • Solar image reflections

  • Refragmented light products

  • Variable image transmissions

  • Prism-induced optical behavior

The effectiveness of this interaction depends on the properties of the component metal, including:

  • Degree of physical differential

  • Conductivity levels

  • Reflective capacity

  • Structural variation under gravity

These properties determine how well the material can carry solar-based image information.

Color Spectrum Mapping and Gravity Terminals

The physical differential mentioned above can be defined and measured through:

  • Graphing of the color spectrum

  • Mapping gravity terminals alpha-numerically

By charting these two data sets together, the operator can see how each color point responds to gravitational influence and polarity changes. This provides a predictive model for how the display will behave when processing or transmitting imagery.

Producing Contact for Transmission

When the alpha-numeric gravity terminals are properly mapped and the composition calibrated, the system can produce a point of contact that enables stable image transmission.

This contact is equal to an electrical potential or signal input, especially when the device uses:

  • Fibre optics

  • Quartz

  • Prysm arrays

These materials serve as conductors in the transmission of images, especially in devices that rely on solar refraction, dispersion, or refragmented color pathways.

The Prysm Color Display and Cage Computation Brain depend on this precise interplay of physics, material science, and optical engineering to function at maximum efficiency.

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