Energy must have a recognizable contrast incorporated into its configuration in order to form a gradient. This contrast denotes the existence of two separate signal levels, enabling perceptibility. When two different charge levels are harmoniously aligned along a central axis, such a contrast frequently results. Due to their intrinsic differences, these charges are drawn to one another and become connected. They produce a proximal field that is specific to their setup as a result. This is what a bi-polar dipole, like the one utilized as the foundation for energy in Theory Z0, would naturally produce.
Traditionally, polarity is attributed to charges of opposing polarities, such as positive and negative charges. However, it is conceivable that these charges may manifest as varying levels of the same polarity, introducing an intriguing possibility for the nature of energy.
Furthermore, due to the phenomenon of spin, energy becomes polarized within the plane of its spin. This polarization contributes to the anisotropic nature of a single quantum of energy. Anisotropy implies that the energy distribution within the quantum exhibits favored directions of dominance, where energy concentration is more pronounced.
The interplay between polarity and spin shapes the characteristics of energy, influencing its behavior and distribution. This polarization and anisotropy provide insights into the intricate nature of energy and its concentration in specific directions.