Numerical Code by Design. By Christina Harrison
Founded upon a philosophical science. A System Theory science. Ancient civilizations once thrived, having mastered the origins of the universe with an in-depth knowledge that existed before the Big Bang. Knowledge that translates formless concepts into an expression of numerical information, while unlocking the very code to the universe's blueprint. This ancient model has now been brought back into existence, ready to shine once again in the 21st century.
Placed on a lattice sphere, ten thousand pieces ranging from 0000 through to 9999, is held in a state of perfect balance. Fractals are formed in groups which also give expression to Mandelbrot patterning. Yet, one must first grasp the numerical foundations to these ancient laws, before its sacred geometrical patterns emerge.
An additional section, featuring the same numerical workings is arranged around the sphere's circumstance, thus creating two distinct sections. A design where the exchange of numerical information functions like quantum entangled spin, enabling transformational movement. Journeying through all ten thousand units before returning to its starting point, a closed loop system is established.
A deterministic self-regulative model of detailed precision, offering stability for applied applications.
Drawing on thousands of years of ancient wisdom from my university acupuncture training, I began to focus on rediscovering and to piece back together this paradigm's lost physics model. It was recognized that the human body operates under the same natural laws and system theory science framework as the cosmos. Similar to our modern culture which functions in the same manner, whereas physics and medicine share a congruence in their thinking.
Embracing ancient sciences was the only door to this blueprint, which lies beyond the realm of physical laws. This independent research spanned 25 years culminating in a comprehensive model that intergrates many superimposed layers, capturing a numerical beauty, beyond what words would find difficult to describe.