Brain phase precession. It’s a relationship between the continuous rhythm of a brain wave, the overall ebb and flow of electrical signaling in an area of the brain, and the specific moment neurons in that brain area activate. A theta brain wave, for instance, rises and falls in a consistent pattern over time, but neurons fire inconsistently at different points on the wave’s trajectory. In this way, brain waves act like a clock. They let neurons time their firings precisely so that they’ll land in a range of other neurons’ firing, forging connections between neurons. Phase precession among the neurons in the brain encodes information about the spatial position that is involved. In the place cells, each of which is tuned to a specific region or place field.
Our brains scale these place fields to cover our current surroundings. The closer you get to the center of a place field, the faster the corresponding place cell fires. Humans have the highest, most complex pattern of overlapping brain waves in existence. Our phase precession is off the charts. Phase precession is crucial beyond navigation. Also, there is phase precession in time-sensitive brain cells and the processing of serial images, too. Phase precession in the human brain has a broad functional role in the neural representation of spatial and non-spatial information. Our brain’s universal coding mechanism controls and directs the sequence timing, imaging, events, and spatial/ non-spatial functions. No other species possess this specified mechanism. This mechanism is the seat of consciousness. Our consciousness emanates out from here.
There is a universal coding mechanism in the human brain that is found nowhere else. Patterns in external data become ingrained in the firing patterns of the network through the strengthening and weakening of synaptic connections. Humans can learn from just one or a handful of examples because of the storage in our universal coding mechanism. As soon as you’re learning something, this pattern for learning sequences is already in place. Phase precession allows the brain to link sequences of times, images, and events in the same way as spatial positions. That facilitates very rapid learning of lines. Phase precession organizes the timing so that learning happens more often than it could otherwise. It arranges for neurons activated by related information to fire quickly enough to strengthen the synapse between them. The brain is computing faster than the rate coding could do alone.
We derived classical physics from quantum physics. The corresponding quantum hidden mechanism drives the interactions of both sets of physics.
Quantum mechanics is a binary function, while classic physics is triune. They interact with each other.
OUR CONSCIOUSNESS IS A COMPLEX BINARY INTERACTIVE MECHANISM.
1st: Classical physics is causal; complete knowledge of the past allows computation of the future. Likewise, a comprehensive understanding of the future enables precise calculation of the past.
2nd: Objects in quantum physics are neither particles nor waves; they strange combine both. Given the complete knowledge of the past, we can make only probabilistic predictions of the future.
The triune entities of classic physics interact with the binary functions of quantum physics.
THE THEORY OF EVERYTHING EXPLAINED:
ALL THINGS ARE TRIUNE, WITH BINARY INTERACTIVES.
The triune entities of classic physics interact with the binary functions of quantum physics.
