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If our experience of time and space share similar neural correlates, it begets a fundamental question: are space and time truly distinct in the mind, or are they the product of a generalized neurocognitive system that allows us to understand the world? See:Decoding Space and Time in the Brain
So the question here of genetics as a foundational basis for which the world takes on new meaning and content, is also to suggest that such an evolution is mind/brain changing. Right?
I have to wait until something appears that is missing so as to show that the current developments in our technologies(WMAP) are based on the spectrum of possibilities in the way we dive deeper into the reality.
Cosmologically, it is appealing that we seek to describe the universe optically in so many ways. This allows us to look deeper into the cosmos then we did before. This is a established trade route then with which to accept a sensory derivation of the cosmos. This would have intermingled with the process genetically disposed so as to imbue our sight of. It becomes neurologically appealing as insight is generated?
B-modes retain their special nature as manifest in the fact that they can possess a handedness that distinguishes left from right. For example here are two polarization fields with the same structure but in the E-mode on the left and the B-mode on the right:See: Anomalous Alignments in the Cosmic Microwave Background
So I am suggesting that such an evolution and development of consciousness would be to accept that the depth of our seeing is to go much further if we penetrate the cosmos in ways that we have not considered before. Examples already in progress are inherent in how we look at our Sun in terms of the Heliophysics that has been established so as to see expected cosmos rays plummeting to earth and spraying our planet. This view already insights a neurological function of space?
If you sprinkle fine sand uniformly over a drumhead and then make it vibrate, the grains of sand will collect in characteristic spots and figures, called Chladni patterns. These patterns reveal much information about the size and the shape of the drum and the elasticity of its membrane. In particular, the distribution of spots depends not only on the way the drum vibrated initially but also on the global shape of the drum, because the waves will be reflected differently according to whether the edge of the drumhead is a circle, an ellipse, a square, or some other shape.The Shape of Space after WMAP data
In cosmology, the early Universe was crossed by real acoustic waves generated soon after Big Bang. Such vibrations left their imprints 300 000 years later as tiny density fluctuations in the primordial plasma. Hot and cold spots in the present-day 2.7 K CMB radiation reveal those density fluctuations. Thus the CMB temperature fluctuations look like Chaldni patterns resulting from a complicated three-dimensional drumhead that.
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