Conventionally consciousness is explained as emerging from electrochemical computational activity of cells in complex neural networks. Prima facie, this is a logical theory as sensory inputs can be de-constructed into data / information—computations are what sorts and processes data—and thus the computational activity of the brain produces phenomenal experiences from sensory data. The only problem is that it is not at all clear how a series of computations can produce phenomenal experience, that aspect of consciousness that is the observer—the experiencer of sensations and mental qualia. Undoubtedly, neuromorphic computations can result in machine learning, and this is most likely an integral aspect of the process of synaptic remodeling (plasticity) that occurs in the brain as one learns.
However, the ability to process data input, execute a response, and optimize that response...
A paper recently published in the Journal of NeuroQuantology presents a unitary holofractogramic model that is redefining scientists’ view of the physics of consciousness and the seamless interplay of information dynamics from the most fundamental levels of the universe to the living system and the cosmos as a whole.
Major breakthroughs in the study of the physics of consciousness—and information dynamics in general—are occurring through the discovery and elucidation of holographic and fractal principles underlying fundamental properties of nature. For instance, in a fractal organization the degree of complexity of a system is scale-free, or invariant under any translation of magnitude. This means that one can “zoom in” or “zoom out” forever and the same degree of complexity will be observed—patterns of patterns reiterate ad...
Water is one of the most basic molecules we can find in the Universe but this tiny molecule is still keeping some interesting secrets. Its physics could be very surprising. Among its various properties, water can exist in three different states, either as solid ice, liquid water, or vapor gas. But this common knowledge could change in a near future. A team of researchers from Stockholm University in Sweden has found a new liquid form for water with a different density.
Water molecules are polarized and it exists some sort of dynamic network between these molecules. It has been postulated that water’s hydrogen-bonding network can exist in two liquid forms of different densities, namely high-and low-density liquid water. During recent work, these forms were recently simulated but direct experimental evidence was still missing. Furthermore, it was also hypothesized that the...
The neurocomputational paradigm is the predominant model of explaining cognitive functioning of the brain – the generation of subjective qualia comprising a state of awareness, phenomenological experiences, as well as learning and memory. As indicated by the name, the neurocomputational model is based on the theory that the brain is analogous to a computer, and therefore mental activity arises from computational operations of neurons, specifically the synaptic connections among them.
This standard model of cognitive biology has faced significant challenges in constructing a coherent and viable explanation by which consciousness, particularly agents with free will, would arise from computational behavior. Leading some, one of the most notable of which is physicist Dr. Roger Penrose, to posit that some “intrinsic” behavior of neuronal activity is operating beyond a...
The human brain has a region of cells responsible for linking sensory cues to actions and behaviors and cataloging the link as a memory. Cells that form these links have been deemed highly stable and fixed.
Now, the findings of a Harvard Medical School (HMS) study conducted in mice challenge that model, revealing that the neurons responsible for such tasks may be less stable, yet more flexible than previously believed.
The results, published Aug. 17 in the journal Cell, cast doubt on the traditional notion that memory formation involves hardwiring information into the brain in a fixed and highly stable pattern.
The researchers say their results point to a critical plasticity in neuronal networks that ensures easier integration of new information. Such plasticity allows neuronal networks to more easily incorporate new learning, eliminating the need...
Writing in the International Journal of Nanotechnology, Dr. Maestro and co-authors explain how the physical and chemical properties of water have been extensively studied for over 100 years and revealed some odd behavior not seen in other substances. In recent research, Dr. Maestro's team was able to identify two distinct phases or states of liquid water. The preliminary findings suggest that the structure of liquid water can strongly influence the stability of proteins and how they are denatured at the crossover temperature, which may well have implications for understanding protein processing in the food industry but also in understanding how disease arises when proteins misfold.
Article: http://www.sci-news.com/physics/two-states-liquid-water-04359.html
There’s an abundant new swath of cosmic real estate that life could call home—and the views would be spectacular. Floating out by themselves in the Milky Way galaxy are perhaps a billion cold brown dwarfs, objects many times as massive as Jupiter but not big enough to ignite as a star. According to a new study, layers of their upper atmospheres sit at temperatures and pressures resembling those on Earth, and could host microbes that surf on thermal updrafts.
Article: http://www.sciencemag.org/news/2016/12/alien-life-could-thrive-clouds-failed-stars
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Article by William Brown, Biophysicist, Resonance Science Foundation Research Scientist
In a study published in Proceedings of the National Academy of Sciences (PNAS), scientists from the University of Birmingham have shown that a small group of cells within the plant embryo operate in a similar way to the human brain.
Such a finding may seem contradictory to the predominant conventional perception of plants, as they are often viewed in the same way inanimate objects are, or at best as living things with extremely limited informational processing capabilities. Of course, this predominant sentiment is highly erroneous, as despite our traditional perceptions regarding plants they are every bit as alive as animals and share many of the same capabilities and characteristics.
This understanding has led some pioneering and visionary scientists to investigate the practically verboten field of plant cognition. Researchers like Dr. Monica Gagliano have documented...