Nerve organs Circuits and Memory
The neuron is a cell surrounded by electrically charged particles called ions. A few of these ions have a net positive cost and some are negative. If there are more negative ions inside the neuron, the neuron has a negative electric charge; conversely, if there are more positive ions inside, then the neuron has a positive electrical charge. When the neuron is resting it has a negative electric charge. However , when the neuron gets information, an electrical signal is spread through a network of neurons by a wave of positively charged neurons. Neurons in networks with numerous synapses and feedback loops constantly receive inputs from other neurons, integrate them and generate electrical action patterns in response. These complex relationships allow neural circuits to procedure and encode information, support intellectual functions and control behavior. The neural circuits in our brain resemble electrical circuits.
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Canadian psychologist, Jesse Hebb, explains memory as a reactivation of the same pattern of neurons that were activated at the time of the original encounter. Thinking of the Sahara desert triggers one network of neurons, while thinking of rats fires up an entirely different network. Over the years, some of the neurons die or are incorporated into circuits that represent different experiences. Repeated activity between any 2 neurons or a network of neurons, however , strengthen their connections as well as the memories they represent. When one particular neuron is activated it has a tendency to activate the others, which collectively re-create the original pattern that was generated throughout an experience. Individual neurons are involved in many different circuits and thus participate in many remembrances simultaneously. It is this connectivity that gives our brains the enormous capacity to encode a vast amount of details.
Holographic Encoding in the Brain plus Universe
Following Karl Lashley’s work, Karl Pribram, a neurophysiologist in Stanford, proposed that the brain stores information in the same way as interference designs are encoded on holographic film. Every element in the original image is definitely distributed over the entire film. Trillions of brain cells all help with a single memory by recording and combining all the signal patterns at the same time, including the sensory inputs into the human brain. It is the combined firing pattern and interference of trillions of cellular material that defines a memory. This unique way of storage allows the brain to recall in linear sequences and at the same time access multiple memories.
However it is not only the brain which encodes holographically. David Bohm, separately, recognized the fact that universe itself appears to be a hologram – being projected from the border of the universe. This idea has been taken forward more recently by physicists Gerard t’ Hooft, Lee Smolin and others under the banner of “the holographic principle”. This is not the only home that the human brain shares with the world.
Neural Networking in the Cosmic Mind
According to the European Southern Observatory (ESO), “All recent computer-simulations of the earlier universe have one prediction in common: the first large-scale structures to form in the younger universe are long filaments connected at their ends in ‘nodes’. The particular models typically look like a three-dimensional spider’s web, and resemble the neural structure of a brain. ” Now, astronomers have actually detected the “universal web” – vast filaments of hot gas tracing the internet have been “seen” in the current universe. Astronomers using NASA’s X-ray satellite observatory, Chandra, “viewed” the filaments extending for millions of light years through space, with one passing by means of our own galaxy. Astronomers say that the filamentary structures are so hot that it would generally be invisible in order to optical, infrared, and radio telescopes. These invisible filaments are detected only because higher density common matter tends to accumulate and condense in them – generating radiation which can be measured by scientists to confirm their particular existence in intergalactic space.
The visible galaxies in the universe are certainly not isolated and disconnected but are usually interwoven by a filamentary web-like construction – which is the invisible dark matter scaffolding of the universe. The web-like structure is both a signature feature of invisible darkish matter and magnetic plasma. The look of this web bears an uncanny resemblance to a cross-section of the mind. (Refer: Brain vs Universe)
But it is not only the morphology (i. e. structural aspects) of the large scale structure of the universe which is like the human brain but also the physiology (i. e. the functions). These filaments carry currents of charged particles (ions) over large distances that will generate magnetic fields – much like a nerve fiber. And they type circuits, just like the neural circuits within the brain.
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