Magnet Brains Quotes

As long as I can remember I feel I have had this great creative and spiritual force within me that is greater than faith, greater than ambition, greater than confidence, greater than determination, greater than vision. It is all these combined. My brain becomes magnetized with this dominating force which I hold in my hand.

Eventually scientists will discover something that explains ghosts, just like they discovered electricity, which explained lightning, and it might be something about people's brains, or something about the earth's magnetic field, or it might be some new force altogether. And then ghosts won't be mysteries. They will be like electricity and rainbows and nonstick frying pans.

Got us a full moon too coming tomorrow night. Just make things a whole lot worse. All we need. - Why is that? - What’s that, Marshal? - The full moon. You think it makes people crazy? - I know it does.- Found a wrinkle in one of the pages and used his index finger to smooth it out. - How come? - Well, you think about it—the moon affects the tide, right? - Sure. - Has some sort of magnet effect or something on water. - I’ll buy that. - Human brain,- Trey said, - is over fifty percent water. - No kidding? - No kidding. You figure ol’ Mr. Moon can jerk the ocean around, think what it can do to the head.

I feel so alone sometimes, you have no idea. And the loneliness seems to seep into my bones and I get scared because I feel numb. Not depressed or upset: I’m a blank tape. Like someone dragged a magnet against the tape inside my brain and erased all the information. There’s nothing left to feel. I felt it all and I’ll never feel anything new again and I’ll always be alone.

Possession is not only when the devil plays hide and seek in your brain or poison your medula oblongata with negativity, but it is also when you are under the influence of the same specie as you!

Poems, to me, do not come from ideas, they come from a series of images that you tuck away in the back of your brain. Little photographic snapshots. Then you get the major vision of the poem, which is like a giant magnet to which all these disparate little impressions fly and adhere, and there is the poem!

Whenever we use our brain, we fire certain neuronal connections, and the more these connections get used, the stronger they become.

Eventually scientists will discover something that explains ghosts, just like they discovered electricity, which explained lightning, and it might be something about people’s brains, or something about the earth’s magnetic field, or it might be some new force altogether. And then ghosts won’t be mysteries. They will be like electricity and rainbows and nonstick frying pans.

At such rare times you can feel the electrically charged neurons of the prefrontal brain realigning themselves like iron fillings drawn by a magnet.

Not that I'm not keen to talk to him. I am--in the fantasy version of tonight, anyway, in which I actually manage to string words into sentences, and not just random magnetic-poetry sentences, but sentences that don't lead to the logical conclusion that I have brain damage.

Sometimes I hated the way my brain worked, like a magnet to thoughts I should not have and actions I should not take. My mother said I was born backward and that probably explained how I'd gotten this way. Maybe she was right - I didn't know.

Over the long term, however, too much adrenaline produces scarring on the insides of your blood vessels. These scars become magnets for molecules to accumulate, creating lumps called plaques. These can grow large enough to block the blood vessels. If it happens in the blood vessels of your heart, you get a heart attack; in your brain, you get a stroke.

Dating as a means to getting to know someone is highly overrated. When your hormones are raging and the attraction is magnetic, your brain takes a vacation. He was everything I never knew I needed.

Our brains become magnetized with the dominating thoughts which we hold in our minds, and, by means with which no man is familiar, these ‘magnets’ attract to us the forces, the people, the circumstances of life which harmonize with the nature of our dominating thoughts.” —NAPOLEON HILL,

Sydney, and I think you already know—” I try to hide my grin, gesturing to Swarley who continues to give a rude sniffing to Dr. Abbott’s crotch. “Swarley. Yes, I’ve been seeing him since he was just a pup.” Swarley’s magnetic attraction to a certain crotch is distracting. Although he’s not my dog, and I’m sure Dr. Abbott is used to it, I feel the need to explain his behavior. “He must think you have a big piece of meat in there.” The words come out of my mouth and my brain—that apparently has a two-second delay—catches up as I turn crimson ... Swarley has diarrhea of the ass and I have diarrhea of the mouth.

Measured with magnetic field meters, the electromagnetic field that the heart produces is some 5,000 times more powerful than that created by the brain.

In fact, the heart produces the strongest magnetic field in the body - five thousand times greater in strength than the field produced by the brain.

Eventually scientists will discover something that explains ghosts, just like they discovered electricity which explained lightning, and it might be something about people’s brains, or something about the earth’s magnetic field, or it might be some new force altogether. And then ghosts won’t be mysteries. They will be like electricity and rainbows and non-stick frying pans.

Another experiment, conducted by Pascual-Leone when he was a researcher at the National Institutes of Health, provides even more remarkable evidence of the way our patterns of thought affect the anatomy of our brains. Pascual-Leone recruited people who had no experience playing a piano, and he taught them how to play a simple melody consisting of a short series of notes. He then split the participants into two groups. He had the members of one group practice the melody on a keyboard for two hours a day over the next five days. he had the members of the other group sit in front of a keyboard for the same amount of time but only imagine playing the song--without ever touching the keys. Using a technique called transcranial magnetic stimulation, or TMS, Pascual-Leone mapped the brain activity of all the participants before, during, and after the test. he found that the people who had only imagined playing the notes exhibited precisely the same changes in their brains as those who had actually pressed the keys. Their brains had changed in response to actions that took place purely in their imaginations--in response, that is, to their thoughts. Descartes may have been wrong about dualism, but he appears to have been correct in believing that our thoughts can exert a physical influence on, or at least cause a physical reaction in, our brains. We become, neurologically, what we think. (p33)

At three hundred feet, we are profoundly changed. The pressure at these depths is nine times that of the surface. The organs collapse. The heart beats at a quarter of its normal rate, slower than the rate of a person in a coma. Senses disappear. The brain enters a dream state. At six hundred feet down, the ocean’s pressure—some eighteen times that of the surface—is too extreme for most human bodies to withstand. Few freedivers have ever attempted dives to this depth; fewer have survived. Where humans can’t go, other animals can. Sharks, which can dive below six hundred and fifty feet, and much deeper, rely on senses beyond the ones we know. Among them is magnetoreception, an attunement to the magnetic pulses of the Earth’s molten core. Research suggests that humans have this ability and likely used it to navigate across the oceans and trackless deserts for thousands of years. Eight hundred feet down appears to be the absolute limit of the human body.

When our internal voice starts criticizing us, lashing out, it can feel like we’re under attack. Because our brain doesn’t distinguish between imagination and reality, these internal attacks are perceived by our mind just as a real, physical attack would be, and they can generate an automatic physical reaction known as the threat response or fight-or-flight response. The effects of this activation are well-known. Just as a zebra reacts to the stress of being chased by a lion, the human body shoots adrenaline and cortisol (stress hormones) through its veins, and directs all its resources toward crucial functions: elevated heart and breathing rates, muscle reaction, vision acuity, and so forth. The body is no longer concerned with living ten more years, but with surviving ten more minutes. It shuts down nonurgent functions such as muscle repair, digestion, and the immune system,6 as well as “superfluous” functions such as cognitive reasoning. In other words, because it’s not critical to survival, intelligent thinking gets shut down.

Last Night’s Moon," “When will we next walk together under last night’s moon?” - Tu Fu March aspens, mist forest. Green rain pins down the sea, early evening cyanotype. Silver saltlines, weedy toques of low tide, pillow lava’s black spill indelible in the sand. Unbroken broken sea. — Rain sharpens marsh-hair birth-green of the spring firs. In the bog where the dead never disappear, where river birch drown, the surface strewn with reflection. This is the acid-soaked moss that eats bones, keeps flesh; the fermented ground where time stops and doesn’t; dissolves the skull, preserves the brain, wrinkled pearl in black mud. — In the autumn that made love necessary, we stood in rubber boots on the sphagnum raft and learned love is soil–stronger than peat or sea– melting what it holds. The past is not our own. Mole’s ribbon of earth, termite house, soaked sponge. It rises, keloids of rain on wood; spreads, milkweed galaxy, broken pod scattering the debris of attention. Where you are while your body is here, remembering in the cold spring afternoon. The past is a long bone. — Time is like the painter’s lie, no line around apple or along thigh, though the apple aches to its sweet edge, strains to its skin, the seam of density. Invisible line closest to touch. Lines of wet grass on my arm, your tongue’s wet line across my back. All the history in the bone-embedded hills of your body. Everything your mouth remembers. Your hands manipullate in the darkness, silver bromide of desire darkening skin with light. — Disoriented at great depths, confused by the noise of shipping routes, whales hover, small eyes squinting as they consult the magnetic map of the ocean floor. They strain, a thousand miles through cold channels; clicking thrums of distant loneliness bounce off seamounts and abyssal plains. They look up from perpetual dusk to rods of sunlight, a solar forest at the surface. Transfixed in the dark summer kitchen: feet bare on humid linoleum, cilia listening. Feral as the infrared aura of the snake’s prey, the bees’ pointillism, the infrasonic hum of the desert heard by the birds. The nighthawk spans the ceiling; swoops. Hot kitchen air vibrates. I look up to the pattern of stars under its wings.

Putting It into Practice: Neutralizing Negativity Use the techniques below anytime you’d like to lessen the effects of persistent negative thoughts. As you try each technique, pay attention to which ones work best for you and keep practicing them until they become instinctive. You may also discover some of your own that work just as well. ♦ Don’t assume your thoughts are accurate. Just because your mind comes up with something doesn’t necessarily mean it has any validity. Assume you’re missing a lot of elements, many of which could be positive. ♦ See your thoughts as graffiti on a wall or as little electrical impulses flickering around your brain. ♦ Assign a label to your negative experience: self-criticism, anger, anxiety, etc. Just naming what you are thinking and feeling can help you neutralize it. ♦ Depersonalize the experience. Rather than saying “I’m feeling ashamed,” try “There is shame being felt.” Imagine that you’re a scientist observing a phenomenon: “How interesting, there are self-critical thoughts arising.” ♦ Imagine seeing yourself from afar. Zoom out so far, you can see planet Earth hanging in space. Then zoom in to see your continent, then your country, your city, and finally the room you’re in. See your little self, electrical impulses whizzing across your brain. One little being having a particular experience at this particular moment. ♦ Imagine your mental chatter as coming from a radio; see if you can turn down the volume, or even just put the radio to the side and let it chatter away. ♦ Consider the worst-case outcome for your situation. Realize that whatever it is, you’ll survive. ♦ Think of all the previous times when you felt just like this—that you wouldn’t make it through—and yet clearly you did. We’re learning here to neutralize unhelpful thoughts. We want to avoid falling into the trap of arguing with them or trying to suppress them. This would only make matters worse. Consider this: if I ask you not to think of a white elephant—don’t picture a white elephant at all, please!—what’s the first thing your brain serves up? Right. Saying “No white elephants” leads to troops of white pachyderms marching through your mind. Steven Hayes and his colleagues studied our tendency to dwell on the forbidden by asking participants in controlled research studies to spend just a few minutes not thinking of a yellow jeep. For many people, the forbidden thought arose immediately, and with increasing frequency. For others, even if they were able to suppress the thought for a short period of time, at some point they broke down and yellow-jeep thoughts rose dramatically. Participants reported thinking about yellow jeeps with some frequency for days and sometimes weeks afterward. Because trying to suppress a self-critical thought only makes it more central to your thinking, it’s a far better strategy to simply aim to neutralize it. You’ve taken the first two steps in handling internal negativity: destigmatizing discomfort and neutralizing negativity. The third and final step will help you not just to lessen internal negativity but to actually replace it with a different internal reality.

Visualization—or the act of creating compelling and vivid pictures in your mind—may be the most underutilized success tool you possess because it greatly accelerates the achievement of any success in three powerful ways.     1. Visualization activates the creative powers of your subconscious mind.     2. Visualization focuses your brain by programming its reticular activating system (RAS) to notice available resources that were always there but were previously unnoticed.     3. Visualization magnetizes and attracts to you the people, resources, and opportunities you need to achieve your goal.

He should have told us, too, that our brains become magnetized with the dominating thoughts which we hold in our minds, and, by means with which no man is familiar, these “magnets” attract to us the forces, the people, the circumstances of life which harmonize with the nature of our dominating thoughts.

A Hand-Mirror Hold it up sternly— see this it sends back, (who is it? is it you?) Outside fair costume, within ashes and filth, No more a flashing eye, no more a sonorous voice or springy step, Now some slave's eye, voice, hands, step, A drunkard's breath, unwholesome eater's face, venerealee's flesh, Lungs rotting away piecemeal, stomach sour and cankerous, Joints rheumatic, bowels clogged with abomination, Blood circulating dark and poisonous streams, Words babble, hearing and touch callous, No brain, no heart left, no magnetism of sex; Such from one look in this looking-glass ere you go hence, Such a result so soon— and from such a beginning!

So when nobody's watching, is the rainbow there? No, it is not. Your eyes are needed to complete the geometry. The triad of Sun, water droplets, and observer are all required for a rainbow. When no one is present, we can picture the situation as an infinity of potential rainbows, each slightly offset from the others with various color emphases (since bigger droplets produce more vivid rainbows but rob them of blue). Moreover, only when neurons in the retina and brain are stimulated by light's invisible magnetic and electrical pulses do they conjure the subjective experience of spectral colors. For both reasons, we are as necessary for rainbows as the Sun and the rain.

Only fatality could have possessed me to go high-tailing off in such troubled times, fatality and the unknowable impulsion of the destination ahead of me. a destination of which I was entirely ignorant although it had chosen me long ago for our destinations choose us, choose us before we are born. And exercise a magnetic attraction upon us, drawing us inexorably towards the source we have forgotten. Descend lower, descend the diminishing spirals of being that restore us to our source. Descend lower; while the world, in time, goes forward and so presents us with the illusion of motion, though all our lives we move through the curvilinear galleries of the brain towards the core of the labyrinth within us.

The impulse to form group identities and favor in-group members has a neurological basis. Using functional magnetic resonance imaging (fMRI), scientists have scanned people’s brains while conducting experiments similar to the one just described. Their findings, as one writer puts it, suggest that: “group identification is both innate and almost immediate.

In one recent experiment, Damasio and his colleagues had subjects listen to stories describing people experiencing physical or psychological pain. The subjects were then put into a magnetic resonance imaging machine and their brains were scanned as they were asked to remember the stories. The experiment revealed that while the human brain reacts very quickly to demonstrations of physical pain-when you see someone injured, the primitive pain centers in your own brain activate almost instantaneously- the more sophisticated mental process of empathizing with psychological suffering unfolds much more slowly. It takes time, the researchers discovered, for the brain "to transcend immediate involvement of the body" and begin to understand and to feel "the psychological and moral dimensions of a situation." (p220)

Among other things, HeartMath research tests theories about the electromagnetic field of the human heart using machines that measure faint magnetic fields, such as those that are often used in MRIs and cardiologic tests. Remarkably, the heart’s toroidally shaped electrical field is sixty times greater than that of the brain, and its magnetic field is 5,000 times greater than that of the brain. The heart generates the strongest electromagnetic field in the body, and its pumping action transmits powerful rhythmic information patterns containing neurological, hormonal, and electromagnetic data to the brain and throughout the rest of the body. The heart actually sends more information to the brain than the brain sends to the heart. In other words, the heart has a mind of its own. Studies reveal this electromagnetic field seems to pick up information in the surrounding environment and also broadcasts one’s emotional state out from the body. Their measurements reveal that the field is large enough to extend several feet (or more) outside our bodies. Positive moods such as gratitude, joy, and happiness correlate to a larger, more expanded heart field, while emotions such as greed, anger, or sadness correlate to a constricted heart field.

is easy to recall from everyday experience that neither electricity nor magnetism have visual properties. So, on its own, it’s not hard to grasp that there is nothing inherently visual, nothing bright or colored about that candle flame. Now let these same invisible electromagnetic waves strike a human retina, and if (and only if) the waves each happen to measure between 400 and 700 nanometers in length from crest to crest, then their energy is just right to deliver a stimulus to the 8 million cone-shaped cells in the retina. Each in turn sends an electrical pulse to a neighbor neuron, and on up the line this goes, at 250 mph, until it reaches the warm, wet occipital lobe of the brain, in the back of the head. There, a cascading complex of neurons fire from the incoming stimuli, and we subjectively perceive this experience as a yellow brightness occurring in a place we have been conditioned to call “the external world.” Other creatures receiving the identical stimulus will experience something altogether different, such as a perception of gray, or even have an entirely dissimilar sensation. The point is, there isn’t a “bright yellow” light “out there” at all. At most, there is an invisible stream of electrical and magnetic pulses. We are totally necessary for the experience of what we’d call a yellow flame. Again, it’s correlative.

Historically, scientists had to rely on strokes or tumors to silence certain parts of the brain and hence determine what they do. But with the TES, one can harmlessly turn off or dampen parts of the brain at will. By shooting magnetic energy at a particular spot in the brain, one can determine its function by simply watching how a person’s behavior has changed. (For example, by shooting magnetic pulses into the left temporal lobe, one can see that this adversely affects our ability to talk.)

evidence from functional magnetic resonance imaging showing that patients with BPD have hyperactivity in the limbic areas of the brain, especially the amygdala, and hypoactivity in the prefrontal cortex [and] in complex interaction with childhood trauma common among borderline patients, can result in the . . . behavior recognized as the symptoms of BPD: impulsive aggression, lack of affective control, and a profound mistrust born out of early disruption in the development of emotional attachment.8 Obviously, psychological theories for BPD

How often things must have been seen and dismissed as unimportant, before the speculative eye and the moment of vision came! It was Gilbert, Queen Elizabeth's court physician, who first puzzled his brains with rubbed amber and bits of glass and silk and shellac, and so began the quickening of the human mind to the existence of this universal presence. And even then the science of electricity remained a mere little group of curious facts for nearly two hundred years, connected perhaps with magnetism—a mere guess that—perhaps with the lightning. Frogs' legs must have hung by copper hooks from iron railings and twitched upon countless occasions before Galvani saw them. Except for the lightning conductor, it was 250 years after Gilbert before electricity stepped out of the cabinet of scientific curiosities into the life of the common man… . Then suddenly, in the half-century between 1880 and 1930, it ousted the steam-engine and took over traction, it ousted every other form of household heating, abolished distance with the perfected wireless telephone and the telephotograph… .

Functional magnetic resonance imaging studies show that areas of the brain controlling emotion and cognition light up in response to food stimuli. Areas of the prefrontal cortex involved with restraint show decreased activity. In other words, it is harder for people who have lost weight to resist food. 15 This has nothing whatsoever to do with a lack of willpower or any kind of moral failure. It’s a normal hormonal fact of life. We feel hungry, cold, tired and depressed. These are all real, measurable physical effects of calorie restriction.

Brain activity is higher in children who listen to bedtime stories. We know that reading to a young child leads to good results; there is a limited understanding of what mechanism might be involved. Two new studies examine the unexpectedly complex interactions that occur when placing a child in your lap and open a book with pictures. Research used functional magnetic resonance imaging to study the brain activity of children aged three to five years while listening to suitable stories to age. The researchers found differences in brain activation in accordance with the amount of reading that children were accustomed at home.

I shall describe one example of this kind of world, the greatest planet of a mighty sun. Situated, if I remember rightly, near the congested heart of the galaxy, this star was born late in galactic history, and it gave birth to planets when already many of the older stars were encrusted with smouldering lava. Owing to the violence of solar radiation its nearer planets had (or will have) stormy climates. On one of them a mollusc-like creature, living in the coastal shallows, acquired a propensity to drift in its boatlike shell on the sea’s surface, thus keeping in touch with its drifting vegetable food. As the ages passed, its shell became better adapted to navigation. Mere drifting was supplemented by means of a crude sail, a membrane extending from the creature’s back. In time this nautiloid type proliferated into a host of species. Some of these remained minute, but some found size advantageous, and developed into living ships. One of these became the intelligent master of this great world. The hull was a rigid, stream-lined vessel, shaped much as the nineteenth-century clipper in her prime, and larger than our largest whale. At the rear a tentacle or fin developed into a rudder, which was sometimes used also as a propeller, like a fish’s tail. But though all these species could navigate under their own power to some extent, their normal means of long-distance locomotion was their great spread of sail. The simple membranes of the ancestral type had become a system of parchment-like sails and bony masts and spars, under voluntary muscular control. Similarity to a ship was increased by the downward-looking eyes, one on each side of the prow. The mainmast-head also bore eyes, for searching the horizon. An organ of magnetic sensitivity in the brain afforded a reliable means of orientation. At the fore end of the vessel were two long manipulatory tentacles, which during locomotion were folded snugly to the flanks. In use they formed a very serviceable pair of arms.

It was about practice, practice, practice (for they knew not what). Then, on the day, it was about the constant monitoring of data–glide paths, magnetic compass deviations, dead reckoning pinpoints, calculations of fuel according to atmosphere and so on. These men were not just beefy brave chaps; they had real brains. Lancasters cannot take off at night in formation and fly low for hundreds of miles, drop an enormous bomb that is spinning at 500 revolutions per minute from exactly the right height and then move on to another target before returning home–all the time under fire from enemy anti-aircraft batteries–without a particular kind of steady, unblinking courage, tenacity and will that is out of the ordinary.

Bumblebees detect the polarization of sunlight, invisible to uninstrumented humans; put vipers sense infrared radiation and detect temperature differences of 0.01C at a distance of half a meter; many insects can see ultraviolet light; some African freshwater fish generate a static electric field around themselves and sense intruders by slight perturbations induced in the field; dogs, sharks, and cicadas detect sounds wholly inaudible to humans; ordinary scorpions have micro--seismometers on their legs so they can detect in darkness the footsteps of a small insect a meter away; water scorpions sense their depth by measuring the hydrostatic pressure; a nubile female silkworm moth releases ten billionths of a gram of sex attractant per second, and draws to her every male for miles around; dolphins, whales, and bats use a kind of sonar for precision echo-location. The direction, range, and amplitude of sounds reflected by to echo-locating bats are systematically mapped onto adjacent areas of the bat brain. How does the bat perceive its echo-world? Carp and catfish have taste buds distributed over most of their bodies, as well as in their mouths; the nerves from all these sensors converge on massive sensory processing lobes in the brain, lobes unknown in other animals. how does a catfish view the world? What does it feel like to be inside its brain? There are reported cases in which a dog wags its tail and greets with joy a man it has never met before; he turns out to be the long-lost identical twin of the dog's "master", recognizable by his odor. What is the smell-world of a dog like? Magnetotactic bacteria contain within them tiny crystals of magnetite - an iron mineral known to early sailing ship navigators as lodenstone. The bacteria literally have internal compasses that align them along the Earth's magnetic field. The great churning dynamo of molten iron in the Earth's core - as far as we know, entirely unknown to uninstrumented humans - is a guiding reality for these microscopic beings. How does the Earth's magnetism feel to them? All these creatures may be automatons, or nearly so, but what astounding special powers they have, never granted to humans, or even to comic book superheroes. How different their view of the world must be, perceiving so much that we miss.

The concept of “brain plasticity” refers to the ongoing capacity of the brain and the nervous system to change itself. Everything that we do, think, feel, and experience changes our brain. A stroke or a traumatic brain injury can affect brain plasticity, and plasticity may also be associated with such developmental disorders as autism. Increased brain plasticity may also potentially endow a person with unanticipated new abilities, as John appears to have experienced in this book. TMS, or transcranial magnetic stimulation, the intervention that John undergoes, provides a unique opportunity for us to learn about the mechanisms of plasticity, and to identify alterations in the brain’s networks that may be responsible for a patient’s problematic symptoms, and also for recovery.

This tragic sequence helps explain the fearful loss of cognition in coronary artery bypass patients.3 But neuroradiologists also report that using magnetic resonance imaging, they can detect little white spots in the brains of Americans starting at about age fifty. These spots represent small, asymptomatic strokes (see Figures 18 and 19 in insert). The brain has so much reserve capacity that at first these tiny strokes cause no trouble. But, if they continue, they begin to cause memory loss and, ultimately, crippling dementia. In fact, one recently reported study found that the presence of these “silent brain infarcts” more than doubles the risk of dementia.4 We now believe, in fact, that at least half of all senile mental impairment is caused by vascular injury to the brain.

Christofilos’s theoretical Astrodome-like shield was the hoped-for result of exploding a large number of nuclear weapons in space as a means of defending against incoming Soviet ICBMs. By Christofilos’s count, this likely meant “thousands per year, in the lower reaches of the atmosphere.” These explosions, he said, would produce “huge quantities of radioactive atoms, and these in turn would emit high-energy electrons (beta particles) and inject them into a region of space where the earth’s magnetic fields would trap and hold on them for a long time.” Christofilos figured that this electromagnetic field could last months, or perhaps longer, and that “the trapped electrons would cause severe radiation—and even heat damage—to anything, man or nuclear weapon, that tried to fly through the region.” In short, the idea was that the arming and firing mechanisms on the incoming Soviet ICBMs would be fried.

Oh I'll die I'll die I'll die My skin is in blazing furore I do not know what I'll do where I'll go oh I am sick I'll kick all Arts in the butt and go away Shubha Shubha let me go and live in your cloaked melon In the unfastened shadow of dark destroyed saffron curtain The last anchor is leaving me after I got the other anchors lifted I can't resist anymore, a million glass panes are breaking in my cortex I know, Shubha, spread out your matrix, give me peace Each vein is carrying a stream of tears up to the heart Brain's contagious flints are decomposing out of eternal sickness other why didn't you give me birth in the form of a skeleton I'd have gone two billion light years and kissed God's ass But nothing pleases me nothing sounds well I feel nauseated with more than a single kiss I've forgotten women during copulation and returned to the Muse In to the sun-coloured bladder I do not know what these happenings are but they are occurring within me I'll destroy and shatter everything draw and elevate Shubha in to my hunger Shubha will have to be given Oh Malay Kolkata seems to be a procession of wet and slippery organs today But i do not know what I'll do now with my own self My power of recollection is withering away Let me ascend alone toward death I haven't had to learn copulation and dying I haven't had to learn the responsibility of shedding the last drops after urination Haven't had to learn to go and lie beside Shubha in the darkness Have not had to learn the usage of French leather while lying on Nandita's bosom Though I wanted the healthy spirit of Aleya's fresh China-rose matrix Yet I submitted to the refuge of my brain's cataclysm I am failing to understand why I still want to live I am thinking of my debauched Sabarna-Choudhury ancestors I'll have to do something different and new Let me sleep for the last time on a bed soft as the skin of Shubha's bosom I remember now the sharp-edged radiance of the moment I was born I want to see my own death before passing away The world had nothing to do with Malay Roychoudhury Shubha let me sleep for a few moments in your violent silvery uterus Give me peace, Shubha, let me have peace Let my sin-driven skeleton be washed anew in your seasonal bloodstream Let me create myself in your womb with my own sperm Would I have been like this if I had different parents? Was Malay alias me possible from an absolutely different sperm? Would I have been Malay in the womb of other women of my father? Would I have made a professional gentleman of me like my dead brother without Shubha? Oh, answer, let somebody answer these Shubha, ah Shubha Let me see the earth through your cellophane hymen Come back on the green mattress again As cathode rays are sucked up with the warmth of a magnet's brilliance I remember the letter of the final decision of 1956 The surroundings of your clitoris were being embellished with coon at that time Fine rib-smashing roots were descending in to your bosom Stupid relationship inflated in the bypass of senseless neglect Aaaaaaaaaaaaaaaaaaaaaaaah I do not know whether I am going to die Squandering was roaring within heart's exhaustive impatience I'll disrupt and destroy I'll split all in to pieces for the sake of Art There isn't any other way out for Poetry except suicide Shubha Let me enter in to the immemorial incontinence of your labia majora In to the absurdity of woeless effort In the golden chlorophyll of the drunken heart Why wasn't I lost in my mother's urethra? Why wasn't I driven away in my father's urine after his self-coition? Why wasn't I mixed in the ovum -flux or in the phlegm? With her eyes shut supine beneath me I felt terribly distressed when I saw comfort seize S

Adults can distinguish race from very minimal clues. Stanford researchers showed subjects just the front slices of plain, black profiles—the face from forehead to chin, without the hair. Subjects could tell the race of the profile (80 percent of the time) more often than they could tell the sex (70 percent), or the age within 10 years (68 percent). Race is commonly equated with skin color, but all the profiles were black. It is obviously important for adults to tell the sexes apart, but they were even better at telling races apart. Magnetic resonance imaging (MRI) has been used to determine that what is called the fusiform region of the brain may be associated with the other-race effect. The fusiform region is involved in expert appraisal. In a bird-watcher’s brain, for example, the region lights up at the sight of a bird. All people have considerable expertise in recognizing human faces, but MRI scans show greater fusiform activity—expert appraisal activity—when they are looking at faces of their own race.

Mendel Kaelen, a Dutch postdoc in the Imperial lab, proposes a more extended snow metaphor: “Think of the brain as a hill covered in snow, and thoughts as sleds gliding down that hill. As one sled after another goes down the hill, a small number of main trails will appear in the snow. And every time a new sled goes down, it will be drawn into the preexisting trails, almost like a magnet.” Those main trails represent the most well-traveled neural connections in your brain, many of them passing through the default mode network. “In time, it becomes more and more difficult to glide down the hill on any other path or in a different direction. “Think of psychedelics as temporarily flattening the snow. The deeply worn trails disappear, and suddenly the sled can go in other directions, exploring new landscapes and, literally, creating new pathways.” When the snow is freshest, the mind is most impressionable, and the slightest nudge—whether from a song or an intention or a therapist’s suggestion—can powerfully influence its future course. Robin Carhart-Harris’s theory of

Although there are no set methods to test for psychiatric disorders like psychopathy, we can determine some facets of a patient’s mental state by studying his brain with imaging techniques like PET (positron emission tomography) and fMRI (functional magnetic resonance imaging) scanning, as well as genetics, behavioral and psychometric testing, and other pieces of information gathered from a full medical and psychiatric workup. Taken together, these tests can reveal symptoms that might indicate a psychiatric disorder. Since psychiatric disorders are often characterized by more than one symptom, a patient will be diagnosed based on the number and severity of various symptoms. For most disorders, a diagnosis is also classified on a sliding scale—more often called a spectrum—that indicates whether the patient’s case is mild, moderate, or severe. The most common spectrum associated with such disorders is the autism spectrum. At the low end are delayed language learning and narrow interests, and at the high end are strongly repetitive behaviors and an inability to communicate.

The information flood has also brought enormous benefits to science. The public has a distorted view of science because children are taught in school that science is a collection of firmly established truths. In fact, science is not a collection of truths. It is a continuing exploration of mysteries. Wherever we go exploring in the world around us, we find mysteries. Our planet is covered by continents and oceans whose origin we cannot explain. Our atmosphere is constantly stirred by poorly understood disturbances that we call weather and climate. The visible matter in the universe is outweighed by a much larger quantity of dark invisible matter that we do not understand at all. The origin of life is a total mystery, and so is the existence of human consciousness. We have no clear idea how the electrical discharges occurring in nerve cells in our brains are connected with our feelings and desires and actions. Even physics, the most exact and most firmly established branch of science, is still full of mysteries. We do not know how much of Shannon’s theory of information will remain valid when quantum devices replace classical electric circuits as the carriers of information. Quantum devices may be made of single atoms or microscopic magnetic circuits. All that we know for sure is that they can theoretically do certain jobs that are beyond the reach of classical devices. Quantum computing is still an unexplored mystery on the frontier of information theory. Science is the sum total of a great multitude of mysteries. It is an unending argument between a great multitude of voices. Science resembles Wikipedia much more than it resembles the Encyclopaedia Britannica.

Using magnetoencephalography, a technique that measures the weak magnetic fields given off by a thinking brain, researchers have found that higher-rated chess players are more likely to engage the frontal and parietal cortices of the brain when they look at the board, which suggests that they are recalling information from long-term memory. Lower-ranked players are more likely to engage the medial temporal lobes, which suggests that they are encoding information. The experts are interpreting the present board in terms of their massive knowledge of past ones. The lower ranked players are seeing the board as something new...[de Groot] argued that expertise in the field of shoemaking, painting, building, or confectionary, is the result of the same accumulation of experiential linkings. According to Erikson, what we call expertise is really just vast amounts of knowledge, pattern-based retrieval, and planning mechanisms acquired over many years of experience in the associated domain. In other words, a great memory isn't just a byproduct of expertise; it is the essence of expertise. Whether we realize it or not, we are all like those chess masters and chicken sexers- interpreting the present in light of what we've learned in the past and letting our previous experiences shape not only how we perceive our world, but also the moves we end up making in it... Our memories are always with us, shaping and being shaped by the information flowing through our senses in a continuous feedback loop. Everything we see, hear, and smell is inflected by all the things we've seen, heard, and smelled in the past...Who we are and what we do is fundamentally a function of what we remember.

The Man-Moth Man-Moth: Newspaper misprint for “mammoth.” Here, above, cracks in the buildings are filled with battered moonlight. The whole shadow of Man is only as big as his hat. It lies at his feet like a circle for a doll to stand on, and he makes an inverted pin, the point magnetized to the moon. He does not see the moon; he observes only her vast properties, feeling the queer light on his hands, neither warm nor cold, of a temperature impossible to record in thermometers. But when the Man-Moth pays his rare, although occasional, visits to the surface, the moon looks rather different to him. He emerges from an opening under the edge of one of the sidewalks and nervously begins to scale the faces of the buildings. He thinks the moon is a small hole at the top of the sky, proving the sky quite useless for protection. He trembles, but must investigate as high as he can climb. Up the façades, his shadow dragging like a photographer’s cloth behind him he climbs fearfully, thinking that this time he will manage to push his small head through that round clean opening and be forced through, as from a tube, in black scrolls on the light. (Man, standing below him, has no such illusions.) But what the Man-Moth fears most he must do, although he fails, of course, and falls back scared but quite unhurt. Then he returns to the pale subways of cement he calls his home. He flits, he flutters, and cannot get aboard the silent trains fast enough to suit him. The doors close swiftly. The Man-Moth always seats himself facing the wrong way and the train starts at once at its full, terrible speed, without a shift in gears or a gradation of any sort. He cannot tell the rate at which he travels backwards. Each night he must be carried through artificial tunnels and dream recurrent dreams. Just as the ties recur beneath his train, these underlie his rushing brain. He does not dare look out the window, for the third rail, the unbroken draught of poison, runs there beside him. He regards it as a disease he has inherited the susceptibility to. He has to keep his hands in his pockets, as others must wear mufflers. If you catch him, hold up a flashlight to his eye. It’s all dark pupil, an entire night itself, whose haired horizon tightens as he stares back, and closes up the eye. Then from the lids one tear, his only possession, like the bee’s sting, slips. Slyly he palms it, and if you’re not paying attention he’ll swallow it. However, if you watch, he’ll hand it over, cool as from underground springs and pure enough to drink.

This curious effect was noticed as far back as 1892, when textbooks on mental illness noted a link between “religious emotionalism” and epilepsy. It was first clinically described in 1975 by neurologist Norman Geschwind of Boston Veterans Administration Hospital. He noticed that epileptics who had electrical misfirings in their left temporal lobes often had religious experiences, and he speculated that the electrical storm in the brain somehow was the cause of these religious obsessions. Dr. V. S. Ramachandran estimates that 30 to 40 percent of all the temporal lobe epileptics whom he has seen suffer from hyperreligiosity. He notes, “Sometimes it’s a personal God, sometimes it’s a more diffuse feeling of being one with the cosmos. Everything seems suffused with meaning. The patient will say, ‘Finally, I see what it is all really about, Doctor. I really understand God. I understand my place in the universe—the cosmic scheme.’ ” He also notes that many of these individuals are extremely adamant and convincing in their beliefs. He says, “I sometimes wonder whether such patients who have temporal lobe epilepsy have access to another dimension of reality, a wormhole of sorts into a parallel universe. But I usually don’t say this to my colleagues, lest they doubt my sanity.” He has experimented on patients with temporal lobe epilepsy, and confirmed that these individuals had a strong emotional reaction to the word “God” but not to neutral words. This means that the link between hyperreligiosity and temporal lobe epilepsy is real, not just anecdotal. Psychologist Michael Persinger asserts that a certain type of transcranial electrical stimulation (called transcranial magnetic simulation, or TMS) can deliberately induce the effect of these epileptic lesions. If this is so, is it possible that magnetic fields can be used to alter one’s religious beliefs? In Dr. Persinger’s studies, the subject places a helmet on his head (dubbed the “God helmet”), which contains a device that can send magnetism into particular parts of the brain. Afterward, when the subject is interviewed, he will often claim that he was in the presence of some great spirit. David Biello, writing in Scientific American, says, “During the three-minute bursts of stimulation, the affected subjects translated this perception of the divine into their own cultural and religious language—terming it God, Buddha, a benevolent presence, or the wonder of the universe.” Since this effect is reproducible on demand, it indicates that perhaps the brain is hardwired in some way to respond to religious feelings.

To their surprise, they found that dopamine actively regulates both the formation and the forgetting of new memories. In the process of creating new memories, the dCA1 receptor was activated. By contrast, forgetting was initiated by the activation of the DAMB receptor. Previously, it was thought that forgetting might be simply the degradation of memories with time, which happens passively by itself. This new study shows that forgetting is an active process, requiring intervention by dopamine. To prove their point, they showed that by interfering with the action of the dCA1 and DAMB receptors, they could, at will, increase or decrease the ability of fruit flies to remember and forget. A mutation in the dCA1 receptor, for example, impaired the ability of the fruit flies to remember. A mutation in the DAMB receptor decreased their ability to forget. The researchers speculate that this effect, in turn, may be partially responsible for savants’ skills. Perhaps there is a deficiency in their ability to forget. One of the graduate students involved in the study, Jacob Berry, says, “Savants have a high capacity for memory. But maybe it isn’t memory that gives them this capacity; maybe they have a bad forgetting mechanism. This might also be the strategy for developing drugs to promote cognition and memory—what about drugs that inhibit forgetting as a cognitive enhancers?” Assuming that this result holds up in human experiments as well, it could encourage scientists to develop new drugs and neurotransmitters that are able to dampen the forgetting process. One might thus be able to selectively turn on photographic memories when needed by neutralizing the forgetting process. In this way, we wouldn’t have the continuous overflow of extraneous, useless information, which hinders the thinking of people with savant syndrome. What is also exciting is the possibility that the BRAIN project, which is being championed by the Obama administration, might be able to identify the specific pathways involved with acquired savant syndrome. Transcranial magnetic fields are still too crude to pin down the handful of neurons that may be involved. But using nanoprobes and the latest in scanning technologies, the BRAIN project might be able to isolate the precise neural pathways that make possible photographic memory and incredible computational, artistic, and musical skills. Billions of research dollars will be channeled into identifying the specific neural pathways involved with mental disease and other afflictions of the brain, and the secret of savant skills may be revealed in the process. Then it might be possible to take normal individuals and make savants out of them. This has happened many times in the past because of random accidents. In the future, this may become a precise medical process.

To test these ideas, Dr. Mario Beauregard of the University of Montreal recruited a group of fifteen Carmelite nuns who agreed to put their heads into an MRI machine. To qualify for the experiment, all of them must “have had an experience of intense union with God.” Originally, Dr. Beauregard had hoped that the nuns would have a mystical communion with God, which could then be recorded by an MRI scan. However, being shoved into an MRI machine, where you are surrounded by tons of magnetic coils of wire and high-tech equipment, is not an ideal setting for a religious epiphany. The best they could do was to evoke memories of previous religious experiences. “God cannot be summoned at will,” explained one of the nuns. The final result was mixed and inconclusive, but several regions of the brain clearly lit up during this experiment: •  The caudate nucleus, which is involved with learning and possibly falling in love. (Perhaps the nuns were feeling the unconditional love of God?) •  The insula, which monitors body sensations and social emotions. (Perhaps the nuns were feeling close to the other nuns as they were reaching out to God?) •  The parietal lobe, which helps process spatial awareness. (Perhaps the nuns felt they were in the physical presence of God?) Dr. Beauregard had to admit that so many areas of the brain were activated, with so many different possible interpretations, that he could not say for sure whether hyperreligiosity could be induced. However, it was clear to him that the nuns’ religious feelings were reflected in their brain scans. But did this experiment shake the nuns’ belief in God? No. In fact, the nuns concluded that God placed this “radio” in the brain so that we could communicate with Him. Their conclusion was that God created humans to have this ability, so the brain has a divine antenna given to us by God so that we can feel His presence. David Biello concludes, “Although atheists might argue that finding spirituality in the brain implies that religion is nothing more than divine delusion, the nuns were thrilled by their brain scans for precisely the opposite reason: they seemed to provide confirmation of God’s interactions with them.” Dr. Beauregard concluded, “If you are an atheist and you live a certain kind of experience, you will relate it to the magnificence of the universe. If you are a Christian, you will associate it with God. Who knows. Perhaps they are the same thing.” Similarly, Dr. Richard Dawkins, a biologist at Oxford University and an outspoken atheist, was once placed in the God helmet to see if his religious beliefs would change. They did not. So in conclusion, although hyperreligiosity may be induced via temporal lobe epilepsy and even magnetic fields, there is no convincing evidence that magnetic fields can alter one’s religious views.

When applied to the prefrontal lobes, TMS has been shown to enhance the speed and agility of cognitive processing. The TMS bursts are like a localized jolt of caffeine, but nobody knows for sure how the magnets actually do their work.” These experiments hint, but by no means prove, that silencing a part of the left frontotemporal region could initiate some enhanced skills. These skills are a far cry from savant abilities, and we should also be careful to point out that other groups have looked into these experiments, and the results have been inconclusive. More experimental work must be done, so it is still too early to render a final judgment one way or the other. TMS probes are the easiest and most convenient instrument to use for this purpose, since they can selectively silence various parts of the brain at will without relying on brain damage and traumatic accidents. But it should also be noted that TMS probes are still crude, silencing millions of neurons at a time. Magnetic fields, unlike electrical probes, are not precise but spread out over several centimeters. We know that the left anterior temporal and orbitofrontal cortices are damaged in savants and likely responsible, at least in some part, for their unique abilities, but perhaps the specific area that must be dampened is an even smaller subregion. So each jolt of TMS might inadvertently deactivate some of the areas that need to remain intact in order to produce savantlike skills. In the future, with TMS probes we might be able to narrow down the region of the brain involved with eliciting savant skills. Once this region is identified, the next step would be to use highly accurate electrical probes, like those used in deep brain stimulation, to dampen these areas even more precisely. Then, with the push of a button, it might be possible to use these probes to silence this tiny portion of the brain in order to bring out savantlike skills. FORGETTING TO FORGET AND PHOTOGRAPHIC MEMORY Although savant skills may be initiated by some sort of injury to the left brain (leading to right brain compensation), this still does not explain precisely how the right brain can perform these miraculous feats of memory. By what neural mechanism does photographic memory emerge? The answer to this question may determine whether we can become savants. Until recently, it was thought that photographic memory was due to the special ability of certain brains to remember. If so, then it might be difficult for the average person to learn these memory skills, since only exceptional brains are capable of them. But in 2012, a new study showed that precisely the opposite may be true. The key to photographic memory may not be the ability of remarkable brains to learn; on the contrary, it may be their inability to forget. If this is true, then perhaps photographic memory is not such a mysterious thing after all.

This transmutation of the reproductive energy gives great vitality to those practicing it. They will be filled with great vital force, which will radiate from them and will manifest in what has been called "personal magnetism." The energy thus transmuted may be turned into new channels and used to great advantage. Nature has condensed one of its most powerful manifestations of prana into reproductive energy, as its purpose is to create. The greatest amount of vital force is concentrated in the smallest area. The reproductive organism is the most powerful storage battery in animal life, and its force can be drawn upward and used, as well as expended in the ordinary functions of reproduction, or wasted in riotous lust. The majority of our students know something of the theories of regeneration; and we can do little more than to state the above facts, without attempting to prove them. The Yogi exercise for transmuting reproductive energy is simple. It is coupled with rhythmic breathing, and can be easily performed. It may be practiced at any time, but is specially recommended when one feels the instinct most strongly, at which time the reproductive energy is manifesting and may be most easily transmuted for regenerative purposes. The exercise is as follows: Keep the mind fixed on the idea of Energy, and away from ordinary sexual thoughts or imaginings. If these thoughts come into the mind do not be discouraged, but regard them as manifestations of a force which you intend using for the purposes of strengthening the body and mind. Lie passively or sit erect, and fix your mind on the idea of drawing the reproductive energy upward to the Solar Plexus, where it will be transmuted and stored away as a reserve force of vital energy. Then breathe rhythmically, forming the mental image of drawing up the reproductive energy with each inhalation. With each inhalation make a command of the Will that the energy be drawn upward from the reproductive organization to the Solar Plexus. If the rhythm is fairly established and the mental image is clear, you will be conscious of the upward passage of the energy, and will feel its stimulating effect. If you desire an increase in mental force, you may draw it up to the brain instead of to the Solar Plexus, by giving the mental command and holding the mental image of the transmission to the brain. The man or woman doing metal creative work, or bodily creative work, will be able to use this creative energy in their work by following the above exercise, drawing up the energy with the inhalation and sending it forth with the exhalation. In this last form of exercise, only such portions as are needed in the work will pass into the work being done, the balance remaining stored up in the Solar Plexus. You will understand, of course, that it is not the reproductive fluids which are drawn up and used, but the etheripranic energy which animates the latter, the soul of the reproductive organism, as it were. It is usual to allow the head to bend forward easily and naturally during the transmuting exercise.

Stark Electric Jesus Oh I'll die I'll die I'll die My skin is in blazing furore I do not know what I'll do where I'll go oh I am sick I'll kick all Arts in the butt and go away Shubha Shubha let me go and live in your cloaked melon In the unfastened shadow of dark destroyed saffron curtain The last anchor is leaving me after I got the other anchors lifted I can't resist anymore, a million glass panes are breaking in my cortex I know, Shubha, spread out your matrix, give me peace Each vein is carrying a stream of tears up to the heart Brain's contagious flints are decomposing out of eternal sickness other why didn't you give me birth in the form of a skeleton I'd have gone two billion light years and kissed God's ass But nothing pleases me nothing sounds well I feel nauseated with more than a single kiss I've forgotten women during copulation and returned to the Muse In to the sun-coloured bladder I do not know what these happenings are but they are occurring within me I'll destroy and shatter everything draw and elevate Shubha in to my hunger Shubha will have to be given Oh Malay Kolkata seems to be a procession of wet and slippery organs today But i do not know what I'll do now with my own self My power of recollection is withering away Let me ascend alone toward death I haven't had to learn copulation and dying I haven't had to learn the responsibility of shedding the last drops after urination Haven't had to learn to go and lie beside Shubha in the darkness Have not had to learn the usage of French leather while lying on Nandita's bosom Though I wanted the healthy spirit of Aleya's fresh China-rose matrix Yet I submitted to the refuge of my brain's cataclysm I am failing to understand why I still want to live I am thinking of my debauched Sabarna-Choudhury ancestors I'll have to do something different and new Let me sleep for the last time on a bed soft as the skin of Shubha's bosom I remember now the sharp-edged radiance of the moment I was born I want to see my own death before passing away The world had nothing to do with Malay Roychoudhury Shubha let me sleep for a few moments in your violent silvery uterus Give me peace, Shubha, let me have peace Let my sin-driven skeleton be washed anew in your seasonal bloodstream Let me create myself in your womb with my own sperm Would I have been like this if I had different parents? Was Malay alias me possible from an absolutely different sperm? Would I have been Malay in the womb of other women of my father? Would I have made a professional gentleman of me like my dead brother without Shubha? Oh, answer, let somebody answer these Shubha, ah Shubha Let me see the earth through your cellophane hymen Come back on the green mattress again As cathode rays are sucked up with the warmth of a magnet's brilliance I remember the letter of the final decision of 1956 The surroundings of your clitoris were being embellished with coon at that time Fine rib-smashing roots were descending in to your bosom Stupid relationship inflated in the bypass of senseless neglect Aaaaaaaaaaaaaaaaaaaaaaaah I do not know whether I am going to die Squandering was roaring within heart's exhaustive impatience I'll disrupt and destroy I'll split all in to pieces for the sake of Art There isn't any other way out for Poetry except suicide

We are conscious of only a tiny fraction of the information that our brains process in each moment.1 Although we continually notice changes in our experience—in thought, mood, perception, behavior, etc.—we are utterly unaware of the neurophysiological events that produce them. In fact, we can be very poor witnesses to experience itself. By merely glancing at your face or listening to your tone of voice, others are often more aware of your state of mind and motivations than you are. I generally start each day with a cup of coffee or tea—sometimes two. This morning, it was coffee (two). Why not tea? I am in no position to know. I wanted coffee more than I wanted tea today, and I was free to have what I wanted. Did I consciously choose coffee over tea? No. The choice was made for me by events in my brain that I, as the conscious witness of my thoughts and actions, could not inspect or influence. Could I have “changed my mind” and switched to tea before the coffee drinker in me could get his bearings? Yes, but this impulse would also have been the product of unconscious causes. Why didn’t it arise this morning? Why might it arise in the future? I cannot know. The intention to do one thing and not another does not originate in consciousness—rather, it appears in consciousness, as does any thought or impulse that might oppose it. The physiologist Benjamin Libet famously used EEG to show that activity in the brain’s motor cortex can be detected some 300 milliseconds before a person feels that he has decided to move.2 Another lab extended this work using functional magnetic resonance imaging (fMRI): Subjects were asked to press one of two buttons while watching a “clock” composed of a random sequence of letters appearing on a screen. They reported which letter was visible at the moment they decided to press one button or the other. The experimenters found two brain regions that contained information about which button subjects would press a full 7 to 10 seconds before the decision was consciously made.3 More recently, direct recordings from the cortex showed that the activity of merely 256 neurons was sufficient to predict with 80 percent accuracy a person’s decision to move 700 milliseconds before he became aware of it.4 These findings are difficult to reconcile with the sense that we are the conscious authors of our actions. One fact now seems indisputable: Some moments before you are aware of what you will do next—a time in which you subjectively appear to have complete freedom to behave however you please—your brain has already determined what you will do. You then become conscious of this “decision” and believe that you are in the process of making it. The distinction between “higher” and “lower” systems in the brain offers no relief: I, as the conscious witness of my experience, no more initiate events in my prefrontal cortex than I cause my heart to beat. There will always be some delay between the first neurophysiological events that kindle my next conscious thought and the thought itself. And even if there weren’t—even if all mental states were truly coincident with their underlying brain states—I cannot decide what I will next think or intend until a thought or intention arises. What will my next mental state be? I do not know—it just happens. Where is the freedom in that?

Deprive a cat of sleep and it would die in two weeks. Deprive a human and he would become psychotic. His work was killing people. How was he supposed to frighten these guys? Run up behind them in a halloween mask and shout boo? He never saw the point of views -- what did it matter if it was an ocean or a brick wall you were looking at? People travelled hundreds, sometimes thousands of miles to commit suicide someplace with a beautiful view. Did a view matter when oblivion beckoned? They could put him in a garbage bin after he was gone, for all he cared. That's all the human race was anyway. Garbage with attitude. A cutting word is worse than a bowstring. A cut may heal but a cut of the tongue does not. The Sakawa students were all from poor, underprivileged backgrounds. Sakawa was a mix of religious juju and modern internet technology. They were taught, in structured classes, the art of online fraud as well as arcane African rituals -- which included animal sacrifice -- to have a voodoo effect on their victims, ensuring the success of each fraud. of which there was a wide variety. The British Empire spend five hundred years plundering the world. The word is 'thanks'. 'That's what it is, Roy! He won't come out, he has locked the doors! What if he self-harms, Roy! I mean -- what if he kills himself?' 'I will have to take him off my Christmas list.' "Any chance you can recover any of it?' 'You sitting near a window, Gerry?' 'Near a window? Sure, right by a window?' 'Can you see the sky?' 'Uh-huh. Got a clear view.' 'See any pigs flying past?' To dream of death is good for those in fear, for the death have no more fears. '...Cleo took me to the opera once. I spent the whole time praying for a fat lady to come on stage and start singing. Or a heart attack --whichever come sooner.' '..there is something strongly powerful -- almost magnetic -- about internet romances. A connection that is far stronger than a traditional meeting of two people. Maybe because on the internet you can lie all the time, each person gives the other their good side. It's intoxicating. That's one of the things which makes it so dangerous -- and such easy pickings for fraudsters.' He was more than a little pleased that he was about to ruin his boss's morning -- and, with a bit of luck, his entire day. ..a guy who had been born angry and had just got even angrier with each passing year. '...Then at some point in the future, I'll probably die in an overcrowded hospital corridor with some bloody hung-over medical student jumping up and down on my chest because they couldn't find a defibrillator. 'Give me your hand, bro,' the shorter one said. 'That one, the right one, yeah.' On the screen the MasterChef contestant said, 'Now with a sharp knife...' Jules de Copland drove away from Gatwick Airport in.a new car, a small Kia, hired under a different name and card, from a different rental firm, Avis. 'I was talking about her attitude. But I'll tell you this, Roy. The day I can't say a woman -- or a man -- is plug ugly, that's the day I want to be taken out and shot.' It seems to me the world is in a strange place where everyone chooses to be offended all the time. 'But not too much in the way of brains,' GlennBranson chipped in. 'Would have needed the old Specialist Search Unite to find any trace of them.' 'Ever heard of knocking on a door?' 'Dunno that film -- was it on Netflix?' 'One word, four letters. Begins with an S for Sierra, ends with a T for Tango. Or if you'd like the longest version, we've been one word, six letters, begins with F for Foxtrot, ends with D for Delta.' No Cop liked entering a prison. In general there was a deep cultural dislike of all police officers by the inmates. And every officer entering.a prison, for whatever purposes, was always aware that if a riot kicked off while they were there, they could be both an instant hostage and a prime target for violence.

The world she lives in is not mine. Life is faster for her; time runs slower. Her eyes can follow the wingbeats of a bee as easily as ours follow the wingbeats of a bird. What is she seeing? I wonder, and my brain does backflips trying to imagine it, because I can’t. I have three different receptor-sensitivities in my eyes: red, green and blue. Hawks, like other birds, have four. This hawk can see colours I cannot, right into the ultraviolet spectrum. She can see polarised light, too, watch thermals of warm air rise, roil, and spill into clouds, and trace, too, the magnetic lines of force that stretch across the earth. The light falling into her deep black pupils is registered with such frightening precision that she can see with fierce clarity things I can’t possibly resolve from the generalised blur. The claws on the toes of the house martins overhead. The veins on the wings of the white butterfly hunting its wavering course over the mustards at the end of the garden. I’m standing there, my sorry human eyes overwhelmed by light and detail, while the hawk watches everything with the greedy intensity of a child filling in a colouring book, scribbling joyously, blocking in colour, making the pages its own. And all I can think is, I want to go back inside.

Separated by centrifugal force, in the great turbine of Dante, or through fractional distillation in the Deisis of Byzantine icons, Inferno and Paradiso, layer of perfumed oil over layer of stinking pitch, all these in the end are all wisdom. Paradise – the wisdom of the right hand, right hemisphere, feminine, gentle and puffy, endless, still waters, illuminated in their depths by the phosphorescence of terrifying abyssal fish … Hell – wisdom of the left hand, left hemisphere, sudden paracletian fire, the mask that covers, in the crux of destruction, the soul of a dove. Good and evil, two enormous Buddhas erupting over our lives from two volcanoes over our lives, opposing and yet similar principles like magnetic poles, in the end they couple, over a footbridge of nervous fibers, to make the motionless and complicated hemispheres of the great, incomparable Brain that dreams us all.

ALL TOOLS OF LIFE............I FOUND IN GOOD BOOKS. PARADISE TOO, HAS A SMALL LIBRARY BY THE LAKE. I see many nowadays, on TV shows..a library behind. A book is not furniture but is antique for the scholar. The class of books you read- showcase your brain Not to Glorify books- but sure they have value All that craziness about books..scares some. Be an intelligent reader. Not a book worm or addict. A peasant that reads is a prince in waiting.”– Walter Mosley “There is more treasure in books than in all the pirate’s loot on Treasure Island.”– Walt Disney “No entertainment is so cheap as reading, nor any pleasure so lasting.”– Mary Wortley Montagu Books are the best pets. Easy to manage too. .You can never pay and thank enough for a book. Books are good at multiple love affairs..they are the most reliable friends. 'The bricks of a book are small, they are called words '- Dr. Kamal Murdia "The Reader I believe, Robs an Author." - Dr. Kamal Murdia If 'his' words don't create a beautiful scandal, he is useless as an author - Dr. Kamal Murdia The books that the world calls immoral are books that show the world its own shame.” – Oscar Wilde in The Picture of Dorian Gray.

magnetic iron crystals in birds’ brains that help them navigate,

Something in my deep memory was being triggered—from back in the days when I’d been a researcher. The theory of how, just as magnetic, electrical, or gravitational fields exert invisible but powerful influences on physical activity, so too the quantum field affects humans at a biological level. In the most basic terms, each one of us resonates, at a biological level, with the invisible but ever-present field of our own mind. The most powerful forces in this field are our habitual patterns of thought, speech, and action. The jobs we work in, families we grow up in and create, the habits we take up, routines we get into—all these impact on our consciousness in ways that are both seen and unseen. Our brains physically change depending on what we give our attention to.

As described by the Association for Contextual Behavioral Science, Acceptance and Commitment Therapy (ACT) is a form of empirically based psychological intervention that focuses on mindfulness. Mindfulness is the state of focusing on the present to remove oneself from feeling consumed by the emotion experienced in the moment. To properly observe yourself, begin by noticing where in your body you experience emotion. For example, think about a time when you felt really sad. You may have felt despair in your chest, or a sense of hollowness in your stomach. If you were angry, you may have felt a burning sensation in your arms. This occurs within everyone, in different variations. A study conducted by Carnegie Mellon University traced emotional responses in the brain to different activity signatures in the body through a functional magnetic resonance imaging (fMRI) scanner. If someone recalled a painful or traumatic memory, the prefrontal cortex and neocortex became less active, and their “reptilian brain” was activated. The former areas of the brain are responsible for conscious thought, spatial reasoning, and higher functions such as sensory perception. The latter is responsible for fight-or-flight responses. This means that the bodily responses caused by your emotions provide an opportunity for you to be mindful of them. Your emotions create sensations in your body that reflect your mind. Dr. Bruce Lipton, a developmental biologist who studies gene expression in relation to environmental factors, released a study on epigenetics that sheds light on this matter. It revealed that an individual’s body cannot heal when it is in its sympathetic state. The sympathetic nervous system, informally known as the fight-or-flight state, is triggered by certain emotional responses. This means that when we are consumed by emotion, an effective solution cannot be found until we shift our mind into reflecting on our emotions.

As described by the Association for Contextual Behavioral Science, Acceptance and Commitment Therapy (ACT) is a form of empirically based psychological intervention that focuses on mindfulness. Mindfulness is the state of focusing on the present to remove oneself from feeling consumed by the emotion experienced in the moment. To properly observe yourself, begin by noticing where in your body you experience emotion. For example, think about a time when you felt really sad. You may have felt despair in your chest, or a sense of hollowness in your stomach. If you were angry, you may have felt a burning sensation in your arms. This occurs within everyone, in different variations. A study conducted by Carnegie Mellon University traced emotional responses in the brain to different activity signatures in the body through a functional magnetic resonance imaging (fMRI) scanner. If someone recalled a painful or traumatic memory, the prefrontal cortex and neocortex became less active, and their “reptilian brain” was activated. The former areas of the brain are responsible for conscious thought, spatial reasoning, and higher functions such as sensory perception. The latter is responsible for fight-or-flight responses. This means that the bodily responses caused by your emotions provide an opportunity for you to be mindful of them. Your emotions create sensations in your body that reflect your mind. Dr. Bruce Lipton, a developmental biologist who studies gene expression in relation to environmental factors, released a study on epigenetics that sheds light on this matter. It revealed that an individual’s body cannot heal when it is in its sympathetic state. The sympathetic nervous system, informally known as the fight-or-flight state, is triggered by certain emotional responses. This means that when we are consumed by emotion, an effective solution cannot be found until we shift our mind into reflecting on our emotions. Let’s take a moment and test this theory together. Try to focus on what you’re feeling and where, and this will ground you in the present moment. By focusing on how you are responding, you essentially remove yourself from being consumed by your emotions in that moment. This brings you back into your sensory perception and moves the response in your brain back into the cortex and neocortex. This transition helps bring you back into a more logical state where emotions are not controlling your reactions.

A team of scientists at the California Institute of Technology (Caltech) designed an ingenious experiment to determine if humans could detect energy fields similar to those of the earth. They hooked participants up to EEGs and confined them in a shielded room, screening out virtually all known sources of energy and radiation. They created a magnetic field generator that precisely mimicked the earth’s field. They then varied the direction of the magnetic field unpredictably, in very short bursts of one-tenth of a second. That’s too quick to be consciously detectable. The EEG recorded changes in brain wave amplitudes and frequencies throughout the experiment, which was repeated up to 100 times per subject. The investigators found drops in alpha waves of up to 60% whenever they changed the direction of the field. They conclude that “the human brain can detect Earth-strength magnetic fields, demonstrating that we have a sensory system that processes the geomagnetic field all around us.” The Caltech authors also noted: “We’ve known about the five basic senses: vision, hearing, touch, smell, and taste since ancient times, but this is the first discovery of an entirely new human sense in modern times.

Researchers looked at magnetic resonance images of the brains of people who described themselves as newly in love. They were shown a photograph of their beloveds while their brains were scanned for activity. The scan showed the same reward systems being activated as in the brains of addicts given a drug

It could be as straightforward as the notion of a "mental reboot"- Matt Johnson's biological control-alt-delete key- that jolts the brain out of destructive patterns (such as Kessler's "capture"), affording an opportunity for new patterns to take root. It could be that, as Franz Vollenweider has hypothesized, psychedelics enhance neuroplasticity. The myriad new connections that spring up in the brain during the psychedelic experience, as mapped by the neuroimaging done at Imperial College, and the disintegration of well traveled old connections, may serve simply to "shake the snow globe," in Robin Carhart-Harris's phrase, a predicate for establishing new pathways. Mendel Kaelen, a Dutch postdoc in the Imperial lab, proposes a more extended snow metaphor: "Think of the brain as a hill covered in snow, and thoughts as sleds gliding down that hill. As one sled after another goes down the hill, a small number of main trails will appear in the snow. And every time a new sled goes down, it will be drawn into the preexisting trails, almost like a magnet." Those main trails represent the most well-traveled neural connections in your brain, many of them passing through the default mode network. "In time, it become more and more difficult to glide down the hill on any other path or in a different direction. "Think of psychedelics as temporarily flattening the snow. The deeply worn trails disappear, and suddenly the sled can go in other directions, exploring new landscapes and, literally, creating new pathways." When the snow is freshest, the mind is most impressionable, and the slightest nudge-whether from a song or an intention or a therapists's suggestion- can powerfully influence its future course. p384

A coaching session can be compared to the creative process of freestyle rap. Neuroscientists at the National Institute on Deafness and Other Communication Disorders scanned the brains of twelve professional rappers with an fMRI (functional magnetic resonance imaging) machine. The scientists discovered that although the brain’s executive functions were active at the start and end of a song, during freestyle, the parts of the brain responsible for self-monitoring, critiquing, and editing were deactivated. In this context, the researchers explained that the rappers were “freed from the conventional constraints of supervisory attention and executive control,” so sudden insights could easily emerge.1 In other words, the rappers used the executive functions of their cognitive brains as they started rapping to deliberately set the intention of the composition up front. Once they had a sense of where they were going, they switched off their inner critic and analyzer. This allowed for more activity in the inner brain, where the eruption of new ideas—creativity—takes place. As they moved to closing out the song, their cognitive brains came back online to provide a consciously designed ending to the composition.

In a pigeon's cells, somewhere in their head, tiny magnetic crystals survive, tiny pieces of iron ore called magnetite. Invisible lodestones, tinier than dust, creating a compass, sensing polarity, the inclination of magnetic fields around the earth. The electronic particles in the crystal, moving between different ions in a structured path, turn the ore magnetic and tell the pigeons their way. They've also found this in the brains of bees. They've found iron too in their otolith organs, in their inner ear—the things which give them a sense of where they are in the air, of the space they move through. If the earth's geomagnetics are wrong, they get lost. It makes you wonder what crystals run through us, what drops of salt? Because something in us gives us a sense of where we should be, too, if we listen.

In fact, the energy that is created when the heart opens makes the heart become more orderly and coherent, just like the brain, so it produces a measurable magnetic field.3 It’s this action that connects us to the unified field. And when we marry an intention (the electric charge) with that energy (the magnetic charge), we create a new electromagnetic field. Since energy is frequency and all frequency carries information, it is that elevated energy that carries your thought or intention.

On a mental level, our brains are always seeking reinforcement for our subconscious beliefs. When we believe that we are not worthy of something, our brains go out of their way to find evidence for us that this is true. What this can look like is situation after situation coming up in our lives that we interpret as more and more data supporting that we are not worthy of whatever thing it is we want.

Positron emission tomography (PET) and, later, functional magnetic resonance imaging (fMRI) enabled scientists to visualize how different parts of the brain are activated when people are engaged in certain tasks or when they remember events from the past. For the first time we could watch the brain as it processed memories, sensations, and emotions and begin to map the circuits of mind and consciousness.

Entrainment or the management of the body through the heart rather than brain leads to higher functioning mental and emotional states, as well as a healthier body.52 It also enables a person to screen the outer environment for “good messages” instead of “negative messages,” enabling a more positive relationship with the external world.53 This “heart healing power” is possible because of the energetic nature of the body. All energy contains information and all cells are energetic. The closer a group of cells, the more likely they are to oscillate or vibrate in a coordinated rhythm, thereby producing a more powerful and intense signal. Heart cells are tightly organized, thus generating an extremely strong, shared signal, which is both electrical and magnetic. The heart’s internal signal is stronger than any produced by other parts of the body because it is more intense. Thus can the heart dynamically move into the lead position in the body, its rhythms able to modulate or “take over” those of the other organs. What about its relationship with the external world? We are constantly receiving information—sometimes called “background noise”—from outside of ourselves. Not only can the heart override the incoming flow of communiqués, but it can also sort and filter information from the world outside of the body—even intuitive information. As explained by researcher Stephen Harrod Buhner in his book The Secret Teachings of Plants, highly synchronized cells, such as those compactly organized in the heart, are able to use background noise to increase the amplitude of an incoming signal—if they are interested in perceiving it.54 The heart will “hear” what it is programmed to “hear.” If love resides in the heart, it will attune to love. If fear, greed, or envy resides within, the heart will access negativity. Most people believe that the brain initiates the first response to incoming events and then orders our reactions. Analysis reveals, however, that incoming information first impacts the heart, and through the heart, the brain and then rest of the body.55 Our hearts are so strong that they can actually formulate the most well known symbol of love: light. Research has shown that under certain conditions, a meditator can actually generate visible light from the heart. The meditation technique must be heart-centered, not transcendent. When this occurred during studies at the University of Kassel in Germany in 1997, the heart emanated a sustained light of one hundred thousand photons per second, whereas the background had a count of only twenty photons per second. The meditations drew upon energetic understandings from several cultures, including the Hindu practice of kundalini.56 It has been said that the heart is the center of the body, but it might also be the core of a subtle universe—or perhaps a “subtle sun” generated by every individual.

The irony is—we are gold but still look for gold like there are no strangers, only friendships you are yet to meet. The human being species are bodies until an epiphany makes us realize we are interconnected to The Universe like a negative ion connects a positive ion through magnetism. Our brains are positive ion magnets that pull, connect, and attract negative ion energy from natural environments like mountains, oceans, forests, and waterfalls—which breathe negative oxygen ions. The Universe has approximately 73% positive hydrogen ions and 25% neutral helium ions, so the only method to pull, connect, and attract creative Universal frequency is to increase oxygen absorption in the brain by increasing neutral ions in the blood by being in nature, taking longer, slower exhales, and by thinking less. Might that be how we can see the unseen? By pulling Universal frequency that has been around for over 13 billion years?

We intuitively know that the heart is the center of love and empathy, and studies are showing this to be true. In fact, empathy manifests in the electromagnetic field (EMF), which is generated by the heart in amounts greater than anywhere else in the body. The heart’s EMF emits fifty thousand femtoteslas (a measure of EMF), in contrast to the ten generated by the brain.37 Other research shows that when separated from the magnetic field, the heart’s electrical field is sixty times greater in amplitude than the brain’s field.38 Through this field, a person’s nervous system tunes in to and responds to the magnetic fields produced by the hearts of other people.39 The heart’s field is therefore one of the means by which a practitioner affects patients. This effect leads to the question, What do you want to share? To generate positive outcomes for a patient, a practitioner must hold positive feelings in his or her own heart. Not only does good will profit the client, but it also benefits the practitioner as a person. A set of studies by researcher Dr. Rollin McCraty of the HeartMath Institute in California, and described in his e-book, The Energetic Heart, helps explain the importance of positive energy.40 For decades, scientists have known that information is encoded in the nervous system in the time intervals between activities or in the pattern of electrical activity. Recent studies also reveal that information is captured in hormone pulses. Moreover, there is a hormone pulse that coincides with heart rhythms, which means that information is also shared in the interbeat intervals of the pressure and electromagnetic waves produced by the heart. Negative emotions such as anger, frustration, or anxiety disturb the heart rhythm. Positive emotions such as appreciation, love, or compassion produce coherent or functional patterns. Feelings, distributed throughout the body, produce chemical changes within the entire system. Do you want to be a healthy person? Be sincerely positive as often as you can. You thus “increase the probability of maintaining coherence and reducing stress, even during challenging situations.”41 What you as a practitioner believe will be shared—everywhere and with everyone you meet.

Deprive a cat of sleep and it would die in two weeks. Deprive a human and he would become psychotic. His work was killing people. How was he supposed to frighten these guys? Run up behind them in a halloween mask and shout boo? He never saw the point of views -- what did it matter if it was an ocean or a brick wall you were looking at? People travelled hundreds, sometimes thousands of miles to commit suicide someplace with a beautiful view. Did a view matter when oblivion beckoned? They could put him in a garbage bin after he was gone, for all he cared. That's all the human race was anyway. Garbage with attitude. A cutting word is worse than a bowstring. A cut may heal but a cut of the tongue does not. The Sakawa students were all from poor, underprivileged backgrounds. Sakawa was a mix of religious juju and modern internet technology. They were taught, in structured classes, the art of online fraud as well as arcane African rituals -- which included animal sacrifice -- to have a voodoo effect on their victims, ensuring the success of each fraud. of which there was a wide variety. The British Empire spend five hundred years plundering the world. The word is 'thanks'. 'That's what it is, Roy! He won't come out, he has locked the doors! What if he self-harms, Roy! I mean -- what if he kills himself?' 'I will have to take him off my Christmas list.' "Any chance you can recover any of it?' 'You sitting near a window, Gerry?' 'Near a window? Sure, right by a window?' 'Can you see the sky?' 'Uh-huh. Got a clear view.' 'See any pigs flying past?' To dream of death is good for those in fear, for the death have no more fears. '...Cleo took me to the opera once. I spent the whole time praying for a fat lady to come on stage and start singing. Or a heart attack --whichever come sooner.' '..there is something strongly powerful -- almost magnetic -- about internet romances. A connection that is far stronger than a traditional meeting of two people. Maybe because on the internet you can lie all the time, each person gives the other their good side. It's intoxicating. That's one of the things which makes it so dangerous -- and such easy pickings for fraudsters.' He was more than a little pleased that he was about to ruin his boss's morning -- and, with a bit of luck, his entire day. ..a guy who had been born angry and had just got even angrier with each passing year. '...Then at some point in the future, I'll probably die in an overcrowded hospital corridor with some bloody hung-over medical student jumping up and down on my chest because they couldn't find a defibrillator. 'Give me your hand, bro,' the shorter one said. 'That one, the right one, yeah.' On the screen the MasterChef contestant said, 'Now with a sharp knife...' Jules de Copland drove away from Gatwick Airport in.a new car, a small Kia, hired under a different name and card, from a different rental firm, Avis. 'I was talking about her attitude. But I'll tell you this, Roy. The day I can't say a woman -- or a man -- is plug ugly, that's the day I want to be taken out and shot.' It seems to me the world is in a strange place where everyone chooses to be offended all the time. 'But not too much in the way of brains,' GlennBranson chipped in. 'Would have needed the old Specialist Search Unite to find any trace of them.' 'Ever heard of knocking on a door?' 'Dunno that film -- was it on Netflix?' 'One word, four letters. Begins with an S for Sierra, ends with a T for Tango. Or if you'd like the longest version, we've been one word, six letters, begins with F for Foxtrot, ends with D for Delta.' No Cop liked entering a prison. In general there was a deep cultural dislike of all police officers by the inmates. And every officer entering.a prison, for whatever purposes, was always aware that if a riot kicked off while they were there, they could be both an instant hostage and a prime target for violence.

In terms of ESP, Rawls and Davis discovered that the “third eye,” or sixth chakra area of the brain, stimulates inner vision or awareness. Subjects experienced an increase in this ability, as well as peace and calm, by holding a magnet in the left palm or on the back of the right hand. In 1976, Davis and Rawls were nominated for a Nobel Prize in medical physics. In summation, the electrical flow in the body is maintained by certain ions, such as sodium, potassium, calcium, and magnesium. Imbalances in these fundamental materials can cause disease—and can occur because of disease. These imbalances will alter the electrical activity of the body and therefore the actual appearance—shape and form—of the various magnetic or auric fields outside of the body. This might explain the ability of certain “auric readers” to use their psychic skills to perceive deep-seated problems in the body even before medical technology can detect them, as well as the reverse ability to heal the aura and therefore, heal the body. The link between the meridians and the electrical system of the body, as Nordenström proposed, also provides an explanation for healing through the meridians and acupoints. The glial cells act as yet another major player in the body’s microcircuit system, receiving information from the magnetic spectrum inside and outside it, thus adding another dimension to Nordenström’s discoveries. Nordenström used his theories to cure cancer, sending electrical charges into a tumor to shrink it. What did Rawls and Davis discover but one of the primary concepts of healing? There is polarity to every aspect of life. Humans are electrical and magnetic, yin and yang, and health is dependent upon maintaining the appropriate balance of each. Humans are L-fields, acted upon by electricity. And humans are T-fields, acted upon by magnetism. Through the bipolarity that is “L,” or electrical, humans generate life, movement, and activity. Through the bipolarity of our “T,” or magnetic self, we attract what we need and what we can become. Humans are composed of the stuff of thought—and matter. FIGURE 3.6 FORMS OF MAGNETISM In his book A Practical Guide to Vibrational Medicine, Dr. Richard Gerber outlines many forms of magnetism.83 Here is a brief description of each, along with a sample of its effects.

Figure 2.1 Cortical connections over two years adapted from Conel The top row shows the baby’s cortex at birth, then at one month and at three months. They all look about the same, don’t they? But look what happens at six months (bottom left box): the number of cell bodies remains the same, but the number of connections has multiplied exponentially. The connections grow so quickly in the first three years of life that neuroscientists call it neural exuberance. Neural exuberance! The name is well earned: The baby’s brain makes 24 million new connections every minute, and this continues for the first three years of life. Each neuron may be connected to 1,000 other neurons — that multiplies out to 100 trillion possible connections between neurons, more than the number of stars in the universe. This high level of connectivity between brain cells leads to the cortex of a three-year-old being twice as thick as an adult’s! As connections are created, new abilities emerge. For example, when connections grow in Broca’s area — speech production — around six months, then children begin to speak. Around nine months of age, the frontal areas (behind the forehead) become more interconnected, and that’s when most children develop object permanence: knowing that objects continue to exist even when they are out of sight. Before object permanence develops, when Mom is out of sight she’s no longer in the baby’s universe. This is why young babies are inconsolable when Mom leaves. Once they start to develop object permanence, babies can hold on to an internal image of Mom. This is about the age that babies play peek-a-boo. Mom disappears when she puts the blanket over her head, but the nine-month-old knows Mom’s still there even if he can’t see her. The infant tests his “knowledge” when he pulls the blanket off and sees — sure enough! —Mom really is there! What is the use of so many brain connections in the first three years of life? These connections are ready-made highways for information to travel along. The toddlers’ ability to quickly adapt and learn is possible because they have a vast number of brain connections available for making sense of the world. Thanks to neural exuberance, the child does not need to create connections on the spur of the moment to make meaning of each new experience; myriad connections are already there. Pruning of connections The number of connections remains high from age 3 until age 10, when the process of neural pruning begins. Connections that are being used remain; others get absorbed back into the neuron. It’s similar to pruning a bush. After pruning, individual branches get thicker, fruit is more abundant, and the whole bush gets fuller. This seems a little counter-intuitive, but pruning works because it allows the plant’s limited resources to go to its strongest parts; water and nutrients are no longer wasted on spindly branches and dried-out roots. Similarly, when unused brain connections are pruned, neural resources are more available for brain areas that are being used. This results in a more useful and efficient brain that’s tailor-made to meet each individual’s needs. This process of pruning occurs in all brain areas. Figure 2.2 presents findings published by Sowell and associates. They measured Magnetic Resonance Imaging in 176 normal subjects from age 7 to 87 years. The x-axes in these graphs present years from 10 to 90 years. Notice there is a common pattern of decreasing connections in all brain areas. In some brain areas this change is steeper, such as in frontal areas, but is flatter in other areas such as temporal areas in the left hemisphere.

Figure 2.2 Number of connections over 25 years across brain areas. This process — neural exuberance followed by pruning of connections — makes the human brain highly adaptable to any environment. Is the infant born in an urban or an agricultural society? Is it the year 2012 or 1012? It doesn’t really matter. The brain of a child born in New York City or in Nome, Alaska, is similar at birth. During the next two decades of life, the process of neural exuberance followed by pruning sculpts a brain that can meet the demands, and thrive in its environment. Brain differences at the “tails” of the distribution As with any natural process there is a range of functioning, with most individuals in the middle and a small percentage of individuals being far above and far below the mean. While the general pattern of increasing and decreasing brain connections is seen in all children, important differences are reported in children whose abilities are above or below those of the average population. To investigate children above the normal range, Shaw used Magnetic Resonance Imaging (MRI) to follow brain structure in 307 children over 17 years. Children with average IQs reached a peak of cortical thickness (and therefore number of neural connections) around age 10, and then pruning began and continued to age 18. Children with above-average IQs had a different pattern: a brief pruning period around age 7 followed by increasing connections again to age 13. Then pruning ensued more vigorously and finished around age 18. There were also differences in brain structure. At age 18, those with above-average IQs had higher levels of neural connections in the frontal areas, which are responsible for short-term memory, attention, sense of self, planning, and decision-making — the higher brain functions. At the other end of the spectrum, individuals diagnosed with schizophrenia, compared to normal children, lose 3% more connections each year from age 10 to 18. Symptoms of schizophrenia emerge in the late teens, when the cortical layer becomes too thin to support coherent functioning. A thinner cortical layer as a young adult — about 20% less than the average — could account for the fragmented mental world of people diagnosed with schizophrenia. Who is in control? Neural exuberance — increasing and decreasing connections — is genetically controlled, but the child’s experiences affect which connections are pruned and which remain. Circuits that a child uses are strengthened. So a youngster who learns to play the piano or to speak Italian is setting up brain circuits that support those activities — she will find it easier to learn another instrument or language. ​Warning to parents: This doesn’t mean you should inundate your toddler with Italian, violin, martial arts, and tennis lessons. Young children learn best when following their natural tendencies and curiosity. Children learn through play. Undue stress and pressure inhibits the brain’s natural ability to learn.

Here’s a research study that shows just how differently teens’ brains function: In a Magnetic Resonance Imaging (MRI) study, teenagers and adults were presented pictures of people who looked scared or anxious. The adults recognized the fear in the faces but placed the experiences in a larger context, so it didn’t affect them personally. The opposite was true of the teens: they did not report that the faces were fearful, but they became emotionally involved and reported more fear and anxiety themselves. In teens, the parts of the brain that process gut reactions and primitive emotions — the amygdala and insula — were active. But in adults, the frontal lobes were activated as well. In other words, the teenagers’ brains responded emotionally. They felt upset but their brains did not identify the source of those feelings. The adults’ brains added reason to that response. Remember this when your teen gets upset “for no reason.” He may not be able to say why he’s feeling that way, but his feelings are still valid. He doesn’t have the connections between his rational brain and his emotional brain that would allow him to explain it. Logic doesn’t help because the teen’s brain cannot follow abstract logic. They are doing the best they can with the brain connections they have. This is especially true if your teen is a boy. As we see later, girls have more connections between their emotional and executive centers. Astrocytes: Functional and structural support Astrocytes are another class of glial cells. They are star-shaped, hence their name, and provide structural and functional support for the neuron. Astrocytes form the matrix that keeps neurons in place. But they are more than inert bricks in a passive wall. Rather, they function more like the mother who ensures her children have brushed their teeth, are wearing their coats in winter, and are eating good meals. An astrocyte is pictured in Figure 3.3. Astrocytes sit between blood vessels and neurons and breakdown glucose from the capillaries into lactic acid, which the mitochondria of the neurons use for energy. As a wise mother, they do not break down all of the glycogen they receive from the blood, but create a reserve for times when the metabolic need of neurons are especially high.

SDS,’ said Nisha grandly, ‘stands for Stomach Drop Sensation. It’s the magic. You know, the warm glow you get deep down in your gut that means someone’s just right for you. It comes from your heart and your body and your brain all at the same time. It’s awesome and scary, like a force of nature – like magnetism or gravity, or something.

that our brains become magnetized with the dominating thoughts which we hold in our minds, and, by means with which no man is familiar, these “magnets” attract to us the forces, the people, the circumstances of life which harmonize with the nature of our dominating thoughts.

The world she lives in is not mine. Life is faster for her; time runs slower. Her eyes can follow the wingbeats of a bee as easily as ours follow the wingbeats of a bird. What is she seeing? I wonder, and my brain does flipflops trying to imagine it, because I can't.I have three different receptor-sensitivities in my eyes: red, green and blue. Hawks, like other birds have four. This hawk can see colours I cannot, right into the ultra-violet spectrum. She can see polarised light, too, watch thermals of warm air rise, roil, and spill into clouds, and trace, too, the magnetic lines of force that stretch across the earth. The light falling into her deep black pupils is registered with such frightening precision that she can see with fierce clarity things I can't possibly resolve from the generalised blur. The claws on the toes of the house martins overhead. The veins on the wings of the white butterfly hunting its wavering course over the mustards at the end of the garden. I'm standing there, my sorry human eyes overwhelmed by light and detail, while the hawk watches everything with the greedy intensity of a child filling in a colouring book, scribbling joyously, blocking in colour, making the pages its own.

Sometimes when I get tired and run down, I think it is a shame that I was not born with good looks and personal magnetism, and a clever brain, but when I get well, and strong and rested, I am so thankful I was given common sense; it is not nearly so gratifying as other qualities, but it’s more – it makes more contented inside living.

McKenzie gave the MRI her best border collie stare. Despite the susurrations of the cryogen pump, McKenzie soon realized that the magnet was not alive and could not be herded.

Something about his face has always felt distinctly magnetic, as if it’s been designed specifically for her brain to appreciate—which was ridiculous.

People who wrote novels about universities hardly ever got them right. Max had spent his short working life untenured, but still he'd managed to be a charming magnet wherever he taught, and Amy had surfeited on faculty gossip and professorial antics and the general behavior of academics, who were as a whole no more brilliant or Machiavellian than travel agents. They tended toward shabbier clothes and manners, and of course there was the occasional storied eccentric or truly original mind, but most college campuses — especially the older ones — functioned less as brain trusts than as wildlife preserves, housing and protecting people who wouldn't last a week in GenPop.

Even when I was a young boy, trouble latched onto me like a magnet. I pounded through life at volume eleven, leaving a trail of broken things: vases, noses, cars, hearts, brain cells. Side effects of reckless living.

imbalance of reason and emotion may explain the tenacity of religion in societies: world religions are optimized to tap into the emotional networks, and great arguments of reason amount to little against such magnetic pull.

A half century after Nidetch’s Mallomar binges, scientists had developed a technology that could see cravings erupting, like solar flares, inside the human brain. In early 2008, a research team at the Lewis Center for Neuroimaging at the University of Oregon measured just such a craving in a nineteen-year-old college student we will call Debbie. Debbie had her head inside a very large, very expensive round magnet called an MRI scanner when an image of a chocolate milk shake was flashed before her eyes for two seconds. As soon as Debbie saw it, certain parts of her brain became “activated,” which is to say they drew in lots of blood as millions of neurons were fired. These regions—the left medial orbitofrontal cortex, anterior cingulate cortex, and three other small, curly pockets of gray matter—are all associated with “motivation.” And the functional MRI (fMRI) showed them glowing a bright yellowy orange, like coals in a hot fire, indicating those parts of her brain were churning through quite a lot of blood. She was experiencing “incentive salience,” the scientific term for a Frankenstein craving, or a heightened state of “wanting.” Debbie got what she wanted.

Conscious access is also the gateway to more complex forms of conscious experience. In everyday language, we often conflate our Consciousness with our sense of self-how the brain creates a point of view, an "I" that looks at its surroundings from a specific vantage point. Consciousness can also be recursive: our "I" can look down at itself, comment on its own performance, and even know when it does not know something. The good news is that even these higher-order meanings of Consciousness are no longer inaccessible to experimentation. In our Laboratories we have learned to quantify what the "I" feels and reports, both about the external environment and about itself. We can even manipulate the sense of self so that people may have an out-of-body experience while they lie inside a magnetic resonance imager.

our brains become magnetized with the dominating thoughts which we hold in our minds, and, by means with which no man is familiar, these “magnets” attract to us the forces, the people, the circumstances of life which harmonize with the nature of our dominating thoughts.

The best way to think of how our brains frame information is to imagine a picture frame, except unlike a normal frame, this one obscures everything on the outside of the frame and magnetically draws attention to the inside.

This curve, which looks like an elongated S, is variously known as the logistic, sigmoid, or S curve. Peruse it closely, because it’s the most important curve in the world. At first the output increases slowly with the input, so slowly it seems constant. Then it starts to change faster, then very fast, then slower and slower until it becomes almost constant again. The transfer curve of a transistor, which relates its input and output voltages, is also an S curve. So both computers and the brain are filled with S curves. But it doesn’t end there. The S curve is the shape of phase transitions of all kinds: the probability of an electron flipping its spin as a function of the applied field, the magnetization of iron, the writing of a bit of memory to a hard disk, an ion channel opening in a cell, ice melting, water evaporating, the inflationary expansion of the early universe, punctuated equilibria in evolution, paradigm shifts in science, the spread of new technologies, white flight from multiethnic neighborhoods, rumors, epidemics, revolutions, the fall of empires, and much more. The Tipping Point could equally well (if less appealingly) be entitled The S Curve. An earthquake is a phase transition in the relative position of two adjacent tectonic plates. A bump in the night is just the sound of the microscopic tectonic plates in your house’s walls shifting, so don’t be scared. Joseph Schumpeter said that the economy evolves by cracks and leaps: S curves are the shape of creative destruction. The effect of financial gains and losses on your happiness follows an S curve, so don’t sweat the big stuff. The probability that a random logical formula is satisfiable—the quintessential NP-complete problem—undergoes a phase transition from almost 1 to almost 0 as the formula’s length increases. Statistical physicists spend their lives studying phase transitions.

An ostrich egg is bigger than its brain.

He should have told us, too, that our brains become magnetised with the dominating thoughts we hold in our minds. By means with which no one is familiar, these ‘magnets’ attract to us the forces, the people, the circumstances of life which harmonise with the nature of our dominating thoughts.

a 2007 study attempted to measure if price had any influence on the taste of wine.10 The researchers had study participants sample wine while in a functional magnetic resonance imaging (fMRI) machine. As the fMRI machine scanned the blood flow in the various regions of their brains, the tasters were informed of the cost of each wine sampled. The sample started with a $5 wine and progressed to a $90 bottle. Interestingly, as the price of the wine increased, so did the participants’ enjoyment of the wine. Not only did they say they enjoyed the wine more but their brain corroborated their feelings, showing higher spikes in the regions associated with pleasure. Little did the study participants realize that they were tasting the same wine each time.

My only contribution was to point out that the enclosure had been built before anyone knew about the earth field's low-frequency components, micro pulsations ranging from less than 1 to about 25 cycles per second, that were far weaker than the planet's electromagnetic field as a whole. Consequently Beischer's subjects were still exposed to a very weak magnetic field pulsing at these frequencies, and I suspected that that component might be one of the most important for life, because all brain waves were in exactly the same range. Perhaps as a result of this factor, the null-field experiment was turning out to be in-conclusive, but I asked Beischer to attend the MIT meeting and present some previous data suggesting that electromagnetic fields could affect embryonic development.

In 1862, the Scottish mathematician James Clerk Maxwell developed a set of fundamental equations that unified electricity and magnetism. On his deathbed, he coughed up a strange sort of confession, declaring that “something within him” discovered the famous equations, not he. He admitted he had no idea how ideas actually came to him—they simply came to him. William Blake related a similar experience, reporting of his long narrative poem Milton: “I have written this poem from immediate dictation twelve or sometimes twenty lines at a time without premeditation and even against my will.” Johann Wolfgang von Goethe claimed to have written his novella The Sorrows of Young Werther with practically no conscious input, as though he were holding a pen that moved on its own.