Gamma Ray Quotes

I don’t want to be human. I want to see gamma rays, I want to hear X-rays, and I want to smell dark matter. Do you see the absurdity of what I am? I can’t even express these things properly, because I have to—I have to conceptualize complex ideas in this stupid, limiting spoken language, but I know I want to reach out with something other than these prehensile paws, and feel the solar wind of a supernova flowing over me. I’m a machine, and I can know much more. —John Cavil, Cylon Model Number One, “No Exit

Brother Cavil: In all your travels, have you ever seen a star go supernova? ... I have. I saw a star explode and send out the building blocks of the Universe. Other stars, other planets and eventually other life. A supernova! Creation itself! I was there. I wanted to see it and be part of the moment. And you know how I perceived one of the most glorious events in the universe? With these ridiculous gelatinous orbs in my skull! With eyes designed to perceive only a tiny fraction of the EM spectrum. With ears designed only to hear vibrations in the air. ... I don't want to be human! I want to see gamma rays! I want to hear X-rays! And I want to - I want to smell dark matter! Do you see the absurdity of what I am? I can't even express these things properly because I have to - I have to conceptualize complex ideas in this stupid limiting spoken language! But I know I want to reach out with something other than these prehensile paws! And feel the wind of a supernova flowing over me! I'm a machine! And I can know much more! I can experience so much more. But I'm trapped in this absurd body! And why? Because my five creators thought that God wanted it that way!

...the entire electromagnetic spectrum— from radar to TV, infrared light, visible light, ultraviolet light, X-rays, microwaves, and gamma rays— is nothing but Maxwell waves, which in turn are vibrating Faraday force fields.

As a black hole forms it creates an immense gamma-ray burst, blinding whole galaxies with light and destroying millions of worlds. You could disappear at any second. This one. Or this one. Or this one. Make sure, as often as possible, you are doing something you’d be happy to die doing.

In the twentieth century, astrophysicists in the United States discovered galaxies, the expanding of the universe, the nature of supernovas, quasars, black holes, gamma-ray bursts, the origin of the elements, the cosmic microwave background, and most of the known planets in orbit around solar systems other than our own. Although the Russians reached one or two places before us, we sent space probes to Mercury, Venus, Jupiter, Saturn, Uranus, and Neptune. American probes have also landed on Mars and on the asteroid Eros. And American astronauts have walked on the Moon. Nowadays most Americans take all this for granted, which is practically a working definition of culture: something everyone does or knows about, but no longer actively notices. While shopping at the supermarket, most Americans aren’t surprised to find an entire aisle filled with sugar-loaded, ready-to-eat breakfast cereals. But foreigners notice this kind of thing immediately, just as traveling Americans notice that supermarkets in Italy display vast selections of pasta and that markets in China and Japan offer an astonishing variety of rice. The flip side of not noticing your own culture is one of the great pleasures of foreign travel: realizing what you hadn’t noticed about your own country, and noticing what the people of other countries no longer realize about themselves.

The part of the light spectrum that is visible to us is less than a ten-trillionth of it. The rest of the spectrum––carrying TV shows, radio signals, microwaves, X-rays, gamma rays, cell phone conversations, and so on––flows through us with no awareness on our part.

even put a few Astrophage in a radiation-containment vessel and exposed it to the gamma rays emitted by Cesium-137 (this lab has everything). I called it the “Bruce Banner Test.

Filling out the entire electromagnetic spectrum, in order of low-energy and low-frequency to high-energy and high-frequency, we have: radio waves, micro waves, ROYGBIV, ultra violet, x rays, and gamma rays.

Filling out the entire electromagnetic spectrum, in order of low-energy and low-frequency to high-energy and high-frequency, we have: radio waves, microwaves, infrared, ROYGBIV, ultraviolet, X-rays, and gamma rays.

All we really know of the universe is what filters in through our senses, and that isn’t a whole lot. Take the electromagnetic spectrum. It includes virtually every ripple of energy that powers the cosmos, from the long, lazy radio waves we communicate with through microwaves that we cook with all the way up to X-rays and gamma rays, which pack enough punch into their wavelengths to outshine an entire galaxy. All that majesty, all that infinite variety of energy, and all we see is a narrow little slice of it: seven measly colors. It’s like being invited to a royal banquet and then only being allowed to pick the crumbs off one plate.

Visible light has a wavelength of between only forty and eighty millionths of a centimeter. Even shorter wavelengths are known as ultraviolet, X rays, and gamma rays. Maxwell’s theory predicted that radio or light waves should travel at a certain fixed speed.

In 1994, NASA’s Compton Gamma Ray Observatory detected something as unexpected as the Velas’ discoveries: frequent flashes of gamma rays right near Earth’s surface. They were sensibly dubbed “terrestrial gamma-ray flashes.” Nuclear holocaust? No, as is evident from the fact that you’re reading this sentence.

Now that it has come, our doom hasn’t arrived from outer space, but inner space. No death star pulsing gamma rays or behemoth killer asteroid spells our demise; the Earth itself will see to that. Something stirs within the heart of this abused sphere, making all man-made disasters look like child’s play. Gaea is finally having her revenge.

as the high-energy rays and particles of alpha, beta, and gamma radiation snap strands of DNA, and the exposed cells start to die.

Sometimes gamma rays, when they pass close to an atomic nucleus, will spontaneously become an electron and a positron. It’s called ‘pair production.

Gamma rays—high-frequency electromagnetic waves traveling at the speed of light—are the most energetic of all.

Gamma rays pass straight through a human being without slowing down, smashing through cells like a fusillade of microscopic bullets.

She can’t see it, Joss. We’re at the far end of the electromagnetic spectrum here, surrounded by gamma rays. I know school isn’t your favorite thing, but honestly, don’t you pay attention at all?

Buddhist monks who had practiced more than ten thousand hours of meditation, researchers at the University of Wisconsin measured significantly higher levels of gamma waves in their brains; these waves are associated with perception and problem solving.

They began using gamma rays to extend the shelf life of chicken and strawberries, they built mobile nuclear reactors mounted on tank treads or designed to float around the Arctic, and, like their US counterparts, they designed atomic-powered aircraft. But

Many people also worry about microwave radiation from cell phones. Unlike X-rays, which are high-energy photons, microwaves are photons with extremely low energy. They deposit their energy in the form of heat; that’s what they do in microwave ovens. They do not break DNA molecules in the body (unless they actually burn and char the material), and therefore they pose no risk of causing cancer in the way that X-rays and other energetic radiation (even sunlight) can. The main danger is the heat. Much of the fear of microwaves undoubtedly comes from the fact that they share the name radiation with the other, far more dangerous forms, such as gamma radiation. The fear that some people have shown toward such cell phone radiation finds its origin not in physics, but in linguistics.

If a Creator designed our universe to support life, he did a terrible job. In the vast, vast majority of the cosmos, life would die instantly from lack of atmosphere, gamma-ray bursts, deadly pulsars, and crushing gravitational fields. Believe me, the universe is no Garden of Eden.

When the first "let there be light" spoken, the entire electromagnetic spectrum is emitted.

Outer space is fucking terrifying. I’m thankful for the ozone layer and the gravitational pull of the moon and whatnot, but they’d have to tie me like a spit-roasted pig to send me out there. The universe keeps expanding and getting colder, chunks of our galaxy are sucked away, black holes hurl through space at millions of miles per hour, and solar superstorms flare up at the drop of a hat. Meanwhile NASA astronauts are out there in their frankly inadequate suits, drinking liters of their own recycled urine, getting alligator skin on the top of their feet, and shitting rubber balls that float around at eye level. Their cerebrospinal fluid expands and presses on their eyeballs to the point that their eyesight deteriorates, their gut bacteria are a shitshow—no pun intended—and gamma rays that could literally pulverize them in less than a second wander around. But you know what’s even worse? The smell. Space smells like a toilet full of rotten eggs, and there’s no escape. You’re just stuck there until Houston allows you to come back home. So believe me when I say: I’m grateful every damn day for those two extra inches.

Visible photons now, the ones that make up the light that people use to see by, they have a higher frequency and more energy. One of those can have quite a noticeable effect. The really affluent ones though, the big spenders, are the X-ray and gamma photons. Each one of those carries a lot of energy around with it and they can really make their presence felt on their surroundings if they choose to interact.

Curious how much gas lurks among the stars in galaxies? Radio telescopes do that best. There is no knowledge of the cosmic background, and no real understanding of the big bang, without microwave telescopes. Want to peek at stellar nurseries deep inside galactic gas clouds? Pay attention to what infrared telescopes do. How about emissions from the vicinity of ordinary black holes and supermassive black holes in the center of a galaxy? Ultraviolet and X-ray telescopes do that best. Want to watch the high-energy explosion of a giant star, whose mass is as great as forty suns? Catch the drama via gamma ray telescopes. We’ve come a long way since Herschel’s experiments with rays that were “unfit for vision,” empowering us to explore the universe for what it is, rather than for what it seems to be. Herschel would be proud. We achieved true cosmic vision only after seeing the unseeable: a dazzlingly rich collection of objects and phenomena across space and across time that we may now dream of in our philosophy.

In addition, there's a whole universe full of electromagnetic energy, radiation that somehow seems to be both waves in an electromagnetic field and particles at the same time. It exists in a spectrum of wave-lengths that includes cosmic rays, gamma rays, X rays, ultraviolet radiation, visible light, infrared radiation, microwaves, and radio waves.Together, electromagnetic fields and energies interact in many complex ways that have given rise to much of the natural world, not to mention the whole technology of electronics.

Ionizing radiation takes three principal forms: alpha particles, beta particles, and gamma rays. Alpha particles are relatively large, heavy, and slow moving and cannot penetrate the skin; even a sheet of paper could block their path. But if they do manage to find their way inside the body by other means—if swallowed or inhaled—alpha particles can cause massive chromosomal damage and death. Radon 222, which gathers as a gas in unventilated basements, releases alpha particles into the lungs, where it causes cancer. Polonium 210, a powerful alpha emitter, is one of the carcinogens in cigarette smoke. It was also the poison slipped into the cup of tea that killed former FSB agent Alexander Litvinenko in London in 2006. Beta particles are smaller and faster moving than alpha particles and can penetrate more deeply into living tissue, causing visible burns on the skin and lasting genetic damage. A piece of paper won’t provide protection from beta particles, but aluminum foil—or separation by sufficient distance—will. Beyond a range of ten feet, beta particles can cause little damage, but they prove dangerous if ingested in any way. Mistaken by the body for essential elements, beta-emitting radioisotopes can become fatally concentrated in specific organs: strontium 90, a member of the same chemical family as calcium, is retained in the bones; ruthenium is absorbed by the intestine; iodine 131 lodges particularly in the thyroid of children, where it can cause cancer. Gamma rays—high-frequency electromagnetic waves traveling at the speed of light—are the most energetic of all. They can traverse large distances, penetrate anything short of thick pieces of concrete or lead, and destroy electronics. Gamma rays pass straight through a human being without slowing down, smashing through cells like a fusillade of microscopic bullets. Severe exposure to all ionizing radiation results in acute radiation syndrome (ARS), in which the fabric of the human body is unpicked, rearranged, and destroyed at the most minute levels. Symptoms include nausea, vomiting, hemorrhaging, and hair loss, followed by a collapse of the immune system, exhaustion of bone marrow, disintegration of internal organs, and, finally, death.

Incidentally, gamma rays and a myriad of subatomic particles are generated by the collision of superhigh-energy cosmic rays with Earth’s atmosphere. Within this cascade lurks striking evidence of time dilation, a feature of Einstein’s theory of relativity. Cosmic-ray particles move through space at upward of 99.5 percent the speed of light. When they slam into the top of Earth’s atmosphere, they break down into many subproducts, each with less and less energy per particle, forming an avalanche of elementary particles that descend toward Earth’s surface.

Just as the spectrums of light and sound are far broader than what we humans can see and hear, so the spectrum of mental states is far larger than what the average human perceives. We can see light in wavelengths of between 400 and 700 nanometres only. Above this small principality of human vision extend the unseen but vast realms of infrared, microwaves and radio waves, and below it lie the dark dominions of ultraviolet, X-rays and gamma rays. Similarly, the spectrum of possible mental states may be infinite, but science has studied only two tiny sections of it: the sub-normative and the WEIRD. For

All we really know of the universe is what filters in through our senses, and that isn’t a whole lot. Take the electromagnetic spectrum. It includes virtually every ripple of energy that powers the cosmos, from the long, lazy radio waves we communicate with through microwaves that we cook with all the way up to X-rays and gamma rays, which pack enough punch into their wavelengths to outshine an entire galaxy. All that majesty, all that infinite variety of energy, and all we see is a narrow little slice of it: seven measly colors. It’s like being invited to a royal banquet and then only being allowed to pick the crumbs off one plate.

If someone skilled at studying moons, planets, stars and other celestial bodies such as galaxies, comets, asteroids and gamma-ray bursts were to analyse the Romani migration and settlement patterns, as they wandered India and Persia 1500 years ago, passing through Armenia in the early 9th century, trading spices, incense, rugs, fabrics, colouring agents and jewellery along the Great Silk Road, and then beginning to establish themselves in Europe, arriving in Transylvania in the 13th century, and then onto Germany, Switzerland, Italy, France and England in the 14th century they may very well discover that their routes mirrored that of the stars

It became clear that light was the visible manifestation of a whole spectrum of electromagnetic waves. This includes what we now call AM radio signals (with a wavelength of 300 yards), FM radio signals (3 yards), and microwaves (3 inches). As the wavelengths get shorter (and the frequency of the wave cycles thus increases), they produce the spectrum of visible light, ranging from red (25 millionths of an inch) to violet (14 millionths of an inch). Even shorter wavelengths produce ultraviolet rays, X-rays, and gamma rays. When we speak of “light” and the “speed of light,” we mean all electromagnetic waves, not just the ones that are visible to our eyes.

The Sun burned down in a warm contrasting world of white and black, of white Sun against black sky and white rolling ground mottled with black shadow. The bright sweet smell of the Sun on every exposed square centimeter of metal contrasting with the creeping death-of-aroma on the other side. He lifted his hand and stared at it, counting the fingers. Hot-hot-hot-turning, putting each finger, one by one, into the shadow of the others and the hot slowly dying in a change in tactility that made him feel the clean, comfortable vacuum. Yet not entirely vacuum. He straightened and lifted both arms over his head, stretching them out, and the sensitive spots on either wrist felt the vapors- the thin, faint touch of tin and lead rolling through the cloy of mercury. The thicker taste rose from his feet; the silicates of each variety, marked by the clear separate-and-together touch and tang of each metal ion. He moved one foot slowly through the crunchy, caked dust, and felt the changes like a soft, not quite random symphony. And over all the Sun. He looked up at it, large and fat and bright and hot, and heard its joy. He watched the slow rise of prominences around its rim and listened to the crackling sound of each; and to the other happy noises over the broad face. When he dimmed the background light, the red of the rising wisps of hydrogen showed in bursts of mellow contralto, and the deep bass of the spots amid the muted whistling of the wispy, moving faculae, and the occasional thin keening of a flare, the ping-pong ticking of gamma rays and cosmic particles, and over all in every direction the soft, fainting, and ever-renewed sigh of the Sun's substance rising and retreating forever in a cosmic wind which reached out and bathed him in glory. He jumped, and rose slowly in the air with a freedom he had never felt, and jumped again when he landed, and ran, and jumped, and ran again, with a body that responded perfectly to this glorious world, this paradise in which he found himself.

There are only two types of waves that can travel across the universe bringing us information about things far away: electromagnetic waves (which include light, X-rays, gamma rays, microwaves, radio waves…); and gravitational waves. Electromagnetic waves consist of oscillating electric and magnetic forces that travel at light speed. When they impinge on charged particles, such as the electrons in a radio or TV antenna, they shake the particles back and forth, depositing in the particles the information the waves carry. That information can then be amplified and fed into a loudspeaker or on to a TV screen for humans to comprehend. Gravitational waves, according to Einstein, consist of an oscillatory space warp: an oscillating stretch and squeeze of space. In 1972 Rainer (Rai) Weiss at the Massachusetts Institute of Technology had invented a gravitational-wave detector, in which mirrors hanging inside the corner and ends of an L-shaped vacuum pipe are pushed apart along one leg of the L by the stretch of space, and pushed together along the other leg by the squeeze of space. Rai proposed using laser beams to measure the oscillating pattern of this stretch and squeeze. The laser light could extract a gravitational wave’s information, and the signal could then be amplified and fed into a computer for human comprehension. The study of the universe with electromagnetic telescopes (electromagnetic astronomy) was initiated by Galileo, when he built a small optical telescope, pointed it at Jupiter and discovered Jupiter’s four largest moons. During the 400 years since then, electromagnetic astronomy has completely revolutionised our understanding of the universe.

Over and over like a recurring flu they developed the imbecile idea that they understood nearly everything, in all but the finest details. They had no slightest idea what lightning was, how it worked. They had absolutely no clue how moisture got farther than about ten meters up a tree—the highest that capillary action can push it. Fifty years after the splitting of the atom, they accidentally noticed for the first time that hurricanes emit gamma rays. There were quite a few large, significant phenomena they could ‘explain,’ often elegantly…over and over again…and had to, because the explanations kept falling apart at the first hard-data-push. Things like the Tunguska Event, gamma ray bursts, why an airplane wing generated lift, what ninety percent of our DNA was doing there…yet they were solemnly convinced they basically understood the universe, except for some details out in the tenth decimal place.

James Clerk Maxwell helped to enshrine this wave theory when he successfully conjectured a connection between light, electricity, and magnetism. He came up with equations that described the behavior of electric and magnetic fields, and when they were combined they predicted electromagnetic waves. Maxwell found that these electromagnetic waves had to travel at a certain speed: approximately 186,000 miles per second.* That was the speed that scientists had already measured for light, and it was obviously not a mere coincidence.4 It became clear that light was the visible manifestation of a whole spectrum of electromagnetic waves. This includes what we now call AM radio signals (with a wavelength of 300 yards), FM radio signals (3 yards), and microwaves (3 inches). As the wavelengths get shorter (and the frequency of the wave cycles thus increases), they produce the spectrum of visible light, ranging from red (25 millionths of an inch) to violet (14 millionths of an inch). Even shorter wavelengths produce ultraviolet rays, X-rays, and gamma rays. When we speak of “light” and the “speed of light,” we mean all electromagnetic waves, not just the ones that are visible to our eyes.

Nicky was watching their reactions uneasily, clearly wishing they would take this a little more seriously. “A couple of decades ago,” she said, “some of our orbiting gamma ray observatories began picking up incredibly powerful bursts. Long story short, it became obvious that these were coming not down from deep space but up from below—from the earth. So powerful that they maxed out the sensors, so we couldn’t even tell how massive they actually were. Turned out they were coming from thunderclouds. The conditions in those storm towers down there are impossibly strange. Free electrons get accelerated upward and get kicked up into a hyperenergetic state, massively relativistic, and at some point they bang into atoms in the tops of the storm towers with such energy that they produce gamma rays which in turn produce positrons—antimatter. The positrons have opposite charges, so they get accelerated downward. The cycle repeats, up and down, and at some point you get a burst of gamma rays that is seriously dangerous—you could get a lifetime’s worth of hard radiation exposure in a flash.” She paused for a moment, then stared directly at me with a crazy half smile. “The earth,” she said, “is an alien world.

chance the plant will survive.       Dr. Alton Mackey, Commissioner of the NRC gave the President a five-minute slide show with the pictures from 2011. Given the massive overtopping of the Garrison and Oahe dams, there was no way the two nuclear plants would survive the onslaught.     “How long does it take to shut down the reactors?”     Dr. Mackey hemmed and hawed. “When you turn your BBQ grill off, your steaks are still cooking even though the fuel is turned off.” The analogy was appropriate. “The control rods have already been disconnected which means the fission process has been stopped, but the fuel rods are still producing heat in the form of protons, helium nuclei, electrons, gamma rays, neutrons and positrons and a bunch of other radioactive crap. It takes years for the spent fuel rods to break down into less radioactive substances.

As a black hole forms, it creates an immense gamma-ray burst, blinding whole galaxies with light and destroying millions of worlds. You could disappear at any second. This one. Or this one. Or this one. Make sure, as often as possible, you are doing something you’d be happy to die doing.

2020 has a sci-fi ring to it, I feel, like it might be the year of alien landings or the one when the gamma rays get us.

Uh-huh. That’s one reason we don’t have a nuclear power plant. This far from the sun, we don’t get enough emission to worry about. The asteroid’s mass screens out what little may arrive. I know the TIMM system is used on ships; but if nothing else, the initial cost is more than we want to pay.” “What’s TIMM?” inquired the Altair’s chaplain. “Thermally Integrated Micro-Miniaturized,” Ellen said crisply. “Essentially, ultraminiaturized ceramic-to-metal-seal vacuum tubes running off thermionic generators. They’re immune to gamma ray and magnetic pulses, easily shielded against particule radiation, and economical of power.” She grinned. “Don’t tell me there’s nothing about them in Leviticus, Padre!

Gamma rays could deflect electrons, a phenomenon known as the Compton effect after its discoverer, the American experimental physicist Arthur Holly Compton, but a proton is 1,836 times heavier than an electron and not easily moved.

In every case the kicks increased on the oscilloscope; the powerful beryllium radiation knocked protons out of all the elements Chadwick tested. It knocked about the same number out of each element. And, most important for his conclusion, the energies of the recoiling protons were significantly greater than they could possibly be if the beryllium radiation consisted of gamma rays.

And say that over the eons, countless millions of civilizations arose, many of them lasting long enough to venture into space. Spacefaring creatures found each other, linked up, and shared knowledge, their technologies accelerating with each new contact. They built great energy-harvesting spheres that enclosed entire suns and drove computers the size of whole solar systems. They harnessed the energy from quasars and gamma ray bursts. They filled galaxies the way we once spread across continents. They learned to weave the fabric of reality itself. And when this consortium mastered all the laws of time and space, they fell into the sadness of completion. Absolute Intelligence surrendered to nostalgia for

What can’t be stressed enough is that resurrection theory is about material bodies. A spiritual body may not be made of the gross matter of the flesh, but it is still made of matter. Hence it is a scientific phenomenon in the scientific world…and science of course has not found even one trace of any such bodies. In this view, God is a material being and so is heaven, so scientists could find a way to identify heaven, or blow it up, or kill God, or imprison him, or subject God and all the souls to massive bursts of deadly gamma rays…or whatever else. Equally, scientists could study these spiritual bodies and work out how to give us all one, regardless of the wishes of God. Once you place God, heaven and souls in the material plane, you have put religion completely at the mercy of science and in direct competition with it. There can only be one winner in that contest… and it ain’t “God”. Any religious person would have to be crazy to believe in resurrection theory because it is a materialist and hence scientific theory, capable of being scientifically refuted.

This brief account of controlled fusion efforts would not be complete without going back to 1989. Early in that year came (in a press conference and in a brief paper in the Journal of Electroanalytical Chemistry) a radical departure from the decades of news concerning advances in the quest for controlled thermonuclear power. Two physicists at the University of Utah, Stanley Pons and Martin Fleischmann, claimed they had succeeded in fusing deuterium nuclei at room temperature in a test tube. Electrolysis of a lithium salt solution led so many deuterium atoms to absorb into a palladium electrode that some of their nuclei appeared to fuse, producing net energy (above that supplied for electrolysis), as well as neutron and gamma ray emissions, clear signs of a process previously attainable only under starlike conditions, and proof of what the press soon called cold fusion.

maybe we need to shower the atmosphere with gamma rays to reverse the process. As long as it’s not light or radiation rays,

Making a spaceship?” Stacey asked. Adam rolled his eyes. “No, a gamma ray protector!” “Who’s Grandma Ray?” Claire Pike asked.

Nitric Oxide and Peroxynitrite in Health and Disease”40 that has nearly 1,500 references and can be reviewed at no charge by typing the title into your favorite search engine. This paper was written by three leading scientists funded by the National Institutes of Health (NIH). It is a 140-page, landmark comprehensive review documenting how elevated levels of peroxynitrite cause extensive cellular damage that disrupts at least 97 critical biological processes and, as a result, are associated with more than 60 chronic diseases. The beginning of this article is a must read for any serious student of EMFs. NONIONIZING RADIATION ALSO DAMAGES YOUR DNA As I explained in Chapter 1, it is widely accepted that ionizing radiation—like X-rays and gamma rays—damages your body and greatly increases your risk of cancer. This is because ionizing radiation has short wavelengths and high

Research in resonance and sound shows that if living beings operate or resonate on similar vibrations, one can affect the other. Yet another set of studies hints that there is sharing of energy and intention through the upper range of the electromagnetic spectrum. Replicated studies indicate a significant decrease in gamma rays from patients during alternative healing practices. This suggests that the body’s gamma emitter, a form of potassium, regulates the surrounding electromagnetic field.93 Gamma rays materialize when matter (such as an electron) and its antimatter counterpart (a positron) annihilate on impact. As we have seen, antimatter has the opposite charge and spin of matter. When electrons and positrons collide, they release specific types of gamma rays. Years ago, Nikola Tesla suggested that the gamma rays found on earth emanate from the zero-point field.94 Though it appears as a vacuum, this field is actually quite full, serving as a crossroads for virtual and subatomic particles and fields. When we perform healing, it is possible that we are actually tapping into this zero-point or universal field, shifting its power through intention. Still another theory is that we are accessing torsion fields, fields that travel at 109 times the speed of light. These fields are hypothesized as conveying information without transmitting energy and with no time lapse.95 Part of this suggested effect is based on the definition of time as a vector of the magnetic field. When torsion and gravitational fields function in opposing directions, the torsion field can conceivably alter the magnetic functions, and therefore the vector of time. When superimposed on a specific area in a gravitational field, it might also reduce the effect of gravity in that spot.96 These torsion fields have been researched by Peter Gariaev and Vladimir Poponin, Russian scientists who discovered that photons travel along the DNA molecule in spirals rather than along a linear pathway, which shows that DNA has the ability to bend light around itself. Some physicists believe that this twisting or “torsion-shaped” energy is an intelligent light, emanating from higher dimensions and different from electromagnetic radiation, giving rise to DNA. Many researchers now believe that these torsion waves are consciousness, composing the soul and serving as the precursor to DNA.97

Sally was running through some gamma ray readings from a nearby star, Wolf 359. 'Did

When, for example, I added inflammatory chemicals to the tissue culture, the cells rapidly became the equivalent of macrophages, the scavengers of the immune system. What was also exciting to me was that the cells transformed even when I destroyed their DNA with gamma rays. These endothelial cells were

Akin to gamma rays bombarding matter, my intentions vaporized in a state of entropy.

For instance, a black hole as light as a small asteroid would emit about as much radiation as a million-megaton hydrogen bomb, with radiation concentrated in the gamma-ray part of the electromagnetic spectrum.

But it is the event horizon around a black hole where the Tull-Toks claim the greatest books are to be found. When a Tull-Tok is tired of browsing through the endless universal library, she drifts toward a black hole. As she accelerates toward the point of no return, the streaming gamma rays and x-rays unveil more and more of the ultimate mystery for which all the other books are but glosses. The book reveals itself to be ever more complex, more nuanced, and just as she is about to be overwhelmed by the immensity of the book she is reading, she realizes with a start that time has slowed down to standstill, and she will have eternity to read it as she falls forever towards a center that she will never reach. Finally, a book has triumphed over time. Of course, no Tull-Tok has ever returned from such a journey, and many dismiss their discussion of reading black holes as pure myth. Indeed, many consider the Tull-Toks to be nothing more than illiterate frauds who rely on mysticism to disguise their ignorance.

Not only did Maxwell’s theory describe visible colors, but it also predicted the existence of invisible electromagnetic waves. Sure enough, these were found from the 1870s onward. Radio waves, for instance, have frequencies that range from fewer than a hundred oscillations per second to up to around three million. The term microwave covers a range from there up to three hundred billion. Infrared sits between microwaves and visible light. When frequencies are greater than that of blue light, they are ultraviolet rays. Then comes X-rays, and oscillating up and down over a hundred billion billion times per second are gamma rays. The entire range, from radio waves to gamma rays, is called the electromagnetic spectrum.

Astrophysicist Neil deGrasse Tyson—appearing in an old clip from the Cosmos television show—declared good-naturedly, “If a Creator designed our universe to support life, he did a terrible job. In the vast, vast majority of the cosmos, life would die instantly from lack of atmosphere, gamma-ray bursts, deadly pulsars, and crushing gravitational fields. Believe me, the universe is no Garden of Eden.

If you took the entire electromagnetic spectrum—from short gamma ray bursts all the way to the longest radio waves—and stretched it out between New York and Los Angeles, the part that is actually visible to the human eye would be about an inch long. The other twenty-five hundred miles is invisible to us.

Suppose a glowing blob of some unknown substance were parked right in front of us. Without some diagnostic tool like a tricorder to help, we would be clueless to the blob’s chemical or nuclear composition. Nor could we know whether it has an electromagnetic field, or whether it emits strongly in gamma rays, x-rays, ultraviolet, microwaves, or radio waves. Nor could we determine the blob’s cellular or crystalline structure. If the blob were far out in space, appearing as an unresolved point of light in the sky, our five senses would offer us no insight to its distance, velocity through space, or its rate of rotation. We further would have no capacity to see the spectrum of colors that compose its emitted light, nor could we know whether the light is polarized. Without hardware to help our analysis, and without a particular urge to lick the stuff, all we can report back to the starship is, “Captain, it’s a blob.

Wanasayansi wanaamini kuwa Yesu atarudi tarehe 29 Julai 2016. Tarehe hiyo kitu kikubwa sana kitatokea katika dunia yetu kitakachosababisha tetemeko kubwa la ardhi, litakalosababishwa na kubadilika kwa ncha za dunia, tendo litakalosababisha mionzi ya gama kutoka kwenye jua ifike duniani na kuua kila kitu kinachoonekana katika uso wa dunia hii. Watakatifu watafufuka na kumlaki Kristo mawinguni, ambaye anakuja kuwachukua wateule na kumweka Shetani kifungoni kwa miaka 1000. Hayo yote, wanasema, yatatokea ndani ya siku 11 kuanzia leo. Yaani, kusini mwa dunia kutakuwa kaskazini mwa dunia, kaskazini mwa dunia kutakuwa kusini mwa dunia. Kitendo hicho kitafanya dunia ikose kinga ya sumaku iitwayo ‘magnetosphere’ ambayo hukinga dunia dhidi ya mionzi ya gama kutoka kwenye jua. Mionzi hiyo hugonga ukuta wa ‘magnetosphere’ kila baada ya dakika 8 kwa mwendokasi wa kilometa milioni 1080 kwa saa; na kusambazwa katika ncha za dunia ambapo aghalabu huchanganyikana na oksijeni na kutengeneza kitu kinaitwa ‘aurora’, au mwanga wa ncha, ambacho ni maajabu mengine ya angani. Mwaka 2012 wanasayansi walisema ncha za dunia zingebadilika lakini hazikubadilika. Je, muda umefika sasa wa kuwaamini wanasayansi? Biblia ni chuo cha Mungu. Soma Biblia kupata maarifa.

Thus after electricity and magnetism had been united, both were now united to light. Electro-magnetic radiations came to be regarded as rapid alternations of electrical and magnetic stresses in space, where each change in the electric stress gives rise to a magnetic stress, which again gives rise to an electric stress and so on. Soon the range of these radiations was shown to comprise not only the visible spectrum between the ultra-violet and the infra-red of radiant heat, but to extend to the ultra-short gamma rays of radioactivity, and to the kilometre-long waves used in radio-communication.

The gamma ray, yet another form of nuclear radiation, is an electromagnetic wave similar to ultraviolet light or x-rays, only it is far more energetic. A gamma ray of sufficient energy can penetrate your car door, go clean through your body, and out the other side, leaving an ionized trail of molecular corruption in its path. It is the product of a rearrangement or settling of the structure of an atomic nucleus, and it naturally occurs often when a nucleus is traumatized by having just emitted an alpha or a beta particle. Gamma rays can be deadly to living cells, but, unlike the clumsy alpha particle, they can enter and leave without losing all their energy in your flesh. It’s the difference between being hit with a full-metal-jacketed .223 or a 12-gauge dumdum. Both hurt.

Radium has nearly absolute body burden, or a tendency to stay in the metabolism forever, and there are few ways it can escape the biological systems. Its radiations cover a wide spectrum, from alpha to gamma, with unusually energetic rays, and it targets many essential organs. It destroys everything around it, so quickly that cancer doesn’t even have time to develop.

The burns that injured many survivors of the A-bombs were not caused by gamma or beta rays, but by light.

Be that as it may, the problem of human squeamishness at having an A-bomb explode overhead could be addressed. Simply explaining to soldiers that a nuclear detonation at 10,000 feet was not the same as having it go off at 1,000 feet was true but insufficient. To the soldiers it was a matter of degree. At the high altitude there would be no ground disturbance. No radioactive dust kicked up into a mushroom cloud, no neutron activation of the ground, and negligible fallout. It was all a function of range. The fission neutrons could not travel that far in air before they decayed into hydrogen gas, and the gamma ray pulse would be short-lived and dissipated in a spherical wave-front with a diameter of four miles when it hit the ground.

Aside from the meanings the term annihilation possesses in popular language, it has meanings in physics, too, which are worth considering: '. . .the process whereby an electron and a positron unite and consequently lose their identity as particles transforming themselves into short gamma rays'. In this sense, annihilation means something more than the mere disappearance and end of phenomena: a stage of merging occurs before one thing is created from these two forms. Out of nothing does come something--at least in theoretical physics. In Buddhist philosophies too, annihilation of the ego is the highest state of being a human can attain. Japanese roboticist Masahiro Mori, theorist of the uncanny valley, writes, 'human beings have self or ego, but machines have none at all. Does this lack cause machines to do crazy, irresponsible things? Not at all. It is people, with their egos who are constantly being led by selfish desires to commit unspeakable deeds. The root of man's lack of freedom (insofar as he actually lacks it) is his egocentrism. In this case, the ego-less machine leads a less hampered existence.