Electronics Based Quotes

It is well known that stone can think, because the whole of electronics is based on that fact, but in some universes men spend ages looking for other intelligences in the sky without once looking under their feet. That is because they've got the time-span all wrong. From stone's point of view the universe is hardly created and mountain ranges are bouncing up and down like organ-stops while continents zip backward and forward in general high spirits, crashing into each other from the sheer joy of momentum and getting their rocks off. It is going to be quite some time before stone notices its disfiguring skin disease and starts to scratch, which is just as well.

There is a most profound and beautiful question associated with the observed coupling constant, e - the amplitude for a real electron to emit or absorb a real photon. It is a simple number that has been experimentally determined to be close to 0.08542455. (My physicist friends won't recognize this number, because they like to remember it as the inverse of its square: about 137.03597 with about an uncertainty of about 2 in the last decimal place. It has been a mystery ever since it was discovered more than fifty years ago, and all good theoretical physicists put this number up on their wall and worry about it.) Immediately you would like to know where this number for a coupling comes from: is it related to pi or perhaps to the base of natural logarithms? Nobody knows. It's one of the greatest damn mysteries of physics: a magic number that comes to us with no understanding by man. You might say the "hand of God" wrote that number, and "we don't know how He pushed his pencil." We know what kind of a dance to do experimentally to measure this number very accurately, but we don't know what kind of dance to do on the computer to make this number come out, without putting it in secretly!

Everything is energy. All energy has a frequency, a vibration. White light is made up of the rainbow of colors, red with the lowest frequency and violet with the highest. Humans are made of matter, which is made of energy. If we take the most powerful microscopes and zoom in on any cell in the body, we go past the cells, DNA, base molecules, atoms, and electrons all the way down to quanta of energy and a lot of space. What is mind-blowing at this quantum level is that the act of observing these subatomic particles changes how they behave! It is as though they are aware of us and make decisions.

Above all, we are in need of a renewed Enlightenment, which will base itself on the proposition that the proper study of mankind is man, and woman. This Enlightenment will not need to depend, like its predecessors, on the heroic breakthroughs of a few gifted and exceptionally courageous people. It is within the compass of the average person. The study of literature and poetry, both for its own sake and for the eternal ethical questions with which it deals, can now easily depose the scrutiny of sacred texts that have been found to be corrupt and confected. The pursuit of unfettered scientific inquiry, and the availability of new findings to masses of people by easy electronic means, will revolutionize our concepts of research and development. Very importantly, the divorce between the sexual life and fear, and the sexual life and disease, and the sexual life and tyranny, can now at last be attempted, on the sole condition that we banish all religions from the discourse. And all this and more is, for the first time in our history, within the reach if not the grasp of everyone. However, only the most naive utopian can believe that this new humane civilization will develop, like some dream of “progress,” in a straight line. We have first to transcend our prehistory, and escape the gnarled hands which reach out to drag us back to the catacombs and the reeking altars and the guilty pleasures of subjection and abjection. “Know yourself,” said the Greeks, gently suggesting the consolations of philosophy. To clear the mind for this project, it has become necessary to know the enemy, and to prepare to fight it.

What, after all, is so special about genes? The answer is that they are replicators. The laws of physics are supposed to be true all over the accessible universe. Are there any principles of biology which are likely to have similar universal validity? When astronauts voyage to distant planets and look for life, they can expect to find creatures too strange and unearthly for us to imagine. But is there anything which must be true of all life, wherever it is found, and whatever the basis of its chemistry? If forms of life exist whose chemistry is based on silicon rather than carbon, or ammonia rather than water, if creatures are discovered which boil to death at -100 degrees centigrade, if a form of life is found which is not based on chemistry at all, but on electronic reverberating circuits, will there still be any general principle which is true of all life? Obviously I do not know but, if I had to bet, I would put my money on one fundamental principle. This is the law that all life evolves by the differential survival of replicating entities. The gene, the DNA molecule, happens to be the replicating entity which prevails on our own planet. There may be others. If there are, provided certain conditions are met, they will almost inevitably tend to become the basis for an evolutionary process.

America is a leap of the imagination. From its beginning, people had only a persistent idea of what a good country should be. The idea involved freedom, equality, justice, and the pursuit of happiness; nowadays most of us probably could not describe it a lot more clearly than that. The truth is, it always has been a bit of a guess. No one has ever known for sure whether a country based on such an idea is really possible, but again and again, we have leaped toward the idea and hoped. What SuAnne Big Crow demonstrated in the Lead high school gym is that making the leap is the whole point. The idea does not truly live unless it is expressed by an act; the country does not live unless we make the leap from our tribe or focus group or gated community or demographic, and land on the shaky platform of that idea of a good country which all kinds of different people share. This leap is made in public, and it's made for free. It's not a product or a service that anyone will pay you for. You do it for reasons unexplainable by economics--for ambition, out of conviction, for the heck of it, in playfulness, for love. It's done in public spaces, face-to-face, where anyone is free to go. It's not done on television, on the Internet, or over the telephone; our electronic systems can only tell us if the leap made elsewhere has succeeded or failed. The places you'll see it are high school gyms, city sidewalks, the subway, bus stations, public parks, parking lots, and wherever people gather during natural disasters. In those places and others like them, the leaps that continue to invent and knit the country continue to be made. When the leap fails, it looks like the L.A. riots, or Sherman's March through Georgia. When it succeeds, it looks like the New York City Bicentennial Celebration in July 1976 or the Civil Rights March on Washington in 1963. On that scale, whether it succeeds or fails, it's always something to see. The leap requires physical presence and physical risk. But the payoff--in terms of dreams realized, of understanding, of people getting along--can be so glorious as to make the risk seem minuscule.

Are they local enough that they can attend regular meetings, indeed can they be based at desks on my site? If not, have they good electronic links?

Old media companies will be further challenged in the next 15 years, as a new wave of user-generated content washes over the Internet, thanks to the increasing availability and affordability of portable, digital-based electronic devices. The cameraphones which seemed like such novelties just a few years ago will be in everyone's purse and pocket a few years from now.

It's safe to say that 'Horror,' as a fictional genre, has claim to it's own canon. There is a definite history that can be traced back to the origins of human language, both orally and written, and now multimedia based. We at this point, have access to the full gambit of 'genre' Horror in all its hybrid forms (electronically at least). Sub-genres ensure that Horror can and will multiply in its complexities and evolve along with human fears.

Some 80 percent of the world’s high-quality quartz that ultimately makes up electronic-grade silicon comes from a single mine in North Freakin’ Carolina. Want to remain modern? You pretty much must get along well with the Americans. They will soon have something they have never had: resource control over the base material of the Digital Age. (They’re also going to do pretty well dominating the overall high-end semiconductor space, but that particular breakdown is in the next chapter.)

The numerals 666 are most often identified with the Beast of Revelation, but they are also symbolic of the fact that we live in a carbon-based universe.  An atom of carbon features six protons, six neutrons and six electrons.  In other words, this universe we live in is coded in 666 by the very nature of what it is.

We don’t get to choose the universe we’re in, so no matter what kind of positive thinking or voodoo you do, you don’t get to land in the timeline of your choice. The laws of physics say you just plod along and then there’s a branch point, and you get funneled into one universe or the other. In other words, it’s not free will. It’s chance, based on however that electron happens to be spinning.

How can you spend your days just damning people? Man, where do you think we are right now? Not just right here, but here, alive on this planet? This is hell, Brother, look around. It doesn’t have to be, but we make it so. I can even prove it. All life on this planet is carbon-based, right? Do you know what the atomic number of carbon is? Six. That means six electrons, six neutrons, and six protons, 666, the mark of the beast is the illusion of matter! Who was cast out of paradise? Lucifer, right? Well, guess who else was kicked out? We were, Adam and Eve, eating the forbidden fruit, the Tree of Knowledge, driven from the garden like varmints. We’re the beast. DNA is the coil of the serpent. Duh. Hell is separation from the Source, man. Dig?” “Right on,” Manny spoke up. “I can dig that.

It is a fact of life on our beleaguered little planet that widespread torture, famine and governmental criminal irresponsibility are much more likely to be found in tyrannical than in democratic governments. Why? Because the rulers of the former are much less likely to be thrown out of office for their misdeeds than the rulers of the latter. This is error-correcting machinery in politics. The methods of science, with all its imperfections, can be used to improve social, political and economic systems, and this is, I think, true no matter what criterion of improvement is adopted. How is this possible if science is based on experiment? Humans are not electrons or laboratory rats. But every act of Congress, every Supreme Court decision, every Presidential National Security Directive, every change in the Prime Rate is an experiment. Every shift in economic policy, every increase or decrease in funding for Head Start, every toughening of criminal sentences is an experiment. Exchanging needles, making condoms freely available, or decriminalizing marijuana are all experiments. Doing nothing to help Abyssinia against Italy, or to prevent Nazi Germany from invading the Rhineland was an experiment. Communism in Eastern Europe, the Soviet Union and China was an experiment. Privatizing mental health care or prisons is an experiment. Japan and West Germany investing a great deal in science and technology and next to nothing on defense - and finding that their economies boomed - was an experiment. Handguns are available for self-protection in Seattle, but not in nearby Vancouver, Canada; handgun killings are five times more common in Seattle and the handgun suicide rate is ten times greater in Seattle. Guns make impulsive killing easy. This is also an experiment. In almost all of these cases, adequate control experiments are not performed, or variables are insufficiently separated. Nevertheless, to a certain and often useful degree, such ideas can be tested. The great waste would be to ignore the results of social experiments because they seem to be ideologically unpalatable.

We have already seen that gauge symmetry that characterizes the electroweak force-the freedom to interchange electrons and neturinos-dictates the existence of the messenger electroweak fields (photon, W, and Z). Similarly, the gauge color symmetry requires the presence of eight gluon fields. The gluons are the messengers of the strong force that binds quarks together to form composite particles such as the proton. Incidentally, the color "charges" of the three quarks that make up a proton or a neutron are all different (red, blue, green), and they add up to give zero color charge or "white" (equivalent to being electrically neutral in electromagnetism). Since color symmetry is at the base of the gluon-mediated force between quarks, the theory of these forces has become known as quantum chromodynamics. The marriage of the electroweak theory (which describes the electromagnetic and weak forces) with quantum chromodynamics (which describes the strong force) produced the standard model-the basic theory of elementary particles and the physical laws that govern them.

In the world of physical matter, whether one is looking at the largest star that floats through the heavens or the smallest grain of sand to be found on earth, the object under observation is but an organized collection of molecules, atoms and electrons revolving around one another at inconceivable speed. Every particle of physical matter is in a continuous state of highly agitated motion. Nothing is ever still, although nearly all physical matter may appear, to the physical eye, to be motionless. There is no "solid" physical matter.

Observation: Thanks to technological advances, avid readers seem to be replacing DTBAD (Dead Tree Book Acquisition Disorder) with an alphabet soup of more more modern-day hoarding behaviors: EBAD (E-Book Acquistion Disorder), EGAD (Electronic Gadget Acquisition Disorder), and ABAD (Audiobook Acquisition Disorder). Of course, there's also MYBAD (Movie and YouTube Acquisition Disorder: the hoarding or obsessive viewing of digital films and videos, some based on books). If any of these syndromes describes you, take heart: there's probably an app for that! - 8/9/2013

Even if the initial home-base advantage is hard to sustain, a global strategy can contribute to supplementing and upgrading it. A good example is in consumer electronics, where Matsushita, Sanyo, Sharp, and other Japanese firms initially competed on cost in selling simply designed, portable televisions. As they began penetrating foreign markets, they gained economies of scale and further reduced cost by moving down the learning curve. Worldwide volume then helped to support aggressive investments in marketing, new production equipment, and R&D and to achieve proprietary technology.

What, then, would it mean to imagine a system in which punishment is not allowed to become the source of corporate profit? How can we imagine a society in which race and class are not primary determinants of punishment? Or one in which punishment itself is no longer the central concern in the making of justice? An abolitionist approach that seeks to answer questions such as these would require us to imagine a constellation of alternative strategies and institutions, with the ultimate aim of removing the prison from the social and ideological landscapes of our society. In other words, we would not be looking for prisonlike substitutes for the prison, such as house arrest safeguarded by electronic surveillance bracelets. Rather, positing decarceration as our overarching strategy, we would try to envision a continuum of alternatives to imprisonment—demilitarization of schools, revitalization of education at all levels, a health system that provides free physical and mental care to all, and a justice system based on reparation and reconciliation rather than retribution and vengeance. The creation of new institutions that lay claim to the space now occupied by the prison can eventually start to crowd out the prison so that it would inhabit increasingly smaller areas of our social and psychic landscape. Schools can therefore be seen as the most powerful alternative to jails and prisons. Unless the current structures of violence are eliminated from schools in impoverished communities of color—including the presence of armed security guards and police—and unless schools become places that encourage the joy of learning, these schools will remain the major conduits to prisons. The alternative would be to transform schools into vehicles for decarceration.

Is there a notion of hope (and of our responsibility to the future) that could be shared by believers and nonbelievers? What can it be based on now? Does an idea of the end, one that does not imply disinterest in the future but rather a constant examination of the errors of the past, have a critical function? If not, it would be perfectly all right to accept the approach of the end, even without thinking about it, sitting in front of our TV screens (in the shelter of our electronic fortifications), waiting for someone to entertain us while meantime things go however they go. And to hell with what will come.

Modern economies will always be tied to massive material flows, whether those of ammonia-based fertilizers to feed the still-growing global population; plastics, steel, and cement needed for new tools, machines, structures, and infrastructures; or new inputs required to produce solar cells, wind turbines, electric cars, and storage batteries. And until all energies used to extract and process these materials come from renewable conversions, modern civilization will remain fundamentally dependent on the fossil fuels used in the production of these indispensable materials. No AI, no apps, and no electronic messages will change that.

Not futuristic enough? What about an interspecies Internet—one that links elephants, dolphins, and great apes for “the purposes of enrichment, research, and preservation”? Though it may sound crazy, it’s already here. In Australia, for example, there are over 300 sharks on Twitter (no, they did not sign up themselves). Researchers fitted 338 sharks, including many great whites, with acoustic tags that send an electronic signal to shore-based receivers when the animals come within half a mile of the beach. For a country that has suffered more fatal shark attacks than any other, this IoT development is saving human lives, and the sharks have attracted nearly forty thousand beach-going Twitter followers as a result.

of the remains you receive will be affected by this change.” Hirsch also revealed that our legal team had assembled a plan to issue death certificates for victims of the attacks based on two affidavits—one from the family and one from the employer of the missing person. “There will certainly be some victims who will never be positively identified, even by DNA,” he said. In those cases, the legal requirement for a death certificate would have to be met through sworn testimony of the people who last saw or heard from the vanished persons. “We will link the cases electronically once, and if, DNA or some other method identifies a missing person who has been issued a death certificate by judicial decree.” Dr. Hirsch finished his presentation that

5Our standard of living, our very survival here, is based upon raw exploitation of working-class women - white black, and third world - in all parts of the world. Our hands are not clean. We must also come to terms with the that still largely unexamined, undisclosed faith in the idea of America, that no matter how unbearable it is here, it is better than anywhere else; that's slippage between third world and third rate. We eat bananas. Buy flowers. Use salt to flavour our food. Drink sweetened coffee. Use tires for the cars we drive. Depend upon state-of-the-art electronics. Travel. We consume and rely upon multiple choice to reify consumption. All those things that give material weight to idea of America - conflating capitalism and democracy, demarcating 'us' from 'them'.

Evil people relate more to the black pole. It's - this is not exact, of course, as the science of magic is as complex as the magic of electronics - it's like traveling past a mountain. The white pole is at the apex, and it is an exhilarating height, but it takes a lot of work and few missteps to ascend it. The black pole is at the nadir, and it is easy to walk downhill; sometimes you can just sit down and slide or roll and, if you fall, you can get there very fast indeed. If you don't pay attention to where you're going, you'll tend to go down, because it is the course of least resistance. Since the average person has only the vaguest notion where he is going and tends to shut out awareness of the consequence of evil, he inevitably drifts downward. There is much more space at the base of the mountain than at the peak!

have to give it, especially if that engagement seems emotionally charged. When you decide not to dignify an irrational communication with a response, it’s about preserving your personal dignity and mental clarity. Just because someone throws the ball doesn’t mean you have to catch it. Think of it this way: How would you feel if you sent someone an emotionally charged email but never received a response? You’d initially be confused. First, you’d double-check your Sent folder to make sure it went through. Then you’d start obsessing over the audible “ding” of your incoming messages, thinking it might be their response. Finally, you’d begin wondering if they even got your electronic tirade, somehow found a way to block your emails, or what else they might be doing that was more important than sending you a reply. In the end, you’d feel embarrassed, your pride deflated, and the fire you had to engage in keyboard karate would burn out. That’s the power of not reacting. When faced with a situation in which you’re being provoked, take a moment to let your emotions pass, and then ask yourself, “Do I really need to respond?” Assess the situation from a logical vantage point—rather than an emotional one—and base your decisions on what will ultimately benefit you in the long run. This mental strategy, however, isn’t solely for dealing with insults or slander. It’s just as effective when trying to handle people who constantly want your time and attention. Sometimes you simply don’t have it to give. Or giving it will distract you from things that are more important. When it comes to time allocation, it’s good to separate the signals from the noise. If everything in your life is important, then nothing is.

Theta programming, Phillips said, "involved the surgical implantation of sodium/lithium powered high frequency receiver/transducers coupled to a multi-range discharge capacitor that , when signaled by remote control would electronically stimulate designated parts of the brain to signal the victim to respond according to his or her hypnotic program. "These "Delgado" experiments were only partially successful," Phillips said, "with a high mortality and paralysis rate. However, the technical mind control equipment evolution has advanced to levels well beyond the grasp of most people. Non-implanted, non-programmed victims will hold the largest majority since, in the 1990's breakthroughs were made which allow mind control without either implant or trauma base". The new Theta programming," Phillips said, "operates by computer driven satellite directed energy. Now, anybody can become a target of the new technology.

The Internet sites (Facebook, Meetic, and thousands of other sites) are based on a virtual and simulated second-hand sex through a screen interface. The first encounter is not natural; it occurs in solitude, in front of a machine interface, and everything else flows from there. Dialogue in front of the screen falsifies and misguides the rest of the relationship, because it suppresses the direct emotion of the first meeting and establishes the relationship on lies, even if these are involuntary. The accident of the first meeting — in a bar, at a party, an office, a friend’s house — is replaced by calculated effort in front of a cold screen. Imagination supplants reality. Romanticism or desire are transmitted in computer files. Psychologically, a contact receives a certain bias if it originates from a computer search. If you later happen to meet the person, you understand quickly that she does not correspond to the electronic persona with which one chatted.

Supersymmetry was (and is) a beautiful mathematical idea. The problem with applying supersymmetry is that it is too good for this world. We simply do not find particles of the sort it predicts. We do not, for example, see particles with the same charge and mass as electrons, but a different amount of spin. However, symmetry principles that might help to unify fundamental physics are hard to come by, so theoretical physicists do not give up on them easily. Based on previous experience with other forms of symmetry, we have developed a fallback strategy, called spontaneous symmetry breaking. In this approach, we postulate that the fundamental equations of physics have the symmetry, but the stable solutions of these equations do not. The classic example of this phenomenon occurs in an ordinary magnet. In the basic equations that describe the physics of a lump of iron, any direction is equivalent to any other, but the lump becomes a magnet with some definite north-seeking pole.

But there is also some empirical evidence that sheds light on the relationship between quantum principles and consciousness. Anesthesiologist Stuart Hameroff claims to have found evidence that anesthesia arrests consciousness by hindering the motion of electrons in microtubules, minute tunnels of protein that serve as a kind of skeleton for cells. Hameroff speculates that microtubules could be a possible site for quantum effects in the brain,17 and his speculations have led mathematical physicist Roger Penrose to endorse the hypothesis.18 Attempts to develop models of consciousness based on quantum mechanics have also been made by neuroscientist John Eccles, and physicists Henry Stapp and Evan Harris Walker.o Walker and the experimental physicist Helmut Schmidt (the latter responsible for many of the micro-PK experiments described earlier) have also proposed mathematical theories of psi based on quantum mechanics.19 These theories rest upon two propositions that are now supported by experimental evidence: that mind can influence random quantum events, and that influence can occur instantaneously at a distance.p

I described living cells as being crammed full of protein molecules. Acting individually or in small assemblies, they perform reiterated molecular processes that can be regarded, I argued, as a form of computation. Moreover, large numbers of proteins linked into huge interacting networks operate, in effect, like circuits of electrical or electronic devices. Networks of this kind are the basis for the animate wanderings of single cells and their ability to choose what to do next. Here I have broadened the view to encompass multiple cells - 'societies' of cells. Through a variety of strategies - including diffusive hormones, electrical signals, and mechanical interactions - the computational networks of individual cells are linked. During evolution, cells acquired the capacity to work together in social groups; it became advantageous for most cells to become highly specialised. Liver cells, muscle cells, skin cells, and so on abandoned their opportunities for unlimited replication. They began the communal expansion of interlinked abilities that led to the plants and animals we see around us today. But the basis of this diversification of cell chemistry was yet another form of computation - one that operates on DNA. Control mechanisms, again based on protein switches, created extensive but subtle modifications of the core genetic information.

When General Genius built the first mentar [Artificial Intelligence] mind in the last half of the twenty-first century, it based its design on the only proven conscious material then known, namely, our brains. Specifically, the complex structure of our synaptic network. Scientists substituted an electrochemical substrate for our slower, messier biological one. Our brains are an evolutionary hodgepodge of newer structures built on top of more ancient ones, a jury-rigged system that has gotten us this far, despite its inefficiency, but was crying out for a top-to-bottom overhaul. Or so the General genius engineers presumed. One of their chief goals was to make minds as portable as possible, to be easily transferred, stored, and active in multiple media: electronic, chemical, photonic, you name it. Thus there didn't seem to be a need for a mentar body, only for interchangeable containers. They designed the mentar mind to be as fungible as a bank transfer. And so they eliminated our most ancient brain structures for regulating metabolic functions, and they adapted our sensory/motor networks to the control of peripherals. As it turns out, intelligence is not limited to neural networks, Merrill. Indeed, half of human intelligence resides in our bodies outside our skulls. This was intelligence the mentars never inherited from us. ... The genius of the irrational... ... We gave them only rational functions -- the ability to think and feel, but no irrational functions... Have you ever been in a tight situation where you relied on your 'gut instinct'? This is the body's intelligence, not the mind's. Every living cell possesses it. The mentar substrate has no indomitable will to survive, but ours does. Likewise, mentars have no 'fire in the belly,' but we do. They don't experience pure avarice or greed or pride. They're not very curious, or playful, or proud. They lack a sense of wonder and spirit of adventure. They have little initiative. Granted, their cognition is miraculous, but their personalities are rather pedantic. But probably their chief shortcoming is the lack of intuition. Of all the irrational faculties, intuition in the most powerful. Some say intuition transcends space-time. Have you ever heard of a mentar having a lucky hunch? They can bring incredible amounts of cognitive and computational power to bear on a seemingly intractable problem, only to see a dumb human with a lucky hunch walk away with the prize every time. Then there's luck itself. Some people have it, most don't, and no mentar does. So this makes them want our bodies... Our bodies, ape bodies, dog bodies, jellyfish bodies. They've tried them all. Every cell knows some neat tricks or survival, but the problem with cellular knowledge is that it's not at all fungible; nor are our memories. We're pretty much trapped in our containers.

On the other hand, some of the family’s impatience with the public is justified. When I use Federal Express, I accept as a condition of business that its standardized forms must be filled out in printed letters. An e-mail address off by a single character goes nowhere. Transposing two digits in a phone number gets me somebody speaking heatedly in Portuguese. Electronic media tell you instantly when you’ve made an error; with the post office, you have to wait. Haven’t we all at some point tested its humanity? I send mail to friends in Upper Molar, New York (they live in Upper Nyack), and expect a stranger to laugh and deliver it in forty-eight hours. More often than not, the stranger does. With its mission of universal service, the Postal Service is like an urban emergency room contractually obligated to accept every sore throat, pregnancy, and demented parent that comes its way. You may have to wait for hours in a dimly lit corridor. The staff may be short-tempered and dilatory. But eventually you will get treated. In the Central Post Office’s Nixie unit—where mail arrives that has been illegibly or incorrectly addressed—I see street numbers in the seventy thousands; impossible pairings of zip codes and streets; addresses without a name, without a street, without a city; addresses that consist of the description of a building; addresses written in water-based ink that rain has blurred. Skilled Nixie clerks study the orphans one at a time. Either they find a home for them or they apply that most expressive of postal markings, the vermilion finger of accusation that lays the blame squarely on you, the sender.

Andrei Yanuaryevich (one longs to blurt out, “Jaguaryevich”) Vyshinsky, availing himself of the most flexible dialectics (of a sort nowadays not permitted either Soviet citizens or electronic calculators, since to them yes is yes and no is no), pointed out in a report which became famous in certain circles that it is never possible for mortal men to establish absolute truth, but relative truth only. He then proceeded to a further step, which jurists of the last two thousand years had not been willing to take: that the truth established by interrogation and trial could not be absolute, but only, so to speak, relative. Therefore, when we sign a sentence ordering someone to be shot we can never be absolutely certain, but only approximately, in view of certain hypotheses, and in a certain sense, that we are punishing a guilty person. Thence arose the most practical conclusion: that it was useless to seek absolute evidence-for evidence is always relative-or unchallengeable witnesses-for they can say different things at different times. The proofs of guilt were relative, approximate, and the interrogator could find them, even when there was no evidence and no witness, without leaving his office, “basing his conclusions not only on his own intellect but also on his Party sensitivity, his moral forces” (in other words, the superiority of someone who has slept well, has been well fed, and has not been beaten up) “and on his character” (i.e., his willingness to apply cruelty!)… In only one respect did Vyshinsky fail to be consistent and retreat from dialectical logic: for some reason, the executioner’s bullet which he allowed was not relative but absolute…

The world is made of fields—substances spread through all of space that we notice through their vibrations, which appear to us as particles. The electric field and the gravitational field might seem familiar, but according to quantum field theory even particles like electrons and quarks are really vibrations in certain kinds of fields. • The Higgs boson is a vibration in the Higgs field, just as a photon of light is a vibration in the electromagnetic field. • The four famous forces of nature arise from symmetries—changes we can make to a situation without changing anything important about what happens. (Yes, it makes no immediate sense that “a change that doesn’t make a difference” leads directly to “a force of nature” . . . but that was one of the startling insights of twentieth-century physics.) • Symmetries are sometimes hidden and therefore invisible to us. Physicists often say that hidden symmetries are “broken,” but they’re still there in the underlying laws of physics—they’re simply disguised in the immediately observable world. • The weak nuclear force, in particular, is based on a certain kind of symmetry. If that symmetry were unbroken, it would be impossible for elementary particles to have mass. They would all zip around at the speed of light. • But most elementary particles do have mass, and they don’t zip around at the speed of light. Therefore, the symmetry of the weak interactions must be broken. • When space is completely empty, most fields are turned off, set to zero. If a field is not zero in empty space, it can break a symmetry. In the case of the weak interactions, that’s the job of the Higgs field. Without it, the universe would be an utterly different place.   Got

It turns out that in that terrible year Andrei Yanuaryevich (one longs to blurt out, “Jaguaryevich”) Vyshinsky, availing himself of the most flexible dialectics (of a sort nowadays not permitted either Soviet citizens or electronic calculators, since to them yes is yes and no is no), pointed out in a report which became famous in certain circles that it is never possible for mortal men to establish absolute truth, but relative truth only. He then proceeded to a further step, which jurists of the last two thousand years had not been willing to take: that the truth established by interrogation and trial could not be absolute, but only, so to speak, relative. Therefore, when we sign a sentence ordering someone to be shot we can never be absolutely certain, but only approximately, in view of certain hypotheses, and in a certain sense, that we are punishing a guilty person. Thence arose the most practical conclusion: that it was useless to seek absolute evidence—for evidence is always relative—or unchallengeable witnesses—for they can say different things at different times. The proofs of guilt were relative, approximate, and the interrogator could find them, even when there was no evidence and no witness, without leaving his office, “basing his conclusions not only on his own intellect but also on his Party sensitivity, his moral forces” (in other words, the superiority of someone who has slept well, has been well fed, and has not been beaten up) “and on his character” (i.e., his willingness to apply cruelty!). In only one respect did Vyshinsky fail to be consistent and retreat from dialectical logic: for some reason, the executioner’s bullet which he allowed was not relative but absolute. . . . Thus it was that the conclusions of advanced Soviet jurisprudence, proceeding in a spiral, returned to barbaric or medieval standards. Like medieval torturers, our interrogators, prosecutors, and judges agreed to accept the confession of the accused as the chief proof of guilt.

The climate for relationships within an innovation group is shaped by the climate outside it. Having a negative instead of a positive culture can cost a company real money. During Seagate Technology’s troubled period in the mid-to-late 1990s, the company, a large manufacturer of disk drives for personal computers, had seven different design centers working on innovation, yet it had the lowest R&D productivity in the industry because the centers competed rather than cooperated. Attempts to bring them together merely led people to advocate for their own groups rather than find common ground. Not only did Seagate’s engineers and managers lack positive norms for group interaction, but they had the opposite in place: People who yelled in executive meetings received “Dog’s Head” awards for the worst conduct. Lack of product and process innovation was reflected in loss of market share, disgruntled customers, and declining sales. Seagate, with its dwindling PC sales and fading customer base, was threatening to become a commodity producer in a changing technology environment. Under a new CEO and COO, Steve Luczo and Bill Watkins, who operated as partners, Seagate developed new norms for how people should treat one another, starting with the executive group. Their raised consciousness led to a systemic process for forming and running “core teams” (cross-functional innovation groups), and Seagate employees were trained in common methodologies for team building, both in conventional training programs and through participation in difficult outdoor activities in New Zealand and other remote locations. To lead core teams, Seagate promoted people who were known for strong relationship skills above others with greater technical skills. Unlike the antagonistic committees convened during the years of decline, the core teams created dramatic process and product innovations that brought the company back to market leadership. The new Seagate was able to create innovations embedded in a wide range of new electronic devices, such as iPods and cell phones.

SCULLEY. Pepsi executive recruited by Jobs in 1983 to be Apple’s CEO, clashed with and ousted Jobs in 1985. JOANNE SCHIEBLE JANDALI SIMPSON. Wisconsin-born biological mother of Steve Jobs, whom she put up for adoption, and Mona Simpson, whom she raised. MONA SIMPSON. Biological full sister of Jobs; they discovered their relationship in 1986 and became close. She wrote novels loosely based on her mother Joanne (Anywhere but Here), Jobs and his daughter Lisa (A Regular Guy), and her father Abdulfattah Jandali (The Lost Father). ALVY RAY SMITH. A cofounder of Pixar who clashed with Jobs. BURRELL SMITH. Brilliant, troubled hardware designer on the original Mac team, afflicted with schizophrenia in the 1990s. AVADIS “AVIE” TEVANIAN. Worked with Jobs and Rubinstein at NeXT, became chief software engineer at Apple in 1997. JAMES VINCENT. A music-loving Brit, the younger partner with Lee Clow and Duncan Milner at the ad agency Apple hired. RON WAYNE. Met Jobs at Atari, became first partner with Jobs and Wozniak at fledgling Apple, but unwisely decided to forgo his equity stake. STEPHEN WOZNIAK. The star electronics geek at Homestead High; Jobs figured out how to package and market his amazing circuit boards and became his partner in founding Apple. DEL YOCAM. Early Apple employee who became the General Manager of the Apple II Group and later Apple’s Chief Operating Officer. INTRODUCTION How This Book Came to Be In the early summer of 2004, I got a phone call from Steve Jobs. He had been scattershot friendly to me over the years, with occasional bursts of intensity, especially when he was launching a new product that he wanted on the cover of Time or featured on CNN, places where I’d worked. But now that I was no longer at either of those places, I hadn’t heard from him much. We talked a bit about the Aspen Institute, which I had recently joined, and I invited him to speak at our summer campus in Colorado. He’d be happy to come, he said, but not to be onstage. He wanted instead to take a walk so that we could talk. That seemed a bit odd. I didn’t yet

Unlike classically spinning bodies, such as tops, however, where the spin rate can assume any value fast or slow, electrons always have only one fixed spin. In the units in which this spin is measured quantum mechanically (called Planck's constant) the electrons have half a unit, or they are "spin-1/2" particles. In fact, all the matter particles in the standard model-electrons, quarks, neutrinos, and two other types called muons and taus-all have "spin 1/2." Particles with half-integer spin are known collectively as fermions (after the Italian physicist Enrico Fermi). On the other hand, the force carriers-the photon, W, Z, and gluons-all have one unit of spin, or they are "spin-1" particles in the physics lingo. The carrier of gravity-the graviton-has "spin 2," and this was precisely the identifying property that one of the vibrating strings was found to possess. All the particles with integer units of spin are called bosons (after the Indian physicist Satyendra Bose). Just as ordinary spacetime is associated with a supersymmetry that is based on spin. The predictions of supersymmetry, if it is truly obeyed, are far-reaching. In a universe based on supersymmetry, every known particle in the universe must have an as-yet undiscovered partner (or "superparrtner"). The matter particles with spin 1/2, such as electrons and quarks, should have spin 0 superpartners. the photon and gluons (that are spin 1) should have spin-1/2 superpartners called photinos and gluinos respectively. Most importantly, however, already in the 1970s physicists realized that the only way for string theory to include fermionic patterns of vibration at all (and therefore to be able to explain the constituents of matter) is for the theory to be supersymmetric. In the supersymmetric version of the theory, the bosonic and fermionic vibrational patters come inevitably in pairs. Moreover, supersymmetric string theory managed to avoid another major headache that had been associated with the original (nonsupersymmetric) formulation-particles with imaginary mass. Recall that the square roots of negative numbers are called imaginary numbers. Before supersymmetry, string theory produced a strange vibration pattern (called a tachyon) whose mass was imaginary. Physicists heaved a sigh of relief when supersymmetry eliminated these undesirable beasts.

The US traded its manufacturing sector’s health for its entertainment industry, hoping that Police Academy sequels could take the place of the rustbelt. The US bet wrong. But like a losing gambler who keeps on doubling down, the US doesn’t know when to quit. It keeps meeting with its entertainment giants, asking how US foreign and domestic policy can preserve its business-model. Criminalize 70 million American file-sharers? Check. Turn the world’s copyright laws upside down? Check. Cream the IT industry by criminalizing attempted infringement? Check. It’ll never work. It can never work. There will always be an entertainment industry, but not one based on excluding access to published digital works. Once it’s in the world, it’ll be copied. This is why I give away digital copies of my books and make money on the printed editions: I’m not going to stop people from copying the electronic editions, so I might as well treat them as an enticement to buy the printed objects. But there is an information economy. You don’t even need a computer to participate. My barber, an avowed technophobe who rebuilds antique motorcycles and doesn’t own a PC, benefited from the information economy when I found him by googling for barbershops in my neighborhood. Teachers benefit from the information economy when they share lesson plans with their colleagues around the world by email. Doctors benefit from the information economy when they move their patient files to efficient digital formats. Insurance companies benefit from the information economy through better access to fresh data used in the preparation of actuarial tables. Marinas benefit from the information economy when office-slaves look up the weekend’s weather online and decide to skip out on Friday for a weekend’s sailing. Families of migrant workers benefit from the information economy when their sons and daughters wire cash home from a convenience store Western Union terminal. This stuff generates wealth for those who practice it. It enriches the country and improves our lives. And it can peacefully co-exist with movies, music and microcode, but not if Hollywood gets to call the shots. Where IT managers are expected to police their networks and systems for unauthorized copying – no matter what that does to productivity – they cannot co-exist. Where our operating systems are rendered inoperable by “copy protection,” they cannot co-exist. Where our educational institutions are turned into conscript enforcers for the record industry, they cannot co-exist. The information economy is all around us. The countries that embrace it will emerge as global economic superpowers. The countries that stubbornly hold to the simplistic idea that the information economy is about selling information will end up at the bottom of the pile. What country do you want to live in?

The top surface of the computer is smooth except for a fisheye lens, a polished glass dome with a purplish optical coating. Whenever Hiro is using the machine, this lens emerges and clicks into place, its base flush with the surface of the computer. The neighborhood loglo is curved and foreshortened on its surface. Hiro finds it erotic. This is partly because he hasn't been properly laid in several weeks. But there's more to it. Hiro's father, who was stationed in Japan for many years, was obsessed with cameras. He kept bringing them back from his stints in the Far East, encased in many protective layers, so that when he took them out to show Hiro, it was like watching an exquisite striptease as they emerged from all that black leather and nylon, zippers and straps. And once the lens was finally exposed, pure geometric equation made real, so powerful and vulnerable at once, Hiro could only think it was like nuzzling through skirts and lingerie and outer labia and inner labia. . . . It made him feel naked and weak and brave. The lens can see half of the universe -- the half that is above the computer, which includes most of Hiro. In this way, it can generally keep track of where Hiro is and what direction he's looking in. Down inside the computer are three lasers -- a red one, a green one, and a blue one. They are powerful enough to make a bright light but not powerful enough to burn through the back of your eyeball and broil your brain, fry your frontals, lase your lobes. As everyone learned in elementary school, these three colors of light can be combined, with different intensities, to produce any color that Hiro's eye is capable of seeing. In this way, a narrow beam of any color can be shot out of the innards of the computer, up through that fisheye lens, in any direction. Through the use of electronic mirrors inside the computer, this beam is made to sweep back and forth across the lenses of Hiro's goggles, in much the same way as the electron beam in a television paints the inner surface of the eponymous Tube. The resulting image hangs in space in front of Hiro's view of Reality. By drawing a slightly different image in front of each eye, the image can be made three-dimensional. By changing the image seventy-two times a second, it can be made to move. By drawing the moving three-dimensional image at a resolution of 2K pixels on a side, it can be as sharp as the eye can perceive, and by pumping stereo digital sound through the little earphones, the moving 3-D pictures can have a perfectly realistic soundtrack. So Hiro's not actually here at all. He's in a computer-generated universe that his computer is drawing onto his goggles and pumping into his earphones. In the lingo, this imaginary place is known as the Metaverse. Hiro spends a lot of time in the Metaverse. It beats the shit out of the U-Stor-It.

Karimi crossed his arms, and with a look of irritation, said, “I assume Israel detonated a nuclear weapon, causing an EMP that shorted out everything on the surface. Then, as usual, the United Nations says some empty words, and life goes on as normal,” “Unfortunately, they detonated two nukes. The one that fried all the electronics and another that wiped out Tehran,” “So I no longer have a capitol city. You know, that’s really too bad. Besides, I wasn’t planning on basing my empire from there anyway,” “You’re not upset?” Evans asked, not sure he believed Karimi. “Upset? Hardly. Anyway, what did the United Nations do this time? Sit on their hands?” “They put sanctions on Israel and a naval blockade, with the United States Navy providing most of the ships for the blockade. The Israeli’s have already had one ship sunk after trying to push the issue, but they haven’t tried that stunt again. By the way, I took care of the Iraqis wanting your head for destroying Mosul,

In the security guard industry, for example, electronic alarm systems represent a potent substitute. Moreover, they can only become more important since labor-intensive guard services face inevitable cost escalation, whereas electronic systems are highly likely to improve in performance and decline in costs. Here, the appropriate response of security guard firms is probably to offer packages of guards and electronic systems, based on a redefinition of the security guard as a skilled operator, rather than to try to outcompete electronic systems across the board.

due to the precision of the optical electron oscillation frequency within strontium or aluminium. 30. Train of identical nearly single-cycle optical pulses. The spectrum of the pulse train looks like the teeth of a comb, hence it is called a frequency comb. ‘Optical clockwork’ of this kind allows the comparison of disparate frequencies with such remarkable precision that it provides a means to test the tenets of relativity, and thus to understand better the role of light in defining space and time. Frequency, and thus time, is the physical quantity that can be measured with the highest precision of any quantity, by far. Optical telecommunications Frequency combs are also important in telecommunications links based on light. In Chapter 3, I described how optical waves could be guided along a fibre or in a glass ‘chip’. This phenomenon underpins the long-distance telecommunications infrastructure that connects people across different continents and powers the Internet. The reason it is so effective is that light-based communications have much more capacity for carrying information than do electrical wires, or even microwave cellular networks. This makes possible massive data transmission, such as that needed to deliver video on demand over the Internet. Many telecommunications companies offer ‘fibre optic broadband’ deals. A key feature of these packages is the high speed—up to 100 megabytes per second (MBps)—at which data may be received and transmitted. A byte is a number of bits, each of which is a 1 or a 0. Information is sent over fibres as a sequence of ‘bits’, which are decoded by your computer or mobile phone into intelligible video, audio, or text messages. In optical communications, the bits are represented by the intensity of the light beam—typically low intensity is a 0 and higher intensity a 1. The more of these that arrive per second, the faster the communication rate. The MBps speed of the package specifies how rapidly we can transmit and receive information over that company’s link.

developmental and cognitive psychologists find further evidence that language acquisition is ‘usage-based’. In this view, language acquisition is possible because of children’s general cognitive capacities and the vast number of opportunities they have to make connections between the language they hear and what they experience in their environment. Sophisticated electronic recording devices have been used to track and count words and phrases children hear in their daily lives. Deb Roy documented his son’s acquisition of words, showing the frequency and the contexts for the occurrence of language. Most remarkable, perhaps, is the demonstration of the power of interaction between the child and the adults and how adults focus on the language the child has begun to use (Roy 2009).

As the 1970s drew to a close, and Commodore, Tandy, Altair, and Apple began to emerge from the sidelines, PARC director Bert Sutherland asked Larry Tesler to assess what some analysts were already predicting to be the coming era of “hobby and personal computers.” “I think that the era of the personal computer is here,” Tesler countered; “PARC has kept involved in the world of academic computing, but we have largely neglected the world of personal computing which we helped to found.”41 His warning went largely unheeded. Xerox Corporation’s parochial belief that computers need only talk to printers and filing cabinets and not to each other meant that the “office of the future” remained an unfulfilled promise, and in the years between 1978 and 1982 PARC experienced a dispersal of core talent that rivals the flight of Greek scholars during the declining years of Byzantium: Charles Simonyi brought the Alto’s Bravo text editing program to Redmond, Washington, where it was rebooted as Microsoft Word; Robert Metcalf used the Ethernet protocol he had invented at PARC to found the networking giant, 3Com; John Warnock and Charles Geschke, tiring of an unresponsive bureaucracy, took their InterPress page description language and founded Adobe Systems; Tesler himself brought the icon-based, object-oriented Smalltalk programming language with him when he joined the Lisa engineering team at Apple, and Tim Mott, his codeveloper of the Gypsy desktop interface, became one of the founders of Electronic Arts—five startups that would ultimately pay off the mortgages and student loans of many hundreds of industrial, graphic, and interaction designers, and provide the tools of the trade for untold thousands of others.

That kind of aura of ambivalence is carried over into Devil May Cry for, after all, Dante in the electronic game is still half-devil, and something brooding and smoldering inside him may yet emerge in future editions of the game. Games technology being what it is, players may in future be able to choose how good or how evil Dante will be. He will never lose his evil side completely. He even has a twin brother who seems destined to convert from evil to good and back again forever. Dante survives in his world of evil because he understands it. He understands it because it is part of him. It is part of his genetic drive. But he makes decisions in his life — rather, the players of the game can decide for him — as to what drives him most, a moral vision or a base, devilish autarky. The way he goes around ruthlessly slaying hordes of his half-cousins, I’d say the equation that makes up Dante is a set of sliding numbers and hypothetical values. For Dante, evil and good are an algebra. They are not absolutes. So it is not as simple as saying ‘there is good in everybody’, but is more to do with complex investigations and calculations as to how best to intersect.

MOSFETs can be constructed as either NMOS or PMOS types, based on the arrangement of doped silicon used. Silicon doped with boron is called P-type (positive) because it lacks electrons, whereas silicon doped with phosphorus is called N-type (negative) because it has an excess of free electrons.

for several years starting in 2004, Bezos visited iRobot’s offices, participated in strategy sessions held at places like the Massachusetts Institute of Technology , and became a mentor to iRobot chief executive Colin Angle, who cofounded the company in 1990. “He recognized early on that robots were a very disruptive game-changer,’’ Angle says of Bezos. “His curiosity about our space led to a very cool period of time where I could count upon him for a unique perspective.’’ Bezos is no longer actively advising the company, but his impact on the local tech scene has only grown larger. In 2008, Bezos’ investment firm provided initial funding for Rethink Robotics, a Boston company that makes simple-to-program manufacturing robots. Four years later, Amazon paid $775 million for North Reading-based Kiva, which makes robots that transport merchandise in warehouses. Also in 2012, Amazon opened a research and software development outpost in Cambridge that has done work on consumer electronics products like the Echo, a Wi-Fi-connected speaker that responds to voice commands. Rodney Brooks, an iRobot cofounder who is now chief technology officer of Rethink, says he met Bezos at the annual TED Conference. Bezos was aware of work that Brooks, a professor emeritus at MIT, had done on robot navigation and control strategies. Helen Greiner, the third cofounder of iRobot, says she met Bezos at a different technology conference, in 2004. Shortly after that, she recruited him as an adviser to iRobot. Bezos also made an investment in the company, which was privately held at the time. “He gave me a number of memorable insights,’’ Angle says. “He said, ‘Just because you won a bet doesn’t mean it was a good bet.’ Roomba might have been lucky. He was challenging us to think hard about where we were going and how to leverage our success.’’ On visits to iRobot, Greiner recalls, “he’d shake everyone’s hand and learn their names. He got them engaged.’’ She says one of the key pieces of advice Bezos supplied was about the value of open APIs — the application programming interfaces that allow other software developers to write software that talks to a product like the Roomba, expanding its functionality. The advice was followed. (Amazon also offers a range of APIs that help developers build things for its products.) By spending time with iRobot, Bezos gave employees a sense they were on the right track. “We were all believers that robotics would be huge,’’ says former iRobot exec Tom Ryden. “But when someone like that comes along and pays attention, it’s a big deal.’’ Angle says that Bezos was an adviser “in a very formative, important moment in our history,’’ and while they discussed “ideas about what practical robots could do, and what they could be,’’ Angle doesn’t want to speculate about what, exactly, Bezos gleaned from the affiliation. But Greiner says she believes “there was learning on both sides. We already had a successful consumer product with Roomba, and he had not yet launched the Kindle. He was learning from us about successful consumer products and robotics.’’ (Unfortunately, Bezos and Amazon’s public relations department would not comment.) The relationship trailed off around 2007 as Bezos got busier — right around when Amazon launched the Kindle, Greiner says. Since then, Bezos and Amazon have stayed mum about most of their activity in the state. His Bezos Expeditions investment team is still an investor in Rethink, which earlier this month announced its second product, a $29,000, one-armed robot called Sawyer that can do precise tasks, such as testing circuit boards. The warehouse-focused Kiva Systems group has been on a hiring tear, and now employs more than 500 people, according to LinkedIn. In December, Amazon said that it had 15,000 of the squat orange Kiva robots moving around racks of merchandise in 10 of its 50 distribution centers. Greiner left iRo

Marc Goodman is a cyber crime specialist with an impressive résumé. He has worked with the Los Angeles Police Department, Interpol, NATO, and the State Department. He is the chief cyber criminologist at the Cybercrime Research Institute, founder of the Future Crime Institute, and now head of the policy, law, and ethics track at SU. When breaking down this threat, Goodman sees four main categories of concern. The first issue is personal. “In many nations,” he says, “humanity is fully dependent on the Internet. Attacks against banks could destroy all records. Someone’s life savings could vanish in an instant. Hacking into hospitals could cost hundreds of lives if blood types were changed. And there are already 60,000 implantable medical devices connected to the Internet. As the integration of biology and information technology proceeds, pacemakers, cochlear implants, diabetic pumps, and so on, will all become the target of cyber attacks.” Equally alarming are threats against physical infrastructures that are now hooked up to the net and vulnerable to hackers (as was recently demonstrated with Iran’s Stuxnet incident), among them bridges, tunnels, air traffic control, and energy pipelines. We are heavily dependent on these systems, but Goodman feels that the technology being employed to manage them is no longer up to date, and the entire network is riddled with security threats. Robots are the next issue. In the not-too-distant future, these machines will be both commonplace and connected to the Internet. They will have superior strength and speed and may even be armed (as is the case with today’s military robots). But their Internet connection makes them vulnerable to attack, and very few security procedures have been implemented to prevent such incidents. Goodman’s last area of concern is that technology is constantly coming between us and reality. “We believe what the computer tells us,” says Goodman. “We read our email through computer screens; we speak to friends and family on Facebook; doctors administer medicines based upon what a computer tells them the medical lab results are; traffic tickets are issued based upon what cameras tell us a license plate says; we pay for items at stores based upon a total provided by a computer; we elect governments as a result of electronic voting systems. But the problem with all this intermediated life is that it can be spoofed. It’s really easy to falsify what is seen on our computer screens. The more we disconnect from the physical and drive toward the digital, the more we lose the ability to tell the real from the fake. Ultimately, bad actors (whether criminals, terrorists, or rogue governments) will have the ability to exploit this trust.

Furthermore, neurons are extremely slow; electronic circuits are at least a million times faster. Once a computer achieves a human level of ability in understanding abstract concepts, recognizing patterns, and other attributes of human intelligence, it will be able to apply this ability to a knowledge base of all human-acquired—and machine-acquired—knowledge.

The health benefits from regular activity are widely acknowledged and can be achieved by any adult willing to complete the weekly target of just 150 minutes of moderate intensity physical activity. This is the equivalent of just under 22 minutes per day so we would hardly be surprised if most able-bodied adults achieved these targets. Yet, survey data in the United States suggests that only 49 per cent of adults achieve these minimum recommendations, although some states fare better. For example, 60 per cent of Alaskans meet the minimum recommendations compared to only 39 per cent of Louisianans. Adults in the United Kingdom appear to struggle even more, with only 35 per cent of men and women achieving the same 150 minute weekly target. To make matters worse, these percentages are all based on official government statistics which were obtained by asking random samples of people to estimate how much activity they usually do. Using these types of self-report questionnaires introduces considerable bias, especially when the respondents are aware that they don’t do as much exercise as they believe they should. A better way to check how much exercise adults really do is to use electronic sensors worn on the body to record the number of minutes spent performing physical activity of moderate intensity or above. Using this more accurate measurement technique, only 6 per cent of men and 4 per cent of women in the United Kingdom actually achieved the minimum weekly amounts of recommended physical activity. Similar results have been revealed in other Western countries, including the United States. If most adults believe that regular exercise is important, then the low participation statistics suggest that it must be difficult to achieve in practice.

Evolution & Electronics (The Sonnet) I know electronic circuitry like the back of my hand, Yet it's the human mind that fascinates me most immensely. Fascination in electronics lies in new design possibility, Whereas the mind is the breeding ground of all possibility. Our engineering is puny compared to that of Mother Nature, Each day a new mystery unfolds in the vast organic kingdom. Our puny electronics work based on cold 'n rigid computation, Evolution of life in nature is predicated on plastic mutation. That's why we must never disregard nature blinded by arrogance, We may have conquered nature's mercy but we're still subordinate. The moment a lifeform starts to vilify the womb whence it came, With a single blow creator nature can flatten all our obstinance. Foster humility and wisdom, before going nuts about technology. Don't end up yet another fancy stain upon the honor of humanity.

But if IOTA lost the confidence of some of the most respected cryptographers in the blockchain community, it continued to generate enthusiasm among a variety of big-name enterprises. That’s perhaps because, quite apart from how badly or otherwise it developed and managed its cryptography, the IOTA team’s economic model is enticing. If its cryptographic flaws can be fixed, the tangle idea could in theory be far less taxing and expensive in terms of computing power than Bitcoin and Ethereum’s methods, which require every computer in their massive networks of validators to process and confirm the entire list of new transactions in each new block. German engineering and electronics giant Bosch has been running a range of experiments with IOTA, including one involving payments between self-driving trucks arranged in an energy-saving linear “platoon.” The idea is that the trucks at the back that are enjoying the benefits of the slipstream would pay IOTA tokens to those at the front to compensate them for bearing the bulk of energy costs in creating that slipstream. Meanwhile, IOTA and Bosch are both part of a consortium called the Trusted IoT Alliance that’s committed to building and securing a blockchain infrastructure for the industry. Other members include Foxconn, Cisco, BNY Mellon, and a slew of blockchain-based startups, such as supply-chain provider Skuchain and Ethereum research lab ConsenSys.

It is well known that stone can think, because the whole of electronics is based on that fact, but in some universes men spend ages looking for other intelligences in the sky without once looking under their feet.

NEW BIBLIOGRAPHIC FRAMEWORK To sustain broader partnerships—and to be seen in the non-library specific realm of the Internet—metadata in future library systems will undoubtedly take on new and varied forms. It is essential that future library metadata be understood and open to general formats and technology standards that are used universally. Libraries should still define what data is gathered and what is essential for resource use, keeping in mind the specific needs of information access and discovery. However, the means of storage and structure for this metadata must not be proprietary to library systems. Use of the MARC standard format has locked down library bibliographic information. The format was useful in stand-alone systems for retrieval of holdings in separate libraries, but future library systems will employ non-library-specific formats enabling the discovery of library information by any other system desiring to access the information. We can expect library systems to ingest non-MARC formats such as Dublin Core; likewise, we can expect library discovery interfaces to expose metadata in formats such as Microdata and other Semantic Web formats that can be indexed by search engines. Adoption of open cloud-based systems will allow library data and metadata to be accessible to non-library entities without special arrangements. Libraries spent decades creating and storing information that was only accessible, for the most part, to others within the same profession. Libraries have begun to make partnerships with other non-library entities to share metadata in formats that can be useful to those entities. OCLC has worked on partnerships with Google for programs such as Google Books, where provided library metadata can direct users back to libraries. ONIX for Books, the international standard for electronic distribution of publisher bibliographic data, has opened the exchange of metadata between publishers and libraries for the enhancements of records on both sides of the partnership. To have a presence in the web of information available on the Internet is the only means by which any data organization will survive in the future. Information access is increasingly done online, whether via computer, tablet, or mobile device. If library metadata does not exist where users are—on the Internet—then libraries do not exist to those users. Exchanging metadata with non-library entities on the Internet will allow libraries to be seen and used. In addition to adopting open systems, libraries will be able to collectively work on implementation of a planned new bibliographic framework when using library platforms. This new framework will be based on standards relevant to the web of linked data rather than standards proprietary to libraries

Unfortunately, when people use outdated methods to train dogs, perhaps because they don’t realize science recommends reward-based methods, they are using methods that rely on fear and pain. It’s just a tap, a correction, or information, they say. But prong collars, choke collars, leash corrections, electronic collars, and alpha rolls (rolling the dog on their back and holding them there until they stop moving) work because they are painful or fearful for the dog. These are aversive methods.

Over the last decade, we’ve experienced astonishing advances in communication and in access to information. Our lives have been hugely enriched by consumer electronics and web-based services that we would willingly pay far more for, and which surpass any expectations we had a decade ago. And the impact on the developing world has been dramatic: there are more mobile phones than toilets in India. Mobile

According to recent information provided to me by a highly reliable informant within a special operations group of the Department of the Navy [D.O.N.], two of the most widely used devices will be R.H.I.C. [Radio Hypnotic Intra-Cerebral Control] and E.D.O.M. [Electronic Dissolution of Memory]. The first of the two, Radio Hypnotic Intra-Cerebral Control, calls for the implantation of a very small, electronic, micro-radio receiver. It acts as a Stimulator which will stimulate a muscle or electronic brain response. This, in turn, can set off a 'Hypno-programmed' cue in the victim or subject, which would elicit a pre-conditioned

It is well known that stone can think, because the whole of electronics is based on that fact,

Richard Feynman, the great physicist, once said, “Imagine how much harder physics would be if electrons had feelings.” Well, investors have feelings. That’s why it’s hard to predict what they’ll do next based solely on what they did in the past.

Adding a highly targeted risk-based primary care23 benefits package becomes possible on top of even a thinly financed Universal Health Insurance and Employee State Insurance Schemes, if there are strong electronic health records and analytics deployed on top of them.

Whatever profits are left over are added to your personal income. Your accountant should ask you to pay estimated tax quarterly, based on last year’s profits. Your accountant will send you invoices with an amount for state and federal tax, which you pay electronically.

The day he is found out, O’Brien is herded by a dumbfounded crowd to the Shinto torii gate that marks the entrance to our campus. Avery is in tears, something none of us could have imagined. Before passing through the torii, O’Brien stops and addresses all of us: “Hey, I’m sorry for fucking you over. You’re my friends and my family because I don’t have any other friends or family. If you consider what I’ve gained by enabling so many proxies to function undetected, and thereby so many eluders to successfully elude—that is, nothing—versus what I’ve lost—everything—you’ll understand that only one thing could justify that appalling cost-benefit analysis. That thing is belief. I believe in what the eluders are doing, I believe in their right to do it, and the force of my belief more than compensates for the fact that acting on it will cost me everyone and everything I love. I have no regrets, even now,” O’Brien concludes, “much as I will miss you.” And then he walks out through the torii gate. The chaos that follows this revelation takes many forms and strains. An inquiry begins into whether the man who made that speech was really O’Brien, or whether the real O’Brien was kidnapped by eluders and animated holographically beside the torii gate using gray grabs from the collective to capture his workplace tones and gestures and speech. Another hypothesis has it that the eluders somehow breached O’Brien’s skull with a weevil—a burrowing electronic device that can interfere with thought—and were controlling his behavior and speech from afar. It is difficult to disprove either of these theses, and I owe it to trusted typicals who persuade me of their unlikelihood on two bases: 1) Such actions would entail the use of the very invasive technologies the eluders abhor and are trying to elude. 2) Interventions like these are beyond the eluders’ technological range; they simply could not pull them off.

I was accidentally at the forefront of a movement that was taking shape—what Li Jin, former partner at Andreessen Horowitz and founder of Atelier Ventures, calls the “passion economy”—“a world in which people are able to do what they love for a living and to have a more fulfilling and purposeful life.” At the time I created Gumroad, online creator platforms were still new, but the rise of no-code solutions has made building and charging for podcasts, video and audio content, online courses, virtual teaching, and virtual coaching almost seamless, so that starting a business around something you love has never been more attainable. You probably have something you enjoy, something that on its face has nothing to do with your “real” job. Maybe it’s marathon running or ceramics or electronic music or another passion that you pursue in your free time. Whatever it is, building a minimalist business around the people you love to spend time with and the ways you love to spend your time depends on being part of a community. You may already be thinking about how to solve the problems of a current community you participate in, or you may simply be planning to join a community based on something you love. Either way, finding your people is really important at the beginning. Not just for the sake of your business but also for the sake of your own well-being. Taking writing and painting classes in Provo reminded me that my community wasn’t just the people in front of me; it was also a wider group who wanted, like me, to “turn their passions into livelihoods.” The real communities I was a part of didn’t care about growth at all costs; that kind of accelerated expansion would have cracked them into a million little pieces. Instead, their priority, like mine, was connecting to each other in ways that allowed for the space, time, and freedom to explore their interests and to eventually transform their passions into businesses in meaningful ways.

Some 80 percent of the world’s high-quality quartz that ultimately makes up electronic-grade silicon comes from a single mine in North Freakin’ Carolina. Want to remain modern? You pretty much must get along well with the Americans. They will soon have something they have never had: resource control over the base material of the Digital Age.

The end game A systemic breakdown should be expected soon. Venezuela, Argentina and Canada are already in hyperinflation; The Canadian Dollar’s strength is based on their oil reserves that are as low a 2 - 3 dollar per barrel for oil from the oil sands. - The can has been kicked down the road for too long and much farther than in 2008. There has already been an electronic bank run where 500 billion was withdrawn within an hour. The Fed tried to stop it, but could not inject more than 120 billion. – This is an urgent call for you to convert your currency into gold and silver! Follow the interview with Rob Kirby here: 404

Bitcoin is not a smart network. Bitcoin is a dumb network. It really is a dumb network. It is a dumb transaction-processing network. It’s a dumb network for verifying a very simple scripting language. It doesn’t offer a complete range of financial services and products. It doesn’t have automation and incredible features built in. Bitcoin is simply a dumb network, and that is one of its strongest and most important features. When you design networks, when you architect network systems, one of the most fundamental choices is this: do you make a dumb network that supports smart devices, or do you make a smart network that supports dumb devices? 5.1.1. The Smart Network - Phones The phone network was a very smart network. The telephone at the end of that network was a very dumb device. If you had a pulse-dialing phone, that thing had maybe four electronic components inside it. It was basically a switch on a wire with a speaker attached to it. You could dial by flicking the hook up and down fast enough. 
The phone was a dumb device; it had no intelligence whatsoever. Everything the phone network did was in the network. Caller ID was a network feature. Call waiting was a network feature. And if you wanted to make the experience better, you had to upgrade the network but you didn’t need to upgrade the device. That was a critical design decision because, at that time, the belief was that smart networks were better because you could deliver these incredible services just by upgrading the network for everyone. There is one small disadvantage with smart networks. They have to be upgraded from the center out. And that means innovation occurs at the center, by one player, and requires permission. As a result of smart network design, innovation only happens when a feature is needed by all of the subscribers of the network, when it is compelling enough to disrupt the function of the entire network to upgrade it. 5.1.2. The Dumb Network - Internet The internet is a dumb network. It’s dumb as rocks. All it can do is move data from point A to point B. It doesn’t know what that data is. It can’t tell the difference between a Skype call and a web page. It doesn’t know if the device on the end is a desktop computer or a mobile phone, a vacuum cleaner, a refrigerator, or a car. It doesn’t know if that device is powerful or not. If it can do multimedia or not. It doesn’t know, it doesn’t care. In order to run a new application or innovate on a dumb network, all you have to do is add innovation at the edge. Because a dumb network can support smart devices, you don’t need to change anything in the network. If you push intelligence to the edge of the network, an application that only has five users can be implemented so long as those five users upgrade their devices to implement that application. The dumb network will transport their data because it doesn’t know the difference and it doesn’t care. 5.1.3. Bitcoin’s Dumb Network Bitcoin is a dumb network supporting really smart devices, and that is an incredibly powerful concept because bitcoin pushes all of the intelligence to the edge. It doesn’t care if the bitcoin address is the address of a multimillionaire, the address of a central bank, the address of a smart contract, the address of a device, or the address of a human. It doesn’t know. It doesn’t care if the transaction is carrying lots of money or not much money at all. It doesn’t care if the address is in Kuala Lumpur or downtown New York. It doesn’t know, it doesn’t care. It moves money from one address to another based on a simple locking script. And that means that if you want to build a new application on top of bitcoin, you can upgrade the

In the absence of these solid-state components and devices, the world of the early 1970s was one of new high-yielding wheat and rice cultivars, of efficient gas turbines (stationary in electricity generation, and powering wide-body jetliners), of large container ships, of growing megacities, of telecommunication and weather satellites, and of antibiotics and vaccines. All too obviously, a high-energy, high-quality-of-life affluent civilization is not based on post-1971 electronics: the development and diffusion of electronics have been welcome and helpful and valuable, but most definitely not fundamental.

As I reflect upon some of the exceptional leaders I’ve studied in my research, I’m struck by how Covey’s principles are manifested in many of their stories. Let me focus on one of my favorite cases, Bill Gates. It’s become fashionable in recent years to attribute the outsize success of someone like Bill Gates to luck, to being in the right place at the right time. But if you think about it, this argument falls apart. When Popular Electronics put the Altair computer on its cover, announcing the advent of the first-ever personal computer, Bill Gates teamed up with Paul Allen to launch a software company and write the BASIC programming language for the Altair. Yes, Gates was at just the right moment with programming skills, but so were other people—students in computer science and electrical engineering at schools like Cal Tech, MIT, and Stanford; seasoned engineers at technology companies like IBM, Xerox, and HP; and scientists in government research laboratories. Thousands of people could’ve done what Bill Gates did at that moment, but they didn’t. Gates acted upon the moment. He dropped out of Harvard, moved to Albuquerque (where the Altair was based), and wrote computer code day and night. It was not the luck of being at the right moment in history that separated Bill Gates, but his proactive response to being at the right moment (Habit 1: Be Proactive).

edged weapons, incendiary weapons, kinetic weapons, melee weapons, energy weapons, auditory, thermal, light, olfactory, irritant, biological weapons, explosive, electronic, magnetic, vibratory, chemical weapons, nano-weapons, nuclear, area denial, siege weapons, thrown, hand carried, shoulder carried, surgically implanted, crew served, vehicle mounted, land/sea/air/space based – then I started thinking of how much damage was to be inflicted and at what ranges.

-Do you know the difference between intellectual telepathy and emotional reincarnation? -Yes, telepathy is reading thoughts, and reading feelings and sensations. -Did it ever occur to you that someone is telepathy to you against your will? -Some people have this talent, or so they claim. Baibars: It is not a talent, but a knowledge. Physiognomy was never a talent, but rather an experience. People who travel a lot, social people, who have an appetite for information, and details, are the owners of physiognomy, who acquire it as a result of their experiences, all of which are stored in their subconscious mind, and the latter gives them results. In the form of emphatic feelings, we call it physiognomy, or talent. And basically, it’s based on data: we do not hear or know about anyone who has insight, who has earned this talent while sitting at home, but who is a frequent traveler. The more data you have, the more precise you are able to telepath with your target, and now telepathy is happening at every moment. With the technical revolution and the development and diversity of the means of all information, in many ways, social networking sites are not the first and will not be the last. With the development of computers, and their ability to process huge amounts of data, in a relatively acceptable time, and with the development of artificial intelligence software, and self-learning software, our privacy has become violated by many parties around the world, not only the intelligence services, but even studies and research centers, and decision-making institutions. They all collect an awful lot of data every day, and everyone in this world has a share of it. These software and computers will stand powerless if you strip them from their database, which must be constantly updated. Telepathy became available, easy, and possible, as never before. Physiognomy became electronic in the literal sense of the word. However, our feelings, and our emotions, remain our impenetrable fortress. If you decide to make your entire electronic life a made-up story, contrary to the reality of what you feel, such as expressing joy when you feel sad, this software will expect you from you other than what you really feel, it will fail. The more you are cunning, and deceitful in reincarnation, the more helpless it stands in knowing the truth of your feelings that no one else knows. All that is required of you is to express the opposite of what you feel. The randomness of humans, their spontaneity, and those they think are their free decisions, have been programmed by a package of factors surrounding them, which were imposed on them, including society, environment, conditions, and education. The challenge is to act neither spontaneously nor randomly, and here lies the meaning of the real free will. Can you imagine that? Your spontaneity is pre-programmed, and your random decisions that you think are absolutely free, are in fact not free, and until you are able to imagine this and believe in it, you will remain a slave to the system. To be free you must first overcome it, you must rebel against what you think is your free self. He was silent for a moment, took a breath from his cigarette, and what he was about to say now almost made him inevitable madness, a few years ago… -But, did it occur to you, Robert, that there is someone who can know the truth about your feelings, no matter how hard you try to fake them! And even knows it before you even feel it! A long moment of silence…

TAS Electronics is a prominent company based in Toledo, Ohio, specializing in cutting-edge automotive and motorcycle audio systems, as well as high-quality window tinting services. With over two decades of experience in the industry, TAS Electronics has established itself as a premier provider of top-of-the-line audio solutions and expert installations.

based

It is well known that stone can think, because the whole of electronics is based on that fact, but in some universes men spend ages

Thirty-Nine Ways to Lower Your Cortisol 1 Meditate. 2 Do yoga. 3 Stretch. 4 Practice tai chi. 5 Take a Pilates class. 6 Go for a labyrinth walk. 7 Get a massage. 8 Garden (lightly). 9 Dance to soothing, positive music. 10 Take up a hobby that is quiet and rewarding. 11 Color for pleasure. 12 Spend five minutes focusing on your breathing. 13 Follow a consistent sleep schedule. 14 Listen to relaxing music. 15 Spend time laughing and having fun with someone. (No food or drink involved.) 16 Interact with a pet. (It also lowers their cortisol level.) 17 Learn to recognize stressful thinking and begin to: Train yourself to be aware of your thoughts, breathing, heart rate, and other signs of tension to recognize stress when it begins. Focus on being aware of your mental and physical states, so that you can become an objective observer of your stressful thoughts instead of a victim of them. Recognize stressful thoughts so that you can formulate a conscious and deliberate reaction to them. A study of forty-three women in a mindfulness-based program showed that the ability to describe and articulate stress was linked to a lower cortisol response.28 18 Develop faith and participate in prayer. 19 Perform acts of kindness. 20 Forgive someone. Even (or especially?) yourself. 21 Practice mindfulness, especially when you eat. 22 Drink black and green tea. 23 Eat probiotic and prebiotic foods. Probiotics are friendly, symbiotic bacteria in foods such as yogurt, sauerkraut, and kimchi. Prebiotics, such as soluble fiber, provide food for these bacteria. (Be sure they are sugar-free!) 24 Take fish or krill oil. 25 Make a gratitude list. 26 Take magnesium. 27 Try ashwagandha, an Asian herbal supplement used in traditional medicine to treat anxiety and help people adapt to stress. 28 Get bright sunlight or exposure to a lightbox within an hour of waking up (great for fighting seasonal affective disorder as well). 29 Avoid blue light at night by wearing orange or amber glasses if using electronics after dark. (Some sunglasses work.) Use lamps with orange bulbs (such as salt lamps) in each room, instead of turning on bright overhead lights, after dark. 30 Maintain healthy relationships. 31 Let go of guilt. 32 Drink water! Stay hydrated! Dehydration increases cortisol. 33 Try emotional freedom technique, a tapping strategy meant to reduce stress and activate the parasympathetic nervous system (our rest-and-digest system). 34 Have an acupuncture treatment. 35 Go forest bathing (shinrin-yoku): visit a forest and breathe its air. 36 Listen to binaural beats. 37 Use a grounding mat, or go out into the garden barefoot. 38 Sit in a rocking chair; the soothing motion is similar to the movement in utero. 39 To make your cortisol fluctuate (which is what you want it to do), end your shower or bath with a minute (or three) under cold water.

What is needed is an electronic payment system based on cryptographic proof instead of trust,” wrote Satoshi.

Classical computers rely on silicon-based chips to store bits, while quantum computers use real subatomic particles such as electrons and photons.

In 1999, Chad Daybell, now thirty-one, quit his sexton job to become regional sales manager for Access Computer Products. The Colorado-based company, which recycled electronic products, was looking to expand and needed someone to run their new Provo office. For Chad it would mean a big increase in salary from this growing company.

MANY YEARS AGO, I had joined the local news desk of a prominent newspaper in Bengaluru, the sleepy south Indian town that became the country’s Silicon Valley. After trying my hand at crime reporting and general business journalism, I developed an interest in tracking technology. Among other things in the mid noughties, I had half a page in the paper to feature new gadgets every week. Nokia, Blackberry, Samsung and a few other companies were regulars on the page. While I was enjoying my work, my salary needed a boost. (The media industry’s decline was just about beginning, and salaries were as poor then as they are today.) Getting out of the rather difficult circumstances that I found myself in, I moved on to the Economic Times to report on technology. The business daily was India’s largest pink paper by circulation, and I worked with some of the best journalists of the time. My job was mainly to write about technology services companies. Soon I got bored with tracking quarterly results and rehearsed statements. This was around 2012, and India’s start-up ecosystem was in its infancy. I quit the paper to join a start-up blog. I didn’t ask for a raise. I was just happy to be able to write about start-ups and their founders. It was something new, and their excitement was infectious. In those days, ‘start-up’ was not a mainstream beat in India. Only niche blogs wrote about them. On the personal front, there were months when I was flat broke. One evening I sold my old Nokia 5800 for ₹300 at a second-hand electronics shop to buy a packet of biryani. That is still the best biryani I’ve ever had. The two years at the start-up blog were also my best two years ever. As start-ups became the buzzword, I went back to the pink paper to write about them. I was able to upgrade my life a little. I moved into a middle-class apartment with my family. I got some furniture and so on. After selling the Nokia phone, I used a feature phone for a few days. But now I had to upgrade my phone. After much research, I zeroed in on a Micromax handset. Micromax, a Gurgaon-based company that began making handsets in 2008, had some smartphones that were affordable on a young journalist’s salary. It was also a leading brand and had some interesting features such as dual SIM and a great touchscreen display. Going from a phone that ran on Symbian (Nokia’s proprietary operating system that failed) to an Android-based phone was like suddenly being

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

During the trip to the NATO base, Agnew noticed something that made him wary. “I observed four F84F aircraft . . . sitting on the end of a runway, each was carrying two MK 7 [nuclear] gravity bombs,” he wrote in a document declassified in 2023. What this meant was that “custody of the MK 7s was under the watchful eye of one very young U.S. Army private armed with a M1 rifle with 8 rounds of ammunition.” Agnew told his colleagues: “The only safeguard against unauthorized use of an atomic bomb was this single G.I. surrounded by a large number of foreign troops on foreign territory with thousands of Soviet troops just miles away.” Back in the United States, Agnew contacted a project engineer at Sandia Laboratories named Don Cotter and asked “if we could insert an electronic ‘lock’ in the [bomb’s] firing circuit that could prevent just any passerby from arming the MK 7.” Cotter got to work. He put together a demonstration of a device, a lock and coded switch, that functioned as follows: “[a] 3-digit code would be entered, a switch was thrown, the green light extinguished, and the red light illuminated indicating the arming circuit was live.

For the Radical Subject, it is not only virtuality and the electronic networks which are the prison, but reality itself has already become so: a concentration camp, an agony, and a torture. The slumber of history is something contrary to the condition where the Radical Subject could exist, complete itself, and become. The creation of subjectivity, being the secondary formation of temporality, is an obstacle for its realisation. If we accept the hypothesis of the Radical Subject, we immediately confront an instance that explains who has made the decision in favor of globalisation, the suicide of humanity, and the end of history; who has conceived this plan and made it reality. It can only therefore only be the drastic gesture of the Radical Subject, looking for liberation from time through the construction of non-temporal (impossible) reality. The Radical Subject is incompatible with all kinds of time. It vehemently demands anti-time, based on the exalted fire of eternity transfigured in the radical light.

Retroviruses as Carcinogens and Pathogens: Expectations and Reality.18 Duesberg’s article was a tour de force from the reigning father of retrovirology, calling for sobriety in the booming field that he saw spinning out of control. A young generation of virologists, armed with electron microscopes and other novel instruments and seeking wealth and career advancement, were pinning retroviruses as the culprits for every malignancy, with meager functional or empirical proof, or rigorous evidence-based science to explain the mechanism by which they caused disease.

What to Do Tonight Spend private time with your child, ideally without electronics. Take turns with each child if you have more than one, so that the ratio is one-on-one. It is remarkably healing for kids and will help you to enjoy them. It also makes them feel like they are your number one priority. If you’re highly anxious, do something about it. Treating anxiety is one of the best things you can do for yourself and your family. Consider participating in cognitive behavioral therapy: you can learn very effective strategies for identifying and “talking back to” the distorted and unproductive thoughts that contribute to high anxiety. Learn to meditate. Take a yoga class. Be very regular in your exercise routine. Spend time in nature. Get more sleep. Socialize more with friends if it helps you feel calm. Avoid making decisions for your child based on fear. If you find yourself thinking, “I’m afraid if I don’t do this now, then—” stop. Do what you feel is right now, not what you feel you have to because of what you’re afraid will happen if you don’t. If your child is struggling, schedule a short time every day for you to worry about his or her problems. Literally write it into your planner. This will let your brain know that it is safe not to worry all day long. Remember who’s responsible for what. It cannot be your responsibility to see that everything goes well for your children at all times. If you are very worried about your teenager and have talked through the issues together many times, write your child a short letter summarizing your concerns and offering any help the child might need. Then promise that you will not bring the issue up again for a month. When you break your promise (because you will) apologize and recommit to it. Get out a piece of paper and draw a vertical line in the middle. In the left-hand column, write statements such as the following: “It’s okay for Jeremy to have a learning disability,” “It’s okay that Sarah doesn’t have any friends right now,” “It’s okay for Ben to be depressed right now.” In the right-hand column, write down the automatic thoughts that come to your mind in response (likely rebuttal) to these statements. Then question these automatic thoughts. Ask questions such as, “Can I be absolutely sure that this thought is true?” “Who would I be if I didn’t believe this?” This kind of self-questioning exercise, developed by author and speaker Byron Katie and others, can serve as a useful tool for discovering the thoughts that trap you into negative judgments.18 Create a stress-reduction plan for yourself. Can you get more exercise? More sleep? What calms you down and how can you do more of it? Don’t make yourself available to your kids at the expense of your own well-being. Wall off some “me” time. Model self-acceptance and tell your kids what you’re doing.

Towards the end of the year, he had heard whispers about a group of Palestinians who had set up base in an old villa in one of the quieter suburbs, where they were said to have an arsenal of explosives and sophisticated electronic equipment in the basement. These were the big boys: well-trained professional freedom fighters, or terrorists, depending on your particular ‘bag’. In the circles Dark was now hovering around, the Palestinians were most people’s bag.

AlphaPoint Completes Blockchain Trial Together with Scotiabank AlphaPoint, a fintech company, devoted to blockchain technological innovation, has accomplished a successful proof technology together with Scotiabank, a major international bank based in Barcelone, Canada. From the trial, Scotiabank sought to learn and examine how the AlphaPoint Distributed Journal Platform could be leveraged inside across a selection of use situations. When questioned if AlphaPoint and Scotiabank intended to further build this job, Igor Telyatnikov, president and also COO regarding AlphaPoint, advised Bitcoin Journal that he was not able to comment especially on the subsequent steps in the particular Scotiabank-AlphaPoint effort. He performed, however, suggest that AlphaPoint is about to reveal several additional media shortly. “We have a couple of other significant announcements that is to be announced inside the coming calendar month, including a generation launch using a systemically crucial financial institution, ” said Telyatnikov. “2017 will be shaping around be an unbelievable year for that distributed journal technology market as a whole and then for AlphaPoint also. ” Within the multi-month venture, trade studies were published upon deployment of the AlphaPoint Distributed Journal Platform, which usually ran concurrently on Microsoft’s Azure impair and AlphaPoint hardware. Inside real-time, typically the blockchain community converted FIXML messages to be able to smart deals and produced an immutable “single truth” across the complete network. The particular Financial Details eXchange (FIX) is a sector protocol used for communicating stock options information inside specific digital messages. Including information about getting rates, market info and buy and sell orders. Using trillions involving dollars bought and sold annually around the Nasdaq only, financial providers entities are usually investing seriously in maximizing electronic buying and selling to increase their particular speed monetary markets and decrease costs. Blockchain technology may help them help save $8-12 million per annum, which includes savings up to 70 percent throughout reporting, 50 % in post-trade and 50 % in consent, according to a report by Accenture and McLagan.

Good neighbors: The successful export-driven development of Taiwan, South Korea, and especially Japan gave Chinese policymakers an easy-to-follow template for industrial development. •  Hong Kong: When China started its reforms, Hong Kong was already a world-class port and trading hub with modern legal and financial systems. This gave Chinese manufacturers quick access not only to global trade routes but also to much of the “soft” infrastructure needed for a modern economy.5 •  Timing: China was fortunate to open up to trade just at the moment when the shipping container, invented in the 1950s, was beginning to make possible the creation of global production chains, spanning multiple countries, through steep reductions in long-distance shipping costs. •  A “killer app”: By the late 1980s, culturally similar Taiwan had established a sophisticated electronics industry, which moved en masse to China in the late 1990s, creating a world-class electronics manufacturing base almost overnight.

In this chapter we will look at the entire edifice of QFT. We will see that it is based on three simple principles. We will also list some of its achievements, including some new insights and understandings not previously mentioned. THE FOUNDATION QFT is an axiomatic theory that rests on a few basic assumptions. Everything you have learned so far, from the force of gravity to the spectrum of hydrogen, follows almost inevitably from these three basic principles. (To my knowledge, Julian Schwinger is the only person who has presented QFT in this axiomatic way, at least in the amazing courses he taught at Harvard University in the 1950's.) 1. The field principle. The first pillar is the assumption that nature is made of fields. These fields are embedded in what physicists call flat or Euclidean three-dimensional space-the kind of space that you intuitively believe in. Each field consists of a set of physical properties at every point of space, with equations that describe how these particles or field intensities influence each other and change with time. In QFT there are no particles, no round balls, no sharp edges. You should remember, however, that the idea of fields that permeate space is not intuitive. It eluded Newton, who could not accept action-at-a-distance. It wasn't until 1845 that Faraday, inspired by patterns of iron filings, first conceived of fields. The use of colors is my attempt to make the field picture more palatable. 2. The quantum principle (discetization). The quantum principle is the second pillar, following from Planck's 1900 proposal that EM fields are made up of discrete pieces. In QFT, all physical properties are treated as having discrete values. Even field strengths, whose values are continues, are regarded as the limit of increasingly finer discrete values. The principle of discretization was discovered experimentally in 1922 by Otto Stern and Walther Gerlach. Their experiment (Fig. 7-1) showed that the angular momentum (or spin) of the electron in a given direction can have only two values: +1/2 or -1/2 (Fig. 7-1). The principle of discretization leads to another important difference between quantum and classical fields: the principle of superposition. Because the angular momentum along a certain axis can only have discrete values (Fig. 7-1), this means that atoms whose angular momentum has been determined along a different axis are in a superposition of states defined by the axis of the magnet. This same superposition principle applies to quantum fields: the field intensity at a point can be a superposition of values. And just as interaction of the atom with a magnet "selects" one of the values with corresponding probabilities, so "measurement" of field intensity at a point will select one of the possible values with corresponding probability (see "Field Collapse" in Chapter 8). It is discretization and superposition that lead to Hilbert space as the mathematical language of QFT. 3. The relativity principle. There is one more fundamental assumption-that the field equations must be the same for all uniformly-moving observers. This is known as the Principle of Relativity, famously enunciated by Einstein in 1905 (see Appendix A). Relativistic invariance is built into QFT as the third pillar. QFT is the only theory that combines the relativity and quantum principles.

Carlton Church review – Why Tokyo is populated? How Tokyo became the largest city? Apparently Tokyo Japan has been one of the largest global cities for hundreds of years. One of the primary reasons for its growth is the fact that it has been a political hotspot since they Edo period. Many of the feudal lords of Japan needed to be in Edo for a significant part of the year and this has led to a situation where increasing numbers of the population was attracted to the city. There were many people with some power base throughout Japan but it became increasingly clear that those who have the real power were the ones who were residing in Edo. Eventually Tokyo Japan emerged as both the cultural and the political center for the entire Japan and this only contributed to its rapid growth which made it increasingly popular for all people living in Japan. After World War II substantial rebuilding of the city was necessary and it was especially after the war that extraordinary growth was seen and because major industries came especially to Tokyo and Osaka, these were the cities where the most growth took place. The fact remains that there are fewer opportunities for people who are living far from the cities of Japan and this is why any increasing number of people come to the city. There are many reasons why Japan is acknowledged as the greatest city The Japanese railways is widely acknowledged to be the most sophisticated railway system in the world. There is more than 100 surface routes which is operated by Japan’s railways as well as 13 subway lines and over the years Japanese railway engineers has accomplished some amazing feats which is unequalled in any other part of the world. Most places in the city of Tokyo Japan can be reached by train and a relatively short walk. Very few global cities can make this same boast. Crossing the street especially outside Shibuya station which is one of the busiest crossings on the planet with literally thousands of people crossing at the same time. However, this street crossing symbolizes one of the trademarks of Tokyo Japan and its major tourism attractions. It lies not so much in old buildings but rather in the masses of people who come together for some type of cultural celebration. There is also the religious centers in Japan such as Carlton Church and others. Tokyo Japan has also been chosen as the city that will host the Olympics in 2020 and for many reasons this is considered to be the best possible venue. A technological Metropolitan No other country exports more critical technologies then Japan and therefore it should come as no surprise that the neighborhood electronics store look more like theme parks than electronic stores. At quickly becomes clear when one looks at such a spectacle that the Japanese people are completely infatuated with technology and they make no effort to hide that infatuation. People planning to visit Japan should heed the warnings from travel organizations and also the many complaints which is lodged by travelers who have become victims of fraud. It is important to do extensive research regarding the available options and to read every possible review which is available regarding travel agencies. A safe option will always be to visit the website of Carlton Church and to make use of their services when travelling to and from Japan.

Cloud-based, blockchain-based autonomous business entities running via smart contract could then electronically contract with compliance entities like governments to self-register in any jurisdictions in which they wanted to operate. Every business could be a general universal business first, and a jurisdictional business later when better decisions can be made about jurisdictions. The same could be true for individuals as general humans first, and citizens on demand later.

ADD A BUZZER TO YOUR GAME Congratulations: You’ve finished the last project in the book! Now, it’s up to you to decide what to make next. If you’re not sure where to start, why not add more circuits to your reaction game? The LED in the middle is where you want the light to stop, and I suggest adding a sound circuit to bring some excitement to hitting your target. To do this, you could use an active buzzer like the one in “Project #2: Intruder Alarm” on page 11, as shown in this partial circuit diagram. The darker part of this circuit shows new components you’d need in order to add a buzzer to the reaction game project. The lighter components are just a section of the original circuit diagram. Connect the positive leg of the middle LED through a 1 kΩ resistor to the base of an NPN transistor. Then connect the buzzer to the transistor’s collector. Connect the positive side of your battery to the other side of the buzzer, and connect the negative side of the battery to the transistor’s emitter. You should end up with a circuit that makes a little beep every time the light passes the middle LED. If you can stop the light on the middle LED, the buzzer should beep continuously to indicate that you’ve hit the main target. When you’ve customized the game to your liking, solder it onto a prototyping board. Maybe you’ll even want to place it in a nice box to hide the electronics and show only the buttons and LEDs.

TRY IT OUT: CHANGE THE LIGHT’S SPEED To change the speed and difficulty of the game, play around with different values for R1, R2, and C1 around the 555 timer. Smaller values will make the game go faster. Larger values will make the game go slower. Flip to “How to Set the Output Speed of the 555 Timer” on page 166 for the calculations to figure out specific resistor and capacitor values based on the frequency you want. Note that R1 should not be less than 1 kΩ, as lower values might damage the 555 timer. But what if you want to change the difficulty on the go? Just replace resistor R2 with a potentiometer. Then you can change that resistance value by rotating the potentiometer shaft, which changes the speed!

Take a moment and surf over to Panopticlick.com. This is a site built by the Electronic Frontier Foundation that will determine just how common or unique your browser configuration is compared to others, based on what’s running on your PC or mobile device’s operating system and the plug-ins you may have installed.

In contrast to Kuhn, Galison in his classic work Image and Logic, published in 1997, describes the history of particle physics as a history of tools rather than ideas. According to Image and Logic, the progress of science is tool-driven. The tools of particle physics are of two kinds, optical and electronic. The optical tools are devices such as cloud chambers, bubble chambers, and photographic emulsions, which display particle interactions visually by means of images. The images record the tracks of particles. An experienced experimenter can see at once from the image when a particle is doing something unexpected. Optical tools are more likely to lead to discoveries that are qualitatively new. On the other hand, electronic tools are better for answering quantitative questions. Electronic detectors such as the Geiger counters that measure radioactivity in the cellars of old houses are based on logic. They are programmed to ask simple questions each time they detect a particle, and to record whether the answers to the questions are yes or no. They can detect particle collisions as at rates of millions per second, sort them into yes's and no's, and count the number that answered yes and the number that answered no. The history of particle physics may be divided into two periods, the earlier period ending about 1980 when optical detectors and images were dominant, and the later period when electronic detectors and logic were dominant. Before the transition, science advanced by making qualitative discoveries of new particles and new relationships between particles. After the transition, with the zoo of known particles more or less complete, the science advanced by measuring their interactions with greater and greater precision. In both periods, before and after the transition, tools were the driving force of progress.

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_Vacuum tubes_ are known as _valves_ in England. This is based on the fact that they can be used to control the flow of electricity, similar in concept to the way in which their mechanical namesakes are used to control the flow of fluids.

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Observation: Thanks to technological advances, avid readers seem to be replacing DTBAD (Dead Tree Book Acquisition Disorder) with an alphabet soup of more more modern-day hoarding behaviors: EBAD (E-Book Acquistion Disorder), EGAD (Electronic Gadget Acquisition Disorder), and ABAD (Audiobook Acquisition Disorder). Of course, there's also MY(Ba)AD (Movie and YouTube (and Book adaptations) Acquisition Disorder: the hoarding or obsessive viewing of digital films and videos, some based on books). If any of these syndromes describes you, take heart: there's probably an app for that! - Lisa Tolliver 8/9/2013(E-Book Acquistion Disorder), EGAD (Electronic Gadget Acquisition Disorder), and ABAD (Audiobook Acquisition Disorder). Of course, there's also MY(Ba)AD (Movie and YouTube (and Book adaptations) Acquisition Disorder: the hoarding or obsessive viewing of digital films and videos, some based on books). If any of these syndromes describes you, take heart: there's probably an app for that!

Like most visionary utopias, though. IDN (Integrated Data Network) was never to be. Perhaps it was simply too ambitious a project: infrastructures seldom respond to a single vision or a master plan, as Paul Edwards (2010) writes, and conjuring up a platform that would serve the entire marketplace was an almost Quixotic task. Infrastructures emerge not through planning and calculated foresight, but through the meandering paths of history, in the mangle of making, tinkering, and wrestling with the obduracy of organizations, practices, and their installed base. The system eventually introduced for Big Bang reflected this fragility and contingency of infrastructures: it was the creative result of reshaping legacy devices into a system that did the job for the time being. A band-aid. A product of creative, recombinant bricolage.