Electron Configuration Quotes

There already exists the electronic capability for the tracking of individual behavior by centralized networks of surveillance and record-keeping computers. It is highly probable that the conversion to nuclear energy production will provide precisely those basic material conditions most appropriate for using the power of the computer to establish a new and enduring form of despotism. Only by decentralizing our basic mode of energy production—by breaking the cartels that monopolize the present system of energy production and by creating new decentralized forms of energy technology—can we restore the ecological and cultural configuration that led to the emergence of political democracy in Europe.

This elementary process is symbolically illustrated in figure 59c: A photon becomes an electron-positron pair; inversely, an electron and a positron can combine into a photon (or as we said above, annihilate into a photon). But for the process to take place, we need a fourth particle as a catalyst. In the cloud chamber picture in figure 12, the catalyst was an electron that was knocked out of its atomic configuration in the process. Whereas the process in figure 59c cannot proceed without such a catalyst, the one in figure 59d can: Two photons can materialize into an electron-positron pair; and, of course, the inverse process, electron-positron annihilation into two photons, is equally possible.

Quantum physics speaks in chance, with the syntax of uncertainty. You can know the position of an electron but you cannot know where its going, or where it is by the time you register the reading. John went blind. Or you can know it's direction, but you cannot know it's position. Heinz Formaggio at Light Box read my Belfast papers and offered me a job. The particles in the atoms of the brain of that young man who pulled me out of the bath of the taxi in London were configured so that he was there, and able to, and willing to. Even the most complete knowledge of a radioactive atom will not tell you when it will decay. I don't know when the Texan will be here. Nowhere does the microscopic world stop and the macroscopic world begin.

Each electron wants the whole of three-dimensional space for its waves; so Schrodinger generously allows three dimensions for each of them. For two electrons he requires a six-dimensional sub-aether. He then successfully applies his method on the same lines as before. I think you will see now that Schrodinger has given us what seemed to be a comprehensible physical picture only to snatch it away again. His sub-aether does not exist in physical space; it is in a 'configuration space' imagined by the mathematician for the purpose of solving his problems, and imagined afresh with different numbers of dimensions according to the problem proposed. It was only an accident that in the earliest problems considered the configuration space had a close correspondence with physical space, suggesting some degree of objective reality of the waves. Schrodinger's wave mechanics is not a physical theory but a dodge - and a very good dodge too.

The beauty of the principle idea of string theory is that all the known elementary particles are supposed to represent merely different vibration modes of the same basic string. Just as a violin or a guitar string can be plucked to produce different harmonics, different vibrational patterns of a basic string correspond to distinct matter particles, such as electrons and quarks. The same applies to the force carriers as well. Messenger particles such as gluons or the W and Z owe their existence to yet other harmonics. Put simply, all the matter and force particles of the standard model are part of the repertoire that strings can play. Most impressively, however, a particular configuration of vibrating string was found to have properties that match precisely the graviton-the anticipated messenger of the gravitational force. This was the first time that the four basic forces of nature have been housed, if tentatively, under one roof.

Statistically, the probability of any one of us being here is so small that you'd think the mere fact of existing would keep us all in a contented dazzlement of surprise. We are alive against the stupendous odds of genetics, infinitely outnumbered by all the alternates who might, except for luck, be in our places. Even more astounding is our statistical improbability in physical terms. The normal, predictable state of matter throughout the universe is randomness, a relaxed sort of equilibrium, with atoms and their particles scattered around in an amorphous muddle. We, in brilliant contrast, are completely organized structures, squirming with information at every covalent bond. We make our living by catching electrons at the moment of their excitement by solar photons, swiping the energy released at the instant of each jump and storing it up in intricate loops fro ourselves. We violate probability, by our nature. To be able to do this systematically, and in such wild varieties of form, from viruses to whales, is extremely unlikely; to have sustained the effort successfully for the several billion years of our existence, without drifting back into randomness, was nearly a mathematical impossibility. Add to this the biological improbability that makes each member of our own species unique. Everyone is one in 3 billion at the moment, which describes the odds. Each of us is a self-contained, free-standing individual, labeled by specific protein configurations at the surfaces of cells, identifiable by whorls of fingertip skin, maybe even by special medleys of fragrance. You'd think we'd never stop dancing.

A physicist never thinks that Someone has set the electrons in their orbits for the express purpose of making him, the physicist, rack his brains over orbital configurations.

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. Recommendation: One avenue for ensuring that all civilian CCTV equipment is SCORPION STARE compatible by 2006 is to exploit an initiative of the US National Security Agency for our own ends. In a bill ostensibly sponsored by Hollywood and music industry associations (MPAA and RIAA: see also CDBTPA), the NSA is ostensibly attempting to legislate support for Digital Rights Management in all electronic equipment sold to the public. The implementation details are not currently accessible to us, but we believe this is a stalking-horse for requiring chip manufacturers to incorporate on-die FPGAs in the one million gate range, re-configurable in software, initially laid out as DRM circuitry but reprogrammable in support of their nascent War on Un-Americanism. If such integrated FPGAs are mandated, commercial pressures will force Far Eastern vendors to comply with regulation and we will be able to mandate incorporation of SCORPION STARE Level Two into all digital consumer electronic cameras and commercial CCTV equipment under cover of complying with our copyright protection obligations in accordance with the WIPO treaty. A suitable pretext for the rapid phased obsolescence of all Level Zero and Level One cameras can then be engineered by, for example, discrediting witness evidence from older installations in an ongoing criminal investigation. If we pursue this plan, by late 2006 any two adjacent public CCTV terminals—or private camcorders equipped with a digital video link—will be reprogrammable by any authenticated MAGINOT BLUE STARS superuser to permit the operator to turn them into a SCORPION STARE basilisk weapon. We remain convinced that this is the best defensive posture to adopt in order to minimize casualties when the Great Old Ones return from beyond the stars to eat our brains.

When the sun heats the glass, it changes the configuration of the electrons of the glass and the electrons shift their energies. That changes the electrons in the air around the glass, which causes all of the electrons in the universe to shift, since none of the electrons in the universe can share the same energy level. It’s cause and effect, a ripple of cosmic activity, connecting everything.

In a Newtonian world, all physical quantities, like energy and spin, can take on any values whatsoever. They range over the entire continuum of numbers. Hence, if one were to form a 'Newtonian hydrogen atom' by setting an electron in circular orbit around a single proton then the electron could move in a closed orbit of any radius because it could possess any orbital speed. As a result, every pair of electrons and protons that came together would be different. The electrons would find themselves in some randomly different orbit. The chemical properties of each of the atoms would be different and their sizes would be different. Even if one were to create an initial population in which the electrons' speeds were the same and the radii of their orbits identical, they would each drift away from their starting state in differing ways as they suffered the buffetings of radiation and other particles. There could not exist a well-defined element called hydrogen with universal properties, even if there existed universal populations of identical electrons and protons. Quantum mechanics shows us why there are identical collective structures. The quantization of energy allows it to come only in discrete packets, and so when an electron and a proton come together there is a single state for them to reside in. The same configuration arises for every pair of electrons and protons that you care to choose. This universal state is what we call the hydrogen atom. Moreover, once it exists, its properties do not drift because of the plethora of tiny perturbations from other particles. In order to change the orbit of the electron around the proton, it has to be hit by a sizeable perturbation that is sufficient to change its energy by a whole quantum packet. Thus the quantization of energy lies at the root of the repeatability of structure in the physical world and the high fidelity of all identical phenomena in the atomic world. With the quantum ambiguity of the microscopic world the macroscopic world would not be intelligible, nor indeed would there be intelligences to take cognisance of any such a totally heterodox non-quantum reality.

Now, ignorant and backward persons will occasionally demand that you show them this configurational space of yours, apparently unaware that electrons, whose existence no one in his right mind would question, also move exclusively in configurational space, their comings and goings fully dependent on curves of probability. Though it is easier not to believe in electrons than in dragons: electrons, at least taken singly, won't try to make a meal of you.

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.

Today, this is the way we define the vacuum: It is the remnant left over in a volume out of which we have removed everything that can possibly be taken out. The existence of electromagnetic zero-point radiation implies that this vacuum still contains photons, the carrier particles of the electromagnetic field. The photons fluctuate into electron-positron pairs; that means that their fields also don't vanish in the vacuum. And so it goes for all the fields of all the other particles in our particle zoo-of the quarks and antiquarks, of the neutrino and the antineutrino, of the muons and the antimuons, of the W and Z bosons, of the gluons. All of them swirl around in this emptiest of all spaces, in all imaginable configurations, and for the briefest of time only. Recall, the larger the mass of any of these excitations, the shorter its lifetime, the smaller the volume in which it is concentrated. The excitations of the vacuum come and go; they oscillate, they fluctuate. It is not easy to conjure up imagery vivid enough to do justice to the fluctuating vacuum. But we know that all these fields filling the vacuum must, on the average, vanish; the only quantity that remains immutable is the energy, the zero-point energy. The average charge of a vacuum is zero, and so is its average momentum. Any calculation we might attempt to determine the energy of the vacuum must fail; the contributions from some particles and fields will tend to positive infinity, of others to negative infinity. Summing up such indeterminate quantities does not give us a finite answer.

Every electron in the universe, no matter what physical creation it is a part of, is totally and completely identical to every other electron in the universe. It is their number and configuration that determine how they appear.

So, here it is,” I say. “This is a real-time view of the sample from the integrated electron microscope.” I step back, and give them a view of the screen. It shows a mass of spheres. They move randomly through the frame, occasionally bouncing off of one another. In among them, though, are other shapes. These are far fewer, larger, and more irregular. “See the balls?” I continue. “Those are what should have been produced. They’re temperature-sensitive cages, with serotonin inside. Those other things, though—they’re not supposed to be there. They look a bit like big viruses, but their mass is much higher than you’d expect from a biological. I’m guessing these are what the crypted code tacked onto the configuration file is producing.” “I thought we’d decided that Hagerstown couldn’t have been a virus,” Gary says. “I didn’t say these are viruses,” I say. “I said the protein coat we can see looks like what you’d see on a virus. That’s just the delivery mechanism. I’d be willing to bet that these things bind to cells like a virus, but what’s inside them is definitely not RNA.

There's a caveat here: what I've just described was our understanding of electricity, magnetism and light in classical physics. Quantum mechanics complicates this picture, but without making it any less mathematical, replacing classical electromagnetism with quantum field theory, the bedrock of modern particle physics. In quantum field theory, the wavefunction specifies the degree to which each possible configuration of the electric and magnetic fields is real. This wavefunction is itself a mathematical object, an abstract point in Hilbert space. As we saw in Chapter 7, quantum field theory says that light is made of particles called photons, and, crudely speaking, the numbers constituting the electric and magnetic fields can be thought of as specifying how many photons there are at each time and place. Just as the strength of the electromagnetic field corresponds to the number of photons at each time and place, there are other fields corresponding to all the other elementary particles known. For example, the strengths of the electron field and the quark field relate to the numbers of electrons and quarks at each time and place. In this way, all motions of all particles in all of spacetime correspond, in classical physics, to a bunch of numbers at each point in a four-dimensional mathematical space-a mathematical structure. In quantum field theory, the wavefunction specifies the degree to which each possible configuration of each of these fields is real.