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... Science Frontiers ONLINE No. 114: Nov-Dec 1997 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Quantum mechanics is definitely spooky "I cannot seriously believe in [the quantum theory] because it cannot be reconciled with the idea that physics should represent a reality in time and space, free from spooky actions at a distance." (Ref. 1) So Einstein wrote Max Born in March 1947. Well, even Einstein could have been wrong! "It's getting even spookier out there. Particles can be strangely connected over at least ten kilometres, according to results from physicists in Geneva. Using pairs of "entangled" photons, Nicolas Gisin and his colleagues from the University of Geneva have shown that the measurement of one ... will instantaneously determine the state of the other." (Ref. 2) This particular spooky aspect of quantum mechanics was demonstrated 15 years ago over a distance of just a few meters. Many physicists had expected (probably "hoped") that this "mysterious link" between separated particles would weaken with distance. But this quantum-mechanics effect does not conform to "common-sense" expectations! Now it seems that one particle of an "entangled pair" knows instantaneously what its mate is doing, possibly even if it is located on the other side of the universe. More quantum-mechanics spookiness is seen in "tunneling" phenomena, such as that mentioned in AR#3 , where a Mozart symphony zipped through a barrier at 4.7 times the speed of light ...
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... Science Frontiers ONLINE No. 119: Sep-Oct 1998 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Einstein In Free Fall We now describe two abstruse phenomena, one of which is well-recognized, the other which is suggested by quantum mechanics, but is yet unobserved. Both involve only tiny physical effects. Even so, we should remember that a linchpin of Special Relativity is the tiny advance of Mercury's perihelion. It was Mercury's miniscule orbital anomaly that helped overthrow Newtonian celestial mechanics. Now, quantum mechanics may, in turn, undermine Relativity. The gist of this introduction is that we have here tiny, hard-to-visualize phenomena that are so scientifically important that it is worthwhile trying to understand them. ... the first abstruse phenomenon, quantum mechanical effects demonstrate that the laws of classical electromagnetism are flawed. According to the classical view, an electron cruising by an ideal solenoid (a tube with an internal magnetic field but none outside) should be unaffected; that is, the electron should not "feel" the confined magnetic field. But, in the quantum mechanical view, the "presence" of the electron is smeared out so that it penetrates the solenoid, and the electron is affected by the confined field. This has been demonstrated. A Los Alamos scientist, D. Ahluwalia, ventures that an analogous situation prevails with gravity. He notes that General Relativity predicts that a particle (or person) in free fall cannot distinguish this condition (weightlessness) from the situation in a hollow shell ...
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... Science Frontiers ONLINE No. 40: Jul-Aug 1985 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects The Most Profound Discovery Of Science This is what one scientist calls Bell's Theorem. Certainly not all scientists would agree with such an absolute declaration. Since Bell's Theorem lurks in the fog-shrouded country of quantum mechanics, most biologists probably haven't even heard of it. In any event, they would probably think the discovery of the genetic code more profound. Why all the fuss over Bell's Theo-rem? In the laboratory, Bell's Theorem is associated with an admittedly spooky effect: the measurements made on one particle affect the measurements made on a second, far-removed particle. In ... , the second particle could be on the other side of the galaxy, with absolutely no physical connection between the two -- unless you admit to spooky action-at-a -distance forces. (Some over-ly zealous think-tankers have even contemplated applying this effect to long distance, untappable, unjammable communications with submarines!) The article (referenced below) in which this apparent magic is discussed also dwells on another profundity associated with quantum mechanics: does that which is not observed exist? Einstein felt intuitively that it did; and one of his remarks on the subject led to this article's title. Unfortunately for Einstein, all recent laboratory experiments demonstrate that spooky actionat-a -distance forces do exist and that Einstein's intuition was incorrect. (Mermin, ...
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... necessary to life -- H, C, O, N, etc -- and in profusion. Collisions of cosmic rays can promote the synthesis of fairly large molecules. We have already detected molecules as complex as formaldehyde in the interstellar medium. But surely the immensely more complicated molecules of biology cannot be synthesized near absolute zero. This may not be true either because at extremely low temperatures the quantum mechanical phenomenon of "tunnelling" becomes important. To achieve molecular synthesis, repulsive barriers must be overcome. The warm temperatures in that terrestrial pond can provide the extra kinetic energy to climb over these barriers. In cold molecular clouds we must look elsewhere. The laws of quantum mechanics state that there is always a very low probability that atoms and molecules can tunnel through repulsive barriers -- no ... to climb over them via thermal effects. "Specifically, entire atoms can tunnel through barriers represented by the repulsive forces of other atoms and form complex molecules even though the atoms do not have the energy required by classical chemistry to overcome the repulsion." Of course, the reaction rates are slow, but the size of the cosmic pond is vastly greater than any terrestrial puddle. The above quotation is from V.I . Goldanskii who, even before Hoyle, suggested a cold prehistory of life, during which complex organic molecules were synthesized at just a few degrees above absolute zero. His article dwells primarily on the physics of the tunnelling phenomenon, which is well verified in the laboratory, but he does not shrink from the biological implications. (Goldanskii, Vitalii I.; "Quantum ...
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... Science Frontiers ONLINE No. 138: NOV-DEC 2001 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects It's Time For A Bit Of Generalization No one can contest that quantum mechanics has been extremely successful in describing the phenomena of physics. This fact does not mean that it is easy to understand. In fact, there are eight competing "interpretations" of quantum mechanics, none of which is completely convincing. No wonder, because quantum mechanics implies four characteristics of the universe that are seriously at odds with our everyday experience: The quantization of the properties of matter; The probabilistic nature of physical measurements; Entanglement; that is, the mysterious instantaneous connection of objects and processes across immense distances; and Superposition; for example, an ... is both here and there until we look at it! A. Zeilinger, University of Vienna, advances the idea that we can truly understand quantum mechanics only when we discover an underlying principle -- something akin to the concept of energy which led to the quantification of the laws of thermodynamics. (Incidentally. we only think we know what energy is, but it is a human construct and is not a physical dimension like mass or distance.) Zeilinger asserts that the underlying principle of quantum mechanics is the quantization of information. Every inquiry science makes into the nature of the universe, says Zeilinger, can be reduced to a yes-or-no question; i.e ., a 1 or 0. To a scientist, nature is really like a person on a witness ...
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... physicist, has written a very philosophical, almost mystical article on the nature of the cosmos. Let us begin with his abstract: "There are several hints in physics of a domain of external reality transcendent to three-dimensional space and time. This paper calls attention to several of these intimations of a real world beyond the natural order. Examples are the complex state functions in configuration space of quantum mechanics, the singularity at the birth of the universe, the anthropic principle, the role of chance in evolution, and the unaccountable fruit fulness of mathematics for physics. None of these examples touch on the existence or activity of God, but they do suggest that external reality may be much richer than the natural world which it is the task of physics to describe." Pollard then elaborates ... Example 1. Quantum mechanics, a mathematical formulation of reality, has been extraordinarily successful in describing and predicting many things in the microscopic world. Pollard notes that quantum mechanics contains no hint of God per se and possesses no numinous quality, but its great complexity and multidimensionality provide evidence for "the reality of the transcendent order in which the natural universe is embedded." Example 2. The singularity at the beginning of the universe. Science is at a loss to explain creation and what happened before. (Pollard assumes that creation occurred like most scientists.) Example 3. The anthropic principle can be interpreted as a restatement of the religious contention that the universe was made-for-humankind. In Pollard's words: "If one imagines an ensemble of universes of different size and ...
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... parapsychological research. His conclusion: "The past eight years have been no kinder to those seeking compelling evidence about the reality of paranormal phenomena than were the previous eighty: The long-sought reliably demonstrable psychic phenomenon is just as elusive as it always has been." Alcock believes that parapsychology is on the ropes and must grasp at straws. One of these straws is the enthusiastic espousal of those quantum mechanical effects which seem to transcend time, space, and even human comprehension. Alcock contends that the admitted enigmas of quantum mechanics are being unfairly twisted by the parapsychologists. [Parapsychologists and their critics will argue interminably about the applicability of quantum mechanics to psi, ceasing only when someone with powerful, undeniable psi powers comes along -- the equivalent of a UFO landing on the White House lawn ... ] Meanwhile, Alcock identifies an important characteristic of psi, which is truly anomalous, for it is completely foreign to science as we understand it today. This is the generalizability of psi. ". .. psi effects turn up whether one uses cockroaches or college students, whether the effects are to be generated in the present or the future or the past, whether the subjects know that there is a random number generator to be affected, whether a sender and receiver are inches or continents apart..." Alcock believes this generalizability of psi weakens the case for its existence. He attributes any non-chance effects in psi research to bad experiment design and to the vicissitudes of chance itself. (Alcock, James E.; "Parapsychology's Past Eight Years: A Lack ...
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... Sourcebook Project Sourcebook Subjects Two Wrong-Way Phenomena!Electrical currents flowing in opposite directions. How can this be? What about Ohm's Law? This counterintuitive situation was confirmed in a recent issue of Science. Now two teams of researchers have induced millions of electrons to flow simultaneously both ways around a superconducting ring with a non-superconducting notch in it, a gizmo known as a superconducting quantum interference device, or SQUID. This is all pretty weird but it just one more paradoxical phenomenon allowed by quantum mechanics. You see, in quantum mechanics, an object can exist in two or more states at the same time. This is, of course, a statement of fact rather than an explanation appealing to one's common sense -- a common occurrence in the quantum world ... (Cho, Advising "Physicists Unveil Schroedinger's SQUID," Science, 287:2395, 2000) Heat flowing from cold to hot. The revered Second Law of Thermodynamics seems to tell us that heat always flows from hot to cold. But out in space, under special conditions, physicists seem to hedge a bit. The groundbreaking experiment was carried out onboard the Mir space station last year as part of the French-Russian Perseus mission. By warming a copper-and sapphire-walled cell filled with a drop of liquid sulfur hexafluoride and one tiny bubble of gaseous sulfur hexafluoride in near-zero gravity, scientists triggered a slight compression of the bubble. That gentle squeeze raised the temperature of the gas above that of the cell walls. For this to happen, heat must ...
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... Science Frontiers ONLINE No. 67: Jan-Feb 1990 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects A Watched Atom Is An Inhibited Atom Strange as it may sound, the act of observing atoms to determine their energy states interferes with their quantum jumps between atomic energy levels. This is another "spooky" prediction of quantum mechanics theory. This prediction was recently verified by W.M . Itano et al, at the National Institute of Standards and Technology, in Boulder. They employed radio waves to drive beryllium ions from one energy level to another. While the beryllium ions were jumping from one level to another, the researchers sent in short pulses of light to determine the ion's state. The more frequently they inter rogated the ... , the less apt they were to jump to new energy states, despite the stimulating radio waves. (Peterson, L; "Keeping a Quantum Kettle from Boiling," Science News, 136:292, 1989. Also: Pool, Robert; "Quantum Pot Watching," Science, 246:888, 1989.) Comment. It is logical, but perhaps not practical, to contemplate delaying or stopping radioactive decay by interrogating poised radioactive atoms. From Science Frontiers #67, JAN-FEB 1990 . 1990-2000 William R. Corliss ...
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... by Geomagnetism Premonitions of Death Prediction of Random Processes Retrocognition Hypnotic Regression Scrying [PLS] PHR REINCARNATION PHENOMENA Memories of Previous Lives Hypnotic Regression Xenoglossy Birthmarks As Proofs of Reincarnation Life after Death PHT ANOMALOUS INFORMATION TRANSFER Ordinary Telepathy Twin Telepathy Long-Distance Mass Telepathy Experiments Transfer of Physical Sensations Transfer of Emotions (Not Folie a Deux or Mass Hysteria) Dream Telepathy Remote Viewing Telepathy Affected by Magnetic Fields Role of Quantum Mechanics in Telepathy Ganzfield Experiments Animal Telepathy Telepathy under Hypnosis Atavistic Nature of Telepathy Geomagnetic Enhancement of Telepathy Psychic Odor/Taste PI INFORMATION PROCESSING PIB INPUT/OUTPUT ANOMALIES Word Blindness Dyslexia Autism Typing Skills Tip-of-the-Tongue Phenomenon Mirror Script Braille and the Brain Optical Illusions Generation of Random Numbers Cocktail-party effect Stuttering Difficulty of Learning English Brain Modularity Attentional Blink Revelation Intuition PIC ANOMALOUS INFORMATION ... Mathematical Savants Calendar Calculators Musical Prodigies Mechanical Savants Subconscious Time-Reckoning Mental Processing during Sleep Chess Prodigies Accelerated Mental Processes Mnemonists PIG MYSTERIES OF GENIUS AND CREATIVITY Early Appearance of Genius Genius and Mental Illness Origin of "Strokes of Genius" Periodicity in Creativity Humor and Creativity Genius and Season of Birth Aesthetics and Creativity Dream Creativity PII EIDETIC AND AFTER IMAGES Eidetic Imagery Vivid Afterimages Eidetic Imagery and Retardation Eidetic Imagery and Hallucinations Recovery of Eidetic Imagery through Hypnosis PIK CONSCIOUSNESS Consciousness and Hypnosis Nature of Consciousness Free Will Consciousness and Quantum Mechanics [BHT22] PIM ANOMALIES OF MEMORY Capacity of the Human Brain Emotional Enhancement of Memory Learning and Memory under Anesthesia Hypnosis and Memory Pseudomemory Hypnotic Misrecall Mnemonics Photographic Memory Prenatal Mental Life Inherited Memories False-Memory Syndrome Memory-Processing Bottlenecks Memory Regression [PHP] Cryptonesia PIP ODDITIES OF PERCEPTION Synesthesia ...
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... Science Frontiers ONLINE No. 46: Jul-Aug 1986 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects When To Believe And When Not To Bizarre effects in quantum mechanics. Recently, three "delayed choice" experiments have been consummated in physics labs. In such experiments, the result depends upon what the observer tries to measure; viz., light as particulate-in-nature or light as wave-like-in-nature. The funny thing is that it doesn't matter when the experimenter decides what to measure; he can do this months before the experiment or even afterwards! The effect of the choice is the same -- before or after. Now that is weird! But everyone believes it because a theory for ... exists. (Thomsen, Dietrick E.; "Changing Your Mind in a Hurry," Science News, 129:137, 1986.) Bizarre effects in psychokinesis. Recently, several laboratories have been trying to determine if the human mind can affect random physical events, such as radioactive decay. "Surprisingly, the PK effect appears quite independent of physical variables, such as the distance or the complexity of the random generator. The subjects succeed by aiming at the result, regardless of the intermediate steps required to reach this result. Such a goal-oriented, even non-casual feature of PK has been emphasized by PK experiments with pre-recorded, random events. In these experiments, random events were first pre-recorded, and later played back to a PK subject who ...
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... to have no more explanatory power than any of the other "origin" scenarios. It is less than satisfying. Be that as it may, scientists are now seeing some strange things happening on the "mesoscopic" scale; i.e ., from a few nanometers to a few millimeters (10-9 to 10-3 meters). This size range lies between the realms of quantum mechanics and macroscopic physics. Maybe these curious phenomena do have a bearing on how life started and whether it is really different from nonlife. Example 1. G. Whitesides, at Harvard, has dumped large quantities of millimeter-size iron balls into a plastic dish and then spun a bar magnet under the ensemble with startling results. The balls swarm around inside the plastic dish as the magnet ... . At first the swarm is disordered. But after a minute, it breaks up into a set of concentric rotating rings. Within each ring, the balls follow one another along precise tracks, as if hugging the rim of an invisible roulette wheel. Soon the balls in each track are perfectly equidistant. Finally, one ball in each ring comes to a dead stop. The other balls in each track line up behind the leader in a tiny arc, even though the magnet is still whirling away below. Example 2. In water, large, fatty molecules (phospholipids) are observed to self-assemble into double layers with their water-loving bonds pointing outwards. This sort of structure closely resembles that of the biological membranes so vital to terrestrial life. This potentially biologically useful structure ...
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... in a flat pan containing a thin layer of water and give it a spin. Not only does the egg spin on end but a layer of water creeps up the side of the egg. When the water is about half way up the side of the egg it breaks up into droplets and sprays out horizontally like a rotating lawn sprinkler. No mysterious forces are involved, nor are there spooky quantum mechanics effects. The major forces operating are gravity, centrifugal force, and adhesion between the egg surface and the water. As the film of water creeps up the egg, the centrifugal force increases and overcomes the force of adhesion. Then, water droplets spray outward. (Gutierrez, Gustavo, et al; "Fluid Flow up the Wall of a Spinning Egg," American Journal of ... , 66:442, 1998.) Creating fluid corners in kitchen sinks. When a smooth column of water from your kitchen faucet hits the sink, it flows out radially. At a calculable radius, its height suddenly rises. This smooth, circular ridge is called a "hydraulic jump." Here, some of the kinetic energy of the falling water is converted into the potential energy of the deeper layer of water. Nothing particularly mysterious here. But, if a liquid more viscous than water is used, the circular ridge is transformed into a neat polygon with surprisingly sharp corners. Different flow rates create different polygons. Polygons with as many as 14 corners have been observed. Interestingly, identical flow rates can result in different stable polygons. See the referenced article for all the math ...
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... on the results. (Jahn, Robert G., and Dunne, Brenda J.; "Science of the Subjective," Journal of Scientific Exploration, 11:201, 1997.) Comment. That PEAR results are unaffected by by the timing and distance of the operator attempting to affect the behavior of the machine is somewhat troublesome to many scientists, but not inconsistent with some predictions of quantum mechanics. Much more serious to objective science is the implication that a scientist performing an experiment can subjectively (consciously or unconsciously) affect his results, as in the psychokinetic control of a meter reading or an electronic data processor. If such things can happen, one scientist could not replicate the experiment of another scientist. From Science Frontiers #114, NOV-DEC 1997 . 1997-2000 ... and profound in the use of interdisciplinary metaphors Permit more generous interpretations of measurability, replicability, and resonance (4 ) Reduce onotological aspirations Permit an "overarching teleological causality. R.J . Jahn heads the Princeton Engineering Anomalies Research (PEAR) Laboratory, which over the years has conducted some 50 million experimental trials, mostly in the search for psychokinetic effects on the behavior of a wide variety of mechanical, electrical, and other types of machines. Jahn and Dunne assert that the results of those experiments clearly show the effects of the pre-stated intentions of the machine operators. In other words, mind can affect matter -- as in the distribution of spheres cascading down a peg board. We now list some of the other salient features of the immense corpus of PEAR experimental results: ...
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... Sourcebook Subjects Magical Communication In The Subatomic World How do physically separated subatomic particles (and devices based on them) communicate with one another? Somehow one subatomic particle knows what a distant compatriot is doing and reacts accordingly. Physical experiments have confirmed this seemingly impossible situation. No fields, wires, or any other sort of communication line connects the two particles; yet they behave as though there were. Quantum mechanics has an explanation of sorts but it still leaves the situation with an aura of mystery. (Mermin, N.D .; "Bringing Home the Atomic World: Quantum Mysteries for Anybody," American Journal of Physics, 49:940, 1981.) Comment. This digest is greatly oversimplified, and readers are encouraged to read the whole article. It is an important type ... physical experiment because some have suggested it may help explain ESP, assuming ESP exists. From Science Frontiers #19, JAN-FEB 1982 . 1982-2000 William R. Corliss ...
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... is the quantization typical of the subatomic world -- that is, microscopic nature. At the human locus in the dimensional scheme of things, quantization is difficult to detect outside the physics laboratory. Daniel M. Greenberger, perhaps with the above title in mind, asked whether quantization might not also exist in astronomy and cosmology -- that is, macroscopic nature. He has applied the principles of quantum mechanics to nature in-the-large where gravitational forces are dominant. (Gravitational forces are negligible in the subatomic world.) His math cannot be reproduced here. Suffice it to say that Greenberger has applied his findings to the absorption lines of quasars and the elliptical rings surrounding normal galaxies. Now, quasars and galaxies are far from atomic nuclei, being vast assemblages of diverse matter. ... surprisingly, his equations are successful in predicting some features of these two macroscopic entities. (Greenberger, Daniel M.; "Quantization in the Large," Foundations of Physics, 13:903, 1983.) Comment. At the very least it is mindstretching to find that complex systems with millions of stars may exhibit quantum effects. With some relief, we note that like microscopic quantization effects, the consequences of macroscopic quantization will be hard to discern in our comfortable "smooth" world. From Science Frontiers #32, MAR-APR 1984 . 1984-2000 William R. Corliss ...
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... physical and mathematical support for such a regular scattering of a burst of stars by a dense elliptical mass of target stars. (Edmunds, M.G .; "Galaxies in Collision," Nature, 311:10, 1984.) Comment. This star-scattering process reminds one of how electrons are scattered by crystals and other subatomic scattering situations. We may have here another place where quantum mechanics applies in macroscopic nature. Reference. Galactic "shells" are cataloged in AWO5 in our Stars, Galaxies, Cosmos. To order, visit: here . Ellipsoidal shells of stars along the axis of an elliptical galaxy. From Science Frontiers #36, NOV-DEC 1984 . 1984-2000 William R. Corliss ...
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... plus minor adaptations (" microevolution"). J.A . Shapiro, a professor at the University of Chicago, is searching for a "third way," a scientific, non-Darwinian way. Shapiro maintains that five decades of genetic and molecular-biology research have transformed our vision of life. Ile compares the conceptual changes to those accompanying the transition from classical physics to relativity and quantum mechanics. This new theory of evolution -- his "third" way -- will emerge from the convergence of biology and information science. Genomes, asserts Shapiro, are not really the static "beads on a string" envisioned by the Darwinians. Rather, they are fluid and complex. Genes are now seen as multipurpose elements that turn on and off as required for the survival and ... -being of the organism they belong to. In this paradigm-eroding paper (referenced below), Shapiro describes four categories of molecular discoveries that have revised our thinking about how evolution works: (1 ) Genome Organization; (2 ) Cellular-Repair Capabilities; (3 ) Mobile Genetic Elements and Natural Genetic Engineering; and (4 ) Cellular Information Processing. He then writes: The point of this discussion is that our current knowledge of genetic change is fundamentally at variance with neo-Darwinist postulates. We have progressed from the Constant Genome, subject only to random, localized changes at a more or less constant mutation rate, to the Fluid Genome, subject to episodic, massive and non-random reorganizations capable of producing new functional architectures. Inevitably, such a profound advance in ...
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... as ridiculous as they sound. It is postulated that Invisible Stars are composed of Mirror Matter, a new construct of astronomers who are desperately trying to explain their burgeoning files of celestial anomalies. Mirror Matter is strange "stuff." It interacts with Ordinary Matter only through gravity, it doesn't emit light. It is palpable but invisible. (This sounds weird, but no weirder than quantum mechanics!) Foot also pointed out that stars composed of Ordinary Matter may be orbited by Mirror-Matter planets. Expanding along these lines, whole star systems could be 100% Mirror Matter, and we'd never see them at all. How about Mirror-Matter asteroids and meteors zipping around our solar system -- invisible but palpable and threatening? As a matter of fact, ... has been speculated that the still-mysterious Tunguska Event of 1908 (lots of energy but no crater) was an encounter with a Mirror-Matter meteor. (Ref. 3) References Ref. 1. Osorio, M.R . Zapatero, et al; "Discovery of Young, Isolated Planetary Mass Objects...," Science, 290: 103, 2000. Ref. 2. Chown, Marcus; "See-Thru Suns," New Scientist, p. 28, November 11, 2000. Ref. 3. Reynolds, David; "Mirror Image," Science News, 158:291, 2000. From Science Frontiers #133, JAN-FEB 2001 . 2001 William R. Corliss Other Sites of Interest SIS . Catastrophism, archaeoastronomy, ancient history ...
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... energy is being added to all constituents of the cosmos. The universe is more than a cloud of debris flying away from the Big Bang's Ground Zero. Somewhere, perhaps beyond the ken of our primitive instruments, is a fount of energy of which we know nothing. All this is a serious challenge to our understanding of space, time, and matter. Cosmologists are now appealing to quantum mechanical "shimmers," to "X -matter," and to a property called "quintessence." (Glanz, James; "Exploding Stars Point to a Universal Repulsive Force," Science, 279:651, 1998. Also: Glanz, James; "Astronomers See a Cosmic Antigravity Force at Work," Science, 279:1298, 1998.) Comment. When ... toss around terms like "X -matter" and "quintessence," you can be sure that the basic laws of the universe are still unchalked upon science's big blackboard. God's face is still unread. From Science Frontiers #117, MAY-JUN 1998 . 1998-2000 William R. Corliss ...
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... -Feb 1998 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects More Sheldrake Heresy "In 20th century physics, the fact that the observer and the observed are linked is well established. In biology this is heresy." Thus spake Rupert Sheldrake, and he is absolutely correct. He was referring, of course, to that "spooky" prediction of quantum mechanics that the mere act of observing subatomic particles affects them. (See: "A Watched Atom Is an Inhibited Atom" in SF#67.) Sheldrake proposes extending the "observer effect" to biology. In effect, he suggests replacing the state of an atom with the state of the neurological connections within the human brain. All this technical jargon breaks down to a simple question ... Can a person tell if he or she is being stared at? Before you leap ahead to the next item, which we assure you is not as highly charged with controversy, consider that Sheldrake has conducted thousands of tests that do seem to show the reality of the observer effect in biology. Sheldrake separates starer from staree by a glass window. The staree faces away from starer and is blindfolded. Prompted by a random-number generator, the starer stares or does not stare. The staree responds positively if he feels the starer's eyes locked on to the back of his head. The starees are right more than 50% of the time. In fact, some starees are particularly sensitive to stares and respond correctly up to 90% of the time. Interestingly, even the ...
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... mounds can get Astronomy It can't be true because it violates our ideas! Biology Do woodcocks "grunt" for worms? Gene wars Complexity and mount improbable Geology Surface life (us!) only a "special case" The world's largest "playa-slider" furrow Geophysics Mekong mystery Lightning strikes jet and possibl spawns ball lightning Psychology Redefining science Physics A RECIPE FOR WEIGHTLESSNESS? Quantum mechanics is definitely spooky Cold fusion not so hot! Unclassified The bermuda triangle is still spooky ...
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... interview: "If we were just inventing mathematics from our everyday experience, we would find that it would work really rather well in those areas from which that intuition was gained. But we find almost the opposite...It works most powerfully and persuasively in areas that are farthest removed from the everyday experience that has led to it." Mathematics, for example, leads to verities in quantum mechanics far outside the realm of daily experience. Why is this so? The puzzle deepens when one discovers that there are different kinds of math based upon different forms of logic (as in Euclidian and non-Euclidian geometries). Some brands of mathematics mirror reality better than others. Why? In trying to dispose of these "whys," both matematicians and scientists fall back on the ... principle with all its unsatisfying tautological overtones: ". .. the universe is the way it is because that's the way it has to be for anybody to be around to study it. And perhaps math works so well in studying the universe because math, too, must be the way it is in order for anybody to be around to do the calculations. So maybe the existence of communicating creatures requires a correspondence between the physical universe and mathematics. [? ?] " (Siegfried, Tom; Dallas Morning News, p. 7D, January 4, 1993. Cr. L. Anderson) From Science Frontiers #86, MAR-APR 1993 . 1993-2000 William R. Corliss ...
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... . 41: Sep-Oct 1985 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects All Things Appear To Those Who Accelerate We have said some nasty things about WIMPS (Weakly Interacting Massive Particles). But perhaps the existence of WIMPS is only a matter of one's private trajectory in the cosmos! Recently, theorists fiddling with the possible consequences of quantum mechanics came up with some shockers: 1. An accelerating observer can detect particles that a stationary observer will swear do not exist; 2. An accelerating reflecting surface (theoretically) creates a flux of particles that stream away from its surface; and 3. An accelerating mirror can carry away negative energy! After cogitating on such discoveries, Paul Davies wondered, "Might it even be that ... apparently solid matter of the Universe around us is only the consequence of our particular motion?" Par-ticles of matter, in this theoretical scheme, would be only chimeras of our individual motions. (Davies, Paul; "Do Particles Really Exist?" New Scientist, p. 40, May 2, 1985.) Comment. Omar Khayyam practically predicted this curious state of affairs when he wrote: "We are no other than a moving row/Of magic shadow-shapes that come and go." From Science Frontiers #41, SEP-OCT 1985 . 1985-2000 William R. Corliss ...
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... alone. (Beware, the quicksand may be quantized, too!) Tifft believes that this new sort of cosmology can explain: (1 ) the observed quantized redshifts; (2 ) the "missing mass" of the universe; (3 ) "discordant" redshifts (where objects apparently at the same distance from us have grossly different redshifts); and (4 ) the dichotomy between quantum physics and conventional dynamics. (Tifft, William G.; "A Brief History of Quantized Time," Mercury , 24:13, September-October 1995) Comment. While the quantization of time is speculative, the quantization of red-shifts has considerable observational support. (SF#84) For other types of quantization on a cosmological scale, see SF#32. Redshift ... showed that the redshifts of galaxies are quantized. To illustrate, the diagram indicates that the redshifts of binary galaxies tend strongly to cluster at 72 and 72/3 kilometers/ second. One would certainly not expect ponderous galaxies to orbit one another in a quantized fashion. It is almost as if binary galaxies emulate those dumbbell-shaped molecules that can spin around only at specific frequencies! Can the mechanics of the very large (galaxies) be quantized like the very small (atoms and molecules)? Tifft obviously thinks so: "Quantization, it seems, is a basic cosmological phenomenon. It must reflect some master plan." The Finnish physicist, A. Lehto, has proposed such a plan. "The new cosmology pictures the uni-verse as a set of timelines splaying outwards ...
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