68 results found.
... Science Frontiers ONLINE No. 115: Jan-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 ...
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... Science Frontiers ONLINE No. 110: Mar-Apr 1997 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects The Crystalline Universe Cosmologists think in the large. Billions of stars are nothing to them. The megaparsec (3 ,528,000 light years) is but a hop, skip, and jump. A pressing question for these cosmologists searching for the really big picture is whether there is any order in the distribution of galaxies, galactic clusters, and superclusters. The scale of organization of the universe is of critical importance because it is a measure of state of the cosmos when hydrogen atoms first condensed from the seething sea of ions following the Big Bang. The prevailing expectation has been that galactic clusters and superclusters should be distributed at random; that is, no order prevails at that scale. Recent redshift measurements, however, hint more and more forcefully that the huge superclusters of galaxies are almost as neatly arranged as the atoms in a crystal. A recent paper in Nature by J. Einasto et al puts a number on the spacing of the superclusters: "Here, using a new compilation of available data on galaxy clusters, we present evidence for a quasi-regular three-dimensional network of rich superclusters and voids, with the regions of high density separated by "120 Mpc [megaparsecs]. If this reflects the distribution of all matter (luminous and dark), then there must exist some hitherto unknown process that produces regular structure on large scales." (Einasto, J., et al; "A 120 ...
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... Science Frontiers ONLINE No. 115: Jan-Feb 1998 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Splitting The Electron's Charge We all know that the atom can be split, but the electron's charge? No way! R.A . Millikan's oil-drop experiments, circa 1911, demonstrated conclusively that the basic, indivisible unit of electrical charge was that on the electron. Later, an exception was made for those quarks that are firmly locked up inside nuclear particles. They each have 1/3 the electron's charge -- but they never, never escape to the outside world. It was, therefore, counterintuitive when R. Laughlin proposed in 1982 that fractional electrical charges actually could show up elsewhere in physics. The phenomenon that suggests this possibility is the Fractional Quantum Hall (FQH) effect. Physicists reluctantly accepted the likelihood of fractional charges in this well-verified phenomenon; but the experiments demonstrating fractional charge were a bit esoteric -- the fractional charges were not "palpable" enough. Two new experiments have made fractional charges much more tangible. When a layer of electrons, held just above absolute zero, is subjected to a powerful magnetic field, you can almost "hear" the fractional charges. The signals from these experiments have been likened to hail hitting a tin roof. Just as you can gauge the size of hailstones from their impact, so you can estimate the electrical charges involved in these experiments -- they are 1/3 that of the electron. ( ...
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... Science Frontiers ONLINE No. 115: Jan-Feb 1998 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Nuclear Families Men who work at England's Sellafield nuclear power plant father significantly more sons than daughters. Male plant workers produced 109 boys for every 100 girls. This compared with 105 boys for every 100 girls for men in the same area who did not work at the plant. The bias was even greater for men who had received higher than normal doses of radiation in the 3 months prior to conception: 140 boys per 100 girls. Actually, both sets of figures are significant because of the large sample employed: 260,000 children. (Anonymous; "Does Atomic Plant Generate Sons?" Baltimore Sun, December 12, 1996.) Comment. The average sex ratio worldwide falls between 104-107 boys per 100 girls. There are, however, some fascinating geographical extremes: Montserrat 94.34 Aden 120.31 Why do these large differences prevail? Is Aden radioactive? For more on this subject, see our Catalog: Biological Anomalies: Humans II. From Science Frontiers #115, JAN-FEB 1998 . 1998-2000 William R. Corliss ...
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... awe for the amazing complexity found in nature. Loops within loops across many temporal and spatial scales. And one has the distinct feeling that we have not yet revealed every layer of the onion. Computation can also be implemented biochemically -- raising the fascinating possibility that the elaborate regulatory network of proteins, second messengers and other signalling molecules in the neuron carry out specific computations not only at the cellular but also at the molecular level." (Koch, Christof; "Computation and the Single Neuron," Nature, 385:207, 1997.) Comment. Thus, Dawkins' Mount Improbable is seen to be even higher and more majestic. Can it really be climbed via a random process edited by natural selection? Even if the answer is "yes," we must ask why atoms and molecules have just those properties that permit them to unite in the marvelously complex and sophisticated biological computers described by Koch. From Science Frontiers #114, NOV-DEC 1997 . 1997-2000 William R. Corliss ...
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... to an Itinerant Master," Science, 275:759, 1997.) Cross reference. The distribution of prime numbers is more than strange, see the plot in SF#42/332. What do prime numbers have to do with the real world? Are math and natural science really separate, unlinked disciplines? Pythagoras, 2,500 years ago, decided that: "All is number." He may be right. A strange connection seems to exist between prime numbers and quantum physics. On one side of the chasm that supposedly separates math from physics, we have the prime numbers and the Riemann zeta function, which provides information on how prime numbers are distributed among the other integers. On the "physics" side of the chasm, we have the behavior of complex atomic systems. The chasm seems bridged when one compares the energy levels of an excited heavy nucleus with the distribution of the zeros of the zeta function. Why should this correspondence exist? B. Cipra exclaimed: "Just why number theory and quantum chaos should be soul mates is a mystery for the gods to unveil." (Cipra, Barry; "Prime Formula Weds Number Theory and Quantum Physics," Science, 274:2104, 1996.) Comment. God, well known to be a geometer, evidently also dabbled in prime numbers! From Science Frontiers #111, MAY-JUN 1997 . 1997-2000 William R. Corliss ...
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... in a conjecture: p = log10 (1+ 1/d ) Where p = the probability that the first significant digit is d. This (unproven) equation states that about 30% of the numbers in a table or group will begin with 1. Only about 4.6 % will begin with 9. This result certainly clashes with our expectation that the nine digits should occur with equal probability. Fifty-seven years later, F. Benford, a GE physicist, unaware of Newcomb's paper, observed the same dirty early pages in the logarithm tables. He came up with exactly the same conjecture. Benford didn't stop there. He spent several years collecting diverse data sets -- 20,229 sets, to be exact. He included baseball statistics, atomic weights, river areas, the numbers appearing in Reader's Digest articles, etc. He concluded that his (and Newcomb's ) conjecture fit his data very well. There were notable exceptions, though. Telephone directories and square-root tables didn't support the conjecture. Interestingly, the second digits in numbers are more equitably distributed; the third, even more so. Mathematicians have never been able to prove the Newcomb-Benford conjecture. How could they if it doesn't apply to all tables? Nevertheless, it works for most data sets, and that's still hard enough to explain. (Hill, T.P .; "The First Digit Phenomenon," American Scientist, 86:358, 1998.) From Science Frontiers #120 ...
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... ,000 craters 50 meters in diameter and splashes of debris 150 meters in diameter must occur each. There is no evidence that the moon is thus afflicted. Comets also carry the noble gases argon, krypton, and xenon. These gases should accumulate in the atmosphere as the comets disintegrate. The amounts of these gases actually measured are 10,000 times less than those the postulated bombardment would produce. The icy comets should break up near the earth and produce clouds of ice crystals. Sunlight reflected from such 30-ton clouds would be brighter than Venus and easily visible before they disperse. Such objects are rarely seen, implying that small icy comets do not exist in the numbers claimed. Preceding this series of five papers is one by Frank and Sigwarth in which they describe their detection of atomic oxygen trails near earth. These they attribute to small icy comets. (Various; "Looking for Small Comets -- None Found," Geophysical Research Letters, 24:2429 ++, 1997.) From Science Frontiers #118, JUL-AUG 1998 . 1998-2000 William R. Corliss ...
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... Science Frontiers ONLINE No. 95: Sep-Oct 1994 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects It's according to hoyle and wickramasinghe The June 17, 1994 issue of Science did not ignore it. In fact, this conservative journal devoted almost an entire page to a paper presented by Yi-Jehng Kuan and Yanti Miao at the recent Minneapolis meeting of the American Astronomical Society. Students of L. Snyder, at the University of Illinois, Kuan and Miao reported that the amino acid glycine had been detected in a molecular cloud named Sagittarius B2. Glycine has only ten atoms and is the smallest of the 20 amino acids vital to life-as-we-know-it. The Science article supposed that this discovery of extraterrestrial glycine might reignite speculation that earth life might not be unique after all. (Travis, John; "Hints of First Amino Acid outside Solar System," Science, 264:1669, 1994.) Structure of the amino acid glycine What Science did not mention but New Scientist did is that F. Hoyle and C. Wickramasinghe have long predicted that the molecules of life, as well as life itself, would be found in outer space. Now, after much ridicule, they are being vindicated. "It's been a long hard struggle," said Hoyle. Wickramasinghe remarked that the discovery was "no surprise at all." "He believes it is only a matter of time before other amino acids, together with nucleotide bases, the components of nucleic acids that ...
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... over the last two centuries. April 15, 1978. Over Indonesia. A military satellite watched a colossal daylight fireball that, for one second only, would have rivaled the sun to anyone watching from the ground below and alert to such phenomena. The TNT yield was estimated at 5 kilotons. August 3, 1963. Between South Africa and Antarctica. A huge airburst equivalent to a 500 kilotons was picked up by a worldwide network of acoustic detectors. The cosmic interloper this time was believed to have been a small asteroid about 20 meters in diameter. (Beatty, J. Kelly; "' Secret' Impacts Revealed," Sky and Telescope, 87:26, February 1994. Cr. P. Huyghe. Also: Broad, William J.; "Meteoroids Hit Atmosphere in Atomic-Size Blasts," New York Times, January 25, 1994. Cr. J. Covey) Comment. The Indonesian event mentioned above may be associated with the many recorded instances of transient brightenings of the entire sky (GLA14 in Lightning, Auroras, Noctural Lights ). The 1963 acoustic event might be related to the many mysterious booms or detonations heard down the decades, long before jet planes offended our ear-drums (GSD1 in Earthquakes, Tides, Unidentified Sounds ). Both of the books just mentioned are described here . From Science Frontiers #92, MAR-APR 1994 . 1994-2000 William R. Corliss ...
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... -dimensional time if we are to explain some pressing cosmological anomalies. Redshift differences of double galaxies. The horizontal axis is the redshift difference in kilometers/second. The vertical axis is the number of pairs having a given redshift difference. It all began about 1970 OTL (Our Time Line!), when Tifft 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 from a common origin in three-dimensional time. The "time" that we measure is related to our own line. Time along distinct lines is quantized and can even run at different rates." If you feel as if you are walking on a conceptual quicksand, you are not alone. (Beware, the quicksand may be quantized, too!) Tifft believes that this new sort of cosmology can explain: (1 ) the observed quantized redshifts; (2 ...
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... particle slammed into air molecules, the ensuing debris caused the surrounding atmosphere to fluoresce. The amount of light produced indicated that this cosmic ray had an energy of 3 x 1020 electron volts -- that's equivalent to the energy of a bowling ball dropped from waist level. Now that's a lot of energy for a subatomic particle! Because cosmic rays normally lose energy as they collide with photons in their cosmic wanderings, astrophysicists believe that "the big one" had to have a recent, nearby origin in order to still be so energetic. But no one has any idea where it could have come from or how it might have acquired so much energy. Somewhere out there in nearby space there may be a natural particle accelerator orders of magnitude more powerful than our biggest earthbound atom smashers. (Anonymous; "The Deepening Mystery of Cosmic-Ray Origins," Sky and Telescope, 87:12, May 1994.) Comment. Actually, the source of "the big one" need not have been nearby and recent. All anomalists will recognize that this is an assumption based upon the particle's extremely high energy when it hit the earth. Why couldn't the particle's original energy have been much higher than 3 x 1020 ev? Then, it could have wandered for eons. After all, it is apparent that we are already dealing with an accelerating mechanism far beyond terrestrial experience. Who's to say what its real potential is? Reference. Cosmic-ray anomalies are cataloged in category ATF in Stars, Galaxies, Cosmos ...
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... " that is, instead of a series of single "tones" we detect a series of closely paired frequencies. This is symptomatic of a core that is anisotropic; that is, its properties are different in different directions. J. Tromp, of Harvard, may have de-anomalized both sets of observations with a single theory: "For the shape of the core alone to explain the observations, he says, the shape of the inner core would have to be very unrealistic. Instead, he claims that the inner core behaves like a giant asymmetric crystal, aligned with the Earth's axis so that seismic waves travel faster in that direction. Tromp's analysis fits neatly with suggestions that the inner core is made of a high-pressure phase of iron in which the atoms are close-packed in hexagons, because such a 'sigma' phase is anisotropic." But, asks Tromp, how and why did the core material assume this crystalline character? (Hecht, Jeff; "The Giant Crystal at the Heart of the Earth," New Scientist, p. 17, January 22, 1994.) Comment. How does this big iron crystal jibe with the dynamo theory of the earth's magnetic field? Could Tromp's "giant asymmetric crystal" produce a permanent magnetic field, thereby forcing the supposed dynamo to play second magnetic fiddle? From Science Frontiers #93, MAY-JUN 1994 . 1994-2000 William R. Corliss ...
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... Issues This Issue Sourcebook Project Sourcebook Subjects I Hiss Therefore I Am E.R . Moliner, a neurologist, has written a curious yet provocative article for New Scientist. It is really a not-too-subtle attack on the Anthropic Principle, Darwinism, and science's insistence that the universe must be purposeless. He notes first that most proponents of the Anthropic Principle postulate that, in the beginning (whatever that was!), many different universes may have been created. The only one we observe is the one offering just the right combination of properties for evolving life and, especially, humankind. If this or that physical constant had been a tad different, humans would not have evolved. Even though humans obviously did evolve, it was all purposeless -- just the way atoms and molecules happened to combine. This outlook fits right in with Darwinism, for almost all Darwinists also see evolution as purposeless. It was blind chance that gave us the capabilities to build aircraft and tunnel into opposite sides of a mountain and meet in the middle. Moliner is highly skeptical that such amazing, "cooperative, adaptive" talents could have come about in an unbiased, purposeless universe. Suppose, he asks, vipers were philosophically minded. They might look at their marvelously complex fangs with the canals inside, a nearby poison gland, a poison storage reservoir with special ducts leading to the fangs, a fang-erection mechanism, a set of muscles to squeeze the poison reservoir, and a nervous system to control the whole system, and conclude that there must be an Ophidian ...
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... No. 67: Jan-Feb 1990 Other pages Home Page Science Frontiers Online All Issues Last Issue Next Issue Sourcebook Project Sourcebook Subjects Contents Archaeology New world culture old Fantastic claim by explorer Archeological riddle The ancient-humans-in-europe controversy Astronomy Direct observations of hyperion's chaotic motion A NEW QUASAR DISTANCE RECORD: A NEW EMBARRASSMENT Explaining lunar flashes with life-savers Astronomers up against the "great wall" Biology Dna on cell surfaces Really-deep rivers Geology We live atop a chemical retort Australasian tektites coughed up by a moon of jupiter? Microorganisms complicate the k-t boundary Continuity at the conrad discontinuity Geophysics Eyewitness account of cropcircle formation Possible ball lightning in ankara Psychology Solar activity and bursts of human creativity Geomagnetic activity related to mental activity Psychotherapy may delay cancer deaths Physics A WATCHED ATOM IS AN INHIBITED ATOM General A HUNGARIAN UFO ...
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... Science Frontiers ONLINE No. 54: Nov-Dec 1987 Other pages Home Page Science Frontiers Online All Issues Last Issue Next Issue Sourcebook Project Sourcebook Subjects Contents Archaeology 300,000-YEAR-OLD SITE IN BRAZIL Egyptian pyramids actually made of synthetic stone? Astronomy Icebergs and crouching giants Big-bang bashers Fractals, fractals everywhere Biology Instances of observed speciation Plants are not color blind! Electric-power plants! Honest, this is the last "plant" item! The insects' revenge Geology Now, it's comet showers that did it The changing magnetic climate: does it affect civilizations? Huge underground electrical circuit What heats the earth Geophysics Toads fall to squashy fate Ball lightning in bavaria Psychology A HOAX ADMITTED Esp of atoms? Chemistry and physics Through a peephole tantalizingly Unclassified The uncertainty of knowledge ...
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... Science Frontiers ONLINE No. 19: Jan-Feb 1982 Other pages Home Page Science Frontiers Online All Issues Last Issue Next Issue Sourcebook Project Sourcebook Subjects Contents Archaeology A Prehistoric TVA? The Diffusion of Science in Prehistoric Times Astronomy The Rims of Galaxies Spin Too Fast Problems At the Rim of the Solar System Magic Numbers in Helium-atom Clusters Biology Species Stability is A Real Problem Geology African Fossil Sequences Support Punctuated Evolution Stratum Shuffling At Plate Boundaries Fatal Flaw in Pole-flipping Theory Geophysics Why So Little Lightning At Sea? Psychology Mind Marshals White Blood Cells Anomalous EEG Discharges Magical Communication in the Subatomic World ...
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... Science Frontiers ONLINE No. 124: Jul-Aug 1999 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects The 21-micron mystery The following phenomenon is rather technical and is observable only to those astronomers lucky enough to have an infrared spectrometer aboard a satellite. These privileged scientists "see" strange infrared shrouds centered at 21 microns draped around certain red giant stars. The feature of these infrared shrouds that makes the phenomenon worthy of our attention in SF is the width of the spectrum. It is so wide that it cannot be produced by single atoms or molecules. The shrouds must consist of complex molecules, possibly even solids. The infrared glows are so strong that the elements involved must be common in the universe, in all likelihood carbon and hydrogen. Speculators have fingered polymers, ball-shaped fullerenes, and "nanodiamonds"; i.e ., very tiny diamonds! The debate has scientists repairing to their laboratories where they are trying to find some substance with a spectrum that matches that of the mystery shrouds. (Hellemans, Alexander; "Labs Hold the Key to the 21-Micron Mystery," Science, 284:1113, 1999.) Comment. Are not biological materials rich in carbon and hydrogen? This reminds us of F. Hoyle's books: Lifecloud and Diseases from Space , wherein outer space is characterized as teeming with prebiotic molecules, bacteria, and even-more-bizarre life forms. From Science Frontiers #124, JUL-AUG 1999 . 1999-2000 William R. Corliss ...
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