Science Frontiers
The Unusual & Unexplained

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Science Frontiers is the bimonthly newsletter providing digests of reports that describe scientific anomalies; that is, those observations and facts that challenge prevailing scientific paradigms. Over 2000 Science Frontiers digests have been published since 1976.

These 2,000+ digests represent only the tip of the proverbial iceberg. The Sourcebook Project, which publishes Science Frontiers, also publishes the Catalog of Anomalies, which delves far more deeply into anomalistics and now extends to sixteen volumes, and covers dozens of disciplines.

Over 14,000 volumes of science journals, including all issues of Nature and Science have been examined for reports on anomalies. In this context, the newsletter Science Frontiers is the appetizer and the Catalog of Anomalies is the main course.


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... Science Frontiers ONLINE No. 102: Nov-Dec 1995 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects 2,000,000,000 BC: THE EPOCH OF QUASARS Quasars are remarkable astronomical objects. Discovered only 30 years ago, they are the most luminous entities in the universe. Supposedly powered by a black hole, each quasar emits hundreds of times more energy than all the billions of stars in the Milky Way. Just how a quasar works is surmise. What we now know from two surveys by two different groups of astronomers is that most quasars have redshifts between 2 and 3. In the theoretical framework of the expanding universe, redshifts are proportional to recessional velocity, distance from the observer, and age. From the redshifts, it seems that the quasar epoch spanned the period 1.9 -3 .0 billion years, based on an age of 15 billion years for the universe. Assuming the accuracy of this scenario, cosmologists now have to explain why quasars were born and flourished in such a narrow time slot. Did something fundamental change in the universe between 1.9 and 3.0 billion years ago? (Kaiser, Jocelyn; "Epoch of Quasars," Science, 269:637, 1995. Wilford, John Noble; "New Survey of Sky Finds Most Quasars are Equally Ancient," New York Times, August 8, 1995, Cr. J. Covey) Comments. Anomalists cannot fail to remark that the above discussion hinges upon four concepts: black holes, an expanding universe, ...
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... Science Frontiers ONLINE No. 38: Mar-Apr 1985 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Quasar, quasar, burning bright; what shifts your spectral light?T. Heckman, of the University of Maryland, has ordained that the apostles of noncosmological redshifts must now recant. He and his colleagues believe that they now have the most convincing demonstration to date that quasar redshifts are of cosmological origin; that is, the larger the redshift, the faster the quasar is receding and the farther away it is. "Availing themselves of the extraordinary new imaging and spectroscopic capabilities of charge-coupled-device (CCD) detectors, they have measured the redshifts of 19 nebulous objects that appear to be companion galaxies of 15 relatively low-redshift quasars. Observing at the Kitt Peak 4-meter telescope, they have determined that, in 18 of these 19 cases, the apparent companion has a redshift very close to that of the quasar. While Burbidge, Arp and their partisans may argue that quasars are so peculiar that they can generate redshifts of unknown origin, this position becomes difficult to maintain for companion galaxies that otherwise look perfectly ordinary." H. Arp and G. Burbidge, chief among those ordered to recant, are not convinced. Arp points to many cases where bridges of luminous material connect high-redshift quasars with low redshift galaxies. Also, the clustering of quasars around nearby galaxies supports the nearness of quasars. As Burbidge has observed, if: ". .. just one large redshift is not due ...
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... Science Frontiers ONLINE No. 35: Sep-Oct 1984 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects A Quick Quasar Quasar 4C29.45 threatens to make quasars even harder to understand. Quasars have always appeared to emit too much energy for their size; that is, our present knowledge of physics does not provide us with a mechanism for generating such huge energy densities. Now, quasar 4C29.45 comes along and pulsates on time scales of 30 minutes and less. These pulsations are sharp and not spread out timewise, implying that quasar 4C29.45 must be smaller than 30 light-minutes in size -- otherwise the disturbance causing the pulsation would have to travel faster than light. On the night of April 10, 1981, the situation (already bad) worsened, when brightness jumps of 0.2 magnitude occurred nearly instantaneously. Conclusion: quasar 4C29.45 may be only lightseconds in diameter, which should really by physically impossible. The anonymous author of this item ventures that: ". .. since the real nature of quasars is unknown, it is uncertain how they can or cannot behave." (Anonymous; "A Quick Quasar," Sky and Telescope, August 1984.) Comment. Perhaps we have been naive in thinking that the laws of physics determined how things can and cannot behave. Evidently these laws are not as secure as we have been led to believe! Note in passing: the quasar impasse would be easier to bridge if quasars were very close instead of as distant as their ...
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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 NEW QUASAR DISTANCE RECORD: A NEW EMBARRASSMENT A quasar has been detected with a redshift of 4.73. If this redshift is interpreted as a measure of the quasar's distance (Who would risk his reputation by suggesting otherwise?), it is 14 or billion light years away. If the Big Bang is assumed (Who would risk..etc?), this quasar is only about a billion light years from the edge of the universe. Its age, then, is only a billion years. But this stripling of a quasar appears perfectly "normal" with no signs of youth! Its spectrum indicates that even at this young age, the elements were present in the same abundances found in older quasars. And, of course, at this quasar's core there must be a billion-solar-mass black hole (Who would risk..etc.?). Current theory is hardpressed to explain this very rapid evolution of a "normal" quasar with its immense black hole. (Peterson, I.; "Quasar Illuminates the Most Distant Past," Science News, 136: 340, 1989.) Comment. Could it be that our fanatically held ideas about redshifts, black holes, and Big Bangs are wrong? You bet it could! Reference. The redshift controversy the the anomalies that create it are cataloged in: Stars, Galaxies, Cosmos. Ordering information here ...
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... Science Frontiers ONLINE No. 34: Jul-Aug 1984 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects A Gathering Of Quasars The universe is supposed to be approximately uniform in all directions -- the evenly distributed smoke from the Big Bang. Halton Arp, an energetic opponent of the standard cosmological view, points out that quasars are socializing in disgracefully large numbers in one region of the sky. In the direction of the so-called Local Cluster of galaxies, between redshifts 1.2 -2 .5 , there are roughly four times as many quasars per unit volume as in the other parts of the sky. This unexpected clumping of quasars affects a region 1,3000 million light years in diameter and 4.875 million light years deep, a rather substantial chunk of the cosmos. Arp's discovery places astronomy in a no-win situation. Either the distribution of quasars is too clumpy for current theory or the redshift/distance law is wrong. Neither situation makes astronomers very happy. (Anonymous; "Quasars and Quasi Quasars," New Scientist, p. 20, May 17, 1984.) From Science Frontiers #34, JUL-AUG 1984 . 1984-2000 William R. Corliss ...
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... Science Frontiers ONLINE No. 29: Sep-Oct 1993 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Another Quasar Enigma Astronomer A.P . Fairall has reported an "impossible" physical situation -- a strong scientific anomaly. It seems that a Seyfert galaxy (a very low-luminosity quasar) emits forbidden spectral lines that vary in intensity about every 30 minutes. It is not the "forbidden" character of the spectral likes that disturb the astronomers. (" Forbidden" simply means "improbable" in spectroscopy!) Rather, it is the half-hour variations that pose the dilemma. This is because most astronomers are convinced that the said forbidden lines are emitted by regions of the quasar that are 100-10,000 light years across. A disturbance or physical change leading to a variation in intensity, even travelling at the speed of light, could not begin to move across this huge region in half an hour. Yet, the changes in intensity seem to be there, inferring a physical change that travels perhaps a million times faster than physics permits. Variations in intensity decades long would be acceptable, but half an hour is out-of-the-question! The author of this referenced comment in Nature believes that the observational procedures employed must be at fault. (Gaskell, C. Martin; "Spectra That Defy Explanation," Nature, 304:212, 1983.) Comment. This possible anomaly is closely related to the so-called superluminal velocities also observed in quasars, in which ...
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... Science Frontiers ONLINE No. 42: Nov-Dec 1985 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects A Large Quasar Inhomogeneity In The Sky "In an area roughly 20 x 70 on the sky, there exists an excess of bright, high-redshift quasars. Quasars with this distribution of apparent magnitude and redshift have a negligible chance of being drawn from the population of quasars present in other areas of the sky. At a mean redshift distance corresponding to their average z = 2, these quasars would represent an unprecedented inhomogeneity over enormous volumes of space in the universe." It is difficult for astronomers to accept such a large "bubble" in the cosmos, because the Big Bang Theory basically produces a "smooth" universe. The author of this paper, H. Arp, comments that the size of the inhomogeneity could be shrunk considerably if redshifts were not taken as measures of distance. (Arp, Halton; "A Large Quasar Inhomogeneity in the Sky," Astrophysical Journal, 277:L27, 1984.) From Science Frontiers #42, NOV-DEC 1985 . 1985-2000 William R. Corliss ...
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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 "Redshift is A Shaky Measuring Rod"So saith M. Burbidge, an astronomer at the University of California at San Diego. Her assertion echoes what Arp has been proclaiming for years. (AR#3 ); namely that some redshifts are not due to the Doppler effect and an expanding universe. Since redshift is the major cosmological yardstick, the whole fabric of modern cosmology would become unwoven if redshifts cannot be used to measure distances reliably. We bring this subject up once more because Burbidge claims that some newly discovered quasar pairs cast additional doubt on redshift distance measurements. For example, she, along with Arp and Y. Chu, point to the quasar pair flanking the galaxy named Arp 220 (one of Arp's earlier discoveries). Quasars are very energetic sources of visible light, radio waves, and X-rays. The problem with Arp-220's flanking quasars is that they have much greater redshifts than the galaxy that seems to be situated in between them and likely at the same distance. Is this just a chance association, and the quasars are really much farther away than the galaxy -- as suggested by their high redshifts? Most astronomers believe this must be the case, but Burbidge and, of course, Arp, doubt it. They point to 10 other galaxies nearby that are also straddled by quasar pairs with higher redshifts. All of these were discovered within the last four years ...
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... Science Frontiers ONLINE No. 84: Nov-Dec 1992 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects QUASAR REDSHIFT CLUSTERS AND (EVEN WORSE) MULTIPLE REDSHIFTS At the XIIIth Krakow Summer School of Cosmology, September 7-12, 1992, many of the world's top cosmologists experienced the disorientation that accompanies both earthquakes and shifting paradigms. Two of many cosmoseisms felt during the meeting in Poland are recorded below: "Halton Arp, Max-Planck Institute for Astrophysics, spoke about his "Variable Mass" cosmology. He pointed out the need for cosmologies to explain why quasar redshifts cluster near 0.3 , 0.6 .. ., with the grouping just below z = 1.2 dominating all others; and why certain classes of stars have significant excess redshifts. He also pointed out the inconsistency that local galaxy groups seem to have velocity dispersions of less than 100 km/s , while distant groups seem to have members with dispersions up to 1000 km/s . "Jack Sulentic spoke about multiple redshifts seen in some quasars and AGNs. Line profiles come in all types; symmetric, double-peaked, and asymmetric. Relative shifts are both toward the red and the blue. Arguments against an accretion disk/black-hole model were reviewed. Apparently a non-Doppler redshift-blueshift mechanism is needed. For example, one broad line (in 1404+ 28) shifts back and forth by 1000 km/s relative to another narrow H-line, with an average offset of 2000 km/ ...
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... Radio Sources AOF21 Gamma-Ray Objects AOF22 Galactic Sources of Unidentified Radiation AOF23 White-Dwarf Anomalies AOF24 Globular-Cluster "Age' Anomalies AOF25 Infrared Bursters AOF26 Stellar "Age" Anomalies AOF27 Higher Masses of Smaller White Dwarfs AOF28 Historical Disappearance of Stars AOF29 Gamma-Ray Bursters AOF30 X-Ray Bursters AOO EXTENDED GALACTIC OBJECTS AOO1 X-Ray Rings AOO2 Nebular Jets AOO3 The North Polar Radio Spur AOO4 Triangular Appearance of Stars in Telescopes AOO5 Puzzling Nature of Bok Globules AOO6 Jets from Young Stars AOO7 The Red Rectangle AOO8 Herbig-Haro Objects AOO9 Molecular-Cloud Rings AOO10 Infrared Cirrus Clouds AOO11 Diffuse Cartwheel-Like Structures AOX STELLAR-ECLIPSE PHENOMENA AOX1 Anomalous Precession of Eclipsing Binaries AOX2 Anomalous Stellar-Eclipse Light Curves AOX3 Sudden Onsets and Cessations of Stellar Eclipses AP PLUTO Titles not yet posted AQ QUASARS AQB QUASAR CLUSTERING AND ASSOCIATIONS WITH GALAXIES AQB1 Quasar-Galaxy Juxtaposition AQB2 Quasar Pairs Straddling Galaxies AQB3 Anisotropic Distributions of Galaxies AQB4 Apparent Physical Connections between Quasars and Galaxies AQB5 Quasar Alignments AQB6 Pairs and Clusters of Quasars AQF ANOMALIES DETECTED THROUGH QUASAR RADIATION AQF1 Initial Increase of Bright Quasars with Redshift AQF2 Quantization of Quasar Redshifts AQF3 Possible Redshift Cutoff for Quasars AQF4 Flat Distribution of Faint Quasars AQF5 The Quasar Energy Paradox AQF6 Absence of Blue-Shifted Quasars AQF7 Anomalous Redshifts of Quasar Absorption Lines AQF8 Quasar Variability: Origin and Implications AQF9 Unresolved Nature of Blazers (BL Lacertae) AQO QUASAR MORPHOLOGY AND COMPONENT DYNAMICS AQO1 Quasar Fuzz: What Is It? AQO2 Anomalies of Quasar Radio-Jet Structures AQO3 Superluminal Velocities in Quasars AR SATURN ARF SATURN'S INTRINSIC RADIATION ARF1 The Saturn Electrostatic Discharges (SEDs) ARF2 ...
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... Science Frontiers ONLINE No. 79: Jan-Feb 1992 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Whence the x-ray background?A persistent problem needling astronomers has been the diffuse X-ray background radiation; that is, that flux of X-rays that pervades the universe but which seems to come from no place in particular. Distant quasars are thought to contribute some of this diffuse X-ray flux but, even with recent quasar discoveries, there are just not enough of them to account for the X-rays observed. To make matters worse, quasar X- ray spectra do not match that of the X-ray background either, particularly at very short wavelengths. Superimposed on the general X-ray background are discrete X-ray sources separated by extended blobs of X-ray emitting material. If these blobs are really clumps of clumps of quasars too close to be separated by our instruments, the Big Bang model is at risk, for it cannot account for large, organized assemblages of quasars. (Powell, Corey S.; "X -Ray Riddle," Scientific American, 264:26, March 1991.) From Science Frontiers #79, JAN-FEB 1992 . 1992-2000 William R. Corliss ...
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... Science Frontiers ONLINE No. 65: Sep-Oct 1989 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Sweeping Anomalies Under The Rug A series of articles in the science magazine Mercury so slavishly followed the scientific party line on the meaning of the redshift that G. Burbidge was prompted to pen a rejoinder. Burbidge reviewed the considerable observational evidence supporting a non-cosmological interpretation of some redshifts. (Such data has been included in past issues of Science Frontiers and in our Catalog Stars Galaxies, Cosmos.) A typical observation is the apparent physical connection (streams of connecting matter) between quasars and galaxies with radically different redshifts. Burbidge remarks: "Evidence of this kind exists. If it is accepted it means: That at least some quasars do lie at so-called cosmological distances. That at least some parts of the redshifts of quasars are due to some effect other than the expansion of the universe. That quasars are physically related to bright, comparatively nearby galaxies." Burbidge is not concerned by the fact that some astronomers find the data unconvincing, rather he objects to the so-obvious attempts to brush such anomalous data under the rug. His concluding remarks are pertinent to all of science: "I cannot end this part of the discussion without making two points which are rarely made, but which are important: Evidence of the kind just mentioned which is favorable to the cosmological interpretations of the redshifts does not negate the other evidence. It simply means that the world is a complicated place. Only in articles of this ...
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... Science Frontiers ONLINE No. 52: Jul-Aug 1987 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects "COMPACT STRUCTURES": WHAT NEXT?We know that immense molecular clouds drift through interstellar space, but a new denizen has now made itself known through its ability to diffract quasar radio signals. Although constituted only of ionized gases, these new objects are called "compact structures." "' Compact means that these objects are about as big as the earth's orbit around the sun, and therefore larger than all but the biggest stars. They are, however, much smaller than the clouds that previous observations have detected in interstellar space. They reveal their presence by diffracting the radio waves coming from distant quasars. .. .. . "The objects move too fast to be near the quasar -- to be that far away, they would have to go at 500 times the speed of light -- so the observers conclude that they are in our own galaxy. Previous observers didn't see them, [R .L .] Fiedler says, because they didn't observe the same quasar at close enough intervals." If these ionized clouds are spherical. they have masses comparable to the asteroids; but, if they are elongated, their mass is anyone's guess. No one knows how they are formed, how long they last, or where the energy comes from to maintain them in an ionized state. Extrapolating from the five instances recorded so far, the observers speculate that these ...
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... Science Frontiers ONLINE No. 1: September 1977 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Four Extragalactic Sources Expand Faster Than Light Three quasars and one galaxy possess structures that apparently expand faster than light. The sizes of the three qua sars were measured over periods of time by Very Long Baseline Interferometers (VLBIs). In the case of quasar 3C279, the apparent velocity of expansion was ten times that of light. The quasars all have rather large redshifts, indicating great distances from earth, but the lone galaxy displaying "superluminal" expansion has a redshift of only 0.032. This fact suggests that superluminal velocities cannot be employed as arguments against redshifts being cosmological; that is, measures of distances from earth. Therefore, if the redshift is truly a measure of distance (as it seems to be), some astronomical structures (perhaps not matter itself) seem to grow faster than the velocity of light. (Cohen, M.H ., et al; "Radio Sources with Superluminal Velocities," Nature, 268:405, 1977.) From Science Frontiers #1 , September 1977 . 1977-2000 William R. Corliss ...
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... Science Frontiers ONLINE No. 37: Jan-Feb 1985 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Flip-flop radio jets?Many radio galaxies and quasars are found to have a double-lobed structure, with one lobe on one side of the nucleus and another diametrically opposite. When examined in detail, these lobes turn out to be quite different in size, shape, and intensity. In particular, very bright regions on one lobe often correspond to gaps or regions of low brightness on the other. So striking are these asymmetries that astronomers think that these huge, tremendously energetic systems are ejecting material first from one side then the other. Somehow, one side of the galaxy or quasar communicates with the other, which may be many light years away, and coordinates a flip-flop action. How and why radio galaxies and quasars should flip-flop is a major mystery. (Anonymous; "Flip-Flop Radio Jets?" Sky and Telescope, 68:506, 1984.) Comment. This flip-flop action immediately recalls the great elliptical galaxies which seem to be shooting out shells of stars first from one end, then the other. From Science Frontiers #37, JAN-FEB 1985 . 1985-2000 William R. Corliss ...
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... . 75: May-Jun 1991 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Of iron whiskers and particles that increase mass with age!Two pillars of the Big Bang hypothesis are: (1 ) Redshifts of galaxies support the notion of an expanding universe; and (2 ) The background microwave radiation can be interpreted as the dying embers of the Big Bang itself. Proponents of the Big Bang feel secure atop these pillars. But should they? A few Big-Bang skeptics, who have survived considerable establishment pressure, see growing cracks in those pillars. J. Narlikar identified two such cracks and, best of all, offered exciting remedies: (1 ) The redshift relationship, which works well with galaxies, falls apart when applied to quasars (see graphs); and (2 ) The background microwave radiation is much too smooth to come from the lumpy universe we observe. Narlikar opines as follows: Plot of red shift versus galaxy faintness supports the proposition that red shift is proportional to distance The same plot for quasars produces a scatter of points, suggesting that here red shifts have nothing to do with distance. "Given these problems, it is not a sound strategy to put all of our cosmic eggs in one big-bang basket. Rather, we should explore other possibilities. Thirty years ago, there was a more open debate on alternative theories, which made valuable contributions to our undersanding of cosmology. For a healthy growth of the subject, the big bang hypothesis needs competition from other ideas." Some of ...
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... This dismemberment of the Large Magellanic Cloud cannot be explained by the gravitational forces exerted by the stars in our galaxy that we can see. Lin calculates that our halo of dark matter is equivalent to 600-800 billion solar masses, compared to the only 100 billion solar masses of visible matter. (Flam, Faye; "Spinning in the Dark," Science, 260:1593, 1993. Also: Anonymous; "' Dark Matter' Is Observed 'Cannibalizing' a Galaxy," Baltimore Sun, p. 8A, June 8, 1993.) The dark matter surrounding a galaxy will, according to the Theory of Relativity, act as a gravitational lens that will deflect light rays passing near it. This dark matter, acting like a telescope, should increase the number of quasars counted in the sky near galactic clusters. Such larger quasar counts are indeed observed, but these increases are much larger than expected. The implication is that there is much more dark matter in the universe than previously thought. (Cowen, Ron; "Quasar Count Poses Dark-Matter Puzzle," Science News, 143:397, 1993.) Finally, dark matter is forcing scientists to reexamine the Equivalence Principle, which asserts that gravitational mass (as in Newton's Law of Gravitation) is identical to inertial mass (as in Newton's Force = Mass X Acceleration). In terrestrial experiments, the two kinds of mass are equal, but on a cosmological scale, they may not be. There could be an extra, small (10%), longrange ...
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... Science Frontiers ONLINE No. 101: Sep-Oct 1995 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects The great exodus Those who believe that the universe is populated by many technically advanced civilizations have long wondered why we earthlings have not been officially invited to join the Intergalactic Federation. Where are those extraterrestrial emissaries anyway? Unfortunately, the extraterrestrial traffic seems to be going at warp speed in the wrong direction. Instead of interstellar spaceships converging on earth full of helpful aliens, everyone (or everything) seems to be fleeing our environs. The proof positive is in all those quasars with high redshifts. In reality, they are not energetic astronomical objects but rather spaceships emitting great power fluxes in our direction from their engines. Earthbound astronomers are really viewing the aft ends of rapidly receding spacecraft. No one ever sees any blueshifted quasars that would tell us that visitors are coming to see us! We are thus truly alone in space, perhaps "deserted" is a better word. What did we do wrong? (Duncan, Dave; "What Do They Know?" New Scientist, p. 52. May 13, 1995.) From Science Frontiers #101 Sep-Oct 1995 . 1995-2000 William R. Corliss ...
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... editor of the Meta Re search Bulletin, has compiled a list of Big-Bang problems -- and it is not a short list. Can the Big-Bang paradigm be that shaky? Like Evolution and Relativity, the Big Bang is usually paraded as a proven, undeniable fact. It isn't . Static-universe models fit the data better than expanding-universe models. The microwave "background" makes more sense as the limiting temperature of space heated by starlight than as the remnant of a fireball. Element-abundance predictions using the Big Bang require too many adjustable parameters to make them work. The universe has too much largescale structure (interspersed "walls" and voids) to form in a time as short as 10-20 billion years. The average luminosity of quasars must decrease in just the right way so that their mean apparent brightness is the same at all redshifts, which is exceedingly unlikely. The ages of globular clusters appear older than the universe. The local streaming motions of galaxies are too high for a finite universe that is supposed to be everywhere uniform. Invisible dark matter of an unknown but non-baryonic nature must be the dominant ingredient of the entire universe. The most distant galaxies in the Hubble Deep Field show insufficient evidence of evolution, with some of them apparently having higher redshifts (z = 6-7 ) than the faintest quasars. If the open universe we see today is extrapolated back near the beginning, the ratio of the actual density of matter in the universe to the critical density must differ from unity by just one ...
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... Science Frontiers ONLINE No. 38: Mar-Apr 1985 Other pages Home Page Science Frontiers Online All Issues Last Issue Next Issue Sourcebook Project Sourcebook Subjects Contents Archaeology Who Built the East Bay Walls? Ancient Engineering Feat Antarctica Revisited, Hapgood Acknowledged Astronomy Quasar, Quasar, Burning Bright; What Shifts Your Spectral Light? Unidentified Object Young Interplanetary Dust Neptune's Incomplete Ring Biology Whales and Dolphins Trapped Magnetically Listening with the Feet Life in the Dark Bad Year for Water Monsters Geology Galloping Glaciers Geophysics: The Sick Man of Science Geophysics Ball Lightning and Blue Flashes Green Cloud with Light Rays Still Another Mystery Cloud The Sounds That Shouldn't Have Been Expanding Phosphorescent Rings Two Snowflake Anomalies Psychology Hypnosis and Memory The Subtle Placebo ...
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... Science Frontiers ONLINE No. 56: Mar-Apr 1988 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects How To Be Unfamous In Astronomy When Sky and Telescope devotes almost five full pages to a new book, you may be sure that something important has happened. The book is H. Arp's Quasars, Redshifts, and Controversies . We know that we have perhaps overplayed the shakiness of the redshiftdistance hypothesis and the fizzling of the Big Bang, but our whole cosmological outlook is at stake. Now, rather than review again the scientific pros and cons (you can read Arp's book for that), we will be content here with a few comments about how science has failed to work well in Arp's case. G. Burbidge, who reviews the book, recalls how the politics of science works in the following quotation: ". .. the important factors for a successful career are your sponsors (where and with whom did you get your Ph.D ); field of research (popular or unpopular); and diplomatic skills (always speak quietly with great conviction, and, when in doubt, agree with the wisest person present, who by definition must come from one of the the very few [recognized] institutions). Look upon new ideas with great disapproval and never discover a phenomenon for which no explanation exists, and certainly not one for which an explanation within the framework of known physics does not appear to be possible." Arp played this game for 29 years at the Mount ...
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... Science Frontiers ONLINE No. 31: Jan-Feb 1984 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects An orphan superluminal glob?Radioastronomical observations of quasar 3C345 have picked out a glob of material that seems to be travelling at between 13 and 17 times the velocity of light. (Such "superluminal" speeds may be apparent and not physically real.) This speedy mass of material is not moving radially away from 3C345 and even seems to be accelerating! Although this glob may have been ejected from 3C345 and followed a curved path, its present path may imply a different origin. (Moore, R.L ., et al; "Superluminal Acceleration in 3C345," Nature, 306:44, 1983.) Comment. We classify superluminal velocities as anomalous until their real nature is established. But here we have the added anomalies of acceleration and a possible extra-quasar origin. From Science Frontiers #31, JAN-FEB 1984 . 1984-2000 William R. Corliss ...
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... observation or experiment, to a later situation that is also known. That is the way physical laws are tested. In the currently popular form of cosmology, by contrast, the physical laws are regarded as already known and an explanation of the later situation is sought by guessing at parameters appropriate to the initial state. We think this approach does not merit the high esteem that cosmologists commonly accord it." We have neither the space nor the expertise to lay out before you the details of the new Burbidge-Hoyle-Narlikar cosmology. Suffice that it involves black holes residing in galactic centers performing as "minicreation" centers, thereby replacing the one-time Big Bang creation event. The aspect of the new theory that amazes the most is the acceptance of the Arp heresy: that some quasars possess intrinsic red shifts not associated with the expanding universe. They write: "Nonetheless, observations over many years have accumulated good statistical evidence that many high-redshift quasars are physically associated with galaxies with very much smaller redshifts." So, at least some prominent scientists accept Arp's conclusions. (Burbidge, Geoffry, et al; "A Different Approach to Cosmology," Physics Today, 52:38, April 1999.) Comment. "Minicreation events"? Creation is creation, whether the events are big or small! From Science Frontiers #124, JUL-AUG 1999 . 1999-2000 William R. Corliss ...
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... tries to express the unity of nature from the smallest to the largest realms. One characteristic of the realms even smaller than that of the flower 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. Somewhat 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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... from reviews: "It is an unusual book, nicely executed, and I recommend it highly", Icarus. 288 pages, hardcover, $17.95, 66 illustrations,4 indexes 1986. 874 references, LC 86-60231, ISBN 915554-20-8 , 7x10 format. Stars, Galaxies, Cosmos: A Catalog of Astronomical Anomalies Sorry: Out of Print. No longer available. Did the Big Bang really begin the existence of all we know? Do we honestly know how the stars (and our sun) work? Can we rely on Newton's Law of Gravitation? According to this volume the answer seems to be "Probably not ! " Typical subjects covered: Optical bursters and flare stars * Estorical color change of Sirius * Infrared cirrus clouds * Quasar-galaxy associations * The red-shift controversy * Quantization of red shifts * The quasar energy paradox * Apparent faster-than-light velocities in quasars and galaxies * Evidence for universal rotation * Swiss cheese structure of universe * Is the "missing mass" really missing ? * Superluminous infrared galaxies * Shells around elliptical galaxies Comments from reviews: ". .. it never fails to be interesting, challenging and stimulating", New Scientist 246 pages, hardcover, $17.95, 50 illustrations, 4 indexes 1987. 817 references, LC 87-60007, ISBN 915554-21-6 , 7x10 format. Handbooks Mysterious Universe: A Handbook of Astronomical Anomalies Sorry, Out of print Our Astronomy Handbook covers much the same ground as the three preceding Astronomy Catalogs, but in ...
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... Science Frontiers The Book Strange reports * Bizarre biology * Anomalous archaeology From New Scientist, Nature, Scientific American, etc Archaeology Astronomy Biology Geology Geophysics Mathematics Psychology Physics Science Frontiers The Book Contents Science Frontiers is an indexed compilation of the first 86 issues of our Science Frontiers newsletter . Chapter 1. Archeology: Ancient Engineering Works * Small Artifacts * Epigraphy and Art * Bones and Footprints * Diffusion and Culture. Chapter 2. Astronomy: Planets and Moons * Solar System Debris * Stars * Galaxies and Quasars * Cosmology. Chapter 3. Biology: Humans .* Other Mammals * Birds * Reptiles and Amphibians * Fish * Arthropods * Invertebrates * Plants and Fungi * Microorganisms * Genetics * Origin of Life * Evolution. Chapter 4. Geology: Topography * Geological Anomalies * Stratigraphy * Inner Earth. Chapter 5. Geophysics: Luminous Phenomena* Weather Phenomena * Hydrological Phenomena * Earthquakes * Anomalous Sounds * Atmospheric Optics. Chapter 6. Psychology: Dissociation Phenomena * Hallucinations * Mind - Body Phenomena * Hidden Knowledge * Reincarnation * Information Processing * Psychokinesis. Chapter 7. Chemistry, Physics, Math, Esoterica: Chemistry * Physics * Mathematics. Comments from reviews: "This fun-to-read book may lead some to new scientific solutions through questioning the phenomena presented", Science Books and Films Publishing details: 356 pages, paperback, $18.95, 417 illus., subject index, 1994. 1500+ references, LC 93-92800 ISBN 0-915554-28-3 , 8.5 x 11. Order From:The Sourcebook Project P.O . Box ...
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... Science Frontiers ONLINE No. 29: Sep-Oct 1993 Other pages Home Page Science Frontiers Online All Issues Last Issue Next Issue Sourcebook Project Sourcebook Subjects Contents Archaeology South American-polynesian Contacts At Easter Island The Ancient Horsemen Astronomy Another Quasar Enigma Sedimentary Rocks on Venus? Biology Porpoise Stun Gun Genes Aren't Everything Life Beyond 100 c Geology Nitrate Deposits Defy Rational Explanation Episode of Steep Geomagnetic Inclination Geophysics Astronomy and Earthquakes Satan's Storm Psychology Solving Problems in Your Sleep Unclassified Temptations of Numerology ...
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... Science Frontiers ONLINE No. 34: Jul-Aug 1984 Other pages Home Page Science Frontiers Online All Issues Last Issue Next Issue Sourcebook Project Sourcebook Subjects Contents Archaeology Ancient Wisconsin Astronomers The Guadeloupe Skeleton Revisited Pouring A Pyramid A Demurrer From the Epigraphic Society Ancient Old-world Lamps Turn Up in New England Astronomy Does String Hold the Universe Together? The Big Bang As An Illusion A Gathering of Quasars Biology Our Aquatic Phase! Dna even more promiscuous A Note on Perfect Pitch Sunspots and Disease Are Parasites Really the Masters? Geology The Carbon Problem Behind Magnetic Flip-flops Geophysics Aggressive Ball Lightning Low-level Aurora? The Marfa Lights Psychology The Mind's Control of Bodily Processes Hostage Hallucinations Techno-jinx Unclassified Strange Object in the Sky ...
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... Science Frontiers ONLINE No. 35: Sep-Oct 1984 Other pages Home Page Science Frontiers Online All Issues Last Issue Next Issue Sourcebook Project Sourcebook Subjects Contents Archaeology Ancient Egyptians in Hawaii Sinister Development in Ancient Greece Man the Scavenger A Different Way of Looking At the Universe Astronomy A Quick Quasar Monster Star Lurks Nearby Halley's Comet is Winking At Us Galactic Radiation Belt? Biology Dolphins to the Rescue -- again! Gravity and Going Around in Ellipses Getting the Pouch Right Are Bluebloods More Often Type A? Mind Before Life Caenorhabditis Elegans The Chinese Wild Man Geology An Extraordinary Peat Formation Confusing Seismic Data From the Deep Continental Crust Geophysics Infrared Atmospheric Waves Burning Mass Falls in B.C . Psychology The Immune System As A Sensory Organ Parapsychology: A Lack-of-progress Report Chemistry & Physics Blooms in the Desert? ...
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... Science Frontiers ONLINE No. 42: Nov-Dec 1985 Other pages Home Page Science Frontiers Online All Issues Last Issue Next Issue Sourcebook Project Sourcebook Subjects Contents Archaeology Immense Complex of Structures Found in Peru Great Pyramid Entrance Tunnel Not Astronomically Aligned More Pyramid Caveats Astronomy A Large Quasar Inhomogeneity in the Sky Double-star System Defies Relativity Peace and Sunspots The Missing Sunspot Peak A Different Way of Looking At the Solar System Origin of the Moon Debated Biology Ri = Dugong; Doggone! Can Spores Survive in Interstellar Space? Fungus Manufactures Phony Blueberry Flowers Music in the Ear Guiding Cell Migration Remarkable Distribution of Hydrothermal Vent Animals Trees May Not Converse After All! Geology Feathers Fly Over Fossil 'Fraud' Sand Dunes 3 Kilometers Down The Night of the Polar Dinosaur Geophysics The Sausalito Hum Mysterious Hums: the Sequel Psychology Left-handers Have Larger Interbrain Connections Geomagnetic Activity and Paranormal Experiences Taking Food From Thought Logic & Mathematics The Fabric of Prime Number Distribution Chemistry & Physics Speculations From Gold ...
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... Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects What is it? a black hole, of course!Radio-telescope measurements of the compact radio source, churning away in the center of our Galaxy, reveal that it is only 20 AU in diameter at radio wavelengths of l.35 centimeters. This is roughly the size of the solar system inside Saturn's orbit. This tiny radio source is so energetic that there seems no escaping the conclusion that it is a blackhole. No other astronomical object is capable of generating so much energy in so small a volume. Since other galaxies also seem to harbor small, but very powerful radio sources in their centers, astronomers wouldn't be too surprised if all galaxies had black-hole cores. Quasars, in fact, might be galaxies with spectacularly active centers. Would these unseeable black holes be the notorious "missing mass" in the universe? Not likely. The mass of the purported black hole in our Galaxy is only about several million solar masses-- not even close to what is needed. (Maddox, John; "Black Hole at the Galactic Centre," Nature, 315:93, 1985.) Comment. Actually, it would be rather amusing if the problem of the missing mass, which we cannot see, were solved by black holes, which we cannot see either! Reference. Black holes and other cosmological entities are discussed in our Catalog: Stars, Galaxies, Cosmos. to order the book, visit: here . From Science Frontiers #40 ...
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... Science Frontiers ONLINE No. 56: Mar-Apr 1988 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Celestial mirages?Those mysterious giant blue arcs mentioned above have at least two explanations. The less-favored states that the arcs are formed when a spherical light pulse from a briefly flaring quasar encounters a plane of gas and dust. This matter scatters the light, making it visible to us as a huge arc. The preferred model employs gravitational lensing. Here, the arcs are simply distorted images -- mirages, if you want -- of distant galaxies. (Two of the many reports on this subject are: Waldrop, M. Mitchell; "The Giant Arcs Are Gravitational Mirages," Science, 238:1351, 1987; and Anonymous; "Giant Arcs: Light Echoes or Lensed Galaxies?" Sky and Telescope, 75:7 , 1988.) Comment. A bit of background: according to Einstein, the presence of matter can bend light rays, just as our atmosphere does when mirages are created by refraction. Gravitational mirages of celestial objects are thus predicted by Relativity. From Science Frontiers #56, MAR-APR 1988 . 1988-2000 William R. Corliss ...
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... Science Frontiers ONLINE 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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... the disparities in redshifts may actually be due to the related objects flying apart from each other. In the illustration, the small companion might have been "shot out" of its parent galaxy at high velocity by some unappreciated galactic gun. (Arp, Halton C.; "Related Galaxies with Different Redshifts?" Sky and Telescope, 65:307, 1983.) Comment. Left unsaid in Arp's article is the possibility that redshifts are not good measures of distance. If they are not, doubt is cast on the Theory of the Expanding Universe and the reality of the Big Bang itself. Some astronomers, according to news items in scientific publications, have heard enough about discordant redshifts and would rather see scarce telescope time used for other types of work! Reference. Anomalous quasar redshifts are cataloged at AQF2 in Stars, Galaxies, Cosmos. For details on this book, visit: here . From Science Frontiers #27, MAY-JUN 1983 . 1983-2000 William R. Corliss ...
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... Science Frontiers ONLINE No. 84: Nov-Dec 1992 Other pages Home Page Science Frontiers Online All Issues Last Issue Next Issue Sourcebook Project Sourcebook Subjects Contents Archaeology THE "AMERICA BEFORE COLUMBUS" American pygmies Astronomy Galactic shell game Quasar redshift clusters and (even worse) multiple redshifts Biology It came from within Odd growths found on satellite Cat**cats The hunt for the magnetoreceptor Geology A PERMIAN POLAR FOREST The orbiting mountains below Geophysics Mysterious smoke in sri lanka ROCKET LIGHTNING PHOTOGRAPHED FROM SPACE The florida rogue wave Current treads in the north pacific Solitary waves Atlantic waves getting bigger Psychology Psichotomy THE WOMAN WHO COULDN'T DESCRIBE ...
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... . For example, the filaments of one pair member seem to reach out and connect with the companion. Surely, these dynamically connected galaxies should be equidistant from earth. Such distances are measured by the object's redshift, which is supposedly proportional to its recessional velocity. Thus, each member of a pair should have the same redshift. This does not occur with these three pairs. In one pair, the recessional velocity appears to be 4,600 km/sec for one galaxy and 37,300 km/sec for the other. Arp's conclusion is that at least some of the redshift must be intrinsic; that is, not due to recessional velocity alone. If this is true, the basic cosmological distance scale is suspect. (Anonymous; "X -ray Quasars Fit Theories .. .But Some Galaxies Refuse to Play Ball," New Scientist, 88:22, 1980.) Reference. For more on discordant redshifts, see AWB7 and AWO4 in our Catalog: Stars, Galaxies, Cosmos, which is described here . From Science Frontiers #13, Winter 1981 . 1981-2000 William R. Corliss ...
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... Science Frontiers ONLINE No. 6: February 1979 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Supermasses That Come And Go Quasars, black holes, violently active Seyfert galaxies, jets of matter expelled from galaxies, and many similar puzzles of modern astronomy fall into place (and reason) if one unthinkable assumption is made: the cyclic appearance and disappearance of supermasses inside galaxies. Normal galaxies seem to have masses of about 1011 times that of the sun. The unthinkable assumption suggests that every 108 years or so, these ordinary, unassuming galaxies become supermassive (about 1013 solar masses) for several million years. When the core of a galaxy becomes supermassive, its stars are tugged into tight new orbits. The subsequent switching off of the supermass allows the galaxy to expand outwards again. The author claims to have found just such expansion effects among the globular clusters in our own galaxy. His data are striking and quite convincing. The notorious "missing mass" problem of cosmology disappears with the cyclic supermass assumption because the time-averaged mass of each galaxy will be much higher than that observed in its normal enervated state. Doesn't this sudden temporary appearance of mass violate the laws of physics? No, says the author, physicists habitually assume a superfluid, superconducting vacuum state, which is the ultimate source of all mass-energy, when they develop their theories of fundamental particles. If particle physicists can (and must) evoke such magic, so can astronomers. (Clube, Victor; "Do We Need a Revolution in ...
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... his editorial: "Apart from being philosophically unacceptable, the Big Bang is an oversimple view of how the Universe began, and it is unlikely to survive the decade ahead." His philosophical objcections to the Big Bang are powerful: "For one thing, the implication is that there was an instant at which time literally began and, so, by extension, an instant before which there was no time. That in turn implies that even if the origin of the Universe may be successfully supposed to lie in the Big Bang, the origin of the Big Bang itself is not susceptible to discussion." The Big Bang, Maddox says, is no more scientific than Biblical creation! The scientific objections involve space, time, the curvature of space. The Big Bang further fails at explaining quasars and the hidden mass of the Universe. Maddox doubts that the Big Bang will survive the new data to be provided by the Hubble telescope. (Maddox, John; "Down with the Big Bang," Nature, 340: 425, 1989.) From Science Frontiers #66, NOV-DEC 1989 . 1989-2000 William R. Corliss ...
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... Science Frontiers ONLINE No. 102: Nov-Dec 1995 Other pages Home Page Science Frontiers Online All Issues Last Issue Next Issue Sourcebook Project Sourcebook Subjects Contents Archaeology ANCIENT ACOUSTICAL ENGINEERING THE CANDELABRA OF THE ANDES Astronomy HUGE FIREBALL EXPLOSION IN 1994 2,000,000,000 BC: THE EPOCH OF QUASARS Biology TWO POLITICALLY INCORRECT BIOCHEMICAL ANOMALIES FROM DUST UNTO ABYSSAL MUD PERFECT PITCH AND SUNDRY SYNDROMES KING CRAB CONGREGATIONS THE BIRDS Geology WARM LAKE FOUND UNDER ANTARCTIC ICE SHEET REMNANTS OF TUNGUSKA "WEIRD ICICLES" IN A REFRIGERATOR Geophysics A TUNGUSKA-LIKE BLAST IN BRAZIL IN 1930 STYTHE? ICE "METEORITES" FALL LONG-LIVED BUBBLE IN THE ATMOSPHERE Psychology UNCONVENTIONAL WATER DETECTION FUNGAL PHANTASMS Mathematics 1, 089, 533, 431, 247, 059, 310, 875, 780, 378, 922, 957, 447, 308, 967, 213, 141, 717, 486, 151 Physics SOUR GRAPES! ...
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... be flat, not curved, and the Big Bang does not explain why. Paul Steinhardt and Andreas Al-brecht, at the University of Pennsylvania, have developed a radically different Big Bang -- a two-stage one, with hot and super-cooled states. The three objections listed above are neatly disposed of in the new version, but at the cost of a radically new view of the cosmos. The "new" universe is about 10100 times as big as the 12 billion light years assigned to the cozy universe we used to know -- and it is presumably correspondingly older. This means that the portion of the cosmos we see is only a negligible fraction of the whole -- a fraction that just happens to be homogeneous. Somewhere, way out beyond the farthest quasar, things could be -- well -- different! (Anonymous; "A Bigger, Better Big Bang," Astronomy, 11:62, February 1983.) Reference. Our Catalog volume Stars, Galaxies, Cosmos brims with challenges to the Big Bang. For details on this book, visit: here . From Science Frontiers #28, JUL-AUG 1983 . 1983-2000 William R. Corliss ...
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... major astronomical targets in Science Frontiers has been the cosmological redshift; that is, the assumption that an object's redshift is entirely a Doppler effect and, when coupled to the expanding universe concept, is proportional to distance. Well, we don't have any more contradicting data (of which there is plenty), but we do have: (1 ) A new theory which shows how noncosmological redshifts can occur; and (2 ) Laboratory demonstrations of "spectral noninvariance" that show how a non-Doppler component can be added to light's redshift. The physicist behind this new research is E. Wolf, at the University of Rochester. His theoretical work was re-ported in the March 3l, 1986, issue of Physical Review Letters. There he showed how quasars and so-called "superluminary" astronomical sources might emit light with a spectrum that evolves as it travels through space. Scientists have always assumed that once light left its source its spectrum remained unchanged. But Wolf shows how spectral changes are "sort of coded into the light due to correlations in the source." Meanwhile, two of Wolf's colleagues have backed up his theory in the lab. The consequences of Wolf's work would in effect shrink the universe, because objects would not be as far away as we now calculate from their redshifts. The size of the universe might contract "by a factor of 100 or more," says Wolf. If this much deflation is accepted by other scientists (It could be quite a fight!), then the age ...
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... Science Frontiers ONLINE No. 17: Fall 1981 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Was there really a big bang?Narlikar says, "Maybe not," and proceeds to tick off observational evidence against it. He begins, however, by pointing out the philosophical impasse encountered as Big Bang proponents look backward to time = 0 and earlier. Where did the matter/energy of the Big Bang come from? Was the venerable Law of Conservation of Mass/Energy violated? Big Bangers loftily dismiss such questions as "nonsense." Narlikar follows with some observational problems of the Big Bang: There seem to be objects in the universe that are older than the Big Bang age of the universe (9 -13 billion years); Quasar redshifts used to support the Big Bang theory may arise from the general expansion of the universe; The microwave background radiation of 3 K, which was gleefully embraced by Big Bangers as an echo of their version of creation, is actually of the same energy density as starlight, cosmic rays, etc., and need not have anything to do with the Big Bang; and The Big Bang Theory and General Relativity assume a constant G (the gravitational constant), but some recent lunar orbit measurements suggest that G is slowly decreasing! (Narlikar, Jayant; "Was There a Big Bang?" New Scientist, 91:19, 1981.) Comment. Perhaps the most disturbing aspect of the whole Big Bang business is the contempt with which theory supporters dismiss all objections. Is ...
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... the big bang As noted above, J. Maddox, Editor of the preeminent journal Nature, seems intent on muffling the Big Bang. Now we see a newly added section in Nature bearing the heading Hypothesis . Hypothesis "is intended as an occasional vehicle for scientific papers that fail to win the full-throated approval of the referees to whom they have been sent, but which are nevertheless judged to be of sufficient importance to command the attention of readers..." Certainly, this is a commendable development. But not surprisingly, the first paper is an at-tack on the Big Bang. Most of the authors of this first article are familiar to readers of Science Frontiers: H. Arp (Not all redshifts are measures of receding velocity.); G. Burbidge (Quasars are not as far away as they seem.); and F. Hoyle (The multidisciplinary iconoclast who helped de velop the Steady State theory of the universe.) None of these scientists has recanted, even in face of not-so-subtle pressures to conform. The first paper in Hypothesis. Arp et al summarize in two sentences: "We discuss evidence to show that the generally accepted view of the Big Bang model for the origin of the Universe is unsatisfactory. We suggest an alternative model that satisfies the constraints better." Most of the paper sets out observational evidence for the authors' main themes, as stated parenthetically above following their names. Space is also devoted to the contention that the vaunted "proofs" of the Big Bang are really not. Since these ...
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... . The cosmos as-a -whole might be lurching toward other goals or, perhaps, toward nowhere in particular. Enough philosophy! A team of Australian astronomers, led by J.K . Webb, has been trying to determine if the famous fine-structure constant of physics has really remained constant throughout the 12-billion years or so of the universe's history. The fine-structure constant is dimensionless and almost exactly equal to 1/137. (Why 137? That's another question!) Anyway, the Australians got a good fix on the constant's value 2 billion years ago by measuring the composition of the nuclear waste produced by the Olko natural nuclear reactors in Gabon, Africa. It hasn't changed since then. The spectra of distant quasars 7 billion years old also signaled no change. But more-distant and, therefore, supposedly older, gas clouds have suggested that a slightly smaller fine-structure constant held sway then. No known experimental error can account for this difference. "If confirmed, would Webb's findings eventually be explained by a deeper theory, vindicating physicists' faith in a uniform nature? Or would they mean that we live in a frighteningly arbitrary and variegated cosmos, where huge swathes of space abide by alien principles?" (Musser, George; "Inconstant Constants," Scientific American, 279:24, November 1998.) Comment. Even as we write, some distant part of the cosmos may be coming into estrus for life-as-we-do-not-knowit ...
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