... : Mar-Apr 1987 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Mysterious Bright Arcs May Be The Largest Objects In The Universe Several brilliant bluish arcs, some 300,000 light years long, were unexpectedly discovered during a survey of galactic clusters. R. Lynds, of Kitt Peak National Observatory, estimates that the arcs are as luminous as 100 billion suns. The nice circularity of the arcs is perplexing; and it is stated that nothing like them has been reported before. The arcs might be incandescent gas, but many astronomers opt instead for swaths of bright young stars. Spectroscopic tests will decide this point. It has been difficult to conceive of an origin for the arcs. Are they blast waves or the results of tidal action between galaxies? No one knows, for all suggestions seem flawed. Something out there not only manipulates stupendous amounts of mass and energy but also does it with a draftsman's compass. (Anderson, Ian; "Astronomers Spot the Biggest Objects in the Universe," New Scientist, p. 23, January 15, 1987.) Comment. In the interest of accuracy, it should be noted that some superclusters of galaxies are larger than the arcs. Also, some similar phenomena are described in our Catalog volume Stars, Galaxies, Cosmos, viz., the stacked, interleaved arcs of stars around elliptical galaxies (AWO5) and ring galaxies without significant nuclei (AWO6). To order the catalog volume just mentioned, visit: here . A luminous arc located near the galaxy cluster ...

... Science Frontiers ONLINE No. 47: Sep-Oct 1986 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Lumps, clumps, and jumps "Astronomers have already discovered lumps, motion and structure never suspected in a universe once considered smooth and expanding uniformly in all directions. Two researchers now say the universe is even lumpier, has faster relative motion and shows larger structures than previously believed." N. Bahcall and R. Soneira have been studying the structures and motions of superclusters of galaxies. Each supercluster consists of clusters of clusters of galaxies and contains upwards of hundreds of billions of stars. (Obvious-ly, these are not inconsequential entities!) By analyzing the redshifts of galaxies, Bahcall and Soneira have found that the universe is much more dynamic and inhomogeneous than expected. (1 ) The clusters of galaxies are larger and more extensive. Superclusters can be 500 million light years across -- about 1% of the known universe (2 ) Relative motions within the clusters are as high as 2,000 kilometers per second more than one can account for using gravitational attraction alone. (Kleist; T.; "Lumps, Clumps and Jumps in the Universe," Science News, 130:7 , 1986.) Comment. Before swallowing whole such grand sketches of the cosmos, one should always examine the assumptions. Here, redshifts are assumed to be measures of velocity, which if an expanding universe is assumed, can be converted into distances. Local Group of galaxies, including the Milky Way. and nearby superclusters ...

... Science Frontiers ONLINE No. 39: May-Jun 1985 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Exorcising The Hidden Mass These days the astronomical publications are full of discussions of the "missing mass" problem. It seems that for galax-ies to move the way they do, there has to be some "dark matter" out there, assuming Newton's Laws of Gravitation and Motion are valid. Something unseen is tugging on galaxies and the stars that comprise them. This is a sad situation, according to Moto Milgrom, an Israeli astrophysicist. Maybe there is nothing hidden and Newton's Law of Gravitation is wrong. After all, it was derived solely on the basis of solar-system observations. On a larger scale, it might be incorrect. Milgrom offers a startling alternative: for accelerations greater than a , let Newton's Law be; below that value, let the square of the acceleration be proportional to the mass of the attracting body and the inverse square of the distance. This done and presto the need for missing mass disappears. Even more remarkable is the fact that a particle with the acceleration a just reaches the speed of light over the age of the universe. (Milgrom, Moto; "Newtonian Gravity Falls Down," New Scientist, p. 45, March 7, 1985.) Comment. It would be more than passing strange for cosmic laws to suddenly shift gears so radically at a specific value of acceleration. Reference. The "missing mass" problem is covered ...

... Science Frontiers ONLINE No. 44: Mar-Apr 1986 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Space Spume The celestial pot seems to have boiled over "in the beginning." New surveys of the galaxies suggest that they are mostly located on the surfaces of bubbles, not as we thought for so long distributed uniformly throughout the cosmos, the expanding debris of the Big Bang. If further surveys confirm a bubbly universe, the "conventional explanations for the evolution of large-scale structure in which gravity played a dominant role may have to be modified or abandoned." To explain the bubbles, a new scenario has Big Bang #1 creating a population of uniformly distributed, extremely massive stars, which eventually burned out and exploded in a crescendo of supernovas. One stellar detonation stimulating adjacent giant stars to explode in a chain reaction. The bubble-like shock waves expanding outward from these explosions stimulated the condensations of the stars we now see in the heavens. Naturally, these stars and galaxies are concentrated on the surfaces of the shock wave bubbles. (Anonymous; "New 3-D Map Shows the Cosmos with a 'Bubble Bath' Appearance," Baltimore Sun, January 5, 1986.) Comment. The space bubbles are mapped using redshifts as measurements of distance. As all-too-frequently asserted in this book, some redshifts may not be distance yardsticks, in which case these theoretical bubbles would burst. As the structures of the cosmos and the subatomic worlds become more and more foreign to everyday experience ...

... 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 theory, 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, N. David; "Is the Moon There When Nobody Looks ...

... deflation is accepted by other scientists (It could be quite a fight!), then the age of the universe will also shrink, since it is based in part on our observations of the outer fringe of the universe and the speed of light. (Amato, I.; "Spectral Variations on a Universal Theme,: Science News, 130:166, 1986.) Comment. If we divide the currently accepted age of the universe, about 15 billion years, by 100, we are left with only 150 million years. But the radioactive clocks of the geologists register about 5 billion for the earth. There seems to be a problem somewhere! Reference. Wolf's work impinges on the acrimonious "redshift controversy." For details, see our catalog: Stars, Galaxies, Cosmos. To order, vist: here . From Science Frontiers #48, NOV-DEC 1986 . 1986-2000 William R. Corliss ...

... Science Frontiers ONLINE No. 26: Mar-Apr 1983 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Gyroscopic Galaxies The popular conception of a galaxy draws it in pancake shape, with a spiral structure consisting of many millions of stars. Oddities and deviants exist, but hardly anything as bizarre as a handful of recently discovered ringed spirals. Although the spiral sections of the ringed spirals seem normal enough, the rings are perpendicular to the plane of the spiral -- an inclination hardly countenanced by theories of galactic evolution. The ringed spirals look superficially like toy gyroscopes. One suggestion is that two galaxies collided at an angle, but there is no evidence of such a cataclysm. Ringed galaxies are eminently anomalous. (Anonymous; "Ringed Galaxy Clue to Cosmic Riddle," Science Digest, 91:22, February 1983.) From Science Frontiers #26, MAR-APR 1983 . 1983-2000 William R. Corliss ...

... Science Frontiers ONLINE No. 27: May-Jun 1983 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Anomalous redshifts (again)For years Halton Arp has been searching the skies for anomalous astronomical objects. Among the many maverick items in his catalog are objects that seem physically related but have radically different redshifts. Examine for instance the illustration, which shows the large galaxy NGC 7603 (possessing a supposed recessional velocity of 8,700 km/sec) and its smaller companion at the end of the filament, which recedes at the much higher velocity of 16,900 km/sec. According to the Theory of the Expanding Universe, the greater the recessional velocity (as measured by the red or Doppler shift), the farther away the object is. But Arp's many examples of physically connected galaxies with wildly different redshifts suggest that some of 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 ...

... Science Frontiers ONLINE No. 36: Nov-Dec 1984 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Order from disorder?The apparent creation of order in a universe that is supposed to be running down is the subject of a thoughtful report by Wallace and Karen Tucker. They give additional examples of order arising from disorder in astronomy (spiral galaxies, superclusters), from chemistry (Belousav-Zhabotinsky reactions), and biology (embryonic development). Again and again, they ask why order persists on increasing when the Second Law of Thermodynamics seems to demand more disorder. Throughout the article, the Tuckers employ the card-shuffling analogy. If nature is shuffling the cards of the universe, why are so many royal flushes being dealt? They introduce the works of Ilya Prigogine and others which focus on chemical situations (the Belousov-Zhabotinsky reactions), where reaction by-products actually make the reaction more likely and in which large, stable spiral and ring-shaped structures appear spontaneously. At the macroscopic level, shock waves from supernovas can (at least in computer models) stimulate the formation of spiral arms in galaxies. The article concludes with a quote from astronomer David Layzer: "The universe is unfolding in time but not unraveling; on the contrary, it is becoming constantly more complex and richer in formation." (Tucker, Wallace, and Tucker, Karen; "Against All Odds: Matter and Evolution in the Universe," Astronomy, September 1984.) Comment. Now Layzer's statement seems a ...

... Science Frontiers ONLINE No. 28: Jul-Aug 1983 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects The better, bigger big bang Astronomers are ever more discomfitted by the Big Bang hypothesis for the creation of the universe. The reasons are several: The observed universe is extremely homogeneous, even though theory says that distant parts of the universe could never have been causally connected; No satisfactory explanation exists for the density fluctuations that had to occur for galaxies to be formed; and The universe seems to 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 ...

... 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 ...

... 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 ...

... planets (orbital points closest to the sun) were being disturbed with an average period of 11.2 years. This is almost exactly the sunspot period. This serendipitous finding caused Bagby to wonder whether some common influence was causing not only the sunspot cycle and those perturbations in outer-planet perihelia but also cyclic volcanic and seismic activity on earth. Some correlations indeed do indicate a sun-earth link of some sort. Bagby suggests two possibilities: (1 ) Mutual resonance effects between the planets, (2 ) The effects of a massive solar companion. (Bagby, John P.; "New Support for the Planetary Theory of Sunspots," privately circulated paper, 1983.) Comment. Even "farther out" is the thought that gravitational waves or some unrecognized influence from the galaxy or beyond causes the whole solar system to "ring." In this context, see again the above item on solar vibrations. From Science Frontiers #31, JAN-FEB 1984 . 1984-2000 William R. Corliss ...

... Sourcebook Subjects Cosmic Rays Not Random Conventional wisdom maintains that the cosmic rays intercepted by the earth are randomly distributed in space and time because of the smoothing action of the galactic magnetic field. But a cosmic-ray telescope buried beneath 600 meters of rock has recently detected bursts of cosmic rays emanating from specific directions. The two major sources are in the direction of the galactic north pole and the constellation Cygnus. Since the galactic magnetic field seems sufficient to randomize all charged particles during their long flights through space, pristine cosmic rays may not be charged particles at all. (Hecht, Jeff, and Torrey, Lee; "Scientists Find Sources of Cosmic Rays," New Scientist, 99:764, 1983.) Reference. The many anomalies of cosmic radiation are cataloged it: Stars, Galaxies, Cosmos. Details on this book at: here . From Science Frontiers #30, NOV-DEC 1983 . 1983-2000 William R. Corliss ...

... ONLINE No. 35: Sep-Oct 1984 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Galactic radiation belt?Both Jupiter and the earth boast radiation belts consisting of electrically charged particles tethered by the planet's magnetic fields. Recent radio astronomical studies of the Milky Way reveal long filaments of ionized gas about 150 light years long curving up out of the galactic disk, at a point about 30,000 light years from earth. These filaments emit radio energy just like the planetary radiation belts and are presumably held in the grip of a galactic magnetic field. There have been previ-ous hints of a weak and disorganized galactic magnetic field, but this is the first evidence for a strong polar field in our own Milky Way or any other galaxy. The unexpected filaments were discovered by in a study of star formation in the core of the Milky Way. The radio energy emitted by the belts was originally thought to come from the galactic machinery that makes new stars; but now it looks like that machinery is not grinding out nearly as many new stars as once thought. (Thompsen, D.E .; "Galactic Dynamoism: A Radiation Belt?" Science News, 126:20, 1984.) From Science Frontiers #35, SEP-OCT 1984 . 1984-2000 William R. Corliss ...

... Science Frontiers ONLINE No. 5: November 1978 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects A Redshift Undermines The Dogma Of An Expanding Universe Halton Arp has closely studied the galaxy NGC-1199, which is the brightest member of a small cluster of galaxies. One of its companions is a galaxy so dense that it appears to be a star. This compact object sports a circular shadow and seems to be silhouetted against the central galaxy NGC-1199. Arp's analysis of the absorption ring seems to prove that the compact galaxy is in front of the central galaxy. This would normally be permissible, but here the central galaxy has a redshift of 2,600 km/sec compared to 13,300 km/sec for the galaxy in front of it. This is astounding because the farther away an object is, the greater its redshift is supposed to be. (Arp, Halton M.; "NGC-ll99," Astronomy, 6:15, September 1978.) Comment. Other examples of such anomalous redshifts are known. Three pos-sible conclusions are: The redshift distance law is wrong, upsetting the Big-Bang Theory; Some galaxies and other objects have acquired anomalous velocities through some unknown mechanism; or These unusual redshifts do not indicate velocities at all. Reference. The "redshift controversy" is a major topic in our Catalog: Stars, Galaxies, Cosmos. For ordering information, visit: here . From Science Frontiers #5 , November 1978 . 1978-2000 William R. ...

... 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 ...

... Science Frontiers ONLINE No. 13: Winter 1981 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects More Anomalous Redshifts Halton Arp, of the Mount Wilson and Las Campanas Observatories, has discovered three more pairs of galaxies that seem to threaten that cornerstone of astronomy, the redshift distance scale. The new pairs are all in the Southern Hemisphere and, like others on Arp's list, seem to be interacting physically. 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- ...

... Science Frontiers ONLINE No. 9: Winter 1979 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Large, unseen mass is pulling earth toward it Recent measurements of the cosmic microwave background indicate that the earth moves relative to it. New cosmic X-ray data from the satellite Ariel 5 suggests that a large, hitherto unsuspected mass is located in the same direction that the earth is moving. Thus, both X-ray and microwave data could be explained by supposing this mass to be large enough to pull the earth (and our Galaxy) toward it. This mass would have to be about 10 billion light years away and weigh as much as 100 million Galaxies. Such a gigantic blob or inhomogeneity in the universe would be very difficult to explain. As it is, the aggregation of stars into galaxies after the Big Bang remains poorly understood. The bigger the inhomogeneity, the harder it is to account for. The Big Bang should have spread matter out pretty evenly. (Anonymous; "Large Mass May Pull Earth Through Space," New Scientist, 83:21, 1979.) From Science Frontiers #9 , Winter 1979 . 1979-2000 William R. Corliss ...

... Science Frontiers ONLINE No. 6: February 1979 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Has the universe's missing mass been found?In the above item, an article from Mosaic was quoted to the effect that 90% of the universe is "unseen." In pursuit of this missing mass, a U.S . team of astronomers has now detected previously unseen halos around several spiral galaxies. The halo luminosities are comparable to the brighter imbedded disks when integrated over a large area surrounding the galaxies. The halo masses, however, as inferred from the galaxies' rotation curves far exceed the masses of the bright spiral cores. The big question is "What are the dim but massive halos composed of?" They might consist of small, faint stars or nonluminous matter of some sort. The researchers had to conclude, though, that the halos are galactic components of "totally unknown nature." (Anonymous; "Has the Universe's Missing Mass Been Found?" New Scientist, 80:174, 1978.) From Science Frontiers #6 , February 1979 . 1979-2000 William R. Corliss ...

... Science Frontiers ONLINE No. 13: Winter 1981 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Tidal Wave Of Gammas Sweeps Solar System On March 5, 1979, a colossal burst of gamma rays swept through the solar system, triggering radiation detectors on nine different spacecraft. By comparing the times of arrival of the burst, the direction of the source was narrowed down to a "box" a couple of arc minutes across. Gamma-ray bursts have never before been correlated with visible sources, but this time the box contained the remnants of a supernova in the Large Magellanic Cloud, a satellite galaxy of our own Milky Way. The anomaly that arises involves the immense distance of the supposed source and the strength of the burst when it reached the solar system. The power level of the supernova remnant gamma flash would have had to be about 1037 watts -- a stupendous figure. If the supernova remnant is a neutron star, as current theories suggest, the neutron star would have to be 10 to 100 times the size of the usual neutron stars. (Anonymous; "Gamma-Ray Burst Comes from Outside the Galaxy," New Scientist, 87:776, 1980.) From Science Frontiers #13, Winter 1981 . 1981-2000 William R. Corliss ...

... Science Frontiers ONLINE No. 21: May-Jun 1982 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Don't build von neumann machines Back in April 1981, Frank J. Tipler published a comment in Physics Today entitled, "Extraterrestrial Beings Do Not Exist." A key element of his argument was that the first intelligent civilization would inevitably colonize the entire universe with themselves or their self-reproducing (von Neumann) machines. Since we can detect neither kind of colonist, we must be the first and only intelligent civilization. Essentially Tipler was criticizing the prevailing notion that, from a statistical point of view, there must be many other civilizations among the numberless stars and galaxies. Tipler's thoughts evoked a richly provocative group of letters, some of which were published in the March 1982 issue of Physics Today along with a closely related article by Ornstein. Ornstein tackled the problem of estimating the probability that intelligent life would evolve on other planets from a biologist's perspective. Whereas some physical scientists have set this probability at about 1.0 , Ornstein inclines toward 10-9 , believing that intelligent life is probably unique to the earth. But concludes Ornstein, the 15 separate developments of eyes among disparate terrestrial organisms may infer some unrecognized directing factor in evolution that would force him to revise his estimate upwards drastically. On the other hand, those 15 eyes might indicate a common, but still undiscovered, eye-possessing ancestor far back along evolution's track. The fossil record might be mute on this matter ...

... explanation of the microwave cosmic background is that it is the "echo" of the Big Bang that created the cosmos as we now know it. Ideally, this background radiation should be uniform in all directions and follow the intensity curve of a black body radiating at 2.7 K. Spatial anomalies have already been reported, and now an embarrassing bump has been found on the intensity curve at 0.5 -1 .0 millimeters wavelength. No explanation for this departure from the black body curve has been provided except to say that the Big Bang deviated from the perfect uniformity. (Anonymous; "Cosmic Background Not So Perfect," New Scientist, 92:23, 1981.) Reference. Anomalies associated with the cosmic background radiation are cataloged under ATF1 and ATF2 in Stars, Galaxies, Cosmos. For details on the book, go to: here . From Science Frontiers #18, NOV-DEC 1981 . 1981-2000 William R. Corliss ...

... 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 the Big Bang a scientific theory or a belief system? Reference. Observations challenging the Big Bang may be found throughout our Catalog: Stars, Galaxies, Cosmos. For information about this book, go to: here . From Science Frontiers #17, Fall 1981 . 1981-2000 William R. Corliss ...

... Science Frontiers ONLINE No. 4: July 1978 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects A New Cosmic Heresy Often the simplest of observations will have the most profound consequences. It has long been a cornerstone of modern science, to say nothing of man's cosmic outlook, that the earth attends a modest star that shines in an undistinguished part of a run-of-the-mill galaxy. Life arose spontaneously and man evolved on this miscellaneous clump of matter and now directs his own destiny without outside help. This cosmic model is supported by the Big-Bang and Expanding Universe concepts, which in turn are buttressed by the simple observation that astronomers see redshifts wherever they look. These redshifts are due, of course, to matter flying away from us under the impetus of the Big Bang. But redshifts can also arise from the gravitational attraction of mass. If the earth were at the center of the universe, the attraction of the surrounding mass of stars would also produce redshifts wherever we looked! The argument advanced by George Ellis in this article is more complex than this, but his basic thrust is to put man back into a favored position in the cosmos. His new theory seems quite consistent with our astronomical observations, even though it clashes with the thought that we are godless and making it on our own. (Davies, P.C .W .; "Cosmic Heresy?" Nature, 273:336, 1978.) From Science Frontiers #4 , July 1978 . 1978-2000 William ...