11 results found containing all search terms.
... the far frontiers of the solar system is, as we know from SF#57, not without its anomalies. Here, let us assume that it really does exist, even though we cannot see it. From a new book by I. Asimov (title below), we learn that this remote haze of icy fluff, the Oort Cloud, may really have about 90% of the angular momentum of the entire solar system. It was already sufficiently anomalous to discover that the planets possess fifty times the angular momentum of the much more massive sun. (See ABB3 in The Sun and Solar System Debris.) Astronomers have been attempting for years to explain this 50:1 split. Now, with the Oort Cloud apparently having ten times the angular momentum of the planets, the ... is much worse. According to Asimov, the solar-system angular momentum is split as follows: Oort Cloud 90% All of the planets 9.8 % The sun 0.2 % The total mass of the Oort Cloud is estimated to be roughly that of Saturn. The recent flyby of Halley's Comet created this dilemma. It was discovered that Halley was a chunk containing 140 cubic miles of ice - much larger than anticipated for this "typical" comet. If the estimated 2 trillion comets are, on the average, Halley's size, the Oort Cloud is a thousand times more massive than previously thought. This, combined with estimates of Oort Cloud distance and angular velocity leads to the almost ridiculous distribution of solar-system angular momentum tabulated above. This will ...
Terms matched: 2 - Score: 282 - 15 May 2017 - URL: /sf070/sf070a02.htm
... . About 11 billion years ago this spinning universe was transformed into the expanding universe we see today via that clever cosmologists' ploy called a "vacuum phase transition." Carneiro shows how the rotation of the universe-as-a -whole was converted into overall expansion in a paper submitted to the journal Classical and Quantum Gravity . But even if all of Carneiro's equations check out, angular momentum still had to be conserved somehow during the phase transition. Simple! The angular momentum of the universe-as-a -whole was transferred to the spins of all the individual planets, stars, and galaxies. In fact, the angular momentum of each astronomical entity, according to Carneiro, is proportional to its (mass)1 .7 . This turns out to be pretty ... to the astonishing, still-unexplained observation that the angular momentums of planets, stars, and galaxies are proportional to their (masses)2 . (Matthews, Robert; "Cosmic Carousel," New Scientist, p. 19, December 19/26, 1998-January 2, 1999.) Questions. How did the early universe acquire its primordial spin? About what axis did it spin? Wasn't this axis a favored place that is verboten in modern cosmology? Is the Big Bang's singularity worse than all these new questions? Possible universal relationship between angular momentum and mass for vaious astronomical objects. Should be universe-as-a -whole be added at the upper right? (from Science Frontiers). From Science Frontiers #122, MAR-APR ...
Terms matched: 2 - Score: 244 - 15 May 2017 - URL: /sf122/sf122p05.htm
... Science Frontiers ONLINE No. 33: May-Jun 1984 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Bad Spin Split Astronomers have long realized that the angular momentum of the sun is only 1/180th that of the solar system as a whole. The overwhelming majority of the angular momentum is tied up in planetary motion. To make matters even more puzzling, the angular-momentum vectors of the sun and the planetary system are 7 apart. The implication is that the sun and planets could not have been formed by the rapid condensation of a molecular cloud -- the present theory. Rapid condensation requires that the sun get a much bigger share of the angular momentum. These anomalies have led T. Gold to propose a slow-condensation ... , in which several hundred million years are required rather than the tens of thousands of years in the current scenario. Another unexpected feature of Gold's model makes the sun a degenerate object, perhaps a neutron star. As the author of this article states: "Gold has stood the conventional view of the origin of the solar system on its head." (Maddox, John; "Origin of Solar System Redefined," Nature, 308:223, 1984.) Reference. The above "spin-split" enigma is discussed more thoroughly in ABB3 in our Catalog: The Sun and Solar System Debris. See description of this book at here . From Science Frontiers #33, MAY-JUN 1984 . 1984-2000 William R. Corliss ...
Terms matched: 2 - Score: 200 - 15 May 2017 - URL: /sf033/sf033p07.htm
... WITH ASTEROIDS AAB1 Anomalous Asteroid Orbits AAB2 Asteroid Distribution Anomalies AAB3 The High "Internal Energy" of the Asteroid Population AAB4 Peculiar Distribution of Asteroid Spin Rates AAB5 Unexplained Residual Precession of Icarus AAB6 Evidence against an Explosive Origin for Asteroids AB SOLAR SYSTEM "LAWS" AND INTERRELATIONSHIPS ABB DYNAMICS OF THE SOLAR SYSTEM AS-A -WHOLE ABB1 Solar-System Instability ABB2 Circularity of Planetary Orbits ABB3 Anomalous Split of Angular Momentum between Sun and Planets ABB4 Ubiquity of Resonances in the Solar System ABS REMARKABLE RELATIONSHIPS AMONG PLANETARY AND SATELLITE PARAMETERS ABS1 Solar System Laws of Distance ABS2 Similarity of Densities of Composite Terrestrial Planets ABS3 Multiple Primaries in the Solar System ABS4 Supposed Quantization of Planetary Orbital Periods ABS5 Solar System Mass Laws ABS6 The Quantized Nature of Orbital Systems AC COMETS ACB ORBITAL ANOMALIES OF COMETS ACB1 The Appearance of Comets in ... ACB2 Nonrandom Direction-of-Approach of Comets to the Sun ACB3 New Comets Have Almost Critical Velocity ACB4 Sun-Grazing Comets: The Kreutz Group ACB5 Changing Cometary Periods ACB6 Jupiter's Family of Comets ACB7 Low-Eccentricity Cometary Orbits ACB8 The Scarcity of Hyperbolic Orbits ACB9 Cometary Groups ACB10 Orbits of New Comets Diverge from Common Point ACB11 Excess of Retrograde Long Period Comets ACB12 Uranus-Neptune Region Favored as Comet Source ACB13 Cometary Perturbations Suggestive of Planet X ACB14 Rapid Attrition of the Oort Cloud by Molecular Clouds ACB15 Dynamical Improbability of the Oort Cloud ACO OBSERVATIONAL ANOMALIES OF COMETS ACO1 Two-Dimensional Comet Tails ACO2 Cometary Activity Far from Solar Influence ACO3 Comets without Nuclei ACO4 Absence of Meteorites from Comet-Related Showers ACO5 Contraction of Cometary Comas as the Sun is Approached ACO6 Unexplained Abundance of Short- ...
Terms matched: 2 - Score: 185 - 15 May 2017 - URL: /cat-astr.htm
... this model have been tempered by the fact that it also implies that Saturn's rings are very young. "Theorists would have no problem with a broad, featureless disk surviving the 4.5 billion years since the early days of the solar system, but features such as spiral density waves are clear evidence that satellites, including the profusion of small ones found near the rings, are draining angular momentum from the rings. The satellites should be spiraling outward into ever larger orbits as they gain angular momentum, and the A-ring should collapse inward into the B-ring in just 100 million years as its particles lose angular momentum." (Kerr, Richard A.; "Making Better Planetary Rings," Science, 229:1376, 1985.) Reference. For other ... of youth in Saturn's rings, see ARL16 in our catalog: The Moon and the Planets. For information on this book, visit: here . From Science Frontiers #43, JAN-FEB 1986 . 1986-2000 William R. Corliss ...
Terms matched: 2 - Score: 182 - 15 May 2017 - URL: /sf043/sf043p04.htm
... Science Frontiers ONLINE No. 24: Nov-Dec 1982 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects The spin we're in From planets to stars to entire galaxies, the rate of spin is related to mass. If one defines Q (see graph) as angular momentum divided by the object's mass and a density factor, it is roughly equal to the object's (mass)0 .7 . Such empirical equations are generally accurate only over a limited region, but this newly discovered relationship holds for almost 50 orders of magnitude. For some unfathomed reason, all astronomical entities spin at rates determined by their masses. Even clusters of galaxies fall into step, slowly pirouetting in intergalactic space to some unknown tune. ... Anonymous; "How Things Spin," Sky and Telescope, 64:228, 1982.) Comment. In the foregoing item, a team of investigators reported that the entire cosmos may spin. Does the cosmos, too, obey this new momentum-mass formula? From Science Frontiers #24, NOV-DEC 1982 . 1982-2000 William R. Corliss ...
Terms matched: 2 - Score: 174 - 15 May 2017 - URL: /sf024/sf024p05.htm
... planetary scientists have just about thrown in the towel on the three major theories of lunar origin. Two recent articles attest to this discouraging situation. A Sky and Telescope article provides an excellent review of all three theories, indicating the reasons why each fails to convince a majority of scientists. The theories and the primary reasons for their rejection are: (1 ) Fission from earth . Lack of sufficient angular momentum in the earthmoon system and the fact that the moon does not orbit in the plane of the earth's equator. (2 ) Gravitational capture . The capture of such a large object in a nearly circular orbit is considered too improbable. (3 ) Earth-moon accretion as a double planet . The compositions of the earth and moon are too different. This article concludes that ... resolution of the problem of lunar origin must await our return to the moon for more scientific exploration. (Rubin, Alan E.; "Whence Came the Moon?" Sky and Telescope, 68:389, 1984.) An article in Science also discusses the classical theories of lunar origin and quickly disposes of them for the above reasons. However, a fourth theory makes an appearance, which we might call the Big Splash Theory. The idea is that a Mars-sized object (1 /10 the earth's mass) made a grazing collision with the earth when the solar system was more heavily populated with debris. This collision vaporized the projectile's rocky mantle as well as a similar quantity from the earth. This material was flung into orbit by the force of ...
Terms matched: 2 - Score: 162 - 15 May 2017 - URL: /sf037/sf037p03.htm
... Science Frontiers ONLINE No. 43: Jan-Feb 1986 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects The Planets As Fragments Of An Ancient Companion Of The Sun J. Webb has called attention to a fascinating feature of the solar system. "If one calculates the total energy and the total angular momentum of the planets, the numbers turn out to be very nearly the same as those of a single planet having a mass essentially the same as the total mass of all the planets, and orbiting the sun in an orbit which is near the present-day center of mass of all the planets. The possibility that the solar system was once a binary star (or is in the process of becoming one) needs to be examined more ... ." (Webb, Jerry; "The Solar System and a Binary Star: Is There a Connection?" American Journal of Physics, 53:938, 1985.) Cross reference. See SF#42 for speculations about the solar system once being a quintuple star system. From Science Frontiers #43, JAN-FEB 1986 . 1986-2000 William R. Corliss ...
Terms matched: 2 - Score: 162 - 15 May 2017 - URL: /sf043/sf043p06.htm
... we would have a quintuple star system in which only one member (the sun) collected enough star stuff to make it to incandescence. The four, large, outer planets would be merely failed stars. The advantages of this change of perspective are threefold: (1 ) All five central bodies are now compositionally similar as a class, (2 ) In each of the five systems, the angular momentum of the central body is greater than that of its satellites, whereas in the unitary solar system the angular momentum of the nine planets is much greater than that of the sun -- an embarrassing anomaly. (3 ) A final "bonus" appears when the distances of the satellites in the five systems are plotted, as indicated, and compared. The arrangement of the four terrestrial ... (the "solar satellites") closely resembles the distribution of Jupiter's four Galilean satellites. There are loose ends, to be sure, like Pluto and Saturn's rings, but the idea seems worth studying further. (Cole, G.H .A .; "Dynamical Form of the Solar System," Observatory, 105:96, 1985.) Comment. The arrangement of satellites in the figure may have no physical significance, but if you like Bode's Law you should appreciate the situation. Reference. For more information on the book The Moon and the Planets, visit: here . Distribution of orbital radii (r ) of central body satellites, where R is measured in terms of central body radii. Cole terms the similarities 'remarkable'. ...
Terms matched: 2 - Score: 161 - 15 May 2017 - URL: /sf042/sf042p08.htm
... much more common. (Cowen, R.; "Tiny Galaxies Have Hearts of Darkness," Science News, 155:38, 1999.) Comments. If the universe if awash in ghost galaxies, why don't we bump into them occasionally? Maybe we have! Another thought: Could these ubiquitous ghost galaxies be spinning counter to the bright galaxies thereby yielding a universe with zero angular momentum? (See IS A SINGULARITY WORSE... next) From Science Frontiers #122, MAR-APR 1999 . 1999-2000 William R. Corliss ...
Terms matched: 2 - Score: 145 - 15 May 2017 - URL: /sf122/sf122p04.htm
... all of the wrong-way stars appear to be youngish. This little clue may lead to some sort of explanation. (Muir, Hazel; "Counter-Revolutionaries Lurk in Spiral Galaxies," New Scientist, p. 18, March 16, 1996.) Comment. If all of NGC4138's counterrotating stars did condense from the original spinning gas disc, their large wrong-sign angular momentum would have had to be compensated for by a speed up of all the "right-way" stars. From Science Frontiers #105, MAY-JUN 1996 . 1996-2000 William R. Corliss ...
Terms matched: 2 - Score: 140 - 15 May 2017 - URL: /sf105/sf105p03.htm