DOCSLIB.ORG

Prime Focusfocus

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Prime Focusfocus Highlights of the February Sky. - - - 3rd - - - PM: Saturn 0.5º right of Beehive star cluster (M44) PrimePrime FocusFocus - - - 5th - - - A Publication of the Kalamazoo Astronomical Society First Quarter Moon PM: Mars below Moon. Pleiades upper left of February 2006 Moon - - - 9th - - - PM: Pollux left, Castor upper left of Moon. ThisThis MonthsMonths KAS EventsEvents - - - 10th - - - PM: Saturn below, Pollux General Meeting: Friday, February 3 @ 7:00 pm above Moon. Kalamazoo Area Math & Science Center - - - 11th - - - PM: Saturn upper right of Board Meeting: Sunday, February 12 @ 5:00 pm Moon. Sunnyside Church - 2800 Gull Road - All Members Welcome - - - 12th - - - Full Moon Young Astronomers: Tuesday, February 21 @ 6:30 pm PM: Regulus below Moon. Trinity Reformed Church - See Page 11 for Details - - - 13th - - - PM: Regulus upper right Observing Session: Saturday, February 25 @ 7:00 pm of Moon. February Freeze Out - Kalamazoo Nature Center - - - 14th - - - PM: Mars passes 2º left of Pleiades next 5 evenings. - - - 17th - - - InsideInside thethe Newsletter.Newsletter. .. .. PM: Venus at greatest brilliance. Spica beside Moon. January Meeting Minutes....................... p. 2 Board Meeting Minutes......................... p. 2 - - - 20th - - - AM: Jupiter above Moon. Observations........................................... p. 3 - - - 21st- - - Young Astronomer Minutes................ p. 3 AM: Antares left of Moon. Starbooks................................................. p. 4 Last Quarter Moon Rise and Fall of Lunar Observing........ p. 5 - - - 24th - - - Dusk: Mercury at greatest NASA Space Place.................................. p. 7 elongation, visible low in Hubble Reveals the Orion Nebula..... p. 8 west. Star Parties in 2006................................ p. 9 - - - 27th - - - New Moon February Night Sky................................ p. 10 - - - 28th - - - KAS Officers & Announcements........ p. 11 Dusk: Mercury upper right of crescent Moon. www.kasonline.org February 2006 Page 2 January Meeting Minutes Board Meeting Minutes The general meeting of the Kalamazoo Astronomical Soci- The KAS Board met at 5:00 p.m. on January 15, 2006 at ety was brought to order by President Richard Bell on Fri- Sunnyside Church. Present were Board Members Dave An- day, January 6, 2006 at 7:10 pm EST. Approximately 35 drews, Beverly Byle, Richard Bell, Rich Mather, Jack Price, members and guests were in attendance at the Kalamazoo Frank Severance, Dave Woolf, and Roger Williams. KAS Area Math & Science Center (KAMSC). Before introducing members Jean DeMott and Andy Robins were also present. the feature presentation, Richard announced that this meet- ing officially begins the 70th anniversary of the KAS. Rich Mather distributed the treasurer’s report, showing a current balance of $6,461.42. Cash inflow during December The feature speaker of the evening was KAS member and was mostly from dues ($705, with approximately $400 yet to WMU Associate Professor of Chemistry Dr. John Miller. be deposited), while expenses were from meeting costs His presentation was called Manzanita: The World’s Larg- (including the December party) and supplies. est Amateur Telescope?. John briefly discussed his attempt to measure the speed of light from distant objects (preferably The program calendar for 2006 is primarily covered. July quasars) with the 12" SCT in Owl Observatory, but realized and November remain open, but Richard reported that he has he needed a “bigger light bucket”. guest speakers in mind. New business began with a consid- eration of a time and place for the February Freeze Out. The After turning to Google, he discovered the 48", f/12.5 date was set for February 25th, either at the Nature Center or Ritchey-Chrétien telescope housed in a large roll-off roof a park on 32nd Street in Richland. The latter was also sug- observatory 100 miles east of San Diego on the edge of the gested as a site for the Messier Marathon. Rich Mather will Manzanita Reservation. The telescope and observatory is check on the availability of the park for our use. owned and operated by the Tierra Astronomical Institute, which is a private non-profit consortium. The group was Richard suggested that the position of Newsletter Editor be actually initiated as part of a tax-reduction strategy. The removed as a board position. After some discussion, there mirror for the telescope was obtained for free from the back was agreement that this might make sense. Dave Andrews of a truck and only had a minor defect on the edge. moved to poll the membership to make the required change in the Bylaws, and the motion was passed. Richard will John mentioned some of the neighbors. One was the Campo check the Bylaws to determine what process to follow. Reservation, which operates the Golden Acorn Casino. For- tunately, they installed Dark Sky compliant lighting. A wind We then discussed the current situation with a telescope farm is also located just a couple dozen yards to the south of workshop at the Air Zoo on January 20th, for which the KAS the observatory and is only a minor obstruction. A bit fur- is listed as co-sponsor. Neither Richard nor the Board had ther down the road is Tierra del Sol, a massive observing been consulted about this event, and all were agreed that the complex owned by the San Diego Astronomical Association. KAS name should not be attached to any activity without some approval process. No further action was taken at this John then went into detail about the research project he and time, but the suggestion was made that we should develop a his brother (Thomas) began several years go. Their goal is written policy for KAS endorsement of events. to test the De Sitter cosmological model. Their method is to measure the speed-of-light from highly redshifted objects Open House Day at the Nature Center is scheduled for April such as quasars. The general hypothesis is that the speed-of- 22nd, which is also Earth Day. This seems a good date for light is different for very distant objects. To do this, they Astronomy Day, and the Board voted to plan for this date. filter light from the object through a very thin fiber optic cable into their apparatus. A heavy wind spoiled their first In the Member Comments portion of the agenda, Andy Rob- attempt and they plan to return to Manzanita in the spring. ins gave a brief summary of possible activities for those in- terested in radio astronomy. Andy agreed to work with Richard then gave his President’s Report after the snack Frank and Jack in preparing a proposal for how the KAS break. He introduced the 2006 Board and outlined his goals could initiate some activity in this area. Jean DeMott re- for the new year. Bill Nigg reported the discovery of a new ported that her plant sales generated $873 last year, well comet and that it may reach 6th magnitude by March. Carol above expectations. She plans to continue with this very Van Dien mentioned that the Stardust spacecraft is about to successful fundraiser for the KAS during the next year. return samples from Comet Wild 2. Upcoming events were discussed and Richard gave a tour of our web site, KAS The next meeting was set for February 12th, 5:00 pm, at Sun- Online. The meeting concluded at 9:31 pm. nyside Church. The meeting was adjourned at 6:50 pm. February 2006 Page 3 ObservationsObservations YYoungoung AstronomeAstronomerr By Richard S. Bell Meeting Minutes Well, I’d say 2006 is off to an excellent start. Everyone A holiday-break overnighter for the Young Astronomers seemed to enjoy John Miller’s presentation at the January was held on December 27th. Four Young Astronomers and General Meeting. Let’s hope he keeps us up-to-date on his two Boy Scout friends attended this planning meeting with attempts to measure the speed-of-light from quasars. If I a great presentation on model and real rocket engines by could, I’d bet money it’ll turn out to be 299,792.458 (currently former) KAS member Matt Borton. The youth km/sec, but who knows - stranger things have happened! then watched movies (and played Game Boys) all night! After some disappointing turn-outs the past couple of at- The Young Astronomers met again on Tuesday, January tempts, I was delighted to see such a good size crowd at 17th at Trinity Reformed Church. A few regular members Full Moon Theater on January 14th. Jack Price counted 23 of the audience were missing due to school finals, but a folks in all. We even picked up two new members! total of five attendees were present, two of which are KAS (Welcome Thomas Tyler and welcome BACK Jack Roach members. Young Astronomer Coordinator Carol Van Dien - who was originally a member in the late 1970’s.) The presented a neat movie from the Discover Channel, If We program we watched that night, A Sidewalk Astronomer, Had No Moon. will be available in the KAS Library beginning with the February General Meeting. It’s a nice documentary. The movie showed a simulation of the latest theory of how the Earth got our moon; a rogue planet named Orpheus We have some pretty good activities lined up for February crashed into the young Earth, melding its core with ours. as well. The Air Zoo’s Stewart Bailey will give the feature Resulting debris eventually formed our moon. The movie presentation at the general meeting on February 3rd. He’ll showed what the Earth would be like if this wouldn’t have discuss and show slides of his 1997 behind-the-scenes tour happened; it would be a very different place that would be of the Russian Space Program. difficult for life to thrive on. We also scheduled another February Freeze Out for the With no Moon, there could be blizzards over the Sahara 25th at the Nature Center.
Load more

Recommended publications
  • Glossary Glossary
    Glossary Glossary Albedo A measure of an object’s reflectivity. A pure white reflecting surface has an albedo of 1.0 (100%). A pitch-black, nonreflecting surface has an albedo of 0.0. The Moon is a fairly dark object with a combined albedo of 0.07 (reflecting 7% of the sunlight that falls upon it). The albedo range of the lunar maria is between 0.05 and 0.08. The brighter highlands have an albedo range from 0.09 to 0.15. Anorthosite Rocks rich in the mineral feldspar, making up much of the Moon’s bright highland regions. Aperture The diameter of a telescope’s objective lens or primary mirror. Apogee The point in the Moon’s orbit where it is furthest from the Earth. At apogee, the Moon can reach a maximum distance of 406,700 km from the Earth. Apollo The manned lunar program of the United States. Between July 1969 and December 1972, six Apollo missions landed on the Moon, allowing a total of 12 astronauts to explore its surface. Asteroid A minor planet. A large solid body of rock in orbit around the Sun. Banded crater A crater that displays dusky linear tracts on its inner walls and/or floor. 250 Basalt A dark, fine-grained volcanic rock, low in silicon, with a low viscosity. Basaltic material fills many of the Moon’s major basins, especially on the near side. Glossary Basin A very large circular impact structure (usually comprising multiple concentric rings) that usually displays some degree of flooding with lava. The largest and most conspicuous lava- flooded basins on the Moon are found on the near side, and most are filled to their outer edges with mare basalts.
    [Show full text]
  • Cosmos: a Spacetime Odyssey (2014) Episode Scripts Based On
    Cosmos: A SpaceTime Odyssey (2014) Episode Scripts Based on Cosmos: A Personal Voyage by Carl Sagan, Ann Druyan & Steven Soter Directed by Brannon Braga, Bill Pope & Ann Druyan Presented by Neil deGrasse Tyson Composer(s) Alan Silvestri Country of origin United States Original language(s) English No. of episodes 13 (List of episodes) 1 - Standing Up in the Milky Way 2 - Some of the Things That Molecules Do 3 - When Knowledge Conquered Fear 4 - A Sky Full of Ghosts 5 - Hiding In The Light 6 - Deeper, Deeper, Deeper Still 7 - The Clean Room 8 - Sisters of the Sun 9 - The Lost Worlds of Planet Earth 10 - The Electric Boy 11 - The Immortals 12 - The World Set Free 13 - Unafraid Of The Dark 1 - Standing Up in the Milky Way The cosmos is all there is, or ever was, or ever will be. Come with me. A generation ago, the astronomer Carl Sagan stood here and launched hundreds of millions of us on a great adventure: the exploration of the universe revealed by science. It's time to get going again. We're about to begin a journey that will take us from the infinitesimal to the infinite, from the dawn of time to the distant future. We'll explore galaxies and suns and worlds, surf the gravity waves of space-time, encounter beings that live in fire and ice, explore the planets of stars that never die, discover atoms as massive as suns and universes smaller than atoms. Cosmos is also a story about us. It's the saga of how wandering bands of hunters and gatherers found their way to the stars, one adventure with many heroes.
    [Show full text]
  • Glossary of Lunar Terminology
    Glossary of Lunar Terminology albedo A measure of the reflectivity of the Moon's gabbro A coarse crystalline rock, often found in the visible surface. The Moon's albedo averages 0.07, which lunar highlands, containing plagioclase and pyroxene. means that its surface reflects, on average, 7% of the Anorthositic gabbros contain 65-78% calcium feldspar. light falling on it. gardening The process by which the Moon's surface is anorthosite A coarse-grained rock, largely composed of mixed with deeper layers, mainly as a result of meteor­ calcium feldspar, common on the Moon. itic bombardment. basalt A type of fine-grained volcanic rock containing ghost crater (ruined crater) The faint outline that remains the minerals pyroxene and plagioclase (calcium of a lunar crater that has been largely erased by some feldspar). Mare basalts are rich in iron and titanium, later action, usually lava flooding. while highland basalts are high in aluminum. glacis A gently sloping bank; an old term for the outer breccia A rock composed of a matrix oflarger, angular slope of a crater's walls. stony fragments and a finer, binding component. graben A sunken area between faults. caldera A type of volcanic crater formed primarily by a highlands The Moon's lighter-colored regions, which sinking of its floor rather than by the ejection of lava. are higher than their surroundings and thus not central peak A mountainous landform at or near the covered by dark lavas. Most highland features are the center of certain lunar craters, possibly formed by an rims or central peaks of impact sites.
    [Show full text]
  • Facts & Features Lunar Surface Elevations Six Apollo Lunar
    Greek Mythology Quadrants Maria & Related Features Lunar Surface Elevations Facts & Features Selene is the Moon and 12 234 the goddess of the Moon, 32 Diameter: 2,160 miles which is 27.3% of Earth’s equatorial diameter of 7,926 miles 260 Lacus daughter of the titans 71 13 113 Mare Frigoris Mare Humboldtianum Volume: 2.03% of Earth’s volume; 49 Moons would fit inside Earth 51 103 Mortis Hyperion and Theia. Her 282 44 II I Sinus Iridum 167 125 321 Lacus Somniorum Near Side Mass: 1.62 x 1023 pounds; 1.23% of Earth’s mass sister Eos is the goddess 329 18 299 Sinus Roris Surface Area: 7.4% of Earth’s surface area of dawn and her brother 173 Mare Imbrium Mare Serenitatis 85 279 133 3 3 3 Helios is the Sun. Selene 291 Palus Mare Crisium Average Density: 3.34 gm/cm (water is 1.00 gm/cm ). Earth’s density is 5.52 gm/cm 55 270 112 is often pictured with a 156 Putredinis Color-coded elevation maps Gravity: 0.165 times the gravity of Earth 224 22 237 III IV cresent Moon on her head. 126 Mare Marginis of the Moon. The difference in 41 Mare Undarum Escape Velocity: 1.5 miles/sec; 5,369 miles/hour Selenology, the modern-day 229 Oceanus elevation from the lowest to 62 162 25 Procellarum Mare Smythii Distances from Earth (measured from the centers of both bodies): Average: 238,856 term used for the study 310 116 223 the highest point is 11 miles.
    [Show full text]
  • Early Greek Alchemy, Patronage and Innovation in Late Antiquity CALIFORNIA CLASSICAL STUDIES
    Early Greek Alchemy, Patronage and Innovation in Late Antiquity CALIFORNIA CLASSICAL STUDIES NUMBER 7 Editorial Board Chair: Donald Mastronarde Editorial Board: Alessandro Barchiesi, Todd Hickey, Emily Mackil, Richard Martin, Robert Morstein-Marx, J. Theodore Peña, Kim Shelton California Classical Studies publishes peer-reviewed long-form scholarship with online open access and print-on-demand availability. The primary aim of the series is to disseminate basic research (editing and analysis of primary materials both textual and physical), data-heavy re- search, and highly specialized research of the kind that is either hard to place with the leading publishers in Classics or extremely expensive for libraries and individuals when produced by a leading academic publisher. In addition to promoting archaeological publications, papyrolog- ical and epigraphic studies, technical textual studies, and the like, the series will also produce selected titles of a more general profile. The startup phase of this project (2013–2017) was supported by a grant from the Andrew W. Mellon Foundation. Also in the series: Number 1: Leslie Kurke, The Traffic in Praise: Pindar and the Poetics of Social Economy, 2013 Number 2: Edward Courtney, A Commentary on the Satires of Juvenal, 2013 Number 3: Mark Griffith, Greek Satyr Play: Five Studies, 2015 Number 4: Mirjam Kotwick, Alexander of Aphrodisias and the Text of Aristotle’s Meta- physics, 2016 Number 5: Joey Williams, The Archaeology of Roman Surveillance in the Central Alentejo, Portugal, 2017 Number 6: Donald J. Mastronarde, Preliminary Studies on the Scholia to Euripides, 2017 Early Greek Alchemy, Patronage and Innovation in Late Antiquity Olivier Dufault CALIFORNIA CLASSICAL STUDIES Berkeley, California © 2019 by Olivier Dufault.
    [Show full text]
  • Remote Sensing and Geologic Studies of the Northeastern Portion of the Lunar Nearside: Final Results
    40th Lunar and Planetary Science Conference (2009) 1483.pdf REMOTE SENSING AND GEOLOGIC STUDIES OF THE NORTHEASTERN PORTION OF THE LUNAR NEARSIDE: FINAL RESULTS. B.R. Hawke1, T.A. Giguere2, D.T. Blewett3, J.M. Boyce1, J. Cahill1, J.J. Gillis-Davis1, J.J. Hagerty4, P.G. Lucey1, C.A. Peterson1, G.A. Smith1, P.D. Spu- dis5, and G.J. Taylor1, 1Hawaii Institute of Geophysics and Planetology, University of Hawaii, Honolulu, HI 96822, 2Intergraph Corporation, P.O. Box 75330, Kapolei, HI 96707, 3Johns Hopkins University Ap- plied Physics Laboratory, Laurel, MD 20723, 4U.S. Geological Survey, Astrogeology Program, 2255 N. Gemini Drive, Flagstaff, AZ 86001, 5Lunar and Planetary Institute, Houston, TX 77058. Introduction: Parts of the northeastern near- high latitudes. Hence, we have used IRECs to side (NEN) north and east of Mare Frigoris dis- identify possible cryptomare units in the NEN play light plains deposits with a variety of ages region. Numerous IRECs were identified on and possible cryptomare deposits [1, 2, 3]. We highland units in the NEN region and 42 were have selected a portion of this area for an inten- selected for detailed analysis. Earth-based near- sive remote sensing and geologic investigation. IR spectra exist for two of these IRECs. Gartner This NEN region is centered just east of Mare D is a small dark-haloed crater (diameter = 8 km) Frigoris at 52º N, 40º E and includes the craters which excavated material from beneath the sur- Atlas, Hercules, Thales, Gartner, Democritus, Ce- face of a light plains unit in the floor of Gartner pheus, and Kane.
    [Show full text]
  • Nature. Vol. VI, No. 139 June 27, 1872
    Nature. Vol. VI, No. 139 June 27, 1872 London: Macmillan Journals, June 27, 1872 https://digital.library.wisc.edu/1711.dl/LBXITYVRTMAPI83 Based on date of publication, this material is presumed to be in the public domain. For information on re-use, see: http://digital.library.wisc.edu/1711.dl/Copyright The libraries provide public access to a wide range of material, including online exhibits, digitized collections, archival finding aids, our catalog, online articles, and a growing range of materials in many media. When possible, we provide rights information in catalog records, finding aids, and other metadata that accompanies collections or items. However, it is always the user's obligation to evaluate copyright and rights issues in light of their own use. 728 State Street | Madison, Wisconsin 53706 | library.wisc.edu NATURE — 157 The Committee has made three reports, namely, in THURSDAY, JUNE 27, 1872 1868, 1870, and 1871, the two first prepared by Sir W. Thomson, and the third by Mr. E. Roberts of the Nauti- | cal Alliance Office, under whose able superintendence the computations and deductions were placed. The ; three reports have been published zz eafenso by the THE TIDES AND THE TREASURY British Association in the volumes of the above-mentioned UR readers may have heard that England is a “sea- | years. They bring fully under view the theoretical basis O girt isle,” and that we are a maritime nation, pos- | of the investigation, an account of observations made by sessing a very powerful navy and an extensive commerce, | the Committee and by the authorities, some of the con- They also know that the ocean to which we owe these | clusions deduced therefrom, and a statement of the mea- peculiarities is a very restless fluid, its surface being ruffled | sures recommended in order to extend and perfect our by the wind, and its entire mass uplifted and depressed knowledge of the subject.
    [Show full text]
  • The Physiologist
    The A Publication of The American Physiological Society Physiologist Volume 40 Number 6 December 1997 Experimental Biology and NASA in the Twenty-First Century Inside Daniel S. Goldin, NASA Administrator XXXIII IUPS As I talk about experimental biology, I would like Congress to tell a story. Out of the dark nothingness, the uni- verse exploded. There was force and fury, and in p. 282 minutes the first nuclei formed out of the plasma. It took about 200,000 years of expansion and con- tinual cooling until the temperature dropped to 1998 Officers 4,000ºK and hydrogen and helium atoms began to and Committees form. All of a sudden, once they formed, the uni- verse became transparent. It had been opaque; it p. 287 was literally optically opaque. The cooling contin- ued. There were some slight perturbations we have picked up with the Cosmic Background Explorer Experimental spacecraft, but we cannot correlate the level of Biology Preview fluctuations we have seen with the fact that con- p. 294 densation started and galaxies and stars formed. That is to be left to further exercises. We have a lot of work to do on that. At this point, stars ignited and began to form Daniel S. Goldin Call for fusion factories. They aged, and the more they Nominations: aged, the higher the temperatures got. We began to giant stars blew up, and the interstellar medium Editorship get heavier elements. We had massive explosions, became richer and richer. With our advanced tele- of AJP: Heart with these aging stars exploding on themselves, scopes over the last decade, we have picked up and it threw this material out.
    [Show full text]
  • Theory of the Origin, Evolution, and Nature of Life
    Life 2012, 2, 1-105; doi:10.3390/life2010001 OPEN ACCESS life ISSN 2075-1729 www.mdpi.com/journal/life Article Theory of the Origin, Evolution, and Nature of Life Erik D. Andrulis Department of Molecular Biology and Microbiology, Case Western Reserve University School of Medicine, Wood Building, W212, Cleveland, OH 44106, USA; E-Mail: [email protected]; Tel.: +1-216-368-0261; Fax: +1-216-368-3055 Received: 15 November 2011; in revised form: 10 December 2011 / Accepted: 13 December 2011 / Published: 23 December 2011 Abstract: Life is an inordinately complex unsolved puzzle. Despite significant theoretical progress, experimental anomalies, paradoxes, and enigmas have revealed paradigmatic limitations. Thus, the advancement of scientific understanding requires new models that resolve fundamental problems. Here, I present a theoretical framework that economically fits evidence accumulated from examinations of life. This theory is based upon a straightforward and non-mathematical core model and proposes unique yet empirically consistent explanations for major phenomena including, but not limited to, quantum gravity, phase transitions of water, why living systems are predominantly CHNOPS (carbon, hydrogen, nitrogen, oxygen, phosphorus, and sulfur), homochirality of sugars and amino acids, homeoviscous adaptation, triplet code, and DNA mutations. The theoretical framework unifies the macrocosmic and microcosmic realms, validates predicted laws of nature, and solves the puzzle of the origin and evolution of cellular life in the universe. Keywords: quantum; gyre; emergence; thermodynamics; singularity; natural law; adaptation; learning and memory 1. Introduction How life abides by the second law of thermodynamics yet evolutionarily complexifies and maintains its intrinsic order is a fundamental mystery in physics, chemistry, and biology [1].
    [Show full text]
  • Ethical Consensus and the Truth of Laughter
    Ethical Consensus and the Truth of Laughter Page | 1 SERIES: MORALITY AND THE MEANING OF LIFE Edited by: Professor Albert W. Musschenga (Amsterdam) Professor Paul J.M. van Tongeren (Nijmegen) Page | 2 Ethical Consensus and the Truth of Laughter The Structure of Moral Transformations Hub Zwart KOK PHAROS PUBLISHING HOUSE KAMPEN - THE NETHERLANDS 1996 Page | 3 This is the second edition of the book (revised version: July 2017) The editing of the first version of this book (1996) was subsidized by the Netherlands Organization for Scientific Research (NWO) © 1996, Kok Pharos Publishing House P.O. Box 5016, 8260 GA Kampen, the Netherlands ISBN 90 390 0412 9 / CIP ISSN 0928-2742 NUGI 631/619 Page | 4 Table of Contents Introduction: The Beginning of Moral Philosophy as a Philosophical Problem...................................................6 Chapter 1: Established Morality and Discontent .............................................................................................. 13 1. The current status of moral philosophy ................................................................................................... 13 2. The ethics of compartmentalisation and the waning of moral truth .......................................................... 16 3. The method of avoidance or the loss of problems .................................................................................... 31 4. The case of Socrates: a buffoon who had himself taken seriously ............................................................ 37 Chapter 2: Laughter as
    [Show full text]
  • UC Irvine UC Irvine Previously Published Works
    UC Irvine UC Irvine Previously Published Works Title The quest for other worlds, 350 BCE to 1995 CE Permalink https://escholarship.org/uc/item/4s54j2xs Journal SEARCH FOR OTHER WORLDS, 713 ISSN 0094-243X Author Trimble, V Publication Date 2004 License https://creativecommons.org/licenses/by/4.0/ 4.0 Peer reviewed eScholarship.org Powered by the California Digital Library University of California The Quest for Other Worlds, 350 BCE to 1995 CE Virginia Trimble Physics Department, University of California, Irvine, CA 92697 and Department of Astronomy, University of Maryland, College Park, MD 20770 Abstract. The concept of aperoi kosmoi (multiplicity or plenitude of worlds) has had at least four meanings at various times, two capable of yielding images and two not. We explore here the several meanings and their connections with modern astronomical ideas, focusing finally on the one in the minds of the organizers of the present conference. There seem to be at least two dozen ways of potentially detecting or limiting the incidence of "other worlds," in the sense of potentially habitable planets orbiting other stars, a handful of which have led to detections, false alarms, or both. INTRODUCTION In the Fourth Century BCE, Epicurus taught that there are an infinite number of worlds both like and unlike ours, and Aristotle taught that there is only one. Neither hypothe- sis can currently be falsified. Both had in mind entire universes, with a center to which everything should fall, each observable only by the inhabitants thereof (else how should they know which center to fall toward), and Aristotle’s objection was a logical one fo- cused on the impossibility of multiple centers (Dick 1982).
    [Show full text]
  • Quantum Metaphysics
    View metadata, citation and similar papers at core.ac.uk brought to you by CORE provided by Helsingin yliopiston digitaalinen arkisto Tarja Kallio-Tamminen QUANTUM METAPHYSICS The Role of Human Beings within the Paradigms of Classical and Quantum Physics ISBN 952-10-1927-1 Otamedia Oy 2004 2 Tarja Kallio-Tamminen QUANTUM METAPHYSICS The Role of Human Beings within the Paradigms of Classical and Quantum Physics Academic dissertation to be publicly discussed, by due permission of the Faculty of Arts at the University of Helsinki in auditorium XV, on the 11th of June, 2004 at 12 o’clock. 3 Abstract This study investigates the question of why quantum mechanics still lacks a generally-accepted interpretation in spite of a century of serious deliberation. It is guided by the question whether quantum mechanics requires a radical rethinking of the fundamental ontological and epistemological presuppositions on which the current world-view, a conception of nature adopted at the turn of the modern era, is based. During recent centuries, physics has provided the main tools for the human enterprise of understanding reality and our own role in this context. The classical paradigm of science was based on the idea of an objective material world which obeys strict deterministic laws. It was greatly affected by Newtonian mechanics whose differential equations were easy to interpret as describing the movement of material particles in space and time. Consequently, classical physics inspired a strong belief in a deterministic and clockwork-like universe, external to the human observer. In the quantum framework, the traditional space-time description of classical physics is overtaken by a more abstract description of state.
    [Show full text]