DOCSLIB.ORG

Solar System

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Solar System Our Solar System Scrap book made by Kanika G and Pell G I, Kanika G, along with my daughter Pell G, put together this informative electronic scrap book. y daughter was being taught about the solar system in school and was eager to !nd out more about it. So we scoured the internet for pictures and obscure and interesting facts about the solar system. "e found helpful information on various websites like "ikipedia, space.com, #asa$s o%cial page, on many youtube videos and some other places. "e sorted the information, and put it together in a lucid, concise and organi&ed form. In spite of being a former Physicist, I learned a lot of new things while doing this pro'ect. Our Sun https://spaceplace.nasa.gov/review/gallery- sun/ultraviolet_T.en.jpg Here is an interesting documentary !lm about the sun which is the centre of our solar system) https)**youtu.be*+,-./G0t+-1 Sun facts) /he sun is 2.3 billion years old. 415 earths can be lined up side by side to !t across the sun. The Sun is so far away from the earth, that it takes 6 minutes and 45 seconds for the light from the Sun to reach the .arth. 7bout 41,111 .arths can be lined up side by side between the .arth and the Sun. The sun and it$s atmosphere have many layers. The core of the sun is the hottest at 48 million Kelvin. /he surface, photosphere is between 2811 and 3111 K. https://en.wikipedia.org/wiki/File:Sun_poster.svg 9ut then as you go away from the surface in to the Sun$s atmosphere, the temperature rises again, until you reach the corona, which is very hot. /he corona is the part of the Sun$s atmosphere that can be seen during a total solar eclipse. https://en.wikipedia.org/wiki/Sun#/media/File:2017_Solar_Eclips e_Weiser_Idaho.jpg /he solar wind, which is made of charged particles emitted from the sun$s corona protects the solar system from gamma ray bursts produced during a collapse of a distant star. 7lmost three:;uarters of the sun is made of Hydrogen. /he Hydrogen atoms in the Sun$s core, 'oin together to form (elium atoms. 7lmost one ;uarter of the Sun is made of Helium. /he Sun is only one of many many stars in the ilkyway gala<y. https://en.wikipedia.org/wiki/File:Artist %27s_impression_of_the_Milky_Way_(updated_-_annotated).jpg /he sun completes an orbit about the centre of the milky way gala<y in ,,8 = ,81 million earth years. This is called a galactic year. Mercury https://solarsystem.nasa.gov/planets/mercury/galleries Position) ercury is the planet closest to the Sun. It has an elliptical orbit, with closest distance from the sun being ,5 million miles and the farthest distance being 2> million miles, making it the planet with the most eccentric orbit in the solar system. ?otation @ Revolution 4 day (time from noon to midnight to noon againB on ercury = , years Atime taken to complete one orbit) on ercury 4 year on ercury = 66 .arth days ercury rotates on it$s a<is once in 86 earth days. http://pages.uoregon.edu/jimbrau/BrauImNew/Chap08/7th/AT_ 7e_Figure_08_12.jpg Si&e ercury is the smallest planet in the solar system. It has a radius of ,221 Km, little less than half the radius of .arth, and 4.2 times the radius of our oon. ercury is the second most dense planet after .arth in the Solar sytsem Climate ercury cannot support an atmosphere and only has an e<osphere. So the half of ercury facing the Sun is very hot with a surface temperature reaching 2>1 +, while other half is very cold with a surface temperature as low as :401 +. /he difference in temperature between the hottest and coldest spots on mercury is 311 +. Other Facts ercury does not have a moon. It$s surface is full of craters and looks a lot like our moon. Surface gravity of ercury is >6% the surface gravity of .arth. Fenus https://solarsystem.nasa.gov/planets/venus/galleries Position) Fenus is the second closest planet to the Sun. It has the most circular orbit of all the planets in the solar system. https://www.universetoday.com/47900/length-of-year-on-venus/ ?otation @ Revolution Fenus rotates in a direction opposite to .arth and most other planets. 4 day (time from noon to midnight to noon again) on Fenus C 440 .arth days http://frigg.physastro.mnsu.edu/~eskridge/astr102/venus_rot.jpg 4 year on Fenus ~ ,,8 A,,2.0B .arth days Fenus rotates on it$s a<is once in ,2> earth days. Si&e ?adius of Fenus is 318, Km. So Fenus is almost as big as .arth. .arth$s radius is 3>04Km. Climate ost of Fenus$s atmosphere is made of +O, along with small amounts of nitrogen. Fenus$s atmosphere is 51 times as dense as .arth$s amosphere. /here are some clouds of sulphuric acid too. 9ecause of the dense green house gasses in it$s atmosphere, Fenus is the hottest planet in the solar system. /he average temperature of Fenus is 23, +. Other Facts Fenus does not have a moon. Fenus is the brightest ob'ect in our night sky after the moon. Moon https://www.nasa.gov/feature/goddard/rare-full-moon-on- christmas-day The oon completes an orbit around the .arth in ,0 days. "e always see the same side of the oon. The motion of the moon is locked with the .arth, meaning it has the same period or rotational and orbital period, resulting in tides in our oceans. oon Landing On 43th Iuly 4535 the !rst humans, #eil 7rmstrong and .dwin 7ldrin landed on the oon during the lunar mission 7pollo 44. Neil Armstrong https://www.nasa.gov/sites/default/files/images/339773main_a pollo_image_11a.jpg Edwin Aldrin https://www.nasa.gov/mission_pages/apollo/40th/images/apoll o_image_12.html Mars https://www.nasa.gov/sites/default/files/thumbnails/image/ed u_what_is_mars.jpg Position) ars is the fourth closest planet to the Sun, situated after .arth. It has the most eccentric orbit of all the planets in the solar system after ercury. https://www.universetoday.com/47900/length-of-year-on-venus/ ?otation @ Revolution https://www.universetoday.com/wp- content/uploads/2008/06/earthmarsorbittop.jpg ?otation @ Revolution ar$s a<ial tilt is very similar to .arth$s, resulting in similar seasons and temperature variations. 7 day on mars is ,2 hours and 21 minutes, which is only a little longer than an .arth day. 4 ars year = 360 .arth days or 335 ars days. Si&e ?adius of ars is >>51 Km. ars is one-si<th the si&e of .arth. Surafce gravity of ars is only >6% that of .arth. +limate /he atmosphere on ars mainly consists of +O, and some argon and nitrogen. ars appears red from a distance because of a lot of iron o<ide dust in the atmosphere. That is why ars is called The Red Planet. Surface temperature of ars reaches ,1 + at noon on the e;uator and goes as low as :48> + at the poles. /he poles have fro&en +O, and water. ars Missions Starting from 4532, we have successfully sent a number of missions of ars. The !rst was a Jy by mission conducted by #7S7 called ariner 2. Since then we have sent other Jyby missions as well as orbiters, landers and rovers. +urrently there are 6 operational missions, of which +uriosity and Opportunity are rovers sent by #7S7 and angalayan is a orbiter mision sent by IS?O in India. Opportunity Mariner 4 Mangalayan Curiosity Pictures are from Wikipedia Other Facts Olympic ons, a volcano on ars, is the tallest mountain in the solar system. It is about , and a half times the height of ount .verest above sea level. https://en.wikipedia.org/wiki/File:Olympus_Mons_alt.jpg Falles arineris on ars is one of he largest canyons in the solar system. https://en.wikipedia.org/wiki/Valles_Marineris#/media/File:Vall esMarinerisHuge.jpg Over the years scientists have speculated about the e<istance of li;uid water on the surface of ars at some point. ?ecently, +uriosity discovered some perchlorates in the Gale +rater of ars that result in briny water that may possibly support life. The 7steroid 9elt https://www.tes.com/lessons/rNCN3twbu8tS-w/astroid-belt 7steroids are small rocky bodies orbiting the sun. The vary, from 4 metre to a 4111 Kms across, in si&e. 7steroids smaller than 4 metre are called meteoroids. The largest asteroid is the dwarf planet +eres with a diameter of 508 Km. /he ne<t two largest are 2Festa and ,Pallas with diameters of about 811 km. Smaller asteroids have irregular shapes. https://www.tes.com/lessons/rNCN3twbu8tS-w/astroid-belt /he asteroid belt is between ars and Iupiter, where all the asteroids can be found. There are several million asteroids in the astroid belt. It is believed that all planets were originally asteroids that coalesced together. However Iupiter$s high gravitaional pull may have prevented the coalescing of the asteroids in the asteroid belt. +eres, Festa and Pallas are protoplanets, while +eres is the only asteroid with a fully ellipsoidal shape and therefore ;uali!es as a drawf planet. 33 million years ago a 3 mile wide asteroid crashed in to the earth making the 411 Km wide +hic<ulub crater in e<ico. 7part from the local damage, world wide earth;uakes and tsunamis that followed, and the ice age that resulted from the sunlight being blocked by the dust and smoke from the collision, resulted in the e<tinction of dinosaurs.
Load more

Recommended publications
  • Zerohack Zer0pwn Youranonnews Yevgeniy Anikin Yes Men
    Zerohack Zer0Pwn YourAnonNews Yevgeniy Anikin Yes Men YamaTough Xtreme x-Leader xenu xen0nymous www.oem.com.mx www.nytimes.com/pages/world/asia/index.html www.informador.com.mx www.futuregov.asia www.cronica.com.mx www.asiapacificsecuritymagazine.com Worm Wolfy Withdrawal* WillyFoReal Wikileaks IRC 88.80.16.13/9999 IRC Channel WikiLeaks WiiSpellWhy whitekidney Wells Fargo weed WallRoad w0rmware Vulnerability Vladislav Khorokhorin Visa Inc. Virus Virgin Islands "Viewpointe Archive Services, LLC" Versability Verizon Venezuela Vegas Vatican City USB US Trust US Bankcorp Uruguay Uran0n unusedcrayon United Kingdom UnicormCr3w unfittoprint unelected.org UndisclosedAnon Ukraine UGNazi ua_musti_1905 U.S. Bankcorp TYLER Turkey trosec113 Trojan Horse Trojan Trivette TriCk Tribalzer0 Transnistria transaction Traitor traffic court Tradecraft Trade Secrets "Total System Services, Inc." Topiary Top Secret Tom Stracener TibitXimer Thumb Drive Thomson Reuters TheWikiBoat thepeoplescause the_infecti0n The Unknowns The UnderTaker The Syrian electronic army The Jokerhack Thailand ThaCosmo th3j35t3r testeux1 TEST Telecomix TehWongZ Teddy Bigglesworth TeaMp0isoN TeamHav0k Team Ghost Shell Team Digi7al tdl4 taxes TARP tango down Tampa Tammy Shapiro Taiwan Tabu T0x1c t0wN T.A.R.P. Syrian Electronic Army syndiv Symantec Corporation Switzerland Swingers Club SWIFT Sweden Swan SwaggSec Swagg Security "SunGard Data Systems, Inc." Stuxnet Stringer Streamroller Stole* Sterlok SteelAnne st0rm SQLi Spyware Spying Spydevilz Spy Camera Sposed Spook Spoofing Splendide
    [Show full text]
  • STARLAB® Solar System & Galaxy Cylinder
    A Collection of Curricula for the STARLAB® Solar System & Galaxy Cylinder Including: The Solar System and Its Place in the Galaxy by Murray R. Barber F.R.A.S. v. 616 - ©2008 by Science First®/STARLAB®, 86475 Gene Lasserre Blvd., Yulee, FL. 32097 - www.starlab.com. All rights reserved. Curriculum Guide Contents The Solar System & Galaxy Cylinder Gas Planet Rings ............................................17 Curriculum Notes ....................................................3 Planetary Moons of the Gas Planets ..................17 The Milky Way Galaxy Pluto ..............................................................18 Background Information .....................................5 Zone Three, The Oort Cloud .................................18 Discovery of the Galaxy .....................................5 Comets ..........................................................18 Appearance and Size of the Galaxy ...................5 Meteors ..........................................................19 Light Year .........................................................6 Activity 1: Investigation of the Milky Way Galaxy ....20 Light Year .........................................................6 Galaxy Questions, Worksheet One ...................22 Nuclear Bulge ...................................................7 Galaxy Questions, Worksheet Two ....................23 Galactic Center .................................................7 Activity 2: Investigation of the Solar System .............24 Galactic Disk ....................................................7
    [Show full text]
  • The Galactic Cycle of Extinction
    Open Research Online The Open University’s repository of research publications and other research outputs The galactic cycle of extinction Journal Item How to cite: Gillman, Michael and Erenler, Hilary (2008). The galactic cycle of extinction. International Journal of Astrobiology, 7(1) pp. 17–26. For guidance on citations see FAQs. c [not recorded] Version: [not recorded] Link(s) to article on publisher’s website: http://dx.doi.org/doi:10.1017/S1473550408004047 Copyright and Moral Rights for the articles on this site are retained by the individual authors and/or other copyright owners. For more information on Open Research Online’s data policy on reuse of materials please consult the policies page. oro.open.ac.uk International Journal of Astrobiology 7 (1): 17–26 (2008) Printed in the United Kingdom 17 doi:10.1017/S1473550408004047 First published online 6 March 2008 f 2008 Cambridge University Press The galactic cycle of extinction Michael Gillman and Hilary Erenler Department of Biological Sciences, The Open University, Walton Hall, Milton Keynes MK7 6AA, UK e-mail: [email protected]; [email protected] Abstract: Global extinction and geological events have previously been linked with galactic events such as spiral arm crossings and galactic plane oscillation. The expectation that these are repeating predictable events has led to studies of periodicity in a wide set of biological, geological and climatic phenomena. Using data on carbon isotope excursions, large igneous provinces and impact craters, we identify three time zones of high geological activity which relate to the timings of the passage of the Solar System through the spiral arms.
    [Show full text]
  • Nikhil-Astronomy-Book.Pdf
    To my Father RADHEY SHYAM GUPTA With Love Tum na hote to ek bhi kadam me to chalta nhi Tumse hi mili hai muje aaj ek nayi Jindagi Sachh me kahta hu es jahan me tumsa koi nhi Ek pal ke liye tumhare bin mujko jina nhi Meri jaan ho tum PAPA mere bhagwan ho tum PAPA I WILL BRING YOU BACK PREFACE It is for the young students who are wondering about the cosmos creation and what’s happening there in accelerating universe. I have purposely made the content within so that reader unfamiliar with the universe can catch the physics behind it. May the book bring someone a happy hours of love for the cosmos. By reading the book everyone will come to know the magic going in universe and with the help of physics we will prove these that they are not magic but the science that rules the universe. We are one on this blue dot known as our home and are imagining the infinity of the infinite cosmos. Where cosmos came from or it was always there. A Universe with no edge in space, no beginning or end in time, and nothing for the creator to do. With the help of physics we can find every answer to the curiosity emerging in brain. The two sides of Astronomy GENERAL RELATIVITY VS QUANTUM MECHANICS rule the entire universe. Now a day’s latest theory “The String Theory” coming out that joins both Relativity and Quantum with 11 dimensions to the new level called Multi Universe. REASON TO LOVE ASTRONOMY Astronomy puts you in your place as because of astronomy “I know we are standing on a sphere of molten rock and metal 13000km across with the hussy atmosphere of 100
    [Show full text]
  • 1,000,000,000 – One Billion Years Ago
    1,000,000,000 – One Billion Years Ago • Geology o Fordham Gneiss – a metamorphic rock – is forming and will underlie a portion of the future New York City. o The Earth’s landmasses form one huge supercontinent, Rodinia. Supercontinent Rodinia Image by Zina Deretsky used courtesy of the National Science Foundation. • Biology o There are no plants or animals. Among the eukaryotic single-celled organisms, some groups are becoming different. Descendents of five of these groups will survive into the 21st Century and become the Protozoa, the Plants & Algae, the Slime Molds, the Animals, and the Fungi. Tree of Life for Eukaryotes Adapted from image released into the public domain by its author, Tim Vickers at the wikipedia project. • Climate / Atmosphere o Cyanobacteria have been releasing oxygen into the oceans for over a billion years and have raised its concentration in the atmosphere from near zero to somewhat less than 2%; not enough oxygen for humans to survive for more than a few minutes. In the 21st Century, oxygen concentration in the atmosphere will be 21%. o The Earth spins so fast that each day – sunrise to sunrise – is 18 hours. This “Billion-Year Walk” begins on Lake Merritt near the corner of at the Rotary Nature Center Perkins Street and Bellevue Avenue 900,000,000 – Nine Hundred Million Years Ago • Geology o Supercontinent Rodinia remains stable. • Biology o Some eukaryotic organisms have become colonial; each cell is identical to the others. Increased oxygen levels in the atmosphere assist in supplying the higher energy requirements for these organisms. A choanoflagellate colony like the one pictured below will not only give rise to 21st Century choanoflagellates, but will also give rise to all multicellular true animals: sponges, fish, lizards, kangaroos, beetles, people, etc.
    [Show full text]
  • Orders of Magnitude (Length) - Wikipedia
    03/08/2018 Orders of magnitude (length) - Wikipedia Orders of magnitude (length) The following are examples of orders of magnitude for different lengths. Contents Overview Detailed list Subatomic Atomic to cellular Cellular to human scale Human to astronomical scale Astronomical less than 10 yoctometres 10 yoctometres 100 yoctometres 1 zeptometre 10 zeptometres 100 zeptometres 1 attometre 10 attometres 100 attometres 1 femtometre 10 femtometres 100 femtometres 1 picometre 10 picometres 100 picometres 1 nanometre 10 nanometres 100 nanometres 1 micrometre 10 micrometres 100 micrometres 1 millimetre 1 centimetre 1 decimetre Conversions Wavelengths Human-defined scales and structures Nature Astronomical 1 metre Conversions https://en.wikipedia.org/wiki/Orders_of_magnitude_(length) 1/44 03/08/2018 Orders of magnitude (length) - Wikipedia Human-defined scales and structures Sports Nature Astronomical 1 decametre Conversions Human-defined scales and structures Sports Nature Astronomical 1 hectometre Conversions Human-defined scales and structures Sports Nature Astronomical 1 kilometre Conversions Human-defined scales and structures Geographical Astronomical 10 kilometres Conversions Sports Human-defined scales and structures Geographical Astronomical 100 kilometres Conversions Human-defined scales and structures Geographical Astronomical 1 megametre Conversions Human-defined scales and structures Sports Geographical Astronomical 10 megametres Conversions Human-defined scales and structures Geographical Astronomical 100 megametres 1 gigametre
    [Show full text]
  • How Fast Are You Moving When You Are Sitting Still? by Andrew Fraknoi Foothill College & the Astronomical Society of the Pacific
    © 2007, Astronomical Society of the Pacific No. 71 • Spring 2007 www.astrosociety.org/uitc 390 Ashton Avenue, San Francisco, CA 94112 How Fast Are You Moving When You Are Sitting Still? by Andrew Fraknoi Foothill College & the Astronomical Society of the Pacific hen, after a long day of running around, you Stream is part of contains more water than all the rivers of finally find the time to relax in your favorite the world put together. It is circulated by the energy of our Warmchair, nothing seems easier than just sitting turning planet. still. But have you ever considered how fast you are really moving when it seems you are not moving at all? Daily Motion When we are on a smoothly riding train, we sometimes get the illusion that the train is standing still and the trees or buildings are moving backwards. In the same way, because we “ride” with the spinning Earth, it appears to us that the Sun and the stars are the ones doing the moving as day and night alternate. But actually, it is our planet that turns on its axis once a day—and all of us who live on the Earth’s surface are moving with it. How fast do we turn? To make one complete rotation in 24 hours, a point near the equator of the Earth must move at close to 1000 miles per hour (1600 km/hr). The speed gets less as you move north, but it’s still a good clip throughout the United States. Because gravity holds us tight to the surface of our planet, we move with the Earth and don’t notice its rotation1 in everyday life.
    [Show full text]
  • THE HISTORY of SUNLIGHT WHAT DOES ASTRONOMY HAVE to DO with GEOLOGY? Everything
    EAS 107, How the Earth Works Class 6, TextPage 1 of 4 THE HISTORY OF SUNLIGHT WHAT DOES ASTRONOMY HAVE TO DO WITH GEOLOGY? Everything. The Earth’s evolution is a sidelight to the Sun’s, and has been ever since the solar system’s formation was triggered by a nearby star’s explosion 4.6 Ga ago1. The Earth is a concentration of the heaviest, least volatile products of nuclear fusion in stars. The planet’s operation basically consists of the stellar-powered reprocessing of extinct stars’ relatively rare heavy-element leftovers, some 99.98% of the power now coming from sunlight and virtually all the rest from nuclear and gravitational potential energy laid up by stars that went extinct before the Sun began to shine. Changes in the Earth’s sunlight dose (i.e. insolation) have been among the most important influences on theplanet’s operation and evolution. The second class (“How has the Earth Remained Habitable?”) touched on the single largest, longest-term change: the relatively huge increase in the Sun’s luminosity from 75-80% of its present value in the 4.5 Ga since it first began to shine as a main-sequence star. Here we will see how this increase has come about and how the controlling factor may contribute to the Sun’s variability on shorter time scales. GETTING ORIENTED Where Are We in Space? In the Milky Way, one galaxy among millions in the universe, thousands in the Local Supercluster, and tens in the Local Group; in the midst of a wave of star formation on one of this spiral galaxy’s arms, about 30,000 light-years from the galaxy’s center and revolving around it once in about 250 Ma (the so-called galactic year); about 8 light-minutes from a middle-aged star of about average mass.
    [Show full text]
  • William Pendry Bidelman (1918-2011)
    William Pendry Bidelman (1918–2011)1 Howard E. Bond2 Received ; accepted arXiv:1609.09109v1 [astro-ph.SR] 28 Sep 2016 1Material for this article was contributed by several family members, colleagues, and former students, including: Billie Bidelman Little, Joseph Little, James Caplinger, D. Jack MacConnell, Wayne Osborn, George W. Preston, Nancy G. Roman, and Nolan Walborn. Any opinions stated are those of the author. 2Department of Astronomy & Astrophysics, Pennsylvania State University, University Park, PA 16802; [email protected] –2– ABSTRACT William P. Bidelman—Editor of these Publications from 1956 to 1961—passed away on 2011 May 3, at the age of 92. He was one of the last of the masters of visual stellar spectral classification and the identification of peculiar stars. I re- view his contributions to these subjects, including the discoveries of barium stars, hydrogen-deficient stars, high-galactic-latitude supergiants, stars with anomalous carbon content, and exotic chemical abundances in peculiar A and B stars. Bidel- man was legendary for his encyclopedic knowledge of the stellar literature. He had a profound and inspirational influence on many colleagues and students. Some of the bizarre stellar phenomena he discovered remain unexplained to the present day. Subject headings: obituaries (W. P. Bidelman) –3– William Pendry Bidelman—famous among his astronomical colleagues and students for his encyclopedic knowledge of stellar spectra and their peculiarities—passed away at the age of 92 on 2011 May 3, in Murfreesboro, Tennessee. He was Editor of these Publications from 1956 to 1961. Bidelman was born in Los Angeles on 1918 September 25, but when the family fell onto hard financial times, his mother moved with him to Grand Forks, North Dakota in 1922.
    [Show full text]
  • Solar System Magda Stavinschi International Astronomical Union, Astronomical Institute of the Romanian Academy (Bucarest, Rumania)
    Solar System Magda Stavinschi International Astronomical Union, Astronomical Institute of the Romanian Academy (Bucarest, Rumania) ttttttttttttttttttttttttttttttttttttttttttttttttttttttttttttttttttttttttttttttttttttttttt Summary What is a Solar System? Undoubtedly, in a universe where we talk about stellar To define it we shall indicate the elements of the en- and solar systems, planets and exoplanets, the oldest semble: the Sun and all the bodies surrounding it and and the best-known system is the solar one. Who does connected to it through the gravitational force. not know what the Sun is, what planets are, comets, What is the place of the Solar System asteroids? But is this really true? If we want to know in the universe? about these types of objects from a scientific point of view, we have to know the rules that define this sys- !e Solar System is situated in one of the exterior arms tem. of our Galaxy, also called the Milky Way. !is arm is called the Orion Arm. It is located in a region of rela- Which bodies fall into these catagories (according to tively small density. the resolution of the International Astronomical Un- ion of 24 August 2006)? !e Sun, together with the entire Solar system, is or- biting around the center of our Galaxy, located at a tFJHIUQMBOFUT distance of 25,000 – 28,000 light years (approximately tOBUVSBMTBUFMMJUFTPGUIFQMBOFUT half of the galaxy radius), with an orbital period of ap- tUISFFEXBSGQMBOFUT proximately 225-250 million years (the galactic year of tPUIFSTNBMMFSCPEJFT o asteroids the Solar system). !e travel distance along this circu- o meteorites lar orbit is approximately 220 km/s, while the direc- o comets tion is oriented towards the present position of the star o dust Vega.
    [Show full text]
  • NL#150 January/February
    AAAS Publication for the members N of the Americanewsletter Astronomical Society January/February 2010, Issue 150 CONTENTS President's Column John Huchra, [email protected] 2 As I write this we are gearing up for the January AAS meeting by preparing the Council meeting From the agenda and preparing for a strategic planning retreat before the Council meeting. Strategic Executive Office planning has become a fixture of recent Council activities. We are examining our priorities, evaluating our resources and the match between resources and priorities, and thinking of the ways the Society can be of service to its members. I hope you will help in these activities by contacting your elected AAS Council representatives with thoughts on what we are doing right or wrong and 3 also on what the AAS might do in the future. Don’t wait for the next AAS meeting, either. 25 Things About... Open access to the results of scientific research is one of the cornerstones of science. In astronomy, particularly in America, we have an enviable system of journals that allows us to publish our results and ideas in an efficient and cost effective way. By all objective measures the quality of our 4 journals is extremely high. Time to publication is short. The cost of publication, now split between institutional subscriptions and page charges, remains relatively low. Our journals even “archive” Member moderately large tabular datasets as part of publication. Anniversaries The Society and our publishers have worked hard to keep costs down and at the same time improve service. We have a mixed business model that works, as noted above, split between subscription 8 and page charge revenue.
    [Show full text]
  • 71. How Fast Are You Moving When You Are Sitting Still?
    © 2007, Astronomical Society of the Pacific No. 71 • Spring 2007 www.astrosociety.org/uitc 390 Ashton Avenue, San Francisco, CA 94112 How Fast Are You Moving When You Are Sitting Still? by Andrew Fraknoi Foothill College & the Astronomical Society of the Pacific hen, after a long day of running around, you Stream is part of contains more water than all the rivers of finally find the time to relax in your favorite the world put together. It is circulated by the energy of our Warmchair, nothing seems easier than just sitting turning planet. still. But have you ever considered how fast you are really moving when it seems you are not moving at all? Daily Motion When we are on a smoothly riding train, we sometimes get the illusion that the train is standing still and the trees or buildings are moving backwards. In the same way, because we “ride” with the spinning Earth, it appears to us that the Sun and the stars are the ones doing the moving as day and night alternate. But actually, it is our planet that turns on its axis once a day—and all of us who live on the Earth’s surface are moving with it. How fast do we turn? To make one complete rotation in 24 hours, a point near the equator of the Earth must move at close to 1000 miles per hour (1600 km/hr). The speed gets less as you move north, but it’s still a good clip throughout the United States. Because gravity holds us tight to the surface of our planet, we move with the Earth and don’t notice its rotation1 in everyday life.
    [Show full text]