DOCSLIB.ORG

Dot to Dot Star Constellations Challenge

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Dot to Dot Star Constellations Challenge Dot to Dot Star Constellations Challenge Can you join the stars together using straight lines to form a Can you circle the correct constellation? constellation? Use the numbers to help you. 1 6,9 2 7 3,19 4 5,10 18,20 17,21,25 14,16 8 The Plough Canis Major 22,24 11,13 15 12 23 26 Can you write the name of the constellation in the box provided? Cassiopeia Orion Can you read the name of that constellation? Page 1 of 15 Dot to Dot Star Constellations Challenge Can you join the stars together using straight lines to form a Can you circle the correct constellation? constellation? Use the numbers to help you. 1 2 3 4 The Plough Canis Major 5 7 6 Can you write the name of the constellation in the box provided? Cassiopeia Orion Can you read the name of that constellation? Page 2 of 15 Dot to Dot Star Constellations Challenge Can you join the stars together using straight lines to form a Can you circle the correct constellation? constellation? Use the numbers to help you. 1 3 2 The Plough Canis Major 5 4 Can you write the name of the constellation in the box provided? Cassiopeia Orion Can you read the name of that constellation? Page 3 of 15 Dot to Dot Star Constellations Challenge Can you join the stars together using straight lines to form a Can you circle the correct constellation? constellation? Use the numbers to help you. 15 14,16 2 1,5 13,17 12,18 11,19,25 20,24 3 9 4,6 10,26 21,23 7 22 8,36 The Plough Canis Major 27,31 32 28,30 33,35 29 34 Can you write the name of the constellation in the box provided? Cassiopeia Orion Can you read the name of that constellation? Page 4 of 15 Dot to Dot Star Constellations Challenge Can you join the stars together using straight lines to form a Can you circle the correct constellation? constellation? Use the numbers to help you. 7 6 5 2 8,14 3 4 1 15 9,13 16 11 10,12 17,23 Ursa Major Leo 18,22 20 19,21 24 25 Can you write the name of the constellation in the box provided? Cygnus Lyra Can you read the name of that constellation? Page 5 of 15 Dot to Dot Star Constellations Challenge Can you join the stars together using straight lines to form a Can you circle the correct constellation? constellation? Use the numbers to help you. 2 1 3 9 4,10 Ursa Major Leo 5 7 8 6 Can you write the name of the constellation in the box provided? Cygnus Lyra Can you read the name of that constellation? Page 6 of 15 Dot to Dot Star Constellations Challenge Can you join the stars together using straight lines to form a Can you circle the correct constellation? constellation? Use the numbers to help you. 1 2 6 3,5,7 Ursa Major Leo 4 8 9 Can you write the name of the constellation in the box provided? Cygnus Lyra Can you read the name of that constellation? Page 7 of 15 Dot to Dot Star Constellations Challenge Can you join the stars together using straight lines to form a Can you circle the correct constellation? constellation? Use the numbers to help you. 1 14 3 2 13 15 12 4 16 5 Ursa Major Leo 11 6 10 7 8 9 Can you write the name of the constellation in the box provided? Cygnus Aquarius Can you read the name of that constellation? Page 8 of 15 Dot to Dot Star Constellations Challenge Can you join the stars together using straight lines to form a Can you circle the correct constellation? constellation? Use the numbers to help you. 1 3 2,6 Ursa Major Leo 4 5 Can you write the name of the constellation in the box provided? Cygnus Lyra Can you read the name of that constellation? Page 9 of 15 Dot to Dot Star Constellations Challenge Can you join the stars together using straight lines to form a Can you circle the correct constellation? constellation? Use the numbers to help you. 16,2017 18 15 19 14 13 11 12 9 10 Hydra Virgo 3 4 2 1 7 8 6 5 Can you write the name of the constellation in the box provided? Cetus Centaurus Can you read the name of that constellation? Page 10 of 15 Dot to Dot Star Constellations Challenge Can you join the stars together using straight lines to form a Can you circle the correct constellation? constellation? Use the numbers to help you. 8 7 10 9 Hydra Virgo 6 11 3 5 1 2 4 Can you write the name of the constellation in the box provided? Cetus Centaurus Can you read the name of that constellation? Page 11 of 15 Dot to Dot Star Constellations Challenge Can you join the stars together using straight lines to form a Can you circle the correct constellation? constellation? Use the numbers to help you. 4 3 5 2 1,6 7 8 14 13 12 Hydra Virgo 9,15 11 10 Can you write the name of the constellation in the box provided? Cetus Centaurus Can you read the name of that constellation? Page 12 of 15 Dot to Dot Star Constellations Challenge Can you join the stars together using straight lines to form a Can you circle the correct constellation? constellation? Use the numbers to help you. 10 9 7 8 4 6 3 2 Hydra Virgo 5 1 Can you write the name of the constellation in the box provided? Cetus Centaurus Can you read the name of that constellation? Page 13 of 15 Dot to Dot Star Constellations Challenge Can you join the stars together using straight lines to form a Can you circle the correct constellation? constellation? Use the numbers to help you. 9 8 10 11 3 4 5 Aquarius Ophiuchus 2 1 6 7 Can you write the name of the constellation in the box provided? Phoenix Canis Major Can you read the name of that constellation? Page 14 of 15 Dot to Dot Star Constellations Challenge Can you join the stars together using straight lines to form a Can you circle the correct constellation? constellation? Use the numbers to help you. 8 17 16 15,18 13 14 7 11 10 12 Ophiuchus 6 Aquarius 5 4,9 3 2 1 Can you write the name of the constellation in the box provided? Phoenix Canis Major Can you read the name of that constellation? Page 15 of 15.
Load more

Recommended publications
  • Introduction to Astronomy from Darkness to Blazing Glory
    Introduction to Astronomy From Darkness to Blazing Glory Published by JAS Educational Publications Copyright Pending 2010 JAS Educational Publications All rights reserved. Including the right of reproduction in whole or in part in any form. Second Edition Author: Jeffrey Wright Scott Photographs and Diagrams: Credit NASA, Jet Propulsion Laboratory, USGS, NOAA, Aames Research Center JAS Educational Publications 2601 Oakdale Road, H2 P.O. Box 197 Modesto California 95355 1-888-586-6252 Website: http://.Introastro.com Printing by Minuteman Press, Berkley, California ISBN 978-0-9827200-0-4 1 Introduction to Astronomy From Darkness to Blazing Glory The moon Titan is in the forefront with the moon Tethys behind it. These are two of many of Saturn’s moons Credit: Cassini Imaging Team, ISS, JPL, ESA, NASA 2 Introduction to Astronomy Contents in Brief Chapter 1: Astronomy Basics: Pages 1 – 6 Workbook Pages 1 - 2 Chapter 2: Time: Pages 7 - 10 Workbook Pages 3 - 4 Chapter 3: Solar System Overview: Pages 11 - 14 Workbook Pages 5 - 8 Chapter 4: Our Sun: Pages 15 - 20 Workbook Pages 9 - 16 Chapter 5: The Terrestrial Planets: Page 21 - 39 Workbook Pages 17 - 36 Mercury: Pages 22 - 23 Venus: Pages 24 - 25 Earth: Pages 25 - 34 Mars: Pages 34 - 39 Chapter 6: Outer, Dwarf and Exoplanets Pages: 41-54 Workbook Pages 37 - 48 Jupiter: Pages 41 - 42 Saturn: Pages 42 - 44 Uranus: Pages 44 - 45 Neptune: Pages 45 - 46 Dwarf Planets, Plutoids and Exoplanets: Pages 47 -54 3 Chapter 7: The Moons: Pages: 55 - 66 Workbook Pages 49 - 56 Chapter 8: Rocks and Ice:
    [Show full text]
  • Educator's Guide: Orion
    Legends of the Night Sky Orion Educator’s Guide Grades K - 8 Written By: Dr. Phil Wymer, Ph.D. & Art Klinger Legends of the Night Sky: Orion Educator’s Guide Table of Contents Introduction………………………………………………………………....3 Constellations; General Overview……………………………………..4 Orion…………………………………………………………………………..22 Scorpius……………………………………………………………………….36 Canis Major…………………………………………………………………..45 Canis Minor…………………………………………………………………..52 Lesson Plans………………………………………………………………….56 Coloring Book…………………………………………………………………….….57 Hand Angles……………………………………………………………………….…64 Constellation Research..…………………………………………………….……71 When and Where to View Orion…………………………………….……..…77 Angles For Locating Orion..…………………………………………...……….78 Overhead Projector Punch Out of Orion……………………………………82 Where on Earth is: Thrace, Lemnos, and Crete?.............................83 Appendix………………………………………………………………………86 Copyright©2003, Audio Visual Imagineering, Inc. 2 Legends of the Night Sky: Orion Educator’s Guide Introduction It is our belief that “Legends of the Night sky: Orion” is the best multi-grade (K – 8), multi-disciplinary education package on the market today. It consists of a humorous 24-minute show and educator’s package. The Orion Educator’s Guide is designed for Planetarians, Teachers, and parents. The information is researched, organized, and laid out so that the educator need not spend hours coming up with lesson plans or labs. This has already been accomplished by certified educators. The guide is written to alleviate the fear of space and the night sky (that many elementary and middle school teachers have) when it comes to that section of the science lesson plan. It is an excellent tool that allows the parents to be a part of the learning experience. The guide is devised in such a way that there are plenty of visuals to assist the educator and student in finding the Winter constellations.
    [Show full text]
  • Molecular Gas Content of Galaxies in the Hydra-Centaurus Supercluster
    MOLECULAR GAS CONTENT OF GALAXIES IN THE HYDRA-CENTAURUS SUPERCLUSTER W.K. Huchtmeier ™ ** <$ '"" & ^ O Max-Planck-Institut fiir Radioastronomie Auf dem Hugel 69 , 5300 Bonn 1 , W. Germany • Abstract A survey of bright spiral galaxies in the Hydra-Centaurus supercluster for the CO(l-O) transition at 115 GHz was performed with the 15m Swedish-ESO submillimeter telescope (SEST). A total of 30 galaxies have been detected in the CO(l-O) transition out of 47 observed, which is a detection rate over 60%. Global physical parameters of these galaxies derived from optical, CO, HI, and IR measurements compare very well with properties of galaxies in the Virgo cluster. The Hydra I cluster (Abell 1060) is one of the nearest clusters and very similar to the Virgo cluster in many global parameters like type, population, size, and shape. Both clusters have comparable velocity dispersions (i.e. total mass) and are spiral rich. Hydra is well isolated in velocity space and appears more circular (Kwast 1966), and might be dynamically more relaxed, although the center may contain significant substructures (Fitchett and Meritt 1988) or projected foreground groups. Both clusters contain low luminosity central X-ray sources. We assume a distance of 68.4 Mpc for Hydra I in order to allow direct comparison with some (nearly) complete galaxy samples. The Centaurus cluster provides a valuable contrast to Virgo and Coma. It is intermediate in distance and in galaxy population type with a relatively well defined SO-dominated core and an extensive S-rich halo. Its richness class in the Abell scale is 1 or 2 which is richer than Virgo and poorer than Coma.
    [Show full text]
  • A Collection of Curricula for the STARLAB Greek Mythology Cylinder
    A Collection of Curricula for the STARLAB Greek Mythology Cylinder Including: A Look at the Greek Mythology Cylinder Three Activities: Constellation Creations, Create a Myth, I'm Getting Dizzy by Gary D. Kratzer ©2008 by Science First/STARLAB, 95 Botsford Place, Buffalo, NY 14216. www.starlab.com. All rights reserved. Curriculum Guide Contents A Look at the Greek Mythology Cylinder ...................3 Leo, the Lion .....................................................9 Introduction ......................................................3 Lepus, the Hare .................................................9 Andromeda ......................................................3 Libra, the Scales ................................................9 Aquarius ..........................................................3 Lyra, the Lyre ...................................................10 Aquila, the Eagle ..............................................3 Ophuichus, Serpent Holder ..............................10 Aries, the Ram ..................................................3 Orion, the Hunter ............................................10 Auriga .............................................................4 Pegasus, the Winged Horse..............................11 Bootes ..............................................................4 Perseus, the Champion .....................................11 Cancer, the Crab ..............................................4 Phoenix ..........................................................11 Canis Major, the Big Dog
    [Show full text]
  • Large Peculiar Velocities in the Hydra Centaurus Supercluster
    LARGE PECULIAR VELOCITIES IN THE HYDRA CENTAURUS SUPERCLUSTER M. Aaronson1*, G.D. Bothun2, K.G. Budge3, JA. Dawe4, R.J. Dickens5, RJ. Hall6, J.R. Lucey7, J.R. Mould3, J.D. Murray6, R.A. Schommer8, A.E. Wright6. 1 Steward Observatory, University of Arizona 2 University of Michigan 3 California Institute of Technology 4 Australian National University 5Rutherford Appleton Laboratory 6 Australian National Radio Astronomy Observatory 7Anglo Australian Observatory 8 Rutgers University ABSTRACT Six clusters forming part of the Hydra-Cen Supercluster and its ex- tension on the opposite side of the galactic plane are under study at 21 cm with the Parkes radiotélescope. The infrared Tully-Fisher relation is used to determine the relative distances of the clusters. These clusters exhibit significant and generally positive peculiar velocities ranging from essentially zero for the Hydra cluster to as much as 1000 km/sec for the Pavo and Centaurus clusters. An upper limit of 500 km/sec was previously found in the study of clusters accessible from Arecibo. Data collection is not yet complete, however, and is further subject to unstud- ied systematic errors due to present reliance on photographic galaxy diameters. Nevertheless, these preliminary results support the notion of a large scale (and pre- sumably gravit at ionally) disturbed velocity field in the second and third quadrants of the supergalactic plane. 1. INTRODUCTION Comparison of the ratios of distances of galaxies with the ratios of their recession velocities allows one to learn something about the "noise" in the Hubble flow on various scales. One is subject to the limitation, however, that distance indicators are imprecise, and the 0.4 mag scatter in the infrared Tully-Fisher (IRTF) relation translates to an uncertainty of 1000 km/sec in an individual galaxy at cz = 5000 km/sec.
    [Show full text]
  • Hungry Mother State Park Stargazing for March, April And
    Welcome to Hungry Mother State Park Hungry Mother State Park Attention all stargazers, the night sky is calling. Here at the park we have some prime viewing areas located at the Stargazing spillway, the beach front and the ballfield behind Ferrell Hall. Year-round in the Park the sky is filled with stars, planets and constellations with stories to tell. Here Please watch for additional in the Northern Hemisphere we have monthly Stargazing guides to circumpolar constellations that can be learn more about stargazing in viewed all year long. What are you our park. waiting for? Let’s go stargazing. For more information about March Constellations Virginia State Parks, please visit: Cancer Canis Minor www.virginiastateparks.gov April Constellations Discovery Center Hydra Hours of Operation: Leo 10 a.m. - 6:30 p.m. daily May Constellations Corvus March/April/May Virgo Star Gazing Smart Phone Apps Star Walk 2 Night Sky Star Tracker Interpretation Office: Sky Map Phone: 276-781-7413 [email protected] March Constellations April Constellations the god Zeus placed the figure of a gigantic lion in the sky with the rest of the stars. Cancer (The Crab) Hydra (The Serpent) The people of Nemea were terrorized by the According to an ancient Greek legend, the Hydra is the longest constellation in the sky. lion. Several times they tried to destroy the figure of a gigantic crab was placed in the It is so long that it takes more than six hours beast. Heracles was ordered by the king, nighttime sky by the goddess Hera to form to rise completely.
    [Show full text]
  • Searching for Star-Forming Galaxies in the Fornax and Hydra Clusters ? O
    Astronomy & Astrophysics manuscript no. paper7 c ESO 2020 January 23, 2020 Searching for star-forming galaxies in the Fornax and Hydra clusters ? O. Vaduvescu1;2, C. Kehrig3, J. M. Vilchez4, and E. Unda-Sanzana2 1 Isaac Newton Group of Telescopes, Apto. 321, E-38700 Santa Cruz de la Palma, Canary Islands, Spain e-mail: [email protected] 2 Instituto de Astronom´ıa, Universidad Catolica´ del Norte, Avenida Angamos 0610, Antofagasta, Chile 3 Leibniz-Institut fur Astrophysik Postdam, innoFSPECPostdam, An der Sternwarte16, 14482 Postdam, Germany 4 Instituto de Astrof´ısica de Andaluc´ıa (CSIC), Apto. 3004, 18080, Granada, Spain Astronomy and Astrophysics 533, A65 (2011) ABSTRACT Context. The formation and evolution of dwarf galaxies is relatively difficult to understand because of their faint emission in all regimes that require large aperture telescopes. Aims. We intend to study the evolution of star forming dwarf galaxies in clusters. We selected Fornax and Hydra clusters to com- plement our previous study of Virgo. On the basis of available literature data, we selected ten star-forming candidates in Fornax and another ten objects in Hydra. Methods. We used Gemini South with GMOS to acquire Hα images necessary to detect star-forming regions in the two galaxy samples. We then performed long-slit spectroscopy for the brightest six candidates, to derive their chemical properties. Finally, we employed the VLT with HAWK-I to observe all galaxies in the K0 band to derive their main physical properties. Results. We studied the morphology of our two samples, finding five objects in Fornax and six in Hydra with structures consistent with those of star-forming dwarfs, i.e., dwarf irregulars (dIs) or blue compact dwarfs (BCDs).
    [Show full text]
  • Clusters of Galaxy Hierarchical Structure the Universe Shows Range of Patterns of Structures on Decidedly Different Scales
    Astronomy 218 Clusters of Galaxy Hierarchical Structure The Universe shows range of patterns of structures on decidedly different scales. Stars (typical diameter of d ~ 106 km) are found in gravitationally bound systems called star clusters (≲ 106 stars) and galaxies (106 ‒ 1012 stars). Galaxies (d ~ 10 kpc), composed of stars, star clusters, gas, dust and dark matter, are found in gravitationally bound systems called groups (< 50 galaxies) and clusters (50 ‒ 104 galaxies). Clusters (d ~ 1 Mpc), composed of galaxies, gas, and dark matter, are found in currently collapsing systems called superclusters. Superclusters (d ≲ 100 Mpc) are the largest known structures. The Local Group Three large spirals, the Milky Way Galaxy, Andromeda Galaxy(M31), and Triangulum Galaxy (M33) and their satellites make up the Local Group of galaxies. At least 45 galaxies are members of the Local Group, all within about 1 Mpc of the Milky Way. The mass of the Local Group is dominated by 11 11 10 M31 (7 × 10 M☉), MW (6 × 10 M☉), M33 (5 × 10 M☉) Virgo Cluster The nearest large cluster to the Local Group is the Virgo Cluster at a distance of 16 Mpc, has a width of ~2 Mpc though it is far from spherical. It covers 7° of the sky in the Constellations Virgo and Coma Berenices. Even these The 4 brightest very bright galaxies are giant galaxies are elliptical galaxies invisible to (M49, M60, M86 & the unaided M87). eye, mV ~ 9. Virgo Census The Virgo Cluster is loosely concentrated and irregularly shaped, making it fairly M88 M99 representative of the most M100 common class of clusters.
    [Show full text]
  • Supernova Star Maps
    Supernova Star Maps Which Stars in the Night Sky Will Go Su pernova? About the Activity Allow visitors to experience finding stars in the night sky that will eventually go supernova. Topics Covered Observation of stars that will one day go supernova Materials Needed • Copies of this month's Star Map for your visitors- print the Supernova Information Sheet on the back. • (Optional) Telescopes A S A Participants N t i d Activities are appropriate for families Cre with children over the age of 9, the general public, and school groups ages 9 and up. Any number of visitors may participate. Location and Timing This activity is perfect for a star party outdoors and can take a few minutes, up to 20 minutes, depending on the Included in This Packet Page length of the discussion about the Detailed Activity Description 2 questions on the Supernova Helpful Hints 5 Information Sheet. Discussion can start Supernova Information Sheet 6 while it is still light. Star Maps handouts 7 Background Information There is an Excel spreadsheet on the Supernova Star Maps Resource Page that lists all these stars with all their particulars. Search for Supernova Star Maps here: http://nightsky.jpl.nasa.gov/download-search.cfm © 2008 Astronomical Society of the Pacific www.astrosociety.org Copies for educational purposes are permitted. Additional astronomy activities can be found here: http://nightsky.jpl.nasa.gov Star Maps: Stars likely to go Supernova! Leader’s Role Participants’ Role (Anticipated) Materials: Star Map with Supernova Information sheet on back Objective: Allow visitors to experience finding stars in the night sky that will eventually go supernova.
    [Show full text]
  • Constellation Coloring Pages
    Constellation coloring pages OU Lynx Johann Bode, Uranographia (1801) Plate 6 (Ursa Major) Leo Minor the Little Lion, Ursa Major the Big Bear Plate 7 (Bootes) Bootes the Herdsman, Canes Venatici the Hunting Dogs, Coma Berenices the Hair of Berenice, Corona Borealis the Northern Crown, Mons Maenalus the Mountain, Quadrant Muralis the Mural Quadrant Plate 8 (Cygnus) Cygnus the Swan, Hercules, Lyra the Harp, Ramus Pomifer the Apple branch, Sagitta the Arrow, Vulpecula the Fox Plate 9 (Ophiuchus) Antinous the Servant, Aquila the Eagle, Ophiuchus the Snake Handler, Scutum the Shield, Serpens the Snake, The Bull of Poniatowski Plate 10 (Pegasus) Delphinus the Dolphin, Equuleus the Foal, Pegasus the Flying Horse Plate 12 (Orion and Taurus) Canis Minor the Little Dog, Gemini the Twins, Orion the Hunter, Psalterium Georgianum the Harp, Taurus the Bull Plate 14 (Virgo) Cauda Hydrae, Ears of wheat, Hydra the Water Snake, Libra the Balance, Virgo the Maiden Plate 15 (Sagittarius) Ara the Altar, Corona Australis the Southern Crown, Lupus the Wolf, Norma the Carpenter's Square, Scorpius the Scorpion, Tubus Herschelii Major the Telescope of Uranus Plate 17 (Cetus) Apparatus Chemicus, Cetus the Whale or Sea Monster, Eridanus the River, Fornax the Furnace, Machina Electrica the Electrostatic Generator, Sculptor the Sculptor's Workshop Plate 18 (Canis Major) Argo Navis, Caelum the Sculptor's Chisel, Canis Major the Big Dog, Caput Hydrum, Columba the Dove, Hydra the Water Snake, Lepus the Hare, Lochium Funis the Nautical Line of Argo Navis, Monoceros the Unicorn, Officina Typographica the Printing Press, Pyxis the Compass of Argo Navis Plate 19 (Hydra) Antlia the Air Pump, Argo Navis, Centaurus the Centaur, Corvus the Crow, Crater the Cup, Felis the Cat, Hydra the Water Snake Exhibit: Galileo’s World.
    [Show full text]
  • Appendix C a List of the Messier Objects
    Appendix C A List of the Messier Objects DS=DoubleStar OC=OpenCluster GC=GlobularCluster EG = Elliptical Galaxy SG = Spiral Galaxy IG = Irregular Galaxy PN = Planetary Nebula DN = Diffuse Nebula SR = Supernova Remnant Object Common Name Type of Object Location mv Dist. (kly) M1 Crab Nebula SR Taurus 9.0 6.3 M2 GC Aquarius 7.5 36 M3 GC Canes Venatici 7.0 31 M4 GC Scorpius 7.5 7 M5 GC Serpens 7.0 23 M6 Butterfly Cluster OC Scorpius 4.5 2 M7 Ptolemy’s Cluster OC Scorpius 3.5 1 M8 Lagoon Nebula DN Sagittarius 5.0 6.5 M9 GC Ophiuchus 9.0 26 M10 GC Ophiuchus 7.5 13 M11 Wild Duck Cluster OC Scutum 7.0 6 M12 GC Ophiuchus 8.0 18 M13 Great Hercules Cluster GC Hercules 5.8 22 M14 GC Ophiuchus 9.5 27 M15 GC Pegasus 7.5 33 M16 Part of Eagle Nebula OC Serpens 6.5 7 M17 Horseshoe Nebula DN Sagittarius 7.0 5 M18 OC Sagittarius 8.0 6 M19 GC Ophiuchus 8.5 27 M20 Trifid Nebula DN Sagittarius 5.0 2.2 M21 OC Sagittarius 7.0 3 M22 GC Sagittarius 6.5 10 M23 OC Sagittarius 6.0 4.5 135 Object Common Name Type of Object Location mv Dist. (kly) M24 Milky Way Patch Star cloud Sagittarius 11.5 10 M25 OC Sagittarius 4.9 2 M26 OC Scutum 9.5 5 M27 Dumbbell Nebula PN Vulpecula 7.5 1.25 M28 GC Sagittarius 8.5 18 M29 OC Cygnus 9.0 7.2 M30 GC Capricornus 8.5 25 M31 Andromeda Galaxy SG Andromeda 3.5 2500 M32 Satellite galaxy of M31 EG Andromeda 10.0 2900 M33 Triangulum Galaxy SG Triangulum 7.0 2590 M34 OC Perseus 6.0 1.4 M35 OC Gemini 5.5 2.8 M36 OC Auriga 6.5 4.1 M37 OC Auriga 6.0 4.6 M38 OC Auriga 7.0 4.2 M39 OC Cygnus 5.5 0.3 M40 Winnecke 4 DS Ursa Major 9.0 M41 OC Canis
    [Show full text]
  • Guide to the Constellations
    STAR DECK GUIDE TO THE CONSTELLATIONS BY MICHAEL K. SHEPARD, PH.D. ii TABLE OF CONTENTS Introduction 1 Constellations by Season 3 Guide to the Constellations Andromeda, Aquarius 4 Aquila, Aries, Auriga 5 Bootes, Camelopardus, Cancer 6 Canes Venatici, Canis Major, Canis Minor 7 Capricornus, Cassiopeia 8 Cepheus, Cetus, Coma Berenices 9 Corona Borealis, Corvus, Crater 10 Cygnus, Delphinus, Draco 11 Equuleus, Eridanus, Gemini 12 Hercules, Hydra, Lacerta 13 Leo, Leo Minor, Lepus, Libra, Lynx 14 Lyra, Monoceros 15 Ophiuchus, Orion 16 Pegasus, Perseus 17 Pisces, Sagitta, Sagittarius 18 Scorpius, Scutum, Serpens 19 Sextans, Taurus 20 Triangulum, Ursa Major, Ursa Minor 21 Virgo, Vulpecula 22 Additional References 23 Copyright 2002, Michael K. Shepard 1 GUIDE TO THE STAR DECK Introduction As an introduction to astronomy, you cannot go wrong by first learning the night sky. You only need a dark night, your eyes, and a good guide. This set of cards is not designed to replace an atlas, but to engage your interest and teach you the patterns, myths, and relationships between constellations. They may be used as “field cards” that you take outside with you, or they may be played in a variety of card games. The cultural and historical story behind the constellations is a subject all its own, and there are numerous books on the subject for the curious. These cards show 52 of the modern 88 constellations as designated by the International Astronomical Union. Many of them have remained unchanged since antiquity, while others have been added in the past century or so. The majority of these constellations are Greek or Roman in origin and often have one or more myths associated with them.
    [Show full text]