DOCSLIB.ORG

Lever Handles

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Lever Handles Lever Handles Product No. List Please refer to page 7 for ordering customized products. Build to order method Lock Case Type Rose Cover Door ※1 Lever Handles Model Locks Function Finish Type Thickness Quantity (Backset) Type Product Number Handle Fixation Front Width Front Shape Strike ー ー ー ー ー ※ー5 ー Please refer page 6 A standard type is A standard width is A standard FL・FT・ Please specify if FL(BS51) Aquila ※3 Pyxis M Round SW Satin Silver AG Alumite Gold 28~33 01 09 for product number. Lower part Fixed. 25mm. FR Lock Case shape you want other type (Metal) Crux 02 Lyra 10 1 Passage Lock C Oval SA Satin Amber SN Soft Nickel 34~36 Draco 03 ※3 Cygnus 11 L Square SG Satin Gold PC Pearl Chrome Please specify if 22mm width is only is round. strike or you don't Fornax 04 ※3 Volans 131 SB Satin Black CG Champagne Gold + you want the + available for FU・KU + Only FL・FT・FR + need it. Grus Sagitta C Oval CR Chrome Plated BC BS Chrome 05 14 2 Privacy Lock horizontal fixed. Lock Case. Lock Case that you Hydra 06 Norma 15 ※3 L Square PG Gold Plated SPC Shot Pearl Chrome can choose square Musca 07 Bootes 16 AS Alumite Silver SCG Shot Champagne Gold and round shape. Pavo C Oval AA Alumite Amber SBC Shot BS Chrome 08 3 Indicator Lock L Square Lock Case FU・KU・ LU are all in square C Oval shape. 5 Mortise Lock L Square FT(BS51) Aquila 01 ※3 Pyxis 09 M Round SW Satin Silver AG Alumite Gold 28~33 (Metal) Crux 02 Lyra 10 1 Passage Lock C Oval SA Satin Amber SN Soft Nickel 34~36 Draco 03 ※3 Cygnus 11 L Square SG Satin Gold PC Pearl Chrome Examples for product number ordered Fornax 04 ※3 Volans 131 SB Satin Black CG Champagne Gold Grus Sagitta C Oval CR Chrome Plated BC BS Chrome 05 14 2 Privacy Lock Hydra 06 Norma 15 ※3 L Square PG Gold Plated SPC Shot Pearl Chrome Musca 07 Bootes 16 AS Alumite Silver SCG Shot Champagne Gold Pavo C Oval AA Alumite Amber SBC Shot BS Chrome 08 3 Indicator Lock L Square FR(BS51) Aquila 01 ※3 Pyxis 09 1 Passage Lock M Round SW Satin Silver AG Alumite Gold 28~33 (Metal) Crux 02 Lyra 10 SA Satin Amber SN Soft Nickel 34~36 Draco 03 ※3 Cygnus 11 2 Privacy Lock M Round SG Satin Gold PC Pearl Chrome Picture A Picture B Picture C Picture D Picture E Picture F Fornax 04 ※3 Volans 131 SB Satin Black CG Champagne Gold Grus 05 Sagitta 14 3 Indicator Lock M Round CR Chrome Plated BC BS Chrome Hydra 06 Norma 15 ※3 PG Gold Plated SPC Shot Pearl Chrome Standard specification Build to order specification Musca 07 Bootes 16 AS Alumite Silver SCG Shot Champagne Gold Pavo 08 AA Alumite Amber SBC Shot BS Chrome Lock Case Lever Handle Locks Rose Door Handle Front Front ※2 ※3 Finish Quantity fixed FU32(BS32) Aquila 01 Pyxis 09 C Oval SW Satin Silver AG Alumite Gold 25 Strike 1 Passage Lock Type Model Function Cover Type Thickness Position Width Shape (Metal) Crux 02 Lyra 10 E Square SA Satin Amber SN Soft Nickel 28~33 Draco ※3 Cygnus SG Satin Gold PC Pearl Chrome 03 11 Picture A Blank Only Fornax 04 ※3 Volans 131 C Oval SB Satin Black CG Champagne Gold FL ー Musca ー 2 C ー SG 28mm ○pcs Square FType 2 Privacy Lock Build to order (Standard) standard Grus 05 Sagitta 14 E Square CR Chrome Plated BC BS Chrome Hydra 06 Norma 15 ※3 PG Gold Plated SPC Shot Pearl Chrome Musca Bootes C Oval AS Alumite Silver SCG Shot Champagne Gold Picture B Blank Only Blank 07 16 3 Indicator Lock FT ー Aquila ー 1 M ー SW 30mm ○pcs PType Pavo 08 E Square AA Alumite Amber SBC Shot BS Chrome Build to order (Standard) standard (Standard) AP4 ※4 2 Privacy Lock A Oval WH Pale white 25~26 Picture C Blank Only Blank (Plastic fabric color) FR ー Lyra ー 3 M ー CR 35mm ○pcs Square (Lower part fixed) (Resin) 28~30 Standard (Standard) standard (Standard) (Resin) 32~34 ※2 ※3 Picture D FU51(BS51) Aquila 01 Pyxis 09 C Oval SW Satin Silver AG Alumite Gold 25 FU32 ー Fornax ー 2 C ー AS 25mm ○pcs Blank Blank Only Blank (Metal) Crux 02 Lyra 10 1 Passage Lock K Oval SA Satin Amber SN Soft Nickel 28~33 Standard (Standard) (Standard) standard (Standard) Draco 03 ※3 Cygnus 11 E Square SG Satin Gold PC Pearl Chrome Fornax 04 ※3 Volans 131 SB Satin Black CG Champagne Gold Picture E KU ー AP4 ー 2 D ー W 30mm ○pcs Lower 22mm Only NA Grus 05 Sagitta 14 C Oval CR Chrome Plated BC BS Chrome Build to order part fixed standard Hydra 06 Norma 15 ※3 2 Privacy Lock K Oval PG Gold Plated SPC Shot Pearl Chrome Musca Bootes E Square AS Alumite Silver SCG Shot Champagne Gold 07 16 Picture F Horizontal Only Only Pavo AA Alumite Amber SBC Shot BS Chrome ー ー ー 08 LU BP4 2 S WH 30mm ○pcs fixed standard standard NA C Oval Build to order 3 Indicator Lock K Oval E Square AP4 ※4 1 Passage Lock M Round WH Pale white 25~26 (Lower part fixed) (Resin fabric color) 28~30 (Resin) 2 Privacy Lock A Oval 32~34 ※1:Rose shape is depend on the Lock Case type. Please be careful when you specify the product number. (Resin) ※2:Only FU Lock Case has two kinds of backsets, 32 and 51. KU(BS32) Aquila ※3 Pyxis J Oval SW Satin Silver AG Alumite Gold 25 01 09 1 Passage Lock ※3:Alumite Finish only applying for Aquila(01), Draco(03), Fornax(04), Norma(15) handle. (Resin) Crux 02 Lyra 10 F Square SA Satin Amber SN Soft Nickel 28~33 Draco 03 ※3 Cygnus 11 SG Satin Gold PC Pearl Chrome ※4:AP4 and BP4 type handles cannot be fitted in FL, FT, and FR Lock case. Fornax ※3 Volans J Oval SB Satin Black CG Champagne Gold 04 131 2 Privacy Lock ※5:Please contact the Sales Division " [email protected] " if your door thickness is not listed on page 6. Grus 05 Sagitta 14 F Square CR Chrome Plated BC BS Chrome Hydra 06 Norma 15 ※3 PG Gold Plated SPC Shot Pearl Chrome ※6:The standard case latch position is on Right-Hand. Musca Bootes J Oval AS Alumite Silver SCG Shot Champagne Gold 07 16 3 Indicator Lock Please refer to the product manual instructions if you want to change it from Right-Hand to Left-Hand. Pavo 08 F Square AA Alumite Amber SBC Shot BS Chrome AP4 ※4 2 Privacy Lock D Oval W White 25~26 (Lower part fixed) (Resin) (Resin fabric color) 28~30 32~34 LU(BS32) Fornax 04 ※3 1 Passage Lock T Oval AS Alumite silver 30 (Resin) (Horizontal fixed) CR Chrome Plated BP4 ※4 1 Passage Lock S Oval WH Pale white 30 (Horizontal fixed) (Resin) (Resin fabric color) (Resin) 2 Privacy Lock S Oval (Resin) 06 07.
Load more

Recommended publications
  • Instruction Manual
    1 Contents 1. Constellation Watch Cosmo Sign.................................................. 4 2. Constellation Display of Entire Sky at 35° North Latitude ........ 5 3. Features ........................................................................................... 6 4. Setting the Time and Constellation Dial....................................... 8 5. Concerning the Constellation Dial Display ................................ 11 6. Abbreviations of Constellations and their Full Spellings.......... 12 7. Nebulae and Star Clusters on the Constellation Dial in Light Green.... 15 8. Diagram of the Constellation Dial............................................... 16 9. Precautions .................................................................................... 18 10. Specifications................................................................................. 24 3 1. Constellation Watch Cosmo Sign 2. Constellation Display of Entire Sky at 35° The Constellation Watch Cosmo Sign is a precisely designed analog quartz watch that North Latitude displays not only the current time but also the correct positions of the constellations as Right ascension scale Ecliptic Celestial equator they move across the celestial sphere. The Cosmo Sign Constellation Watch gives the Date scale -18° horizontal D azimuth and altitude of the major fixed stars, nebulae and star clusters, displays local i c r e o Constellation dial setting c n t s ( sidereal time, stellar spectral type, pole star hour angle, the hours for astronomical i o N t e n o l l r f
    [Show full text]
  • References and for Further Reading
    Contents Preface. vii Acknowledgements. ix About the Author . xi Chapter 1 A Short History of Planetary Nebulae. 1 Further Discoveries. 1 The Nature of the Nebulae and Modern Catalogues . 3 Chapter 2 The Evolution of Planetary Nebulae . 7 The Lives of the Stars . 7 Stages in the Life Cycle of a Sun-like Star . 9 The Asymptotic Giant Branch . 10 Proto-Planetary Nebulae and Dust. 12 Interactive Winds. 13 Emissions from Planetary Nebulae. 14 Central Stars. 16 Planetary Envelopes . 17 Binary Stars and Magnetic Fields . 19 Lifetimes of Planetary Nebulae . 21 Conclusion . 21 Chapter 3 Observing Planetary Nebulae . 23 Telescopes and Mountings . 23 Telescope Mounts. 26 Eyepieces. 27 Limiting Magnitudes and Angular Resolution . 29 Transparency and Seeing . 31 Dark Adaptation and Averted Vision . 32 Morphology of Planetary Nebulae . 33 Nebular Filters . 35 Star Charts, Observing and Computer Programs. 38 Observing Procedures. 42 Chapter 4 Photographing Planetary Nebulae. 45 Camera Equipment . 45 Software. 48 Filters for Astrophotography . 49 Contents Shooting . 50 Conclusion . 53 xiii Chapter 5 Planetary Nebulae Catalogues . 55 Main Planetary Nebulae . 56 Additional Planetary Nebulae . 58 Chapter 6 Planetary Nebulae by Constellation. 81 Andromeda. 83 Apus. 85 Aquarius . 87 Aquila . 90 Ara . 103 Auriga . 106 Camelopardalis . 108 Canis Major . 111 Carina . 113 Cassiopeia . 119 Centaurus . 123 Cepheus. 126 Cetus . 129 Chameleon . 131 Corona Australis . 133 Corvus. 135 Cygnus. 137 Delphinus . 154 Draco . 157 Eridanus . 160 Fornax . 162 Gemini. 164 Hercules . 170 Hydra. 174 Lacerta. 178 Leo . 180 Lepus . 182 Lupus . 184 Lynx . 190 Lyra . 192 Monoceros . 195 Musca. 198 Norma . 203 Ophiuchus. 205 Orion . 211 Pegasus . 214 Perseus. 219 Puppis .
    [Show full text]
  • Naming the Extrasolar Planets
    Naming the extrasolar planets W. Lyra Max Planck Institute for Astronomy, K¨onigstuhl 17, 69177, Heidelberg, Germany [email protected] Abstract and OGLE-TR-182 b, which does not help educators convey the message that these planets are quite similar to Jupiter. Extrasolar planets are not named and are referred to only In stark contrast, the sentence“planet Apollo is a gas giant by their assigned scientific designation. The reason given like Jupiter” is heavily - yet invisibly - coated with Coper- by the IAU to not name the planets is that it is consid- nicanism. ered impractical as planets are expected to be common. I One reason given by the IAU for not considering naming advance some reasons as to why this logic is flawed, and sug- the extrasolar planets is that it is a task deemed impractical. gest names for the 403 extrasolar planet candidates known One source is quoted as having said “if planets are found to as of Oct 2009. The names follow a scheme of association occur very frequently in the Universe, a system of individual with the constellation that the host star pertains to, and names for planets might well rapidly be found equally im- therefore are mostly drawn from Roman-Greek mythology. practicable as it is for stars, as planet discoveries progress.” Other mythologies may also be used given that a suitable 1. This leads to a second argument. It is indeed impractical association is established. to name all stars. But some stars are named nonetheless. In fact, all other classes of astronomical bodies are named.
    [Show full text]
  • Color Chap 2.Cdr
    Chapter 2 - Location and coordinates Updated 10 July 2006 -4 -3 -2 -1 0 +1 +2 +3 +4 Figure 2.1 A simple number line acts as a one-dimensional coordinate system. Each number describes the distance of a particular point-location from the origin, or zero. The unit of measure for the distance is arbitrary. 10 9 8 (4.5,7.5) 7 6 s i x a (3,5) - 5 y 4 3 (6,3) 2 1 0 0 1 2 3 4 5 6 7 8 9 10 x - axis Figure 2.2 Here is a simple x-y coordinate system with the coordinates of a few points shown as examples. Coordinates are given as an ordered pair of numbers, with the x-coordinate first. The origin is the lower left, at (0,0). The reference lines are the x and y axes. All grid lines are drawn parallel to the two reference lines. The purpose of the grid is to make it easier to make distance measurements between a location-point and the reference lines. 5 4 3 (2,3) 2 s 1 i x a (-2,0) - 0 y -1 -2 (1,-2) -3 -4 -5 -5 -4 -3 -2 -1 0 1 2 3 4 5 x - axis Figure 2.3 A more general coordinate grid places the origin (0,0) at the center of the grid. The coordinates may have either positive or negative values. The sign merely indicates whether the point is left or right (x), or above or below (y) the axis.
    [Show full text]
  • Tidal Origin of NGC 1427A in the Fornax Cluster
    MNRAS 000,1{9 (2017) Preprint 30 October 2017 Compiled using MNRAS LATEX style file v3.0 Tidal origin of NGC 1427A in the Fornax cluster K. Lee-Waddell1?, P. Serra2;1, B. Koribalski1, A. Venhola3;4, E. Iodice5, B. Catinella6, L. Cortese6, R. Peletier3, A. Popping6;7, O. Keenan8, M. Capaccioli9 1CSIRO Astronomy and Space Sciences, Australia Telescope National Facility, PO Box 76, Epping, NSW 1710, Australia 2INAF { Osservatorio Astronomico di Cagliari, Via della Scienza 5, I-09047 Selargius (CA), Italy 3Kapteyn Astronomical Institute, University of Groningen, PO Box 800, NL-9700 AV Groningen, the Netherlands 4Astronomy Research Unit, University of Oulu, FI-90014, Finland 5INAF { Astronomical Observatory of Capodimonte, via Moiariello 16, Naples, I-80131, Italy 6International Centre for Radio Astronomy Research, The University of Western Australia, 35 Stirling Hwy, Crawley, WA 6009, Australia 7CAASTRO: ARC Centre of Excellence for All-sky Astrophysics, Australia 8School of Physics and Astronomy, Cardiff University, Queens Buildings, The Parade, Cardiff CF24 3AA, United Kingsdom 9Dip.di Fisica Ettore Pancini, University of Naples \Federico II," C.U. Monte SantAngelo, Via Cinthia, I-80126, Naples, Italy Accepted 2017 October 26. Received 2017 October 15; in original form 2017 March 31 ABSTRACT We present new Hi observations from the Australia Telescope Compact Array and deep optical imaging from OmegaCam on the VLT Survey Telescope of NGC 1427A, an arrow-shaped dwarf irregular galaxy located in the Fornax cluster. The data reveal a star-less Hi tail that contains ∼10% of the atomic gas of NGC 1427A as well as extended stellar emission that shed new light on the recent history of this galaxy.
    [Show full text]
  • The Constellation Microscopium, the Microscope Microscopium Is A
    The Constellation Microscopium, the Microscope Microscopium is a small constellation in the southern sky, defined in the 18th century by Nicolas Louis de Lacaille in 1751–52 . Its name is Latin for microscope; it was invented by Lacaille to commemorate the compound microscope, i.e. one that uses more than one lens. The first microscope was invented by the two brothers, Hans and Zacharius Jensen, Dutch spectacle makers of Holland in 1590, who were also involved in the invention of the telescope (see below). Lacaille first showed it on his map of 1756 under the name le Microscope but Latinized this to Microscopium on the second edition published in 1763. He described it as consisting of "a tube above a square box". It contains sixty-nine stars, varying in magnitude from 4.8 to 7, the lucida being Gamma Microscopii of apparent magnitude 4.68. Two star systems have been found to have planets, while another has a debris disk. The stars that now comprise Microscopium may formerly have belonged to the hind feet of Sagittarius. However, this is uncertain as, while its stars seem to be referred to by Al-Sufi as having been seen by Ptolemy, Al-Sufi does not specify their exact positions. Microscopium is bordered Capricornus to the north, Piscis Austrinus and Grus to the west, Sagittarius to the east, Indus to the south, and touching on Telescopium to the southeast. The recommended three-letter abbreviation for the constellation, as adopted Seen in the 1824 star chart set Urania's Mirror (lower left) by the International Astronomical Union in 1922, is 'Mic'.
    [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]
  • Searching for Star-Forming Dwarf Galaxies in the Antlia Cluster?
    A&A 563, A118 (2014) Astronomy DOI: 10.1051/0004-6361/201322615 & c ESO 2014 Astrophysics Searching for star-forming dwarf galaxies in the Antlia cluster? O. Vaduvescu1,C.Kehrig2, L. P. Bassino3,4,5, A. V. Smith Castelli3,4,5, and J. P. Calderón3,4,5 1 Isaac Newton Group of Telescopes, Apto. 321, 38700 Santa Cruz de la Palma, Canary Islands, Spain e-mail: [email protected] 2 Instituto de Astrofísica de Andalucía (CSIC), Apto. 3004, 18080 Granada, Spain 3 Grupo de Investigación CGGE, Facultad de Ciencias Astronómicas y Geofísicas, Universidad Nacional de La Plata, Paseo del Bosque, B1900FWA La Plata, Argentina 4 Consejo Nacional de Investigaciones Científicas y Técnicas (CONICET), C1033AAJ Ciudad Autónoma de Buenos Aires, Argentina 5 Instituto de Astrofísica de La Plata (CCT-La Plata, CONICET-UNLP), Paseo del Bosque, B1900FWA La Plata, Argentina Received 5 September 2013 / Accepted 31 January 2014 ABSTRACT Context. The formation and evolution of dwarf galaxies in clusters need to be understood, and this requires large aperture telescopes. Aims. In this sense, we selected the Antlia cluster to continue our previous work in the Virgo, Fornax, and Hydra clusters and in the Local Volume (LV). Because of the scarce available literature data, we selected a small sample of five blue compact dwarf (BCD) candidates in Antlia for observation. Methods. Using the Gemini South and GMOS camera, we acquired the Hα imaging needed to detect star-forming regions in this sample. With the long-slit spectroscopic data of the brightest seven knots detected in three BCD candidates, we derived their basic chemical properties.
    [Show full text]
  • VOLANS-CARINA: a NEW 90 Myr OLD STELLAR ASSOCIATION at 85 Pc
    Draft version August 15, 2018 Typeset using LATEX twocolumn style in AASTeX62 VOLANS-CARINA: A NEW 90 Myr OLD STELLAR ASSOCIATION AT 85 pc Jonathan Gagne´,1, 2 Jacqueline K. Faherty,3 and Eric E. Mamajek4, 5 1Carnegie Institution of Washington DTM, 5241 Broad Branch Road NW, Washington, DC 20015, USA 2NASA Sagan Fellow 3Department of Astrophysics, American Museum of Natural History, Central Park West at 79th St., New York, NY 10024, USA 4Jet Propulsion Laboratory, California Institute of Technology, 4800 Oak Grove Drive, Pasadena, CA 91109, USA 5Department of Physics & Astronomy, University of Rochester, Rochester, NY 14627, USA Submitted to ApJ ABSTRACT We present a characterization of the new Volans-Carina Association (VCA) of stars near the Galactic plane (b ' -10°) at a distance of ' 75{100 pc, previously identified as group 30 by Oh et al.(2017). We compile a list of 19 likely members from Gaia DR2 with spectral types B8{M2, and 46 additional candidate members from Gaia DR2, 2MASS and AllWISE with spectral types A0{M9 that require +5 further follow-up for confirmation. We find an isochronal age of 89−7 Myr based on MIST isochrones calibrated with Pleiades members. This new association of stars is slightly younger than the Pleiades, with less members but located at a closer distance, making its members ' 3 times as bright than those of the Pleiades on average. It is located further than members of the AB Doradus moving group which have a similar age, but it is more compact on the sky which makes it less prone to contamination from random field interlopers.
    [Show full text]
  • Variable Star Classification and Light Curves Manual
    Variable Star Classification and Light Curves An AAVSO course for the Carolyn Hurless Online Institute for Continuing Education in Astronomy (CHOICE) This is copyrighted material meant only for official enrollees in this online course. Do not share this document with others. Please do not quote from it without prior permission from the AAVSO. Table of Contents Course Description and Requirements for Completion Chapter One- 1. Introduction . What are variable stars? . The first known variable stars 2. Variable Star Names . Constellation names . Greek letters (Bayer letters) . GCVS naming scheme . Other naming conventions . Naming variable star types 3. The Main Types of variability Extrinsic . Eclipsing . Rotating . Microlensing Intrinsic . Pulsating . Eruptive . Cataclysmic . X-Ray 4. The Variability Tree Chapter Two- 1. Rotating Variables . The Sun . BY Dra stars . RS CVn stars . Rotating ellipsoidal variables 2. Eclipsing Variables . EA . EB . EW . EP . Roche Lobes 1 Chapter Three- 1. Pulsating Variables . Classical Cepheids . Type II Cepheids . RV Tau stars . Delta Sct stars . RR Lyr stars . Miras . Semi-regular stars 2. Eruptive Variables . Young Stellar Objects . T Tau stars . FUOrs . EXOrs . UXOrs . UV Cet stars . Gamma Cas stars . S Dor stars . R CrB stars Chapter Four- 1. Cataclysmic Variables . Dwarf Novae . Novae . Recurrent Novae . Magnetic CVs . Symbiotic Variables . Supernovae 2. Other Variables . Gamma-Ray Bursters . Active Galactic Nuclei 2 Course Description and Requirements for Completion This course is an overview of the types of variable stars most commonly observed by AAVSO observers. We discuss the physical processes behind what makes each type variable and how this is demonstrated in their light curves. Variable star names and nomenclature are placed in a historical context to aid in understanding today’s classification scheme.
    [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]
  • Virgil, Aeneid 11 (Pallas & Camilla) 1–224, 498–521, 532–96, 648–89, 725–835 G
    Virgil, Aeneid 11 (Pallas & Camilla) 1–224, 498–521, 532–96, 648–89, 725–835 G Latin text, study aids with vocabulary, and commentary ILDENHARD INGO GILDENHARD AND JOHN HENDERSON A dead boy (Pallas) and the death of a girl (Camilla) loom over the opening and the closing part of the eleventh book of the Aeneid. Following the savage slaughter in Aeneid 10, the AND book opens in a mournful mood as the warring parti es revisit yesterday’s killing fi elds to att end to their dead. One casualty in parti cular commands att enti on: Aeneas’ protégé H Pallas, killed and despoiled by Turnus in the previous book. His death plunges his father ENDERSON Evander and his surrogate father Aeneas into heart-rending despair – and helps set up the foundati onal act of sacrifi cial brutality that caps the poem, when Aeneas seeks to avenge Pallas by slaying Turnus in wrathful fury. Turnus’ departure from the living is prefi gured by that of his ally Camilla, a maiden schooled in the marti al arts, who sets the mold for warrior princesses such as Xena and Wonder Woman. In the fi nal third of Aeneid 11, she wreaks havoc not just on the batt lefi eld but on gender stereotypes and the conventi ons of the epic genre, before she too succumbs to a premature death. In the porti ons of the book selected for discussion here, Virgil off ers some of his most emoti ve (and disturbing) meditati ons on the tragic nature of human existence – but also knows how to lighten the mood with a bit of drag.
    [Show full text]