DOCSLIB.ORG

Rockets and Missiles: the Life Story of a Technology

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Rockets and Missiles: the Life Story of a Technology ROCKETS AND MISSILES: THE LIFE STORY OF A TECHNOLOGY A. Bowdoin Van Riper GREENWOOD PRESS ROCKETS AND MISSILES Recent Titles in Greenwood Technographies Sound Recording: The Life Story of a Technology David L. Morton Jr. Firearms: The Life Story of a Technology Roger Pauly Cars and Culture: The Life Story of a Technology Rudi Volti Electronics: The Life Story of a Technology David L. Morton Jr. ROCKETS AND MISSILES 1 THE LIFE STORY OF A TECHNOLOGY A. Bowdoin Van Riper GREENWOOD TECHNOGRAPHIES GREENWOOD PRESS Westport, Connecticut • London Library of Congress Cataloging-in-Publication Data Van Riper, A. Bowdoin. Rockets and missiles : the life story of a technology / A. Bowdoin Van Riper. p. cm.—(Greenwood technographies, ISSN 1549–7321) Includes bibliographical references and index. ISBN 0–313–32795–5 (alk. paper) 1. Rocketry (Aeronautics)—History. 2. Ballistic missiles—History. I. Title. II. Series. TL781.V36 2004 621.43'56—dc22 2004053045 British Library Cataloguing in Publication Data is available. Copyright © 2004 by A. Bowdoin Van Riper All rights reserved. No portion of this book may be reproduced, by any process or technique, without the express written consent of the publisher. Library of Congress Catalog Card Number: 2004053045 ISBN: 0–313–32795–5 ISSN: 1549–7321 First published in 2004 Greenwood Press, 88 Post Road West,Westport, CT 06881 An imprint of Greenwood Publishing Group, Inc. www.greenwood.com Printed in the United States of America The paper used in this book complies with the Permanent Paper Standard issued by the National Information Standards Organization (Z39.48–1984). 10987654321 For Janice P. Van Riper who let a starstruck kid stay up long past his bedtime to watch Neil Armstrong take “one small step” Contents Series Foreword ix Acknowledgments xi Timeline xiii 1. Introduction 1 2. The Age of Black Powder, 1000–1900 7 3. The Birth of Modern Rocketry,1900–1942 25 4. Rockets in World War II, 1939–1945 41 5. Rockets for Research, 1945–1960 57 6. Ballistic Missiles and the Cold War, 1945–1990 71 7. Rockets to the Moon, 1960–1975 93 8. Tactical Missiles in the Cold War, 1950–1990 111 9. Spaceflight Becomes Routine, 1970–Present 125 10. Missiles after the Cold War, 1990–Present 139 11. Conclusion:What Next? 155 viii Contents Glossary 161 Further Reading 165 Index 169 Series Foreword In today’s world, technology plays an integral role in the daily life of peo- ple of all ages. It affects where we live, how we work, how we interact with each other, and what we aspire to accomplish. To help students and the general public better understand how technology and society interact, Greenwood has developed Greenwood Technographies, a series of short, acces- sible books that trace the histories of these technologies while document- ing how these technologies have become so vital to our lives. Each volume of the Greenwood Technographies series tells the biography or “life story” of a particularly important technology. Each life story traces the technology from its “ancestors” (or antecedent technologies), through its early years (either its invention or development) and rise to prominence, to its final decline, obsolescence, or ubiquity. Just as a good biography combines an analysis of an individual’s personal life with a description of the subject’s impact on the broader world, each volume in the Greenwood Technographies se- ries combines a discussion of technical developments with a description of the technology’s effect on the broader fabric of society and culture—and vice versa. The technologies covered in the series run the gamut from those that have been around for centuries—firearms and the printed book, for example—to recent inventions that have rapidly taken over the mod- ern world, such as electronics and the computer. While the emphasis is on a factual discussion of the development of x Series Foreword the technology,these books are also fun to read. The history of technology is full of fascinating tales that both entertain and illuminate. The authors— all experts in their fields—make the life story of technology come alive, while also providing readers with a profound understanding of the rela- tionship of science, technology,and society. Acknowledgments The greatest debt I have incurred in writing this book is, unfortunately,one that I cannot fully acknowledge. Rockets and Missiles is a brief introduction to a sprawling topic. It is, therefore, a synthesis of knowledge gathered and conclusions drawn by others. It is also part of a series that, by design, uses formal references only to acknowledge direct quotations. I have turned, in the course of researching and writing Rockets and Missiles, to the published work of countless other scholars. The books, articles, and web sites on which I relied most heavily are noted—along with selected others—in the Further Reading section at the end of this book. A heartfelt “thank you” is all I can offer to the authors of the rest. Other debts are, happily,more easily acknowledged. The staff of the Lawrence V. Johnson Library of Southern Polytechnic State University was cheerfully unflappable in the face of my frequent re- quests for obscure materials. Leigh Hall of the Interlibrary Loan Depart- ment deserves special thanks. The staffs of the Cobb County Public Library System and the libraries of Emory University and the Georgia Institute of Technology also aided my search for “just the right material” on countless rocket-related topics. Many times in the course of this project I benefited from informal in- put from fellow scholars. I am especially grateful—for references suggested, opinions critiqued, experience shared, and misunderstandings clarified—to xii Acknowledgments Amy Foster, Slava Guerevich, John Krige, Roger Launius, Frederick Ord- way, Asif Siddiqi, and Kristen Starr. Kevin Downing, who conceived the Greenwood Technographies series and invited me to be part of it, played a critical role in the initial shaping of this book. The scope, organization, and approach of Rockets and Missiles all re- flect his valuable input. He is, to paraphrase Gilbert and Sullivan, “the very model of a modern scholarly editor,” and it has been a pleasure to work with him. The editorial and production staffs at Greenwood Press have been both friendly and efficient—a combination of which every writer dreams. Finally,as always, I owe a considerable debt to Julie, Joe, and Katie. Julie cheerfully accepted the domestic chaos that comes with writing a book and, once again, gave me reason to reflect on the joys of being married to a fellow historian of science and technology. Joe and his friends, though they may not have known it, became the faces on the “target audience” I kept in mind as I wrote. Katie buoyed me with her enthusiasm and, with a single sentence—“You’re writing a book about rockets?!”—made it all seem worthwhile. Timeline Before 1100 CE Gunpowder invented in China. Mid-1100s Probable first use of military rockets by the Chinese. Mid-1200s Probable first use of military rockets by Arabs and Europeans. Around 1300 First detailed, written descriptions of rocket technology appear in European and Arabic manuscripts. Around 1400 Rocket technology known and used in all major Eurasian civi- lizations. Mid-1600s Rockets appear in military manuals such as Artis Magnae Ar- tilliae (Europe) and Wu Pei Chih (China). 1780–1799 Indian troops use rockets against the British in the Mysore Wars. 1805 William Congreve adapts Indian rocket technology for European use. 1805–1815 British troops use Congreve rockets against Danes, French, and Americans. 1820s Congreve-type rockets adapted for use in lifesaving and whaling. 1840 William Hale invents the first spin-stabilized (stickless) rocket. xiv Timeline 1870s Black powder rockets begin to decline as “tube” artillery improves. 1903 Konstantin Tsiolkovsky describes multistage, liquid-propellant rockets in his paper “Exploring Space with Reactive Devices.” 1919 Robert Goddard, unaware of Tsiolkovsky’s work, describes liquid-propellant rockets in “On a Method of Reaching Extreme Altitudes.” 1923 Hermann Oberth, unaware of Tsiolkovsky or Goddard, describes liquid-propellant rockets in Die Rakete zu den Planetenraum (The Rocket into Planetary Space). 1926 Goddard builds and flies the first liquid-propellant rocket. 1925–1935 Amateur rocket societies founded in the United States, USSR, and Germany. Late 1930s Civilian engineers backed by government funding invent storable liquid propellants, improved solid propellants, and other key technologies. 1939–1945 World War II:revival of rocket artillery,first use of guided missiles. Late 1945 Soviet and American rocket engineers, assisted by German émi- grés, begin building and testing high-altitude research rockets. 1947 Rocket-powered Bell X-1 exceeds the speed of sound in level flight. 1956 First warplane armed only with missiles becomes operational. 1957 Launch of Sputnik I, the first artificial satellite to orbit the Earth. 1957–1958 First IRBMs become operational. 1958 First successful use of air-to-air missiles in combat (Taiwan ver- sus China). 1958–1960 First ICBMs become operational. China acquires ballistic missile technology from the USSR. 1960 First missile-carrying submarines become operational. 1961 Launch of Vostok I, the first manned spacecraft to orbit the Earth. First successful launch of a silo-based missile. 1962 Cuban Missile Crisis brings United States and USSR close to nuclear war. Timeline xv 1964 First successful test of an antiballistic missile (by the United States). 1964–1973 Vietnam War: first sustained use of surface-to-air, air-to-air, and air-to-surface guided missiles in combat. 1967 (Apr) First manned test flight of the Soyuz spacecraft. 1967 (Nov) First test flight of the Saturn V, the largest space launch vehicle ever built. 1969 (Jan) First manned test flight of the complete Apollo spacecraft. 1969 (Jul) Eagle, an Apollo LM, makes the first manned landing on the moon.
Load more

Recommended publications
  • Brazil's Accession to the Mtcr
    Wyn Q. Bowen Report: BRAZIL’S ACCESSION TO THE MTCR by Wyn Q. Bowen Wyn Q. Bowen is a Senior Research Associate of the Center for Nonproliferation Studies at the Monterey Institute of International Studies. He is also a Ph.D. candidate in International Relations at the University of Birmingham and is completing a dissertation on U.S. missile nonproliferation policy during the Bush administration. n October 1995, Brazil’s membership in the Mis- the design and construction of a center from which to sile Technology Control Regime (MTCR) was ap- launch the VLS at Alcantara (CLA), in the northern proved unanimously at the regime’s 10th plenary state of Maranhao.1 The VLS was to be developed us- I 2 meeting in Bonn, Germany. Acceptance in the MTCR ing technology derived from the Sonda rocket series. was the outcome of a series of policy changes initi- The central role of the military in the MECB during ated by Brazil in early 1994 to address international the 1980s, however, cast doubt over the true nature of missile proliferation concerns. This report consid- the space program. The Brazilian Commission for Space ers the past Brazilian rocket and missile activities that Activities (COBAE), responsible for overseeing and generated these concerns and the policy changes running the MECB, was chaired by the armed forces which Brazil undertook to gain acceptance in the chief of staff.3 The prominent role of the Air Force’s MTCR. The implications of Brazil’s membership in Aerospace Technical Center (CTA) in developing the the regime are also considered, along with some of VLS also suggested the military might have other rea- the missile proliferation concerns which continue to sons for developing space launch vehicles.
    [Show full text]
  • Krinkelt–Rocherath in Belgium on December 17–18, 1944 During the German Ardennes Offensive
    CONTENTS Introduction Chronology Design and Development Technical Specifications The Combatants The Strategic Situation Combat Statistics and Analysis Aftermath Further Reading INTRODUCTION The rocket-propelled grenade launcher (RPG) has become a ubiquitous weapon on the modern battlefield; and all of these weapons trace their lineage back to the American 2.36in rocket launcher, better known as the bazooka. The bazooka was the serendipitous conjunction of two new technologies: the shaped-charge antitank warhead and the shoulder-fired rocket launcher. This book looks at the development of this iconic weapon, and traces its combat use on the World War II battlefield. One of the widespread myths to have emerged about German tank design during World War II was the notion that German sideskirt armor was developed in response to the bazooka, and its British equivalent, the PIAT (Projector Infantry Antitank). American and British troops began encountering the new versions of German armored vehicles with extra armor shields in 1944, and so presumed that this new feature was in response to the Allied shaped-charge weapons. The shields received a variety of names including “bazooka shields,” “bazooka pants,” and “PIAT shields.” In reality, their development was not a response to Allied shaped-charge weapons, for most German innovations in tank technology during the war years were prompted by developments on the Eastern Front. This book examines the real story behind the bazooka shields. It also traces the many specialized devices developed by the Wehrmacht in World War II to deal with the threat of infantry close-attack weapons. A remarkable variety of curious devices was developed including a wood paste to defend against antitank charges, and a machine gun with a special curved barrel to allow armored vehicle crews to defend themselves from within the protective armor of their vehicle.
    [Show full text]
  • Space Planes and Space Tourism: the Industry and the Regulation of Its Safety
    Space Planes and Space Tourism: The Industry and the Regulation of its Safety A Research Study Prepared by Dr. Joseph N. Pelton Director, Space & Advanced Communications Research Institute George Washington University George Washington University SACRI Research Study 1 Table of Contents Executive Summary…………………………………………………… p 4-14 1.0 Introduction…………………………………………………………………….. p 16-26 2.0 Methodology…………………………………………………………………….. p 26-28 3.0 Background and History……………………………………………………….. p 28-34 4.0 US Regulations and Government Programs………………………………….. p 34-35 4.1 NASA’s Legislative Mandate and the New Space Vision………….……. p 35-36 4.2 NASA Safety Practices in Comparison to the FAA……….…………….. p 36-37 4.3 New US Legislation to Regulate and Control Private Space Ventures… p 37 4.3.1 Status of Legislation and Pending FAA Draft Regulations……….. p 37-38 4.3.2 The New Role of Prizes in Space Development…………………….. p 38-40 4.3.3 Implications of Private Space Ventures…………………………….. p 41-42 4.4 International Efforts to Regulate Private Space Systems………………… p 42 4.4.1 International Association for the Advancement of Space Safety… p 42-43 4.4.2 The International Telecommunications Union (ITU)…………….. p 43-44 4.4.3 The Committee on the Peaceful Uses of Outer Space (COPUOS).. p 44 4.4.4 The European Aviation Safety Agency…………………………….. p 44-45 4.4.5 Review of International Treaties Involving Space………………… p 45 4.4.6 The ICAO -The Best Way Forward for International Regulation.. p 45-47 5.0 Key Efforts to Estimate the Size of a Private Space Tourism Business……… p 47 5.1.
    [Show full text]
  • Desind Finding
    NATIONAL AIR AND SPACE ARCHIVES Herbert Stephen Desind Collection Accession No. 1997-0014 NASM 9A00657 National Air and Space Museum Smithsonian Institution Washington, DC Brian D. Nicklas © Smithsonian Institution, 2003 NASM Archives Desind Collection 1997-0014 Herbert Stephen Desind Collection 109 Cubic Feet, 305 Boxes Biographical Note Herbert Stephen Desind was a Washington, DC area native born on January 15, 1945, raised in Silver Spring, Maryland and educated at the University of Maryland. He obtained his BA degree in Communications at Maryland in 1967, and began working in the local public schools as a science teacher. At the time of his death, in October 1992, he was a high school teacher and a freelance writer/lecturer on spaceflight. Desind also was an avid model rocketeer, specializing in using the Estes Cineroc, a model rocket with an 8mm movie camera mounted in the nose. To many members of the National Association of Rocketry (NAR), he was known as “Mr. Cineroc.” His extensive requests worldwide for information and photographs of rocketry programs even led to a visit from FBI agents who asked him about the nature of his activities. Mr. Desind used the collection to support his writings in NAR publications, and his building scale model rockets for NAR competitions. Desind also used the material in the classroom, and in promoting model rocket clubs to foster an interest in spaceflight among his students. Desind entered the NASA Teacher in Space program in 1985, but it is not clear how far along his submission rose in the selection process. He was not a semi-finalist, although he had a strong application.
    [Show full text]
  • An Optimized Hybrid Rocket Motor for the SARA Platform Reentry System
    doi: 10.5028/jatm.2012.04032312 An Optimized Hybrid Rocket Motor for the SARA Platform Reentry System Pedro Luiz Kaled Da Cás, Cristiano Queiroz Vilanova, Manuel Nascimento Dias Barcelos Jr.*, Carlos Alberto Gurgel Veras Universidade de Brasília - Brasília/DF Brazil Abstract: This paper has described a system design process, based on a multidisciplinary optimization technique, of a conceptual optimized hybrid propellant rocket motor. The proposed engine could be a technological option for the reentry maneuvering system of the Brazilian recoverable satellite (SARA), which was designed by the Brazilian Institute of Aeronautics and Space. The resulting optimized propulsion system must be viewed as a proof of concept allowing comparison to more conventional technologies, i.e., liquid and solid motors. Design effort was conducted for hybrid SURSHOODQWVHQJLQHVEDVHGRQDOLTXHI\LQJIXHO VROLGSDUDI¿Q DQGWZRGLIIHUHQWR[LGL]HUV+2O2 KLJKWHVWSHUR[LGH and self-pressurizing N227KHPXOWLGLVFLSOLQDU\FRQ¿JXUDWLRQRSWLPL]DWLRQWHFKQLTXHZDVVXSSRUWHGRQJHRPHWULFDO operating parameters of the motor, rather than on performance, in order to facilitate subsequent design and fabrication. Results from the code presented a hybrid motor, which was considered a competitive alternative for the deboost engine when compared to the traditional chemical systems, solid and liquid bipropellant, and monopropellant. The estimated mass of the reentry system, for the cases addressed in this study, varied from 22 to 29 kg, which is lower than either liquid bipropellant or solid engines formerly proposed. Keywords:+\EULGURFNHWSURSXOVLRQ0XOWLSK\VLFVDQDO\VLV'HVLJQRSWLPL]DWLRQ INTRODUCTION The SARA satellite was conceived as a microgravity 300 km from the launch site. The system should be accelerated recoverable and reusable research platform by both Brazilian by a Brazilian VS-40 sounding rocket (Fig.
    [Show full text]
  • SPACE TRANSPORTATION Contents
    Chapter 5 SPACE TRANSPORTATION Contents Page Introduction. ..............103 The Space Transportation Industry . ................103 The providers of Space Transportation Services . .. ...103 Buyers of Space Transportation Services . ................122 Competition in Space Transportation . ......125 Development of Competition . ............125 Assessment of Demand . .................126 Nature of Competition . .. ...128 Effects of Competition . .. ....134 Cooperation in Space Transportation . ..............137 Current Policies. ........................138 Future Policy Options.. .. ....140 List of Tables Table No. Page 5-1. Ariane Flights . ..........115 5-2. Transportation Costs to Geosynchronous Orbit . ......................132 5-3. NASA vs. Arianespace Financing . ..............133 5-4. Companies That Contribute to Manufacturing Japanese Launch Vehicles ..139 List of Figures Figure No. Page 5-1. U.S. Launch vehicles . ..............104 5-2.The Hermes Spaceplane . ..................116 5-3. Foreign National Comparative Launch Vehicle Development. ..........118 5-4. Projection of Future Space Shuttle Demand Rockwell International. ...127 5-5. Outside Users Payload Model Battelle’s Columbus Laboratories . .......,128 5-6. Low Model Market Share by Launch Vehicle . ...............129 5-7. High Model Market Share by Launch Vehicle . .......................130 5-8. Arianespace Financing . ..133 5-9. Rockwell International Estimates That the Shuttle is Most Economical Over ELVs at High-Volume Operations. ............................135
    [Show full text]
  • ROCKETS and MISSILES Recent Titles in Greenwood Technographies
    ROCKETS AND MISSILES Recent Titles in Greenwood Technographies Sound Recording: The Life Story of a Technology David L. Morton Jr. Firearms: The Life Story of a Technology Roger Pauly Cars and Culture: The Life Story of a Technology Rudi Volti Electronics: The Life Story of a Technology David L. Morton Jr. ROCKETS AND MISSILES 1 THE LIFE STORY OF A TECHNOLOGY A. Bowdoin Van Riper GREENWOOD TECHNOGRAPHIES GREENWOOD PRESS Westport, Connecticut • London Library of Congress Cataloging-in-Publication Data Van Riper, A. Bowdoin. Rockets and missiles : the life story of a technology / A. Bowdoin Van Riper. p. cm.—(Greenwood technographies, ISSN 1549–7321) Includes bibliographical references and index. ISBN 0–313–32795–5 (alk. paper) 1. Rocketry (Aeronautics)—History. 2. Ballistic missiles—History. I. Title. II. Series. TL781.V36 2004 621.43'56—dc22 2004053045 British Library Cataloguing in Publication Data is available. Copyright © 2004 by A. Bowdoin Van Riper All rights reserved. No portion of this book may be reproduced, by any process or technique, without the express written consent of the publisher. Library of Congress Catalog Card Number: 2004053045 ISBN: 0–313–32795–5 ISSN: 1549–7321 First published in 2004 Greenwood Press, 88 Post Road West,Westport, CT 06881 An imprint of Greenwood Publishing Group, Inc. www.greenwood.com Printed in the United States of America The paper used in this book complies with the Permanent Paper Standard issued by the National Information Standards Organization (Z39.48–1984). 10987654321 For Janice P. Van Riper who let a starstruck kid stay up long past his bedtime to watch Neil Armstrong take “one small step” Contents Series Foreword ix Acknowledgments xi Timeline xiii 1.
    [Show full text]
  • Review of Space Activities in South America.Pdf
    Journal of Aeronautical History Revised 11 September 2018 Paper 2018/08 Review of Space Activities in South America Bruno Victorino Sarli, Space Generation Advisory Council, Brazil Marco Antonio Cabero Zabalaga, Space Generation Advisory Council, Bolivia Alejandro Lopez Telgie, Universidad de Concepción, Facultad de Ingeniería, Departamento de Ingeniería Mecánica, Chile Josué Cardoso dos Santos, São Paulo State University (FEG-UNESP), Brazil Brehme Dnapoli Reis de Mesquita, Federal Institute of Education, Science and Technology of Maranhão, Açailândia Campus, Brazil Avid Roman-Gonzalez, Space Generation Advisory Council, Peru Oscar Ojeda, Space Generation Advisory Council, Colombia Natalia Indira Vargas Cuentas, Space Generation Advisory Council, Bolivia Andrés Aguilar, Universidad Tecnológica Nacional Facultad Regional Delta, Argentina ABSTRACT This paper addresses the past and current efforts of the South American region in space. Space activities in the region date back to 1961; since then, South American countries have achieved a relatively modest capability through their national programs, and some international collaboration, with space activities in the region led primarily by the Brazilian and Argentinian space programs. In an era where missions explore the solar system and beyond, this paper focus on the participation of a region that is still in the early stages of its space technology development, yet has a considerable amount to offer in terms of material, specialized personnel, launch sites, and energy. In summary, this work presents a historical review of the main achievements in the South American region, and through analysis of past and present efforts, aims to project a trend for the future of space in South America. The paper also sets out current efforts of regional integration such as the South American Space Agency proposal.
    [Show full text]
  • Experimental Results from the Sounding Vehicle Sonda III Test Campaign in the Pilot Transonic Wind Tunnel
    doi: 10.5028/jatm.2011. 03033111 João Batista P. Falcão Filho* Institute of Aeronautics and Space Experimental results from the São José dos Campos/SP – Brazil. [email protected] sounding vehicle Sonda III test Maria Luísa Collucci C. Reis campaign in the Pilot Transonic Institute of Aeronautics and Space São José dos Campos/SP – Brazil. Wind Tunnel [email protected] Abstract: The Pilot Transonic Wind Tunnel of the Institute of Aeronautics Algacyr Morgenstern Jr. and Space has conducted the first test campaign of a sounding vehicle, Institute of Aeronautics and Space São José dos Campos/SP – Brazil. Sonda III. The campaign is part of a project whose activities and final results [email protected] are presented in this paper. During the test campaign, many activities were performed to increase the productivity and accuracy of the tunnel. These activities included calibration procedures, corrective and preventive trials, * author for correspondence development of auxiliary devices, and theoretical and experimental analysis. Two tasks are described in details: the development and tests performed with the static pressure probe and the automatic re-entry flap actuation system. Several tests were carried out with the Sonda III at Mach numbers ranging from 0.3 to 1.0, at stagnation pressures of 70, 94, and 110 kPa. Experimental results include global aerodynamic coefficients (using internal balance) and pressure distribution over essential regions of the test article (using pressure sensitive paint technique). Keywords: Aerodynamics,
    [Show full text]
  • Rocket in Situ Observation of Equatorial Plasma Irregularities in the Region Between E and F Layers Over Brazil
    Ann. Geophys., 35, 413–422, 2017 www.ann-geophys.net/35/413/2017/ doi:10.5194/angeo-35-413-2017 © Author(s) 2017. CC Attribution 3.0 License. Rocket in situ observation of equatorial plasma irregularities in the region between E and F layers over Brazil Siomel Savio Odriozola1,2, Francisco Carlos de Meneses Jr.1,3, Polinaya Muralikrishna1, Alexandre Alvares Pimenta1, and Esfhan Alam Kherani1 1National Institute for Space Research – INPE, Av. dos Astronautas, 1758, Jd. Granja-CEP: 12227-010 SJC, SP, Brazil 2Department of Space Geophysics, Institute of Geophysics and Astronomy – IGA, Calle 212, 2906, La Coronela, La Lisa, Havana, Cuba 3State Key Laboratory of Space Weather, National Space Science Center NSSC, Chinese Academy of Sciences (CAS), No. 1 Nanertiao, Zhongguancun, Haidian district, 100190, Beijing, China Correspondence to: Siomel Savio Odriozola ([email protected]) Received: 30 July 2016 – Revised: 23 February 2017 – Accepted: 23 February 2017 – Published: 16 March 2017 Abstract. A two-stage VS-30 Orion rocket was launched LaBelle, 1998; Muralikrishna et al., 2004). Studies using in from the equatorial rocket launching station in Alcântara, situ measurements of equatorial nighttime E region irregular- Brazil, on 8 December 2012 soon after sunset (19:00 LT), ities, however, are quite a few, as noted by Sinha et al.(2011). carrying a Langmuir probe operating alternately in swept and The lack of references is most noticeable when it comes to constant bias modes. At the time of launch, ground equip- the intermediate region between the E and F layers ( ∼ 130– ment operated at equatorial stations showed rapid rise in the 300 km).
    [Show full text]
  • Space Launch
    Chapter 20 REST-OF-WORLD (ROW) SPACE LAUNCH Missiles and space have a long and related history. All the early space boosters, both U.S. and Russian, were developed from ballistic missile programs. Today, many other nations are using their missile and rocket technology to develop a space launch capabil- ity. COMMONWEALTH AND INDEPENDENT STATES (CIS) Tyuratam (TT)/Baikonur Cosmodrome RUSSIAN / UKRAINE / KAZAKH In the 1950s, the Soviet Union an- SPACE LAUNCH SYSTEMS nounced that space launch operations were being conducted from the Baikonur Space Launch Facilities Cosmodrome. Some concluded that this facility was near the city of Baikonur, The breakup of the former Soviet Un- Kazakhstan. In truth, the launch facilities ion (FSU) into independent states has are 400 Km to the southwest, near the fragmented and divided the Russian railhead at Tyuratam (45.9ºN, 63.3ºE). space support infrastructure. This has re- The Soviets built the city of Leninsk sulted in planning and scheduling diffi- near the facility to provide apartments, culties for Russia, the main inheritor of schools and administrative support to the the remains of the former Soviet space tens of thousands of workers at the program. Ukraine has the most extensive launch facility. Sputnik, the first man- space capability after Russia but with no made satellite, was launched from TT in space launch facility, followed by Ka- October 1957. This site has been the lo- zakhstan with a major space launch facil- cation of all manned and geostationary ity but little industrial base. Other newly orbit Soviet and CIS launches as well as independent countries have some limited most lunar, planetary launches.
    [Show full text]
  • Esa S -291 TR 9 Ooom — G*? A
    O esa s -291 TR 9 ooom — g*? a Proceedings of the Ninth ESA/PAC Symposium jointly organised by the Deutsche Forschungsanstalt furLuft- und Raumfahrt and the European Space Agency and held at Lahnstein, Federal Republic of Germany, on 3 - 7 April 1989. BMFT TO PREPARE FOR THE 21ST CENTURY esa sp-291 25 YEARS OF EUROPEAN COOPERATION IN SPACE June 1989 25 ANS DE COOPERATION SPATIALE EUROPEENNE POUR PREPARER LE 21EME SIECLE European Rocket and Balloon Programmes and Related Research* Proceedings of the Ninth ESA/PAC 89- Symposium jointly organised by the Deutsche Forschungsanstalt fur Luft- und Raumfahrt and the European Space Agency. and held at Lahnstein, Federal Republic of Germany, on 3 - 7 April 1989. european space agency / agence spatiale européenne 8-10, rue Mario-Nikis, 75738 PARIS CEDEX 15, France PROGRAMME COMMITTEE Chairman Dr. D. Huguenin, Mr. W.R. Burke, Observatoire de Genève, EPD/ESTEC, Professor U. von Zahn, Switzerland Noordwijk, Physikalisch Institut, The Netherlands University of Bonn, Dr. J.P. Jegou, FRG Centre National d'Etudes Mr. [. Stevenson, Spatiales, ESA/HQ, Members Paris, Paris, France France Dr. A. Brekke, University of Tromse, Mr. O. Rôhrig, Mr. L. Jansson, Norway Deutsche Forschungsanstalt fur ESA/HQ, Luft- und Raumfahrt, Paris, Dr. L. Eliasson, PT-TN, France Institute of Space Physics, Linder Hôhe, Kiruna, KoIn, Sweden FRG COLOPHON Proceedings published ESA Publications Division and distributed by ESTEC, Noordwijk, The Netherlands compiled by W.R. Burke printed in The Netherlands Cover by C. Haakman Price code E3 International Standard Serial Number ISSN 0379 - 6566 International Standard Book Number ISBN 92-9092-006-8 Copyright © 1988 by European Space Agency Ill CONTENTS Session 1: National Reports Chairman: M.
    [Show full text]