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Spacex Launch Manifest - a List of Upcoming Missions 25 Spacex Facilities 27 Dragon Overview 29 Falcon 9 Overview 31 45Th Space Wing Fact Sheet
COTS 2 Mission Press Kit SpaceX/NASA Launch and Mission to Space Station CONTENTS 3 Mission Highlights 4 Mission Overview 6 Dragon Recovery Operations 7 Mission Objectives 9 Mission Timeline 11 Dragon Cargo Manifest 13 NASA Slides – Mission Profile, Rendezvous, Maneuvers, Re-Entry and Recovery 15 Overview of the International Space Station 17 Overview of NASA’s COTS Program 19 SpaceX Company Overview 21 SpaceX Leadership – Musk & Shotwell Bios 23 SpaceX Launch Manifest - A list of upcoming missions 25 SpaceX Facilities 27 Dragon Overview 29 Falcon 9 Overview 31 45th Space Wing Fact Sheet HIGH-RESOLUTION PHOTOS AND VIDEO SpaceX will post photos and video throughout the mission. High-Resolution photographs can be downloaded from: http://spacexlaunch.zenfolio.com Broadcast quality video can be downloaded from: https://vimeo.com/spacexlaunch/videos MORE RESOURCES ON THE WEB Mission updates will be posted to: For NASA coverage, visit: www.SpaceX.com http://www.nasa.gov/spacex www.twitter.com/elonmusk http://www.nasa.gov/nasatv www.twitter.com/spacex http://www.nasa.gov/station www.facebook.com/spacex www.youtube.com/spacex 1 WEBCAST INFORMATION The launch will be webcast live, with commentary from SpaceX corporate headquarters in Hawthorne, CA, at www.spacex.com. The webcast will begin approximately 40 minutes before launch. SpaceX hosts will provide information specific to the flight, an overview of the Falcon 9 rocket and Dragon spacecraft, and commentary on the launch and flight sequences. It will end when the Dragon spacecraft separates -
World Relieved by Safe Splashdown
COSP' TH2 LI33AH? OF 3 R BOCA BAIOI^ FL*\ 33432 Vol. 15, No. 95 BOCA RATON NEWS Sunday^April 19, 1970 30 Pages 10 Cents Wr? Telegrams pouring in World relieved by safe splashdown By United Press International immediately sent President Nixon boulevards as the spacecraft flashed Hundreds of persons gathered in front downtown Tehran, when the news nations applauded, cheered and raised It was a rare example of world unity "assurance of deep admiration . ." into view on television screens. of the U.S. Embassy to watch a series came. United Nations Secretary General glasses of champagne to toast the born of monumental relief and At the American Embassy in Lon- of placards telling of progress in the hi Moscow, the Soviet news agency United States. gratitude at the safe return Friday of Thant was among the first to send don, callers jammed the switchboard, spacecraft's return. Tass praised the "courage and cool U.S. Apollo 13 astronauts James Nixon his congratulations. congratulating the United States on the In Beirut, roars of approval erupted heads" of the Americans. Moscow Sirens of the Buenos Aires Lovell, Fred Haise and Jack Swigert. "The entire world is thankful and all safe return of the astronauts. from Arab cafes, jammed with people radio cut into its regular domestic newspapers La Prensa, Clarin and La Vatican aides said the Pope had men will long marvel at the un- "Most of the people were so who heard the landing on transistor newscast to report on Apollo 13's Nation blared at the moment the seldom looked so happy. -
7. Operations
7. Operations 7.1 Ground Operations The Exploration Systems Architecture Study (ESAS) team addressed the launch site integra- tion of the exploration systems. The team was fortunate to draw on expertise from members with historical and contemporary human space flight program experience including the Mercury, Gemini, Apollo, Skylab, Apollo Soyuz Test Project, Shuttle, and International Space Station (ISS) programs, as well as from members with ground operations experience reaching back to the Redstone, Jupiter, Pershing, and Titan launch vehicle programs. The team had a wealth of experience in both management and technical responsibilities and was able to draw on recent ground system concepts and other engineering products from the Orbital Space Plane (OSP) and Space Launch Initiative (SLI) programs, diverse X-vehicle projects, and leadership in NASA/Industry/Academia groups such as the Space Propulsion Synergy Team (SPST) and the Advanced Spaceport Technology Working Group (ASTWG). 7.1.1 Ground Operations Summary The physical and functional integration of the proposed exploration architecture elements will occur at the primary launch site at the NASA Kennedy Space Center (KSC). In order to support the ESAS recommendation of the use of a Shuttle-derived Cargo Launch Vehicle (CaLV) and a separate Crew Launch Vehicle (CLV) for lunar missions and the use of a CLV for ISS missions, KSC’s Launch Complex 39 facilities and ground equipment were selected for conversion. Ground-up replacement of the pads, assembly, refurbishment, and/or process- ing facilities was determined to be too costly and time-consuming to design, build, outfit, activate, and certify in a timely manner to support initial test flights leading to an operational CEV/CLV system by 2011. -
A Pictorial History of Rockets
he mighty space rockets of today are the result A Pictorial Tof more than 2,000 years of invention, experi- mentation, and discovery. First by observation and inspiration and then by methodical research, the History of foundations for modern rocketry were laid. Rockets Building upon the experience of two millennia, new rockets will expand human presence in space back to the Moon and Mars. These new rockets will be versatile. They will support Earth orbital missions, such as the International Space Station, and off- world missions millions of kilometers from home. Already, travel to the stars is possible. Robotic spacecraft are on their way into interstellar space as you read this. Someday, they will be followed by human explorers. Often lost in the shadows of time, early rocket pioneers “pushed the envelope” by creating rocket- propelled devices for land, sea, air, and space. When the scientific principles governing motion were discovered, rockets graduated from toys and novelties to serious devices for commerce, war, travel, and research. This work led to many of the most amazing discoveries of our time. The vignettes that follow provide a small sampling of stories from the history of rockets. They form a rocket time line that includes critical developments and interesting sidelines. In some cases, one story leads to another, and in others, the stories are inter- esting diversions from the path. They portray the inspirations that ultimately led to us taking our first steps into outer space. NASA’s new Space Launch System (SLS), commercial launch systems, and the rockets that follow owe much of their success to the accomplishments presented here. -
America's Greatest Projects and Their Engineers - VII
America's Greatest Projects and Their Engineers - VII Course No: B05-005 Credit: 5 PDH Dominic Perrotta, P.E. Continuing Education and Development, Inc. 22 Stonewall Court Woodcliff Lake, NJ 076 77 P: (877) 322-5800 [email protected] America’s Greatest Projects & Their Engineers-Vol. VII The Apollo Project-Part 1 Preparing for Space Travel to the Moon Table of Contents I. Tragedy and Death Before the First Apollo Flight A. The Three Lives that Were Lost B. Investigation, Findings & Recommendations II. Beginning of the Man on the Moon Concept A. Plans to Land on the Moon B. Design Considerations and Decisions 1. Rockets – Launch Vehicles 2. Command/Service Module 3. Lunar Module III. NASA’s Objectives A. Unmanned Missions B. Manned Missions IV. Early Missions V. Apollo 7 Ready – First Manned Apollo Mission VI. Apollo 8 - Orbiting the Moon 1 I. Tragedy and Death Before the First Apollo Flight Everything seemed to be going well for the Apollo Project, the third in a series of space projects by the United States intended to place an American astronaut on the Moon before the end of the 1960’s decade. Apollo 1, known at that time as AS (Apollo Saturn)-204 would be the first manned spaceflight of the Apollo program, and would launch a few months after the flight of Gemini 12, which had occurred on 11 November 1966. Although Gemini 12 was a short duration flight, Pilot Buzz Aldrin had performed three extensive EVA’s (Extra Vehicular Activities), proving that Astronauts could work for long periods of time outside the spacecraft. -
Aircraft of Today. Aerospace Education I
DOCUMENT RESUME ED 068 287 SE 014 551 AUTHOR Sayler, D. S. TITLE Aircraft of Today. Aerospace EducationI. INSTITUTION Air Univ.,, Maxwell AFB, Ala. JuniorReserve Office Training Corps. SPONS AGENCY Department of Defense, Washington, D.C. PUB DATE 71 NOTE 179p. EDRS PRICE MF-$0.65 HC-$6.58 DESCRIPTORS *Aerospace Education; *Aerospace Technology; Instruction; National Defense; *PhysicalSciences; *Resource Materials; Supplementary Textbooks; *Textbooks ABSTRACT This textbook gives a brief idea aboutthe modern aircraft used in defense and forcommercial purposes. Aerospace technology in its present form has developedalong certain basic principles of aerodynamic forces. Differentparts in an airplane have different functions to balance theaircraft in air, provide a thrust, and control the general mechanisms.Profusely illustrated descriptions provide a picture of whatkinds of aircraft are used for cargo, passenger travel, bombing, and supersonicflights. Propulsion principles and descriptions of differentkinds of engines are quite helpful. At the end of each chapter,new terminology is listed. The book is not available on the market andis to be used only in the Air Force ROTC program. (PS) SC AEROSPACE EDUCATION I U S DEPARTMENT OF HEALTH. EDUCATION & WELFARE OFFICE OF EDUCATION THIS DOCUMENT HAS BEEN REPRO OUCH) EXACTLY AS RECEIVED FROM THE PERSON OR ORGANIZATION ORIG INATING IT POINTS OF VIEW OR OPIN 'IONS STATED 00 NOT NECESSARILY REPRESENT OFFICIAL OFFICE OF EOU CATION POSITION OR POLICY AIR FORCE JUNIOR ROTC MR,UNIVERS17/14AXWELL MR FORCEBASE, ALABAMA Aerospace Education I Aircraft of Today D. S. Sayler Academic Publications Division 3825th Support Group (Academic) AIR FORCE JUNIOR ROTC AIR UNIVERSITY MAXWELL AIR FORCE BASE, ALABAMA 2 1971 Thispublication has been reviewed and approvedby competent personnel of the preparing command in accordance with current directiveson doctrine, policy, essentiality, propriety, and quality. -
NASA - Apollo 13
Press Kit NASA - Apollo 13 Ä - 1970 - National Aeronautics and Space Administration Ä - 2010 - National Aeronautics and Space Administration Restored version by Matteo Negri (Italy) Web: http://www.siamoandatisullaluna.com NATIONAL AERONAUTICS AND SPACE ADMINISTRATION WO 2-4155 I NEWS WASHINGTON,D .C. 20546 TELS4 WO 3-6925 FOR RELEASr? THURSDAY A.M. 2, 1970 RELEASE NO: 70-~OK April P R F. E S S K I T 2 -0- t RELEASE NO: 70-50 APOLLO 13 THIRD LUNAR LANDING MISSION Apollo 13, the third U.S. manned lunar landing mission, will be launchefi April 11 from Kennedy Space Center, Fla., to explore a hilly upland region of the Moon and bring back rocks perhaps five billion years old, The Apollo 13 lunar module will stay on the Moon more than 33 hours and the landing crew will leave the spacecraft twice to emplace scientific experiments on the lunar surface and to continue geological investigations. The Apollo 13 landing site is in the Fra Mauro uplands; the two National Aeronautics and Space Administration ppevious landings were in mare or ''sea" areas, Apollo 11 in the Sea of Tranqullfty and Apollo 12 in the Ocean of Storms. Apollo 13 crewmen are commander James A. Lovell, Jr.; command module pilot momas K. MBttingly 111, and lunar module pilot Fred W. Haise, Jr. Lovell is a U.S. Navy captain, Mattingly a Navy lieutenant commander, and Haise a civllian. -more- 3/26/70 Launch vehicle is a Saturn V. Apollo 13 objectives are: * Perform selenological inspection, survey and sampling of materials in a preselected region of the Fra Mauro formation, c Deploy and activate an Apollo Lunar Surface Experiment Package (ALSEP) , * Develop man's capability to work in the lunar environment. -
Apollo 15 Press
6 pwwmr%wp NATIONAL AERONAUTICS AND SPACE ADMINISTRATION TELS. WO 2-4155 NEWS WASHINGTON,D.C. 20546 WO 3-6925 FOR RELEASE: THURSDAY A.M. July 15, 1971 RELEASE NO: 71-1I9K PROJECT: APOLLO 15 (To be launched no P earlier than July 26) R contents E GENERAL RELEASE 1-8 COUNTDOWN 9-11 Launch Windows 11 Ground Elapsed Time Update 12 S Launch and Mission Profile 13 Launch Events 14 Mission Events 15-32 S EVA Mission Events 21-29 Entry Events 33 Recovery Operations 34-36 APOLLO 15 MISSION OBJECTIVES 37-39 Lunar Surface Science 40 Passive Seismic Experiment 40-47 Lunar Surface Magnetometer 47-50 Solar Wind Spectrometer 50-51 Suprathermal Ion Detector Experiment and Cold Cathode Gauge Experiment 51-52 K Lunar Heat Flow Experiment 52-55 Lunar Dust Detector Experiment 55 ALSEP Central Station 55-56 Laser Ranging Retro-Reflector Experiment 56 Solar Wind Composition Experiment 56 SNAP-27--Power Source for ALSEP 57-58 Lunar Geology Investigation 59-60 Soil Mechanics 60 Lunar Orbital Science 61 Gamma-Ray Spectrometer 61 X-Ray Fluorescence Spectrometer 61 Alpha-Particle Spectrometer 61 Mass Spectrometer 62 24-inch Panoramic Camera 62 3-inch Mapping Camera 62-63 Laser Altimeter 64 Subsatellite 64-66 UV Photography-Earth and Moon 66 -more- 6/30/71 -i2- Gegenschein from Lunar Orbit 66 CSM/LM S-Band Transponder 67 Bistatic Radar Experiment 67-68 Apollo Window Meteoroid 68 Composite Casting Demonstration 68A Engineering/Operational Objectives 69 APOLLO LUNAR HAND TOOLS- 70-74 HADLEY-APENNINE LANDING SITE 75-76 LUNAR -
THE ART of FLIGHT INSPIRING AEROSPACE THROUGH the PAINTBRUSH TRANSITIONING Leased Engines Or Aircraft? Keep Your Asset Prepared, Protected, and Ready to Fly
June 2020 RUSSIA’S GREEN GOALS GREEN RUSSIA’S PRESERVING AVIATION HISTORY TRACKING PILOT INTERVENTIONS THE ART OF FLIGHT INSPIRING AEROSPACE THROUGH THE PAINTBRUSH www.aerosociety.com AEROSPACE June 2020 Volume 47 Number 6 Royal Aeronautical Society TRANSITIONING leased engines or aircraft? Keep your asset prepared, protected, and ready to fly. Willis Asset Management provides global engine and aircraft transition management solutions to meet your unique needs. Our award-winning, independent consultancy is focused on providing remote solutions to help mitigate against the risks of planned – and unplanned – asset transitions. OUR REMOTE CAPABILITIES INCLUDE: • Technical records management • Aircraft & engine lease return support • Periodic records inspections • Back-to-birth trace reviews on LLPs • Records systems maintenance • CAMO & shadow CAMO services • Part 145 maintenance services Willis Engine Repair Center (UK & US locations) Ask about our aircraft disassembly and aircraft maintenance & storage solutions at Teesside International Airport in the UK! [email protected] | +44 (0) 1656.754.777 | www.willisasset.com Volume 47 Number 6 June 2020 EDITORIAL Contents Aviation heritage hanging Regulars 4 Radome 12 Transmission by a thread The latest aviation and Your letters, emails, tweets aeronautical intelligence, and social media feedback. analysis and comment. At around this time of year, the summer air show season would be swinging 58 The Last Word into gear – with weekends of aerobatics, flypasts and the like. But today, 11 Pushing the Envelope Keith Hayward considers yet another part of aviation is currently grounded due to the worldwide Rob Coppinger analyses the the effects of the Covid-19 challenges of designing a air transport shutdown on Coronavirus pandemic, with air shows cancelled and museums shuttered. -
Seeds of Discovery: Chapters in the Economic History of Innovation Within NASA
Seeds of Discovery: Chapters in the Economic History of Innovation within NASA Edited by Roger D. Launius and Howard E. McCurdy 2015 MASTER FILE AS OF Friday, January 15, 2016 Draft Rev. 20151122sj Seeds of Discovery (Launius & McCurdy eds.) – ToC Link p. 1 of 306 Table of Contents Seeds of Discovery: Chapters in the Economic History of Innovation within NASA .............................. 1 Introduction: Partnerships for Innovation ................................................................................................ 7 A Characterization of Innovation ........................................................................................................... 7 The Innovation Process .......................................................................................................................... 9 The Conventional Model ....................................................................................................................... 10 Exploration without Innovation ........................................................................................................... 12 NASA Attempts to Innovate .................................................................................................................. 16 Pockets of Innovation............................................................................................................................ 20 Things to Come ...................................................................................................................................... 23 -
FAA Order JO 7110.65U, Air Traffic Control
ORDER JO 7110.65U Air Traffic Organization Policy Effective Date: February 9, 2012 SUBJ: Air Traffic Control This order prescribes air traffic control procedures and phraseology for use by personnel providing air traffic control services. Controllers are required to be familiar with the provisions of this order that pertain to their operational responsibilities and to exercise their best judgment if they encounter situations not covered by it. Distribution: ZAT-710, ZAT-464 Initiated By: AJV-0 Vice President, System Operations Services RECORD OF CHANGES DIRECTIVE NO. JO 7110.65U CHANGE SUPPLEMENTS CHANGE SUPPLEMENTS TO OPTIONAL TO OPTIONAL BASIC BASIC FAA Form 1320−5 (6−80) USE PREVIOUS EDITION 2/9/12 JO 7110.65U Explanation of Changes Basic Direct questions through appropriate facility/service center office staff to the Office of Primary Interest (OPI) a. 2−5−2. NAVAID TERMS d. 5−9−10. SIMULTANEOUS INDEPEND- 4−2−1. CLEARANCE ITEMS ENT APPROACHES TO WIDELY-SPACED 4−2−5. ROUTE OR ALTITUDE PARALLEL RUNWAYS WITHOUT FINAL AMENDMENTS MONITORS 4−2−9. CLEARANCE ITEMS 4−3−2. DEPARTURE CLEARANCE This change adds a new paragraph allowing 4−3−3. ABBREVIATED DEPARTURE simultaneous independent approaches to widely CLEARANCE spaced parallel runways separated by 9,000 feet or 4−7−1. CLEARANCE INFORMATION more−without monitors. This change cancels and 4−8−2. CLEARANCE LIMIT incorporates N JO 7110.559, Simultaneous Inde- This change clarifies how to issue clearances that pendent Approaches to Widely-Spaced Parallel contain NAVAIDs and provides new phraseology Runways Without Final Monitors, effective and examples. July 29, 2011. b. -
Apollo 17 Press
7A-/ a NATIONAL AERONAUTICS AND SPACE ADMINISTRATION Washington. D . C . 20546 202-755-8370 FOR RELEASE: Sunday t RELEASE NO: 72-220K November 26. 1972 B PROJECT: APOLLO 17 (To be launched no P earlier than Dec . 6) R E contents 1-5 6-13 U APOLLC 17 MISSION OBJECTIVES .............14 LAUNCH OPERATIONS .................. 15-17 COUNTDOWN ....................... 18-21 Launch Windows .................. 20 3 Ground Elapsed Time Update ............ 20-21 LAUNCH AND MISSION PROFILE .............. 22-32 Launch Events .................. 24-26 Mission Events .................. 26-28 EVA Mission Events ................ 29-32 APOLLO 17 LANDING SITE ................ 33-36 LUNAR SURFACE SCIENCE ................ 37-55 S-IVB Lunar Impact ................ 37 ALSEP ...................... 37 K SNAP-27 ..................... 38-39 Heat Flow Experiment ............... 40 Lunar Ejecta and Meteorites ........... 41 Lunar Seismic Profiling ............. 41-42 I Lunar Atmospheric Composition Experiment ..... 43 Lunar Surface Gravimeter ............. 43-44 Traverse Gravimeter ............... 44-45 Surface Electrical Properties 45 I-) .......... T Lunar Neutron Probe ............... 46 1 Soil Mechanics .................. 46-47 Lunar Geology Investigation ........... 48-51 Lunar Geology Hand Tools ............. 52-54 Long Term Surface Exposure Experiment ...... 54-55 -more- November 14. 1972 i2 LUNAR ORBITAL SCIENCE ............... .5 6.61 Lunar Sounder ................. .5 6.57 Infrared Scanning Radiometer ......... .5 7.58 Far-Ultraviolet Spectrometer ..........5