Apollo 10. The NASA Mission Reports. Compiled from the NASA archives & Edited by Robert Godwin. SUB G6ttingen
|
|
- Angel Palmer
- 6 years ago
- Views:
Transcription
1 Apollo 0 The NASA Mission Reports Compiled from the NASA archives & Edited by Robert Godwin SUB G6ttingen Nach den Bestimmungen des Urheberrechts darf das auf beiliegenden Disketten/CD-ROMs gespeicherte Computarprogramm nicht auf einon anderen Datentrager ubertragen und insjesondare nicht zu gewerblichen Zwecken genutzt werden. Die Bibliothek Ubemimmt keine Garantie fur die Vtrenfreiheit des datentragers.
2 flpollo 0 The NflSfl Mission Report Contents APOLLO 0 PRESS KIT GENERAL RELEASE 9 MISSION OBJECTIVES APOLLO 0 COUNTDOWN MISSION TRAJECTORY AND MANEUVER DESCRIPTION Launch Events Mission Events Earth Parking Orbit Translunar Injection Transposition, Docking and Ejection Translunar Coast Lunar Orbit Insertion Lunar Parking Orbit & LM-Active Rendezvous Rendezvous Sequence Transearth Injection Transearth Coast Entry Landing RECOVERY OPERATIONS APOLLO 0 ALTERNATE MISSIONS ABORT MODES Deep Space Aborts APOLLO 0 GO/NO-GO DECISION POINTS ONBOARD TELEVISION APOLLO 0 PHOTOGRAPHIC TASKS LUNAR DESCRIPTION Apollo Lunar Landing Sites COMMAND AND SERVICE MODULE STRUCTURES, SYSTEMS CSM Systems v LUNAR MODULE STRUCTURES,WEIGHT Ascent Stage Descent Stage Lunar Module Systems SATURN V LAUNCH VEHICLE DESCRIPTION & OPERATION First Stage Second Stage Third Stage Instrument Unit Propulsion Launch Vehicle Instrumentation and Communication S-IVB Restart APOLLO 0 CREW
3 flpollo 0 - The NflSR Mission Report Life Support Equipment Space Suits 8 Meals 6 Personal Hygiene 6 Survival Gear 6 Biomedical Inflight Monitoring 6 Rest-Work Cycles 6 Training 6 Crew Biographies -_ 66 APOLLO LAUNCH OPERATIONS 68 Prelaunch Preparations 68 LAUNCH COMPLEX 9 70 Vehicle Assembly Building 7 Launch Control Center 7 Mobile Launcher 7 Transporter 7 Crawlerway 7 Mobile Service Structure 7 Water Deluge System 7 Flame Trench and Deflector 7 Pad Areas 7 Mission Control Center 7 MANNED SPACE FLIGHT NETWORK 76 NASA Communications Network 80 Network Computers 80 The Apollo Ships 8 Apollo Range Instrumentation Aircraft (ARIA) 8 Ship Positions for Apollo 0 8 APOLLO PROGRAM MANAGEMENT 8 Apollo/Saturn Officials 8 Major Apollo/Saturn V Contractors 8 APOLLO GLOSSARY 86 N. APOLLO ACRONYMS AND ABBREVIATIONS 89 CONVERSION FACTORS 90 MISSION OPERATION REPORT APOLLO 0 (AS-0) MISSION Memorandum 9 The Apollo 0 Mission 9 Program Development9 NASA OMSF Primary Mission Objectives for Apollo 0 96 Detailed Test Objectives 97 Launch Countdown and Turnaround Capability, AS-0 98 Detailed Flight Mission Description 00 Launch Windows 00 Lunar Landing Sites 00 Nominal Mission : 00 First Period Of Activity 0 Second Period Of Activity 0 Third Period Of Activity 0 Fourth Period Of Activity 0 Fifth Period Of Activity III Contingency Operations General Aborts Launch Earth Parking Orbit Translunar Injection I Translunar Coast Lunar Orbit Insertion. Lunar Orbit Transearth Injection Transearth Coast I Entry Alternate Mission Summary 6 Space Vehicle Description Spacecraft Description Configuration Differences Human System Provisions 6
4 flpollo 0 - The NfiSfl Mission Report Launch Complex Mission Support Recovery Support Plan Flight Crew Back-up Crew Mission Management Responsibility Program Management 0 Abbreviations Figure II in Launch Countdown, AS-0 Apollo 0 Flight Profile Apollo 0 Summary Flight Plan Ascent Trajectory Earth Orbit Configuration Transposition, Docking, and Ejection Translunar Configuration Lunar Orbit Insertion LM-Active Phase Near Lunar Surface Activity CSM Lunar Landmark Tracking Transearth Configuration Transearth Reentry and Descent to Earth Apollo/Saturn V Space Vehicle Block Command Module Service Module Lunar Module Apollo losvon Pad B, LC 9 Recovery Lines Primary Landing Area End-of-Mission Landing Points Apollo 0 Prime Crew Apollo 0 Backup Crew Apollo Earth Orbit Chart LIST OF FIGURES LIST OF TABLES Apollo 0 Sequence of Events Apollo 0 Weight Summary MSFN Mobile Facilities Network Configuration for Apollo 0 Mission Recovery Force Locations, Apollo 0 POST LAUNCH MISSION OPERA Memorandum Prelaunch First Period Second Period Third Period Fourth Period Fifth Period Sixth Period Systems Performance Flight Crew Performance ICT ftct Apollo Detailed Test Objectives Apollo 0 Achievements Powered Flight Sequence Of Events Translunar and Transearth Maneuver Summary Lunar Orbit Maneuver Summary 6 7 7
5 flpollo 0 - The NRSft Mission Report Consumables Summary At End Of Mission Color TV Log Space Vehicle Discrepancy Summary POST LAUNCH MISSION REPORT NO. Memorandum Primary Mission Objectives for Apollo 0 Results Of Apollo 0 Mission I 6 Apollo 0 Sequence Of Events Apollo 0 recovery Events Launch Vehicle Discrepancy Summary CSM Discrepancy Summary LM Discrepancy Summary Mission Discrepancy Summary LIST OF TABLES TECHNICAL DEBRIEFING.0 SUITING AND INGRESS.0 STATUS CHECKS AND COUNTDOWN.0 POWERED FLIGHT.0 EARTH ORBIT AND SYSTEMS CHECKOUT.0 TLI THROUGH S IVB CLOSEOUT 6.0TRANSLUNAR COAST 7.0 LOI THROUGH LUNAR MODULE INGRESS 8.0 LUNAR MODULE CHECKOUT THROUGH SEPARATION 8. COMMAND MODULE 8. LUNAR MODULE 9.0 DOI THROUGH RENDEZVOUS 0.0 LUNAR MODULE JETTISON THROUGH TEI.0 TRANSEARTH COAST.0 ENTRY.0 LANDING AND RECOVERY.0 COMMAND MODULE SYSTEMS OPERATIONS. GUIDANCEAND NAVIGATION. STABILIZATION AND CONTROL SYSTEM. SERVICE PROPULSION SYSTEM. REACTION CONTROL SYSTEM. ELECTRICAL POWER SYSTEM.6 ENVIRONMENTAL CONTROL SYSTEM.7 TELECOMMUNICATIONS.8 MECHANICAL.0 LUNAR MODULE SYSTEMS OPERATIONS. GUIDANCEAND NAVIGATION.. PGNCS I.I.AGS. PROPULSION SYSTEM.. Descent.. Ascent. REACTION CONTROL SYSTEM. ELECTRICAL POWER SYSTEM. ENVIRONMENTAL CONTROL SYSTEM.6 TELECOMMUNICATIONS 6.0 MISCELLANEOUS SYSTEMS, FLIGHT EQUIPMENT,AND GFE 7.0 VISUAL SIGHTINGS 8.0 PREMISSION PLANNING.0 MISSION CONTROL 0.0 TRAINING.0 HUMAN FACTORS.0 CONCLUDING COMMENTS.0 ONBOARD CREW COMMENTS f NffiDERB :RB. "\.BNW.-J
PreLaunch Mission Operation Report No. M MEMORANDUM. To: A/Ad ministrator. From: MA/Apollo Program Director
PreLaunch Mission Operation Report No. M-932-69- 10 MEMORANDUM To: A/Ad ministrator From: MA/Apollo Program Director Subject: Apollo 10 Mission (AS-505) No earlier than 18 May 1969, we plan to launch the
More informationPost Launch Mission Operation Report No. M MEMORANDUM. 10 February To: A/Acting Administrator. From : MA/Apollo Program Director
Post Launch Mission Operation Report No. M-932-68-08, MEMORANDUM To: A/Acting Administrator 10 February 1969 From : MA/Apollo Program Director Subiect: Apollo 8 Mission (AS-503) Post Launch Report # 1
More informationMARYLAND. The Design Process Regression Analysis Level I Design Example: UMd Exploration Initiative U N I V E R S I T Y O F.
Parametric Design The Design Process Regression Analysis Level I Design Example: UMd Exploration Initiative U N I V E R S I T Y O F MARYLAND 2004 David L. Akin - All rights reserved http://spacecraft.ssl.
More informationEXPERIMENTS GUIDE APOLLO NPC JUNE 15, 1965 I NATIONAL AERONAUTICS AND SPACE ADMINISTRATION
NPC 500-9 APOLLO EXPERIMENTS GUIDE JUNE 15, 1965 I NATIONAL AERONAUTICS AND SPACE ADMINISTRATION. I OFFICE OF MANNED SPACE FLIGHT WASHINGTON,D.C. 20546 ERRATA The attached page replaces page 3-1 of the
More informationTo the Moon and Back
To the Moon and Back Lessons from the Apollo Space Program John Patrick Davis, MD Grand Rounds March 14 th, 2018 Disclosures None Outline Geopolitical Climate Post World War II United States Culture Space
More informationHuman Spaceflight Value Study Was the Shuttle a Good Deal?
Human Spaceflight Value Study Was the Shuttle a Good Deal? Andy Prince Billy Carson MSFC Engineering Cost Office/CS50 20 October 2016 Purpose Examine the Space Shuttle Program Relative to its Goals and
More informationParametric Design MARYLAND. The Design Process Regression Analysis Level I Design Example: Project Diana U N I V E R S I T Y O F.
Parametric Design The Design Process Regression Analysis Level I Design Example: U N I V E R S I T Y O F MARYLAND 2003 David L. Akin - All rights reserved http://spacecraft.ssl.umd.edu Parametric Design
More informationLOW EARTH ORBIT RENDEZVOUS STRATEGY FOR LUNAR MISSIONS. William M. Cirillo
Proceedings of the 2006 Winter Simulation Conference L. F. Perrone, F. P. Wieland, J. Liu, B. G. Lawson, D. M. Nicol, and R. M. Fujimoto, eds. LOW EARTH ORBIT RENDEZVOUS STRATEGY FOR LUNAR MISSIONS Grant
More informationRemembrances of Apollo. Dr. Ralph P. Pass
Remembrances of Apollo Dr. Ralph P. Pass 1 Project Apollo s Birth July 1960 Planning for follow-on to Mercury, including a circumlunar mission Abe Silverstein suggested the name Apollo God of Archery,
More informationPROGRESS REPORT ON APOLLO PROGRAM
PROGRESS REPORT ON APOLLO PROGRAM Michael Collins, LCol. USAF (M) Astronaut NASA-MANNED SPACECRAFT CENTER It is a great pleasure to be here today and to greet you hardy sumvors of the pool party. I will
More informationMIKE HAWES VICE PRESIDENT & ORION PROGRAM MANAGER
MIKE HAWES VICE PRESIDENT & ORION PROGRAM MANAGER NASA S EXPLORATION SYSTEM EXPLORATION DESTINATIONS 100s of Miles 1,000s of Miles 10,000s of Miles 100,000s of Miles 1,000,000s of Miles 10,000,000s of
More informationParametric Design MARYLAND. The Design Process Level I Design Example: Low-Cost Lunar Exploration U N I V E R S I T Y O F
Parametric Design The Design Process Level I Design Example: Low-Cost Lunar Exploration U N I V E R S I T Y O F MARYLAND 2005 David L. Akin - All rights reserved http://spacecraft.ssl.umd.edu Parametric
More informationSpace Exploration Earth and Space. Project Mercury Courtesy of NASA Images
Project Mercury 1959-1963 3 Project Mercury 1959-1963 Project Mercury was America s first manned space program. It had three main goals: to orbit a manned spacecraft around Earth; to see if humans could
More informationThe Journey Back into Space: Orbiter Processing at the Kennedy Space Center
The Journey Back into Space: Orbiter Processing at the Kennedy Space Center written by Angie Smibert (copyright NASA) FADE IN: EXT - COLUMBIA ORBIT AND RE-ENTRY Columbia re-enters the Earth's atmosphere
More informationLUMINARY Memo #214 Revision 1
Massachusetts Institute of Technology C. S. Draper Laboratory Cambridge, Massachusetts LUMINARY Memo #214 Revision 1 To: Distribution From: Luminary Test Group Date: 6 April 1971 Subject: Level 6 for Luminary
More informationA Notional Round Trip To The Trans-Lunar Libration Point (EML2)
Many specialists in the astrodynamics field are currently studying trajectories between Earth and the trans-lunar libration point (EML2). Located about 60,000 km beyond the Moon from Earth, EML2 is a strategic
More informationElectrically Propelled Cargo Spacecraft for Sustained Lunar Supply Operations
42nd AIAA/ASME/SAE/ASEE Joint Propulsion Conference & Exhibit 9-12 July 2006, Sacramento, California AIAA 2006-4435 Electrically Propelled Cargo Spacecraft for Sustained Lunar Supply Operations Christian
More informationRight On Replicas, LLC Step-by-Step Review * Man in Space USA Manned Rockets 1:200 Scale AMT Model Kit #AMT700 Review (Part 2)
Right On Replicas, LLC Step-by-Step Review 20141001* Man in Space USA Manned Rockets 1:200 Scale AMT Model Kit #AMT700 Review (Part 2) Review and Photos by Robert Byrnes Apollo Saturn V: The first stage
More information2024 Mars Sample Return Design Overview
2024 Mars Sample Return Design Overview Andrew Hoffman sentinel72@gmail.com Abstract Scheduled for two launches set during two consecutive launch windows with the first launch occurring in 2024, the landmark
More informationLunar Landing Trajectory and Abort Trajectory Integrated Optimization Design.
Lunar Landing Trajectory and Abort Trajectory Integrated Optimization Design Bai Chengchao (1), Guo Jifeng (2), and Xu Xibao (3) (1)(2) School of Astronautics, Harbin Institute of Technology, (451)864128766
More informationFOR PROJECTS GEMINI AND APOLLO
ENGINEERING AND OPERATIONAL APPROACHES FOR PROJECTS GEMINI AND APOLLO BY ELLIOT M. SEE, JR. (M) NASA Manned Spacecraft Center * In assessing the status of Projects Gemini and Apollo today, it could be
More informationV. The Moon s Motion and Phases
V. The Moon s Motion and Phases A. The Moon s Orbit revolves west 1. The moon around Earth from to. east 2. The moon s orbit is an. ellipse 3. The plane of the moon s orbit is inclined to Earth s at about
More informationLOW-COST LUNAR COMMUNICATION AND NAVIGATION
LOW-COST LUNAR COMMUNICATION AND NAVIGATION Keric Hill, Jeffrey Parker, George H. Born, and Martin W. Lo Introduction Spacecraft in halo orbits near the Moon could relay communications for lunar missions
More informationCrew Exploration Lander for Ganymede, Callisto, and Earth s s Moon - Vehicle System Design (AIAA-2009
Crew Exploration Lander for Ganymede, Callisto, and Earth s s Moon - Vehicle System Design (AIAA-29 29-5179), The Boeing Company AIAA 29 Joint Propulsion Conference August 3-5, 29, Denver, Colorado Slide
More informationThe Design Process Level I Design Example: Low-Cost Lunar Exploration Amplification on Initial Concept Review
Parametric Design The Design Process Level I Design Example: Low-Cost Lunar Exploration Amplification on Initial Concept Review U N I V E R S I T Y O F MARYLAND 2008 David L. Akin - All rights reserved
More informationSELENE TRANSLUNAR TRAJECTORY AND LUNAR ORBIT INJECTION
SELENE TRANSLUNAR TRAJECTORY AND LUNAR ORBIT INJECTION Yasuihiro Kawakatsu (*1) Ken Nakajima (*2), Masahiro Ogasawara (*3), Yutaka Kaneko (*1), Yoshisada Takizawa (*1) (*1) National Space Development Agency
More informationApproved- (2 I a-- Date /42.- R. R. RAGAN, EPUTY DIRECTOR INSTRUMENTATION LABORATORY
Liti4nZ_L'ICJd'A O 11111ffll* GUIDANCE, NAVIGATION AND CONTROL Approved: W, YY1OLA.1.1.-C-0->,-. Date: --3 ::/0 W. F. MARSCHER, DIRECTOR, GUIDANCE ANALYSIS APOLLO GUIDANCE AND NAVIGATION PROGRAM Approved_
More informationNASA Approval Pending GFE GUIDANCE AND NAVIGATION PERFORMANCE AND INTERFACE SPECIFICATION BLOCK I (U)
To U NC LASS1 FI ED CLASSIFICATION CHANGE P R E L I M I N A R Y. NASA Approval Pending A J - /6J"p b7,r- '7 1 N 2- Date,/?/fi// 9" By author' Changed?I$! 8 Classified Documeilt Master Control Station,
More informationCHAPTER 3 PERFORMANCE
PERFORMANCE 3.1 Introduction The LM-3A performance figures given in this chapter are based on the following assumptions: Launching from XSLC (Xichang Satellite Launch Center, Sichuan Province, China),
More informationNATIONAL AERONAUTICS AND SPACE ADMINISTRATION WASHINGTON,D.C FOR RELEASE: SUNDAY PROJECT: APOLLO MISSION OBJECTIVES
NEWS RELEASE NO: 69-29 NATIONAL AERONAUTICS AND SPACE ADMINISTRATION WASHINGTON,D.C. 20546 FOR RELEASE: SUNDAY February 23, 1969 TELS. WO 2-4155 WO 3-6925 PROJECT: APOLLO 9 R E contents GENERAL RELEASE
More informationOrbital Analysis of the Shenzhou-7 Manned Mission in Support of the Malindi Tracking Station
Orbital Analysis of the Shenzhou-7 Manned Mission in Support of the Malindi Tracking Station Technical Report Prepared by Luciano Anselmo 2 October 2009 Space Flight Dynamics Laboratory Istituto di Scienza
More informationThe time period while the spacecraft is in transit to lunar orbit shall be used to verify the functionality of the spacecraft.
ASE 379L Group #2: Homework #4 James Carlson Due: Feb. 15, 2008 Henri Kjellberg Leah Olson Emily Svrcek Requirements The spacecraft shall be launched to Earth orbit using a launch vehicle selected by the
More informationCongreve Rockets This rockets were invented by Englishman, Sir William Congreve. Congreve successfully demonstrated a solid fuel rocket in 1805, and
Congreve Rockets This rockets were invented by Englishman, Sir William Congreve. Congreve successfully demonstrated a solid fuel rocket in 1805, and the following year his rockets were used in action for
More informationDistance = Rate x Time Middle grades
Distance = Rate x Time Middle grades Lesson Summary Students practice using the equation distance = rate x time using trajectory data from the Apollo 11 lunar landing mission. Prior Knowledge & Skills
More information:, :::::::::;:;::::::::::: MSC AERONAUTICS AND SPACE ADMINISTRATION MSC INTERNAL NOTE NO. 70-FM-64. March 31, 1970
\ ' ~)~{{{{~. :-: :. : : : :' : : : : : :, :::::::::;:;::::::::::: MSC-01894 f, ::m NATONAL AERONAUTCS AND SPACE ADMNSTRATON MSC NTERNAL NOTE NO. 70-FM-64 March 31, 1970 r~:~:~:~:~:rr~spacecraft OPERATONAL
More informationLunar Orbit Propellant Transfer
Lunar Orbit Propellant Transfer Steven S. Pietrobon An investigation of various crewed Lunar transportation schemes using liquid oxygen and liquid hydrogen is made. These include the traditional direct
More informationMIT/IL Apollo Guidance Computer Apollo 11 Lunar Mission A Brief Review
MIT/IL Apollo Guidance Computer Apollo 11 Lunar Mission A Brief Review Prepared By: John Sutherland Denver, Colorado Revised November 19, 2012 Second Revision November 28, 2014 [Page intentionally left
More informationDr. Robert Goddard s Liquid Fueled Rocket March 16, 1926
History of Space Exploration Dr. Robert Goddard s Liquid Fueled Rocket March 16, 1926 Courtesy of NASA Goddard Dr. Robert Goddard is known as the father of modern rocketry because of his use of liquid
More informationMEMORANDUM 17 July 1971
Prelaunch Mission Operation Report MEMORANDUM 17 July 1971 No. M-933-71-15 TO: A/Administrator FROM: MA/Apollo Program Director SUBJECT: Apollo 15 Mission (AS-510) We plan to launch Apollo 15 from Pad
More informationNew Worlds Observer Final Report Appendix J. Appendix J: Trajectory Design and Orbit Determination Lead Author: Karen Richon
Appendix J: Trajectory Design and Orbit Determination Lead Author: Karen Richon The two NWO spacecraft will orbit about the libration point created by the Sun and Earth/Moon barycenter at the far side
More informationUpper Atmospheric Monitoring for Ares I-X Ascent Loads and Trajectory Evaluation on the Day-of-Launch
1st AIAA Atmospheric and Space Environments Conference 22-25 June 2009, San Antonio, Texas AIAA 2009-3781 Upper Atmospheric Monitoring for Ares I-X Ascent Loads and Trajectory Evaluation on the Day-of-Launch
More informationSpace mission environments: sources for loading and structural requirements
Space structures Space mission environments: sources for loading and structural requirements Prof. P. Gaudenzi Università di Roma La Sapienza, Rome Italy paolo.gaudenzi@uniroma1.it 1 THE STRUCTURAL SYSTEM
More informationSeparation, Transposition and Docking of Apollo 11 in low-earth Orbit
Separation, Transposition and Docking of Apollo 11 in low-earth Orbit Julius A. Birch Unaffiliated (Dated: May 5, 2018) A selection of visual media from the Apollo 11 Mission, namely, the 70mm photographs
More informationGuidance Strategy for Hyperbolic Rendezvous
Guidance Strategy for Hyperbolic Rendezvous Damon F. Landau * and James M. Longuski Purdue University, West Lafayette, IN, 47907-2023 In cycler and semi-cycler Mars mission architectures a crew taxi docks
More informationApollo System Architecture Decision Process
Apollo System Architecture Decision Process How Can We Get To The Moon? Sourced from selec@ng the Way To The Moon by John Logsdon and NASA SP-4009 hkps://www.hq.nasa.gov/office/pao/ History/SP-4009/v1p2c.htm
More informationCHAPTER 3 PERFORMANCE
PERFORMANCE 3.1 Introduction The LM-3B performance figures given in this chapter are based on the following assumptions: Launching from XSLC (Xichang Satellite Launch Center, Sichuan Province, China),
More informationLRO Lunar Reconnaissance Orbiter
LRO Lunar Reconnaissance Orbiter Launch Date: June 18, 2009 Destination: Earth s moon Reached Moon: June 23, 2009 Type of craft: Orbiter Intended purpose: to map the moon like never before, add additional
More informationE S. APOLLO 11 i_ LUNAR LANDING MISSION _ 0 NATIONAL AERONAUTICS AND SPACE ADMINISTRATION
P ' R E S K APOLLO 11 i_ LUNAR LANDING MISSION _ 0 NATIONAL AERONAUTICS AND SPACE ADMINISTRATION RELEASE NO: 69-83E NATIONALAERONAUTICSANDS_CE ADMINIST_TION TE_. WO2-4155 WASHINGTON, D.C. 205_ WO3-6_5
More informationThe Role of the Cis-Lunar Libration Point in Lunar Operations
The Space Congress Proceedings 1966 (3rd) The Challenge of Space Mar 7th, 8:00 AM The Role of the Cis-Lunar Libration Point in Lunar Operations W. Raithel General Electric Company Follow this and additional
More informationSAFETY GUIDED DESIGN OF CREW RETURN VEHICLE IN CONCEPT DESIGN PHASE USING STAMP/STPA
SAFETY GUIDED DESIGN OF CREW RETURN VEHICLE IN CONCEPT DESIGN PHASE USING STAMP/STPA Haruka Nakao (1), Masa Katahira (2), Yuko Miyamoto (2), Nancy Leveson (3), (1) Japan Manned Space Systems Corporation,
More informationDARE Mission and Spacecraft Overview
DARE Mission and Spacecraft Overview October 6, 2010 Lisa Hardaway, PhD Mike Weiss, Scott Mitchell, Susan Borutzki, John Iacometti, Grant Helling The information contained herein is the private property
More informationCVlO APOLLO APP CATIONS P
A X I CVlO This paper presents systems descriptions of NASA manned space-flight capabilities in a program extending from the early 1970 s to 1980 and beyond. For the relatively near-tern Apollo applications
More informationCrew Exploration Lander for Ganymede, Callisto, and Earth s Moon - Vehicle System Design
45th AIAA/ASME/SAE/ASEE Joint Propulsion Conference & Exhibit 2-5 August 2009, Denver, Colorado AIAA-2009-5179 Crew Exploration Lander for Ganymede, Callisto, and Earth s Moon - Vehicle System Design Mark
More informationMission to Mars. MAE 598: Design Optimization Final Project. By: Trevor Slawson, Jenna Lynch, Adrian Maranon, and Matt Catlett
Mission to Mars MAE 598: Design Optimization Final Project By: Trevor Slawson, Jenna Lynch, Adrian Maranon, and Matt Catlett Motivation Manned missions beyond low Earth orbit have not occurred since Apollo
More informationA SURVEY OF BALLISTIC TRANSFERS TO LOW LUNAR ORBIT
AAS 11-277 A SURVEY OF BALLISTIC TRANSFERS TO LOW LUNAR ORBIT Jeffrey S. Parker Rodney L. Anderson and Andrew Peterson A simple strategy is identified to generate ballistic transfers between the Earth
More informationLunar Mission Profiles for Commercial Space Operations
Lunar Mission Profiles for Commercial Space Operations Matthew Wilkinson (1), Andrew Meade (1), David Warden (2) and Leroy Chiao (2) (1) Dept. of Mechanical Engineering and Materials Science, William Marsh
More informationNASA and the Early Apollo Flights of the 1960s
27 August 2012 MP3 at voaspecialenglish.com NASA and the Early Apollo Flights of the 1960s BARBARA KLEIN: I'm Barbara Klein. STEVE EMBER: And I'm Steve Ember with EXPLORATIONS in VOA Special English. The
More informationEXPEDITION LOGBOOK MISSION TASK CHECKLIST. 3 rd 5 th Grade Edition. Team Name: Commander (teacher): Pilot (chaperone):
MISSION TASK CHECKLIST Entryway Discovery (page 2) Astronaut Encounter (page 3) ISS Live! (page 4) From Sketchpad To Launchpad (page 5) Touch The Moon (page 6) Mission Patch Design (page 7) Explorers Wanted!
More informationRobotic Lunar Exploration Scenario JAXA Plan
Workshop May, 2006 Robotic Lunar Exploration Scenario JAXA Plan Tatsuaki HASHIMOTO JAXA 1 Question: What is Space Exploration? Answers: There are as many answers as the number of the people who answer
More informationA Notional Lunar Surface Rendezvous Mission In 2019
A Notional Lunar Surface Rendezvous Mission In 2019 Daniel R. Adamo * Astrodynamics Consultant, Houston, Texas 77059 In accord with currently required Ares V heavy-lift payload delivery capability to the
More informationApollo 12 - On the Ocean of Storms
Apollo 12 - On the Ocean of Storms David M. Harland Apollo 12 - On the Ocean of Storms David M. Harland Space Historian Kelvinbridge Glasgow UK SPRINGER-PRAXIS BOOKS IN SPACE EXPLORATION SUBJECT ADVISORY
More informationChapter 22 Lecture Notes
Chapter 22 Lecture Notes I. The Space Race a. After WWII the US and the USSR (Soviet Union), were in a Cold War. Each trying to reach space and take command of the high ground. b. Soviets were way ahead
More informationSpace Explorer Glossary
Space Explorer Glossary A. * Asteroid ~ a rocky object in space that can be a few feet wide to several hundred miles wide. Most asteroids in the Solar System orbit in a belt between Mars and Jupiter. *
More informationENAE 483/788D MIDTERM FALL, 2018 NAME: a 3 = a = 42970] 1. So after one sol, the subspacecraft point would have gone 88773
ENAE 483/788D MIDTERM FALL, 208 NAME: One 8.5 x piece of paper allowed for notes (both sides). No Internet-enabled devices allowed. Put your name on the cover page, and on each page if you disassemble
More informationEarth Departure Trajectory Reconstruction of Apollo Program Components Undergoing Disposal in Interplanetary Space
Introduction A total of six Apollo Program components were targeted for disposal in interplanetary space during mission operations. Five of these components are Saturn V launch vehicle third stages, known
More informationMars Sample Return (MSR) Mission BY: ABHISHEK KUMAR SINHA
Mars Sample Return (MSR) Mission BY: ABHISHEK KUMAR SINHA Samples returned to terrestrial laboratories by MSR Mission would be analyzed with state-of the-art instrumentation providing unprecedented insight
More informationMars Sample Return Mission
Mars Sample Return Mission Ryan Supler Saylor.org: SSE101 MSRM Project April 15, 2014 2 Table of Contents The Scoping Elements of the Mars Sample Return Mission page 3 The High-Level Concept of Operations
More informationWhat is the InterPlanetary Superhighway?
What is the InterPlanetary Superhighway? Kathleen Howell Purdue University Lo and Ross Trajectory Key Space Technology Mission-Enabling Technology Not All Technology is hardware! The InterPlanetary Superhighway
More informationThe Essence of the Human Spirit: Apollo 8 DR. ALBERT JACKSON
Page 24 Apollo 8 40th Anniversary The Essence of the Human Spirit: Apollo 8 DR. ALBERT JACKSON Upper right: Apollo 8 crew patch Below: Apollo 8 trajectory (Figure used with permission of Hamish Lindsay)
More informationLUMINARY Memo #218. Summary. From the data presented in this memo, it is seen that the performance. From:
Massachusetts Institute of Technology C. S. Draper Laboratory Cambridge, Massachusetts LUMINARY Memo #218 To: From: Date: Subject: Distribution David Moore 19 May 1971 Apollo 15 LM De-Orbit Performance
More informationAEROTHERMODYNAMIC ANALYSIS OF INNOVATIVE HYPERSONIC DEPLOYABLE REENTRY CAPSULES. Raffaele Savino University of Naples Federico II
AEROTHERMODYNAMIC ANALYSIS OF INNOVATIVE HYPERSONIC DEPLOYABLE REENTRY CAPSULES Raffaele Savino University of Naples Federico II Objectives Show the main capabilities of deployable aero-brakes for Earth
More informationExploration Carriers UPC-Orion Launch Opportunities for Lunar Missions. presented to The Joint Annual Meeting of LEAG-ICEUM-SRR
Exploration Carriers UPC-Orion Launch Opportunities for Lunar Missions presented to The Joint Annual Meeting of LEAG-ICEUM-SRR Bruce Milam and Ruthan Lewis, Ph.D. NASA Goddard Space Flight Center October
More informationACTIVITY: Countdown 101 Print Cards
ACTIVITY: Countdown 101 Print Cards Launch Minus 3 Days. The countdown gets underway with the traditional call to stations by the NASA Test Director. This verifies that the launch team is in place and
More informationThe Johnson Space Center Houston
The Johnson Space Center Houston NASA s mighty main control centre for manned space exploration and training Text and photos by Christoph Otto NASA s Johnson Space Center in Houston is the largest and
More informationNATIONAL AERONAUTICS AND SPACE ADMINISTRATION WASHINGTON,D.C FOR RELEASE: SUNDAY. December 15, 1968 RELEASE NO: PROJECT: APOLLO 8
NEWS NATIONAL AERONAUTICS AND SPACE ADMINISTRATION WASHINGTON,D.C. 20546 TELS. WO 2-4155 WO 3-6925 FOR RELEASE: SUNDAY December 15, 1968 RELEASE NO: 68-208 P R E S S K contents GENERAL RELEASE MISSION
More informationProton Launch System Mission Planner s Guide SECTION 2. LV Performance
Proton Launch System Mission Planner s Guide SECTION 2 LV Performance 2. LV PERFORMANCE 2.1 OVERVIEW This section provides the information needed to make preliminary performance estimates for the Proton
More informationIAC 17 D2.8 A5.4 FLY ME TO THE MOON ON AN SLS BLOCK II
FLY ME TO THE MOON ON AN SLS BLOCK II Steven S. Pietrobon, Ph.D. Small World Communications, 6 First Avenue, Payneham South SA 5070, Australia, steven@sworld.com.au We examine how a 140 t to low Earth
More informationEXPEDITION LOGBOOK MISSION TASK CHECKLIST. Grades 6 th 8 th. Team Name: Commander (teacher): Pilot (chaperone):
MISSION TASK CHECKLIST Grades 6 th 8 th Astronaut Encounter (page 2) Explorers Wanted! (page 3) Science On A Sphere (page 4) Mapping Survey (page 5) Crew Conference (page 6) Energy for the Future (page
More informationAutonomous Vision Based Detection of Non-stellar Objects Flying in Formation with Camera Point of View
Autonomous Vision Based Detection of Non-stellar Objects Flying in Formation with Camera Point of View As.Prof. M. Benn (1), Prof. J. L. Jørgensen () (1) () DTU Space, Elektrovej 37, 4553438, mb@space.dtu.dk,
More informationMoon/Apollo. Question 1. Quiz, Quiz, Trade. Name the side of the moon that we can see from Earth. The NEAR Side
Moon/Apollo Quiz, Quiz, Trade Questions created by Liz LaRosa www.middleschoolscience.com 2015 Question 1 Name the side of the moon that we can see from Earth. The NEAR Side Question 2 Name the side of
More informationPredicting Long-Term Telemetry Behavior for Lunar Orbiting, Deep Space, Planetary and Earth Orbiting Satellites
Predicting Long-Term Telemetry Behavior for Lunar Orbiting, Deep Space, Planetary and Earth Orbiting Satellites Item Type text; Proceedings Authors Losik, Len Publisher International Foundation for Telemetering
More informationSuccessful Demonstration for Upper Stage Controlled Re-entry Experiment by H-IIB Launch Vehicle
11 Successful Demonstration for Upper Stage Controlled Re-entry Experiment by H-IIB Launch Vehicle KAZUO TAKASE *1 MASANORI TSUBOI *2 SHIGERU MORI *3 KIYOSHI KOBAYASHI *3 The space debris created by launch
More informationSOLVING THE INTERNATIONAL SPACE STATION (ISS) MOTION CONTROL LONG-TERM PLANNING PROBLEM
SOLVING THE INTERNATIONAL SPACE STATION (ISS) MOTION CONTROL LONG-TERM PLANNING PROBLEM V. N. Zhukov, Dr. E. K. Melnikov, A. I. Smirnov Mission Control Center, Central Research Institute of Machine Building,
More informationThe Interstellar Boundary Explorer (IBEX) Mission Design: A Pegasus Class Mission to a High Energy Orbit
The Interstellar Boundary Explorer (IBEX) Mission Design: A Pegasus Class Mission to a High Energy Orbit Ryan Tyler, D.J. McComas, Howard Runge, John Scherrer, Mark Tapley 1 IBEX Science Requirements IBEX
More informationmrrttt I~~~Illlii~ ~ ~ l ~~~I~\ ~ \ l ~ ~ ~ ~ ~ .. '. APOLLO MISSION J-3 MISSION SCIENCE PLANNING DOCUMENT PRELIMINARY I!! : IIIII
::::::::::::::::::::::: ~~~~~~~~ ~~ ~~~ ~~~~~~~ ~~~ : : : : : : : : : : : : =~:.~:::: : : : ::::~::: =:~.::.. '. :~. ;.:....... =~=~=~=~=~~::{{: I!! 11111111111111: IIIII I~~~Illlii~ ~=~: ~: ~: ~= ~ =~:
More informationESSE Payload Design. 1.2 Introduction to Space Missions
ESSE4360 - Payload Design 1.2 Introduction to Space Missions Earth, Moon, Mars, and Beyond Department of Earth and Space Science and Engineering Room 255, Petrie Science and Engineering Building Tel: 416-736
More informationMOON AGE AND REGOLITH EXPLORER MISSION DESIGN AND PERFORMANCE 2017 Annual Technical Symposium
MOON AGE AND REGOLITH EXPLORER MISSION DESIGN AND PERFORMANCE 2017 Annual Technical Symposium David Lee NASAJSC/EG5 david.e.lee@nasa.gov 281-483-8118 May 5, 2017 Jerry Condon NASA/JSC gerald.l.condon@nasa.gov
More informationISS Intergovernmental Agreement
ISS Intergovernmental Agreement The International Space Station photographed from Shuttle Atlantis following undocking during the STS-117 mission in June 2007 (Image: NASA) The International Space Station
More informationNASA - Apollo 9. Press Kit. Ä National Aeronautics and Space Administration Ä National Aeronautics and Space Administration
Press Kit NASA - Apollo 9 Ä - 1969 - National Aeronautics and Space Administration Ä - 2010 - National Aeronautics and Space Administration Restored version by Matteo Negri (Italy) Web: http://www.siamoandatisullaluna.com
More informationSkylab Facilities and Operations
The Space Congress Proceedings 1971 (8th) Vol. 1 Technology Today And Tomorrow Apr 1st, 8:00 AM Skylab Facilities and Operations Robert B. Krause Chief, Skylab Ground Systems Branch, Apollo- Skylab Programs
More informationThe Mars-back Approach to Moon-Mars Exploration System Commonality
The -back Approach to Moon- Exploration Commonality Paul Wooster, Wilfried Hofstetter, Prof. Edward Crawley Massachusetts Institute of Technology Cambridge, Massachusetts ABSTRACT The -back approach entails
More informationNov 30, 2012 China s Ambitious Space Program
In News Focus #18, we head to the Gobi desert in Northern China to look at the achievements of the China National Space Administration (CNSA). Russia and the U.S.A. have already conquered space and placed
More informationSmall Satellite Deployments From STS116 - Development Of New Manned Spaceflight Deployment Systems
SSC07-III-1 Small Satellite Deployments From STS116 - Development Of New Manned Spaceflight Deployment Systems Perry G. Ballard, Albert Meza DOD Space Test Program Scott Ritterhouse, Theresa Shaffer, Carolynn
More informationORBIT DETERMINATION AND CONTROL FOR THE EUROPEAN STUDENT MOON ORBITER
IAC-2010-E2-3 ORBIT DETERMINATION AND CONTROL FOR THE EUROPEAN STUDENT MOON ORBITER Author Ms. Alison Gibbings, agibbing@eng.gla.ac.uk Glasgow University, Space Advanced Research Team, Glasgow, United
More informationTEACHER PAGE CELEBRATING SPACE: A QUICK HISTORY
Background Putting the Space Age Into Context: The dawn of the space age does not date back that far in human history only 40 years! It is so recent that you can get eye-witness accounts by asking parents,
More informationMaterials: White board, Markers, 2 Posters, Construction Paper, Glue, Worksheets
Jessica Bowie U.S. History Date: July 2, 2010 Period: 3rd Title: Race to Space Objective: TSW describe America s fascination with Space exploration and competition for advancement with USSR. USH 6a, 6b
More informationMS 644 Space Program collection
Guide to MS 644 Space Program collection 1962 1983 Span Dates, 1973 Bulk Dates, 2 feet, 1 inch (linear) Processed by Armand J. Avila April 29, 2017 Donated by various donors. Citation: Space Program collection,
More informationGRAIL Takes A Roundabout Route To Lunar Orbit
The Gravity Recovery and Interior Laboratory (GRAIL) mission departed Earth from Cape Canaveral Air Force Station Space Launch Complex 17B on 2011 September 10 at 13:08 UTC, carried by a Delta II Heavy
More informationBraun XII. A Flyby Mission to Mars by AIAA Orange County ASAT Conference April 30 th, Presented by Dev Bhatia & David Rodriguez
Braun XII A Flyby Mission to Mars by 2024 AIAA Orange County ASAT Conference April 30 th, 2016 Presented by Dev Bhatia & David Rodriguez The Rocketeers: Alexis Mascarinas (Cal Poly Pomona), Cerritos High
More informationThe Launch of Gorizont 45 on the First Proton K /Breeze M
The Launch of Gorizont 45 on the First Proton K / Fred D. Rosenberg, Ph.D. Space Control Conference 3 April 2001 FDR -01 1 This work is sponsored by the Air Force under Air Force Contract F19628-00-C-0002
More information