Kennedy Space Center Launch Tickets
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Nasa Advisory Council Human Exploration and Operations
NASA ADVISORY COUNCIL HUMAN EXPLORATION AND OPERATIONS COMMITTEE NASA Headquarters Washington, DC January 13-14, 2021 MEETING REPORT _____________________________________________________________ N. Wayne Hale, Chair ____________________________________________________________ Bette Siegel, Executive Secretary Table of Contents Call to Order 3 Commercial Crew Program 5 Public Comments 8 Artemis Program 9 SMD Artemis CLPS Activities 11 Moon to Mars Update 12 Solar System and Beyond 12 HERMES Instrument Update Artemis III SDT Update Advancing Biological and Physical Sciences Through Lunar Exploration 14 SMD Mars Science Update 14 Artemis Accords 15 Planetary Protection Activities 15 Discussion/Findings and Recommendations 16 Appendix A- Attendees Appendix B- HEOC Membership Appendix C- Presentations Appendix D- Agenda Appendix E- Chat Transcript Prepared by Joan M. Zimmermann Zantech IT, Inc. 2 January 13, 2021 Call to order and welcome Dr. Bette Siegel, Executive Secretary of the Human Exploration and Operations Committee (HEOC), called the meeting to order, and provided details of the Federal Advisory Committee Act (FACA), which provides governance rules for the meeting. She introduced Mr. N. Wayne Hale, Chair of the HEOC. Mr. Hale noted to the public that this particular HEO meeting counts as the last meeting of 2020, and the next scheduled meeting in March/April will be the first meeting of 2021. Mr. Hale welcomed three new members, Ms. Lynn Cline, Mr. David Thompson, and Mr. Kwatsi Alibaruho. The present meeting is focused on an update on the HEO areas, and a joint meeting with the NASA Advisory Council (NAC) Science Committee. Mr. Hale asked if NAC Chair, General Lester Lyles, who was attending the meeting virtually, had any remarks to proffer. -
Mission Task Checklist
Expedition 321 Kennedy Space Center Visitor Complex Self-Guided Field Trip Facilitator’s Guide BEFORE YOU ARRIVE: Spend some time pre-teaching the history and science concepts for the exhibits you will be visiting. More information is available at www.nasa.gov (click on the “For Educators” tab) and www.kennedyspacecenter.com (click on the “Experience” tab). Make copies of the Expedition 321 Logbook for your students and chaperones. For a bifold booklet, print out the PDF file, make 2-sided copies (invert every other original when collating) and staple in the centerfold (set stapler to 5-1/2 inches). Assign students to teams and team positions. Ideally, there should be four students to a team; two or three teams can easily share one chaperone. Decide which activities you are going to explore. There are 20 tasks in the Expedition 321 Logbook, but it is unlikely that students will be able to complete all of these in a single day. WHEN YOU ARRIVE: If coming by bus, you will be dropped off and picked up in Parking Lot 4 near the main entrance. If coming by car, pay a parking fee for each vehicle. You may pick up your tickets at the Will Call / Group Sales window near the main gate. Have your reservation number as well as any required tax-exempt certificates. There will be a security check of your bags. No hard-sided coolers are permitted inside the complex. For guests requiring special assistance, wheelchairs are available for rent at Information Central. GROUP PHOTOS: There are several spots throughout the Kennedy Space Center Visitor Complex that are popular locations for group photos: Outside the main gate in front of the huge NASA logo sign or the John F. -
Detecting, Tracking and Imaging Space Debris
r bulletin 109 — february 2002 Detecting, Tracking and Imaging Space Debris D. Mehrholz, L. Leushacke FGAN Research Institute for High-Frequency Physics and Radar Techniques, Wachtberg, Germany W. Flury, R. Jehn, H. Klinkrad, M. Landgraf European Space Operations Centre (ESOC), Darmstadt, Germany Earth’s space-debris environment tracked, with estimates for the number of Today’s man-made space-debris environment objects larger than 1 cm ranging from 100 000 has been created by the space activities to 200 000. that have taken place since Sputnik’s launch in 1957. There have been more than 4000 The sources of this debris are normal launch rocket launches since then, as well as many operations (Fig. 2), certain operations in space, other related debris-generating occurrences fragmentations as a result of explosions and such as more than 150 in-orbit fragmentation collisions in space, firings of satellite solid- events. rocket motors, material ageing effects, and leaking thermal-control systems. Solid-rocket Among the more than 8700 objects larger than 10 cm in Earth orbits, motors use aluminium as a catalyst (about 15% only about 6% are operational satellites and the remainder is space by mass) and when burning they emit debris. Europe currently has no operational space surveillance aluminium-oxide particles typically 1 to 10 system, but a powerful radar facility for the detection and tracking of microns in size. In addition, centimetre-sized space debris and the imaging of space objects is available in the form objects are formed by metallic aluminium melts, of the 34 m dish radar at the Research Establishment for Applied called ‘slag’. -
PSAD-81-2 Support Service Contracting at Johnson Space
BY THEU.S. GENERAL ACCOUNTli’JG OFFICE Report To The Administrator, National Aeronautics And Space Administration S@pportService Contracting At Johnson Space Center Needs Strengthening T National Aeronautics and S ace Administration Sl about $175 million annual Py on support service Cl at Johnson Space Center. GAO tested the way si of these contracts are administered and found --a contractor was working without approved llllllllllllllll113606 work orders, --Government-furnished equipment was unac- counted for, --questionable reimbursements occurred for con- tractor costs, I --contract funds increased before the need was justified, I --contracting officers were unaware of their re- sponsibilitres and unfamiliar with contract terms, and I --some contracting officers had a general attitude that small dollar value contracts are not worthy of adequate attention. I ‘/A0 believes overreliance on cost-type contracts which quire greater administration efforts than fixed-price )ntracts contributes to these contracting weaknesses recommends that the National Aeronautics and ace Administration take corrective actions. mp81s2 OCTOBER 21,1900 + Request for copies of GAO reports should be sent to: U.S. General Accounting Office Document Handling and Information Services Facility P.O. Box 6015 Gaithersburg, Md. 20760 Telephone (202) 275-6241 The first five copies of individual reports are free of charge. Additional copies of bound audit reports are $3.25 each. Additional copies of unbound report (i.e., letter reports) and most other publications are $1.00 each. There will be a 25% discount on all orders for 100 or more copies mailed to a single address. Sales orders must be prepaid on a cash, check, or money order basis. -
March 21–25, 2016
FORTY-SEVENTH LUNAR AND PLANETARY SCIENCE CONFERENCE PROGRAM OF TECHNICAL SESSIONS MARCH 21–25, 2016 The Woodlands Waterway Marriott Hotel and Convention Center The Woodlands, Texas INSTITUTIONAL SUPPORT Universities Space Research Association Lunar and Planetary Institute National Aeronautics and Space Administration CONFERENCE CO-CHAIRS Stephen Mackwell, Lunar and Planetary Institute Eileen Stansbery, NASA Johnson Space Center PROGRAM COMMITTEE CHAIRS David Draper, NASA Johnson Space Center Walter Kiefer, Lunar and Planetary Institute PROGRAM COMMITTEE P. Doug Archer, NASA Johnson Space Center Nicolas LeCorvec, Lunar and Planetary Institute Katherine Bermingham, University of Maryland Yo Matsubara, Smithsonian Institute Janice Bishop, SETI and NASA Ames Research Center Francis McCubbin, NASA Johnson Space Center Jeremy Boyce, University of California, Los Angeles Andrew Needham, Carnegie Institution of Washington Lisa Danielson, NASA Johnson Space Center Lan-Anh Nguyen, NASA Johnson Space Center Deepak Dhingra, University of Idaho Paul Niles, NASA Johnson Space Center Stephen Elardo, Carnegie Institution of Washington Dorothy Oehler, NASA Johnson Space Center Marc Fries, NASA Johnson Space Center D. Alex Patthoff, Jet Propulsion Laboratory Cyrena Goodrich, Lunar and Planetary Institute Elizabeth Rampe, Aerodyne Industries, Jacobs JETS at John Gruener, NASA Johnson Space Center NASA Johnson Space Center Justin Hagerty, U.S. Geological Survey Carol Raymond, Jet Propulsion Laboratory Lindsay Hays, Jet Propulsion Laboratory Paul Schenk, -
MAVEN—Definitive Answers About Mars Climate History
Page 1 The Critical Path A Flight Projects Directorate Quarterly Publication Volume 20 number 3 A Newsletter Published for Code 400 Employees 2012 Winter INSIDE THIS ISSUE: MAVEN—Definitive Answers about MAVEN—Definitive Answers Mars Climate History Page 1 about Mars Climate History When the Mars Atmosphere and Volatile Evolution (MAVEN) Message From The Director Of Page 2 mission launches in November 2013 it will make history. Personality Tintypes Page 3 Even though there have been a number of Mars missions before, MAVEN is the first mission to focus its study on the Comings and Going Page 10 Mars upper atmosphere. MAVEN will study the evolution of the Mars atmosphere and climate, by examining the conduit NASA’s LADEE Spacecraft Gets Page 11 Final Science Instrument Installed through which the atmosphere has to pass as it is lost to space (i.e., the upper atmosphere). It is the first mission NASA's GPM Observatory Page 13 devoted to understanding the role that loss to space played in Completes First Dry Run the history of the atmosphere and climate. MAVEN will Three Former GSFC Leaders Page 15 provide a comprehensive picture of the Mars upper atmos- Pass On phere, ionosphere, solar energetic drivers, and atmospheric An Ode to McDonald Page 16 losses. It will deliver definitive answers to long-standing questions about the climate history and habitability of Mars. New Business News Page 17 MAVEN is a Principal Investigator-led mission and the first Knowledge Management Corner Page 20 Mars mission managed by the Goddard Space Flight Center 2012 Agency Honor Award (GSFC). -
EXPLORING the MOON in the 21St CENTURY
CosmoELEMENTS EXPLORING THE MOON IN THE 21st CENTURY Samuel J. Lawrence1 and Clive R. Neal2 DOI: 10.2138/gselements.15.5.360 INTRODUCTION In 2019, we are celebrating the 50th anniversary of NASA’s momentous Apollo expedi- tions to the Moon. The samples brought back by the astronauts, and the fieldwork those astro- The South Pole of the Moon, pictured here in an oblique view from FIGURE 1 NASA’s Lunar Reconnaissance Orbiter, is the landing site for the nauts performed on the lunar surface, cemented the Moon’s status as seventh human lunar landing. IMAGE COURTESY OF NAC M1195011983LR (NASA/ the cornerstone of the solar system. It is not an exaggeration to say GSFC/ARIZONA STATE UniVERSITY). that the Apollo expeditions transformed our understanding of our solar system, and, in fact, most of the discoveries made in planetary science since the 1960s can trace directly, or indirectly, from the scientific of the Sun’s evolution and history. Finally, this is another area where results of those Apollo expeditions. the Apollo expeditions represent a strength: there are five decades worth of planetary science hypotheses that lunar geological fieldwork Although some erroneously proclaim that the Moon is “Been there, will address. The lunar surface could also provide a unique and stable done that”, nothing could be further from the truth. After a long long-term platform for astronomy. In particular, manned radio obser- st hiatus, beginning in the first years of the 21 century, there has vatories or optical interferometers on the far side of the Moon could been a resurgence of interest in the Moon, including the Kaguya produce dramatic advances in astrophysics. -
USA East Coast Itinerary Orlando Nyc Niagara
TM A STRUCTURED MIDDLE & SENIOR SCHOOL INTERNATIONAL EXPOSURE PROGRAM TRIP HIGHLIGHTS Kennedy Space Centre Statue of Liberty Niagara Falls’ Maid of the Mist 9/11 National Memorial Empire State Building Universal Studios’ Islands of Adventure Disneyland Young Authors Program TRULY EDUCATIONAL CORE LESSONS/INSPIRATION: PROGRAM ITINERARY History of Space Research 10 Days & 08 Nights Space Technology Impact Orlando, Niagara Falls & New York City History, Architecture & Entertainment This journey offers an insight into the two pillars of American success: – Orlando, Niagara Falls & New York City Liberty and Ambition. It encapsulates the very best creations of the country; from the planet’s most advanced space technology center at NASA’s Kennedy Space Center, to the thrills of the best rides at Universal Studios and Disneyland; the journey continues to one of the USA east coast india finest natural wonders of the world at Niagara Falls; experience the NIAGARA FALLS most electrifying city, the commercial and financial capital of USA, New York. NEW YORK 3 16,000 PLUS, ENSURE YOU CHOOSE EDTERRA’S TRULY EDUCATIONAL VALUE TOOLS THAT ARE AVAILABLE FOR THE PROGRAM : Orlando orlando Pre-departure Workshops World Citizen Attudinal Mapping Young Authors Program (Includes a workshop prior to departure) MEALS & NOURISHMENT ON JOURNEY : Knowledge Kit (Includes the Be Inspired series) Student Engagement Tools Breakfast (in the hotel) (For details ask for our Truly Educational Value Dossier from us.) Lunch (Fast Food/ Indian/Restaurant/ Food Court Meal Voucher) -
“The Eagle Has Landed” Statue to Honor Apollo 11 Crew
Kennedy Space Center Visitor Complex Unveils Moon Tree Garden, “The Eagle Has Landed” Statue to Honor Apollo 11 Crew CAPE CANAVERAL (July 12, 2019) – KENNEDY SPACE CENTER – Today, Kennedy Space Center Visitor Complex kicked off the Apollo 11 50th anniversary celebrations by unveiling the Moon Tree Garden, a dramatic new accent to the grounds of the Apollo/Saturn V Center. The garden, which features 12 trees grown from seeds that orbited the Moon, also includes a George Lundeen sculpture that depicts Apollo 11 astronauts Neil Armstrong, Buzz Aldrin and Michael Collins in their space suits. The statue, titled “The Eagle has Landed,” is a gift to Kennedy Space Center Visitor Complex from Rocket Mortgage by Quicken Loans, the nation’s largest mortgage lender. “As the nation’s top mortgage lender, we treat the impossible as an opportunity,” said Casey Hurbis, chief marketing officer of Rocket Mortgage. “We presented this statue to Kennedy Space Center Visitor Complex to honor the courage and importance of the Apollo 11 mission, who achieved the impossible by landing man on the Moon and into the annals of history.” The Moon Trees were provided by Rosemary Roosa, daughter of veteran Apollo 14 astronaut Stuart Roosa, and president of the nonprofit Moon Tree Foundation. The foundation was created in honor of her father, who took seeds from loblolly pine, sycamore, sweet gum, redwood, and Douglas fir trees on his space mission as part of a joint U.S. Forest Service/NASA project. The seeds, which have all orbited the Moon, were later germinated and planted around the world to share the story of the mission. -
Gateway Avionics Concept of Operations for Command and Data
Gateway Avionics Concept of Operations for Command and Data Handling Architecture Paul Muri, PhD Svetlana Hanson Martin Sonnier NASA Johnson Space Center NASA Johnson Space Center NASA Johnson Space Center 2101 NASA Parkway 2101 NASA Parkway 2101 NASA Parkway Houston, TX 77058 Houston, TX 77058 Houston, TX 77058 [email protected] [email protected] [email protected] Abstract—By harnessing data handling lessons learned from the International Space Station, Gateway has adopted a highly 1. INTRODUCTION reliable, deterministic, and redundant three-plane Time- Triggered Ethernet network implementation that is capable of With NASA, international partners, and commercial partners handling three distinct types of traffic: Time-Triggered (TT), preparing to establish a human presence in lunar orbit, a Rate Constrained (RC) and Best Effort (BE). This paper will robust implementation of avionics is of the utmost offer an overview of the operational capabilities of the Gateway importance to the Gateway Program’s success. Without Network defined in the Network Concept of Operations, technological advances in C&DH, previous missions would focusing on the initial architecture of the Gateway Spacecraft not have been possible. Previous lessons-learned with ISS Inter-Element Network. The initial Gateway modules include Habitation, Power & Propulsion, Logistics, Human Lunar will help shape the design philosophy of the network Lander, and Orion Crew Capsule. The Gateway Inter-Element architecture used in the Gateway Program. Network Concept -
Orion Flight Test Press
National Aeronautics and Space Administration Orion Flight Test Exploration Flight Test-1 PRESS KIT/December 2014 www.nasa.gov NP-2014-11-020-JSC Orion Flight Test Contents Section Page Flight Overview ......................................................................................................... 1 Timeline Overview .................................................................................................... 2 Flight Profile .............................................................................................................. 8 Recovery Operations .............................................................................................. 11 Vehicle Components ................................................................................................14 Delta IV Heavy Rocket ............................................................................................ 19 Flight Objectives ..................................................................................................... 21 Flight Personnel ...................................................................................................... 22 Next Steps for NASA ............................................................................................... 25 Public Affairs Contacts ........................................................................................... 28 December 2014 i Orion Flight Test ii December 2014 Orion Flight Test Flight Overview Orion is NASA’s new spacecraft built to carry returning from lunar orbit – will -
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.