Advertisement
| chemical engineering in nasa: A Selected Listing of NASA Scientific and Technical Reports for 1966 United States. National Aeronautics and Space Administration. Scientific and Technical Information Division, 1967 |
| chemical engineering in nasa: Liquid Rocket Valve Components H. J. Ellis, 1973 |
| chemical engineering in nasa: A Selected Listing of NASA Scientific and Technical Reports for ... United States. National Aeronautics and Space Administration. Scientific and Technical Information Division, 1966 |
| chemical engineering in nasa: Engine Technology Support for NASA's Advanced Space Transportation Program, with Emphasis on Liquid Oxygen and Kerosene Engine Technology Development, Marshall Space Flight Center (MSFC), Stennis Space Center (SSC), Phillips Laboratory at Edwards Air Force Base (AFB) [AL,CA,MS] , 1997 |
| chemical engineering in nasa: Review of NASA's Exploration Technology Development Program National Research Council, Division on Engineering and Physical Sciences, Aeronautics and Space Engineering Board, Committee to Review NASA's Exploration Technology Development Program, 2009-01-12 To meet the objectives of the Vision for Space Exploration (VSE), NASA must develop a wide array of enabling technologies. For this purpose, NASA established the Exploration Technology Development Program (ETDP). Currently, ETDP has 22 projects underway. In the report accompanying the House-passed version of the FY2007 appropriations bill, the agency was directed to request from the NRC an independent assessment of the ETDP. This interim report provides an assessment of each of the 22 projects including a quality rating, an analysis of how effectively the research is being carried out, and the degree to which the research is aligned with the VSE. To the extent possible, the identification and discussion of various cross-cutting issues are also presented. Those issues will be explored and discussed in more detail in the final report. |
| chemical engineering in nasa: Chemical Engineering Progress , 2009 |
| chemical engineering in nasa: Modern Engineering for Design of Liquid-Propellant Rocket Engines Dieter K. Huzel, 1992 |
| chemical engineering in nasa: NASA Tech Briefs , 1991 |
| chemical engineering in nasa: NASA Scientific and Technical Reports United States. National Aeronautics and Space Administration Scientific and Technical Information Division, 1967 |
| chemical engineering in nasa: The NASA Scientific and Technical Information System: Its Scope and Coverage , 1988 |
| chemical engineering in nasa: Who's who of NASA Astronauts Lee Ellis, 2004 Who's Who of NASA Astronauts presents the biographical information of all 367 NASA astronauts along with their mission facts. From the original Mercury 7 selected in 1959 to the present day Space Shuttle astronauts working on the International Space Station, this book contains the personal history, education, honors received, affiliated organizations and the NASA experience of each astronaut. |
| chemical engineering in nasa: The NASA Scope and Subject Category Guide United States. National Aeronautics and Space Administration. Scientific and Technical Information Office, 2000 |
| chemical engineering in nasa: NASA's Organizational and Management Challenges in the Wake of the Columbia Disaster United States. Congress. House. Committee on Science, 2004 |
| chemical engineering in nasa: NASA's Strategic Direction and the Need for a National Consensus Committee on NASA's Strategic Direction, Division on Engineering and Physical Sciences, National Research Council, 2013-01-16 The National Aeronautics and Space Administration (NASA) is widely admired for astonishing accomplishments since its formation in 1958. Looking ahead over a comparable period of time, what can the nation and the world expect of NASA? What will be the agency's goals and objectives, and what will be the strategy for achieving them? More fundamentally, how will the goals, objectives, and strategy be established and by whom? How will they be modified to reflect changes in science, technology, national priorities, and available resources? In late 2011, the United States Congress directed the NASA Office of Inspector General to commission a comprehensive independent assessment of NASA's strategic direction and agency management. Subsequently, NASA requested that the National Research Council (NRC) conduct this independent assessment. In the spring of 2012, the NRC Committee on NASA's Strategic Direction was formed and began work on its task. The committee determined that, only with a national consensus on the agency's future strategic directionalong the lines described in the full NRC reportcan NASA continue to deliver the wonder, the knowledge, the national security and economic benefits, and the technology that have been typified by its earlier history. NASA's Strategic Direction and the Need for a National Consensus summarizes the findings and recommendations of the committee. |
| chemical engineering in nasa: US Black Engineer & IT , 1998 |
| chemical engineering in nasa: Scientific and Technical Aerospace Reports , 1994 |
| chemical engineering in nasa: Wings in Orbit Government Printing Office, 2011-04-08 NOTE: NO FURTHER DISCOUNT FOR THIS PRINT PRODUCT- OVERTOCK SALE -- Significantly reduced list price Wings in Orbit is an authoritative documentation of the many accomplishments of the NASA Space Shuttle Program. Starting with a foreword written by astronauts John Young and Robert Crippen, this compelling book provides accurate, authentic and easily understood accounts from NASA's best subject matter experts and external resources. The book captures the passion of those who devoted their energies to the Program's success for more than three decades. It focuses on their science and engineering accomplishments, the rich history of the program and the shuttle as an icon in U.S. history. No other book on the market has accumulated as many experts and resources on this subject nor broken it down in such easy to understand language with compelling imagery. With the Shuttle Program coming to a close, consumers will be inclined to purchase this book as it provides comprehensive information on this historic program as it ends its 30 year run. The promotions for this book will definitely benefit from the publicity of this historic event. Other related products: NASA's Contributions to Aeronautics, Vols. 1-2 is available here: https://bookstore.gpo.gov/products/sku/033-000-01334-5 Leadership in Space: Selected Speeches of NASA Administrator Michael Griffin, May 2005-October 2008 is available here: https://bookstore.gpo.gov/products/sku/033-000-01314-1 Dressing for Altitude: U.S. Aviation Pressure Suits, Wiley Post to Space Shuttle --ePub format is available for purchase through the Apple iBookstore-- Please use ISBN: 9780160915604 to search for this title in their platform. Revolutionary Atmosphere: The Story of the Altitude Wind Tunnel and the Space Power Chambers is available here: https://bookstore.gpo.gov/products/sku/033-000-01342-6 Other products produced by NASA can be found here: https://bookstore.gpo.gov/agency/550 |
| chemical engineering in nasa: Wings in Orbit Wayne Hale, Helen Woods Lane, United States. National Aeronautics and Space Administration, 2010 Explains how the space shuttle works and describes a shuttle trip from lift-off to touchdown. |
| chemical engineering in nasa: Truth, Lies, and O-Rings Allan J. McDonald, 2012-03-11 On a cold January morning in 1986, NASA launched the Space Shuttle Challenger, despite warnings against doing so by many individuals, including Allan McDonald. The fiery destruction of Challenger on live television moments after launch remains an indelible image in the nation’s collective memory. In Truth, Lies, and O-Rings, McDonald, a skilled engineer and executive, relives the tragedy from where he stood at Launch Control Center. As he fought to draw attention to the real reasons behind the disaster, he was the only one targeted for retribution by both NASA and his employer, Morton Thiokol, Inc., makers of the shuttle's solid rocket boosters. In this whistle-blowing yet rigorous and fair-minded book, McDonald, with the assistance of internationally distinguished aerospace historian James R. Hansen, addresses all of the factors that led to the accident, some of which were never included in NASA's Failure Team report submitted to the Presidential Commission. Truth, Lies, and O-Rings is the first look at the Challenger tragedy and its aftermath from someone who was on the inside, recognized the potential disaster, and tried to prevent it. It also addresses the early warnings of very severe debris issues from the first two post-Challenger flights, which ultimately resulted in the loss of Columbia some fifteen years later. |
| chemical engineering in nasa: NASA Space Technology Roadmaps and Priorities National Research Council, Division on Engineering and Physical Sciences, Aeronautics and Space Engineering Board, Steering Committee for NASA Technology Roadmaps, 2012-06-07 NASA's Office of the Chief Technologist (OCT) has begun to rebuild the advanced space technology program in the agency with plans laid out in 14 draft technology roadmaps. It has been years since NASA has had a vigorous, broad-based program in advanced space technology development and its technology base has been largely depleted. However, success in executing future NASA space missions will depend on advanced technology developments that should already be underway. Reaching out to involve the external technical community, the National Research Council (NRC) considered the 14 draft technology roadmaps prepared by OCT and ranked the top technical challenges and highest priority technologies that NASA should emphasize in the next 5 years. This report provides specific guidance and recommendations on how the effectiveness of the technology development program managed by OCT can be enhanced in the face of scarce resources. |
| chemical engineering in nasa: NASA SP-7500 United States. National Aeronautics and Space Administration, 1986 |
| chemical engineering in nasa: Microgravity Combustion Howard D. Ross, 2001-09-03 This book provides an introduction to understanding combustion, the burning of a substance that produces heat and often light, in microgravity environments-i.e., environments with very low gravity such as outer space. Readers are presented with a compilation of worldwide findings from fifteen years of research and experimental tests in various low-gravity environments, including drop towers, aircraft, and space.Microgravity Combustion is unique in that no other book reviews low- gravity combustion research in such a comprehensive manner. It provides an excellent introduction for those researching in the fields of combustion, aerospace, and fluid and thermal sciences.* An introduction to the progress made in understanding combustion in a microgravity environment* Experimental, theoretical and computational findings of current combustion research* Tutorial concepts, such as scaling analysis* Worldwide microgravity research findings |
| chemical engineering in nasa: Grading NASA's Solar System Exploration Program National Research Council, Division on Engineering and Physical Sciences, Space Studies Board, Committee on Assessing the Solar System Exploration Program, 2008-04-25 The NASA Authorization Act of 2005 directed the agency to ask the NRC to assess the performance of each division in the NASA Science directorate at five-year intervals. In this connection, NASA requested the NRC to review the progress the Planetary Exploration Division has made in implementing recommendations from previous, relevant NRC studies. This book provides an assessment of NASA's progress in fulfilling those recommendations including an evaluation how well it is doing and of current trends. The book covers key science questions, flight missions, Mars exploration, research and analysis, and enabling technologies. Recommendations are provided for those areas in particular need of improvement. |
| chemical engineering in nasa: Management, a Bibliography for NASA Managers , 1988 |
| chemical engineering in nasa: Fundamentals of Electric Propulsion Dan M. Goebel, Ira Katz, 2008-12-22 Throughout most of the twentieth century, electric propulsion was considered the technology of the future. Now, the future has arrived. This important new book explains the fundamentals of electric propulsion for spacecraft and describes in detail the physics and characteristics of the two major electric thrusters in use today, ion and Hall thrusters. The authors provide an introduction to plasma physics in order to allow readers to understand the models and derivations used in determining electric thruster performance. They then go on to present detailed explanations of: Thruster principles Ion thruster plasma generators and accelerator grids Hollow cathodes Hall thrusters Ion and Hall thruster plumes Flight ion and Hall thrusters Based largely on research and development performed at the Jet Propulsion Laboratory (JPL) and complemented with scores of tables, figures, homework problems, and references, Fundamentals of Electric Propulsion: Ion and Hall Thrusters is an indispensable textbook for advanced undergraduate and graduate students who are preparing to enter the aerospace industry. It also serves as an equally valuable resource for professional engineers already at work in the field. |
| chemical engineering in nasa: Standard Distribution for Classified Scientific and Technical Reports U.S. Atomic Energy Commission, 1967 |
| chemical engineering in nasa: Congressional Record United States. Congress, 1967 |
| chemical engineering in nasa: Reporter University of Michigan. Division of Research Development and Administration, 1979 |
| chemical engineering in nasa: Assessing NASA's University Leadership Initiative National Academies of Sciences, Engineering, and Medicine, Division on Engineering and Physical Sciences, Aeronautics and Space Engineering Board, Committee to Assess NASAâ¬"s University Leadership Initiative, 2021-02-08 NASA created the University Leadership Initiative (ULI) to engage creative and innovative minds in the academic arena to identify significant aeronautics and aviation research challenges and define their unique approach to their solution. The ULI was started in 2015 as part of the larger University Innovation Project, with the goal of seeking new, innovative ideas that can support the U.S. aviation community and NASA's long-term aeronautics research goals, as established by its Aeronautics Research Mission Directorate. Assessing NASA's University Leadership Initiative reviews the ULI and makes recommendations to enhance program's impact to benefit students, faculty, industry, and the U.S. public. |
| chemical engineering in nasa: Flammability and Sensitivity of Materials in Oxygen-enriched Atmospheres David B. Hirsch, 2006 |
| chemical engineering in nasa: The Theory of Diffusion in Strained Systems Louis A. Girifalco, Hubert H. Grimes, 1959 A general theory of solid-state diffusion in strained systems is developed on a molecular-kinetic basis. The theory predicts that for simple strains the diffusion coefficient is an exponential function of the lattice parameter and that the rate of change of the diffusion coefficient with strain is linearly related to the interatomic forces. It has also been shown that for plastic flow the diffusion coefficient is a linear function of strain rate. All the conclusions are confirmed by the data available in the literature. |
| chemical engineering in nasa: The Mars Project Wernher Von Braun, 1953 This classic on space travel was first published in 1953, when interplanetary space flight was considered science fiction by most of those who considered it at all. Here the German-born scientist Wernher von Braun detailed what he believed were the problems and possibilities inherent in a projected expedition to Mars. Today von Braun is recognized as the person most responsible for laying the groundwork for public acceptance of America's space program. When President Bush directed NASA in 1989 to prepare plans for an orbiting space station, lunar research bases, and human exploration of Mars, he was largely echoing what von Braun proposed in The Mars Project. |
| chemical engineering in nasa: Review of NASA's Aerospace Technology Enterprise National Research Council, Division on Engineering and Physical Sciences, Aeronautics and Space Engineering Board, Committee for the Review of NASA's Revolutionize Aviation Program, 2004-02-20 The National Research Council (NRC) of the National Academies was asked by NASA and the Office of Management and Budget to perform an assessment of NASA's Aerospace Technology Enterprise. The first such review, which began in early 2002, examined Pioneering Revolutionary Technology (now known as Mission and Science Measurement Technology). The assessment presented here, of the Aeronautics Technology Programs, began in early 2003 and is the second in the review series. The Aeronautics Technology Programs has three components: the Vehicle Systems Program, the Airspace Systems Program, and the Aviation Safety Program. To conduct this review, the NRC established three panels, one for each of the component programs. The NRC also established a parent committee, consisting of the chairman and a subset of members from each panel. The committee and panels comprised a cross-section of experts from industry, academia, and government and included senior-level managers and researchers in the aeronautics field. Biographical information on the committee and panel members is found in Appendix A. Review of NASA's Aerospace Technology Enterprise: An Assessment of NASA's Aeronautics Technology Programs contains the committee's assessment of the Aeronautics Technology Programs. Chapter 1 presents a top-level assessment, and Chapters 2 through 4 provide the assessments of the Vehicle Systems Program, the Airspace Systems Program, and the Aviation Safety Program, respectively. |
| chemical engineering in nasa: NASA's Kuiper Airborne Observatory, 1971-1995 Edwin F. Erickson, Allan W. Meyer, NASA Ames Research Center, 2013-12-02 NASA/SP-2013-216025. With full color photographs. |
| chemical engineering in nasa: Deep Space Telecommunications Systems Engineering Joseph H. Yuen, 2013-04-17 The challenge of communication in planetary exploration has been unusual. The guidance and control of spacecraft depend on reliable communication. Scientific data returned to earth are irreplaceable, or replaceable only at the cost of another mission. In deep space, communications propagation is good, relative to terrestrial communications, and there is an opportunity to press toward the mathematical limit of microwave communication. Yet the limits must be approached warily, with reliability as well as channel capacity in mind. Further, the effects of small changes in the earth's atmosphere and the interplanetary plasma have small but important effects on propagation time and hence on the measurement of distance. Advances are almost incredible. Communication capability measured in 18 bits per second at a given range rose by a factor of 10 in the 19 years from Explorer I of 1958 to Voyager of 1977. This improvement was attained through ingenious design based on the sort of penetrating analysis set forth in this book by engineers who took part in a highly detailed and amazingly successful pro gram. Careful observation and analysis have told us much about limitations on the accurate measurement of distance. It is not easy to get busy people to tell others clearly and in detail how they have solved important problems. Joseph H. Yuen and the other contribu tors to this book are to be commended for the time and care they have devoted to explicating one vital aspect of a great adventure of mankind. |
| chemical engineering in nasa: NASA Activities , 1976 |
| chemical engineering in nasa: Orbital Refueling System (ORS) , 1984 |
| chemical engineering in nasa: Liquid Rocket Metal Tanks and Tank Components W. A. Wagner, 1974 |
| chemical engineering in nasa: Management , 1986 |
| chemical engineering in nasa: Review and Assessment of Planetary Protection Policy Development Processes National Academies of Sciences, Engineering, and Medicine, Division on Engineering and Physical Sciences, Space Studies Board, Committee on the Review of Planetary Protection Policy Development Processes, 2018-10-17 Protecting Earth's environment and other solar system bodies from harmful contamination has been an important principle throughout the history of space exploration. For decades, the scientific, political, and economic conditions of space exploration converged in ways that contributed to effective development and implementation of planetary protection policies at national and international levels. However, the future of space exploration faces serious challenges to the development and implementation of planetary protection policy. The most disruptive changes are associated with (1) sample return from, and human missions to, Mars; and (2) missions to those bodies in the outer solar system possessing water oceans beneath their icy surfaces. Review and Assessment of Planetary Protection Policy Development Processes addresses the implications of changes in the complexion of solar system exploration as they apply to the process of developing planetary protection policy. Specifically, this report examines the history of planetary protection policy, assesses the current policy development process, and recommends actions to improve the policy development process in the future. |
,DanaInfo=daa.jsc.nasa.gov,SSL+Chemical Engineering at …
Bachelor of Science in Chemical Engineering with a Minor in Chemistry ¾You can find your dream job from any school • It’s not the school but what you make of it
In-Space Chemical Propulsion Systems Roadmap - NASA …
The TABS is divided into four basic groups: (1) Chemical Propulsion, (2) Nonchemical Propulsion, (3) Advanced Propulsion Technologies, and (4) Supporting Technologies, based on the …
CORROSION PROTECTION FOR SPACE FLIGHT HARDWARE
Jan 11, 2022 · This NASA Technical Standard establishes requirements for the corrosion protection of space vehicles and associated flight hardware. Requests for information should …
Computer Program for Calculation of Complex Chemical …
topics include mathematical analyses and techniques for obtaining chemical equilibrium; formulas for obtaining thermodynamic and transport mixture properties and thermodynamic derivatives; …
Research Chemical Engineer NASA Glenn Research Center
• Engineering combines mathematics, science, and technology to produce creative solutions to real world problems • Professional, Engineering and Scientific (70% of NASA's positions)
Why Space Technology needs more non-traditional chemical …
As chemical engineers, we shouldn’t let that measure of risk stop us from considering ingenious technology. As a part of the new generation of engineers at NASA, I believe we need a …
NASA Systems Engineering Handbook
model of a futuristic hybrid wing body during tests in the 14- by 22-Foot Subsonic Wind Tunnel at NASA’s Langley Research Center in Hampton, VA. The oil helps researchers “see” the flow …
NASA Internship Programs
Engineering: Aerospace Engineering, Chemical Engineering, Civil Engineering, Computer Engineering, Electrical Engineering, Detector Systems, Environmental Engineering, …
NASA Chemical Propulsion In-Space
Identify & Maintain assessment of GP test facilities & competencies related to green propulsion for NASA. Focuses upon a step-wise plan to systematically advance the state-of-the-art with each …
STANDARD MATERIALS AND PROCESSES REQUIREMENTS …
This NASA Technical Standard defines the minimum requirements for Materials and Processes (M&P) and provides a general control specification for incorporation in NASA program/project …
Contamination Control Technology Study for Achieving the …
chieve cleanliness levels required of science instruments (down to femtomolar levels of biomolecules). This paper summarizes the study and lays out a set of actionable findings that …
STANDARD MATERIALS AND PROCESSES REQUIREMENTS …
Sep 30, 2021 · This NASA Technical Standard defines the minimum requirements for Materials and Processes (M&P) and provides a general control specification for incorporation in NASA …
NASA-CCNY Center for Advanced Batteries for Space
Our research objectives are to develop novel battery materials, chemistries, & prototypes that operate under the extreme conditions necessary to significantly enhance the scope & ambition …
Donald R. Pettit - NASA
(Ph.D.) NASA Astronaut Summary: Donald R. Pettit (Ph.D) was selected by NASA in 1996. The Silverton, Oregon native holds a Bachelor of Science in Chemical Engineering from Oregon …
CEA2022:AModernizationofNASAGlenn’sSoftwareCEA ...
eted a full re-write of CEA with modernization and improvements, called “CEA2022”. In this paper, we will give an overview of CEA2022’s features, and discuss some of the fundamental …
CORROSION PROTECTION FOR SPACE FLIGHT HARDWARE
This Standard is published by the National Aeronautics and Space Administration (NASA) to provide uniform engineering and technical requirements for processes, procedures, practices, …
Liquid Propulsion Technology and Development - NASA
Development of new launch and in-space liquid propulsion solutions for the exploration needs of the future hinges on purposefully maturing design approaches to provide affordable devel …
MULTIPROGRAM/PROJECT COMMON-USE DOCUMENT - NASA
throughout NASA programs. The purpose of this document is to provide guidelines to designers regarding materials selection for stress corrosion resistance and to present the requirements …
jemison bio former - NASA
EXPERIENCE: Dr. Jemison has a background in both engineering and medical research. She has worked in the areas of computer programming, printed wiring board materials, nuclear …
Chemical Engineering in Space Dennis A. Lobmeyer, P.E., …
Chemical engineering is applying chemistry to industrial processes. Sometimes within the aerospace industry the processes we apply the principals of chemistry to are unusual. These …
,DanaInfo=daa.jsc.nasa.gov,SSL+Chemical Engineering at …
Bachelor of Science in Chemical Engineering with a Minor in Chemistry ¾You can find your dream job from any school • It’s not the school but what you make of it
In-Space Chemical Propulsion Systems Roadmap - NASA …
The TABS is divided into four basic groups: (1) Chemical Propulsion, (2) Nonchemical Propulsion, (3) Advanced Propulsion Technologies, and (4) Supporting Technologies, based on the …
CORROSION PROTECTION FOR SPACE FLIGHT …
Jan 11, 2022 · This NASA Technical Standard establishes requirements for the corrosion protection of space vehicles and associated flight hardware. Requests for information should …
Computer Program for Calculation of Complex Chemical …
topics include mathematical analyses and techniques for obtaining chemical equilibrium; formulas for obtaining thermodynamic and transport mixture properties and thermodynamic derivatives; …
Research Chemical Engineer NASA Glenn Research Center
• Engineering combines mathematics, science, and technology to produce creative solutions to real world problems • Professional, Engineering and Scientific (70% of NASA's positions)
Why Space Technology needs more non-traditional chemical …
As chemical engineers, we shouldn’t let that measure of risk stop us from considering ingenious technology. As a part of the new generation of engineers at NASA, I believe we need a …
NASA Systems Engineering Handbook
model of a futuristic hybrid wing body during tests in the 14- by 22-Foot Subsonic Wind Tunnel at NASA’s Langley Research Center in Hampton, VA. The oil helps researchers “see” the flow …
NASA Internship Programs
Engineering: Aerospace Engineering, Chemical Engineering, Civil Engineering, Computer Engineering, Electrical Engineering, Detector Systems, Environmental Engineering, …
NASA Chemical Propulsion In-Space
Identify & Maintain assessment of GP test facilities & competencies related to green propulsion for NASA. Focuses upon a step-wise plan to systematically advance the state-of-the-art with each …
STANDARD MATERIALS AND PROCESSES …
This NASA Technical Standard defines the minimum requirements for Materials and Processes (M&P) and provides a general control specification for incorporation in NASA program/project …
Contamination Control Technology Study for Achieving the …
chieve cleanliness levels required of science instruments (down to femtomolar levels of biomolecules). This paper summarizes the study and lays out a set of actionable findings that …
STANDARD MATERIALS AND PROCESSES …
Sep 30, 2021 · This NASA Technical Standard defines the minimum requirements for Materials and Processes (M&P) and provides a general control specification for incorporation in NASA …
NASA-CCNY Center for Advanced Batteries for Space
Our research objectives are to develop novel battery materials, chemistries, & prototypes that operate under the extreme conditions necessary to significantly enhance the scope & ambition …
Donald R. Pettit - NASA
(Ph.D.) NASA Astronaut Summary: Donald R. Pettit (Ph.D) was selected by NASA in 1996. The Silverton, Oregon native holds a Bachelor of Science in Chemical Engineering from Oregon …
CEA2022:AModernizationofNASAGlenn’sSoftwareCEA ...
eted a full re-write of CEA with modernization and improvements, called “CEA2022”. In this paper, we will give an overview of CEA2022’s features, and discuss some of the fundamental …
CORROSION PROTECTION FOR SPACE FLIGHT …
This Standard is published by the National Aeronautics and Space Administration (NASA) to provide uniform engineering and technical requirements for processes, procedures, practices, …
Liquid Propulsion Technology and Development - NASA
Development of new launch and in-space liquid propulsion solutions for the exploration needs of the future hinges on purposefully maturing design approaches to provide affordable devel …
MULTIPROGRAM/PROJECT COMMON-USE DOCUMENT
throughout NASA programs. The purpose of this document is to provide guidelines to designers regarding materials selection for stress corrosion resistance and to present the requirements …
jemison bio former - NASA
EXPERIENCE: Dr. Jemison has a background in both engineering and medical research. She has worked in the areas of computer programming, printed wiring board materials, nuclear …
