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Charles Bolden and James Cam …
NASA Administrator Charles B …
01/19/10
Description NASA Administrator Charles Bolden, right, and award-winning writer-director James Cameron, meet at NASA Headquarters in Washington, DC on Tuesday, Jan. 19, 2010. Cameron, who is a former member of the NASA Advisory Council, has had a life-long interest in space and science. The two talked about public outreach and education among other subjects. Photo Credit: (NASA/Bill Ingalls)
Date 01/19/10
NASA TV's This Week at NASA, …
* KSC: With less than one mo …
01/15/2010
Description * KSC: With less than one month away from their targeted launch date, the six members of the shuttle Endeavour crew are busily preparing for their STS-130 mission to the International Space Station. They continue to review their flight equipment and rendezvous procedures while technicians on Launch Pad 39A at the Kennedy Space Center complete prelaunch propellant servicing. * The STS-129 crew was in Washington for a busy round of activities. Kicking things off was a visit to NASA Headquarters where the six astronauts recounted their November trip to the International Space Station aboard space shuttle Atlantis. * NASA is testing segments of the primary mirror that will help the James Webb Space Telescope seek out star-forming planetary systems that connect the Big Bang with our own Milky Way galaxy. Over a period of five days, six of the 18 Webb telescope mirror segments will be chilled to minus 414 degrees Fahrenheit to ensure they can withstand the rigors of extreme space. * International Space Station Commander Jeff Williams is helping correspondent Steve Hartman with his weekly series of special segments on the ''CBS Evening News'' called, ''Everyone in the World Has a Story.'' * With waters warming up again, scores of endangered green and loggerhead sea turtles rescued from the Kennedy Space Center should soon be heading back home to Mosquito Lagoon or the Indian River. Kennedy employees teamed up with the Fish and Wildlife Conservation Commission to rescue the turtles from uncharacteristically cold waters during early January's cold snap.
Date 01/15/2010
NASA TV's This Week at NASA, …
* With skies overcast skies, …
01/22/2010
Description * With skies overcast skies, the next space shuttle crew set down their T-38s at the Kennedy Space Center, eager to begin their launch dress rehearsal, or Terminal Countdown Demonstration test. The crew will fly aboard space shuttle Endeavour bringing the Tranquility node and its cupola for installation on the International Space Station. The STS-130 mission is scheduled to liftoff from the Kennedy Space Center on Sunday, February 7, at 4:39 a.m. Eastern. * The scheduled launch of NASA's new Solar Dynamics Observatory, or SDO, is drawing near. Its prelaunch briefing, conducted at NASA headquarters in Washington and the Kennedy Space Center, gave media a look at SDO's unprecedented mission to study the sun and its dynamic behavior. * JSC: The next International Space Station crew briefed reporters on their upcoming mission. NASA astronaut Tracy Caldwell Dyson was joined by Russian cosmonauts Alexander Skyorsov and Mikhail Kornlenko to discuss their upcoming Expedition 23 mission. * Members of the STS-129 crew continued their whirlwind tour of NASA centers. Five members of the space shuttle Atlantis crew thanked employees at the Stennis Space Center for their part in a safe STS-129 mission to the International Space Station in November. * The Mars Exploration Rover Opportunity this week celebrates six years of exploration and research on the surface of the red planet. * The most powerful camera aboard the NASA spacecraft orbiting Mars will soon be taking photo suggestions from the public.
Date 01/22/2010
NASA TV's This Week @NASA, A …
The crew of STS-131 returned …
04/23/10
Description The crew of STS-131 returned home to Houston following their fifteen days in space aboard shuttle Discovery. * The first images are in from NASA's Solar Dynamics Observatory, or SDO, and scientists who study the sun say they are a stunning treasure trove of data about Earth's star. * NASA helped celebrate Earth Day's fortieth anniversary with nine consecutive days of activities and public exhibits on the National Mall in Washington. * Robonaut 2, or R2, as it, or he, is also known, is scheduled to become the first human-like robot to take up permanent residence on the International Space Station. * Hundreds of students from middle schools, high schools, and colleges representing 20 states were in northern Alabama for the annual Space Launch Initiative, or LaunchFest. * The STS-130 crew paid a visit to NASA Headquarters where they played highlights of their February mission to the International Space Station for employees and guests. The six-astronaut crew of space shuttle Endeavour was commanded by George Zamka, Terry Virts was the pilot, Mission Specialists were Nicholas Patrick, Bob Behnken, Steve Robinson and Kay Hire. * On April 24, 1990, the Hubble Space Telescope launched aboard Space Shuttle Discovery from the Kennedy Space Center in Florida. Since then, the observatory orbiting 350 miles above Earth has produced hundreds of thousands of unprecedented images of different corners of the universe.
Date 04/23/10
NASA's First Headquarters
title NASA's First Headquarters
date 10.21.1961
description The Little White House at 1520 H Street, NW, in Washington, DC served as NASA Headquarters from 1958 until October 1961. Built in 1820 by Richard Cutts, in 1837 it became the home of Mrs. Dolly Payne Madison, wife of President James Madison. Named the Dolly Madison House, she lived there till her death in 1849. In 1886 the Dolly Madison House became the private Cosmos Club. After restoration in the early 1960's, the Dolly Madison House became the offices for the Federal Judicial Center. In 1992 the Federal Judicial Center switched locations and the U.S. Court of Appeals for the Federal Circuit moved into this historic house. In the fall of 1961, NASA moved its headquarters to Federal Building 6 located at 400 Maryland Avenue, SW, in Washington. In 1963 NASA administration expanded into Federal Building 10-B at 600 Independence Avenue, SW and the Reporters Building at 300 7th St., SW. Since 1992, NASA Headquarters has been located at 300 E Street SW. *Image Credit*: NASA
Truman Receives Rocket Model …
title Truman Receives Rocket Models
date 11.03.1961
description On November 3, 1961 former President Harry S. Truman visited the newly opened NASA Headquarters, Washington D.C. Accompanied by former NASA Administrator James E. Webb, he was presented with a collection of rocket models for his Presidential Library in Independence, Missouri. *Image Credit*: NASA
Spare Ion Engine Being Check …
title Spare Ion Engine Being Checked
date 07.21.2003
description An ion thruster is removed from a vacuum chamber at NASA's Jet Propulsion Laboratory, Pasadena, Calif., its job done following almost five years of testing. Engineers John Anderson and Keith Goodfellow, from left, are part of JPL's Advanced Propulsion Technology Group. The thruster, a spare engine from NASA's Deep Space 1 mission, ran for a record 30,352 hours, giving researchers the ability to observe its performance and wear at different power levels throughout the test. This information will be vital to future missions that use ion propulsion. Ion propulsion systems can be very lightweight, running on just a few grams of xenon gas a day. This fuel efficiency can lower launch vehicle costs. Xenon is the same gas that is found in photo flash bulbs. The very successful Deep Space 1 mission featured the first use of an ion engine as the primary means of propulsion on a NASA spacecraft. NASA's next-generation ion propulsion efforts are led by the In-Space Propulsion Program, managed by the Office of Space Science at NASA Headquarters, Washington, D.C., and implemented by the Marshall Space Flight Center, Huntsville, Ala.. The program seeks to develop advanced propulsion technologies that will help near and mid-term NASA science missions by significantly reducing cost, mass or travel times. JPL is managed by the California Institute of Technology, Pasadena, Calif., for NASA. *Image Credit*: NASA/JPL/Caltech
President Truman and Webb
title President Truman and Webb
date 11.03.1963
description Former President Harry S. Truman visits the newly-opened NASA Headquarters in Washington D.C. Accompanied by former NASA Administrator James E. Webb, he was presented with a collection of rocket models for his presidential Library in Indepe *Image Credit*: NASA
NASA Press Conference Regard …
Title NASA Press Conference Regarding Vostok 1 Flight
Full Description After the successful spaceflight of Yuri Gagarin, the first person to fly in space, as well as orbit Earth, NASA held a press conference at NASA Headquarters in Washington, DC to respond to questions concerning Gagarin's flight and the status of the American space program. From left to right: Dr. Robert C. Seamans Jr., Associate Administrator, Dr. Hugh L. Dryden, Deputy Administrator, Mr. James E. Webb, Administrator, and Dr. Abe Silverstein, Director of Space Flight Programs.
Date 04/12/1961
NASA Center Headquarters
NASA's First Headquarters
Title NASA's First Headquarters
Full Description The Little White House at 1520 H Street, NW, in Washington, DC served as NASA Headquarters from 1958 until October 1961. Built in 1820 by Richard Cutts, in 1837 it became the home of Mrs. Dolly Payne Madison, wife of President James Madison. Named the Dolly Madison House, she lived there till her death in 1849. In 1886 the Dolly Madison House became the private Cosmos Club. After restoration in the early 1960's, the Dolly Madison House became the offices for the Federal Judicial Center. In 1992 the Federal Judicial Center switched locations and the U.S. Court of Appeals for the Federal Circuit moved into this historic house. In the fall of 1961, NASA moved its headquarters to Federal Building 6 located at 400 Maryland Avenue, SW, in Washington. In 1963 NASA administration expanded into Federal Building 10-B at 600 Independence Avenue, SW and the Reporters Building at 300 7th St., SW. Since 1992, NASA Headquarters has been located at 300 E Street, SW.
Date 10/21/1961
NASA Center Headquarters
Truman and Webb at NASA Head …
Title Truman and Webb at NASA Headquarters
Full Description On November 3, 1961, former President Harry S. Truman visited newly opened NASA Headquarters, Washington D.C., accompanied by former NASA Administrator James E. Webb. He was presented with a collection of rocket models for his Presidential Library in Independence, Missouri.
Date 11/03/1961
NASA Center Headquarters
Truman and Webb at NASA Head …
Title Truman and Webb at NASA Headquarters
Full Description On November 3, 1961 former President Harry S. Truman visited newly opened NASA Headquarters, Washington D.C. Accompanied by former NASA Administrator James E. Webb, he was presented with a collection of rocket models for his Presidential Library in Independence, Missouri.
Date 11/03/1961
NASA Center Headquarters
Truman Receives Rocket Model …
Title Truman Receives Rocket Models
Full Description On November 3, 1961 former President Harry S. Truman visited the newly opened NASA Headquarters, Washington D.C. Accompanied by former NASA Administrator James E. Webb, he was presented with a collection of rocket models for his Presidential Library in Independence, Missouri.
Date 11/03/1961
NASA Center Headquarters
James C. Elms
Title James C. Elms
Full Description On October 1, 1966, James C. Elms was appointed Director of the NASA Electronics Resource Center in Cambridge, Massachusetts. Elms served as director until the closing of the ERC on June 30, 1970. Prior to his appointment as ERC Director, James Elms served as Deputy Director of NASA Manned Spacecraft Center in Houston, Texas and then as Deputy Associate Administrator for them Manned Spaceflight Program at NASA Headquarters in Washington, DC. The ERC opened in September 1964, taking over the administration of contracts, grants, and other NASA business in New England from the antecedent North Eastern Operations Office (created in July 1962), and closed in June 1970. It served to develop the space agencys in-house expertise in electronics during the Apollo era. A second key function was to serve as a graduate and post- graduate training center within the framework of a regional government-industry-university alliance. Research at the ERC was conducted in ten different laboratories: space guidance, systems, computers, instrumentation research, space optics, power conditioning and distribution, microwave radiation, electronics components, qualifications and standards, and control and information systems. Researchers investigated such areas as microwave and laser communications, the miniaturization and radiation resistance of electronic components, guidance and control systems, photovoltaic energy conversion, information display devices, instrumentation, and computers and data processing. Although the only NASA Center ever closed, the ERC actually grew while NASA eliminated major programs and cut staff in other areas. Between 1967 and 1970, NASA cut permanent civil service workers at all Centers with one exception, the ERC, whose personnel grew annually until its closure in June 1970.
Date UNKNOWN
NASA Center Electronic Research Center
Great Zoom into Washington, …
Title Great Zoom into Washington, DC: NASA Headquarters
Abstract Using data from different spacecraft and some powerful computer technology, visualizers at the Goddard Space Flight Center present you with a collection of American cities in a way you have never seen them before. Starting with our camera high above the Earth, we rush in towards the surface at what would be an impossible speed for any known vehicle. Passing though layers of atmosphere, the colors of our destinations shimmer with their own unique characteristics, and suddenly we find ourselves floating in virtual space just above the ground.
Completed 2001-08-03
Great Zoom into Washington, …
Title Great Zoom into Washington, DC: NASA Headquarters
Abstract Using data from different spacecraft and some powerful computer technology, visualizers at the Goddard Space Flight Center present you with a collection of American cities in a way you have never seen them before. Starting with our camera high above the Earth, we rush in towards the surface at what would be an impossible speed for any known vehicle. Passing though layers of atmosphere, the colors of our destinations shimmer with their own unique characteristics, and suddenly we find ourselves floating in virtual space just above the ground.
Completed 2001-08-03
Great Zoom into Washington, …
Title Great Zoom into Washington, DC: NASA Headquarters
Abstract Using data from different spacecraft and some powerful computer technology, visualizers at the Goddard Space Flight Center present you with a collection of American cities in a way you have never seen them before. Starting with our camera high above the Earth, we rush in towards the surface at what would be an impossible speed for any known vehicle. Passing though layers of atmosphere, the colors of our destinations shimmer with their own unique characteristics, and suddenly we find ourselves floating in virtual space just above the ground.
Completed 2001-08-03
Great Zoom into Washington, …
Title Great Zoom into Washington, DC: NASA Headquarters
Abstract Using data from different spacecraft and some powerful computer technology, visualizers at the Goddard Space Flight Center present you with a collection of American cities in a way you have never seen them before. Starting with our camera high above the Earth, we rush in towards the surface at what would be an impossible speed for any known vehicle. Passing though layers of atmosphere, the colors of our destinations shimmer with their own unique characteristics, and suddenly we find ourselves floating in virtual space just above the ground.
Completed 2001-08-03
Great Zoom into Washington, …
Title Great Zoom into Washington, DC: NASA Headquarters
Abstract Using data from different spacecraft and some powerful computer technology, visualizers at the Goddard Space Flight Center present you with a collection of American cities in a way you have never seen them before. Starting with our camera high above the Earth, we rush in towards the surface at what would be an impossible speed for any known vehicle. Passing though layers of atmosphere, the colors of our destinations shimmer with their own unique characteristics, and suddenly we find ourselves floating in virtual space just above the ground.
Completed 2001-08-03
Great Zoom into Washington, …
Title Great Zoom into Washington, DC: NASA Headquarters
Abstract Using data from different spacecraft and some powerful computer technology, visualizers at the Goddard Space Flight Center present you with a collection of American cities in a way you have never seen them before. Starting with our camera high above the Earth, we rush in towards the surface at what would be an impossible speed for any known vehicle. Passing though layers of atmosphere, the colors of our destinations shimmer with their own unique characteristics, and suddenly we find ourselves floating in virtual space just above the ground.
Completed 2001-08-03
Great Zoom into Washington, …
Title Great Zoom into Washington, DC: NASA Headquarters
Abstract Using data from different spacecraft and some powerful computer technology, visualizers at the Goddard Space Flight Center present you with a collection of American cities in a way you have never seen them before. Starting with our camera high above the Earth, we rush in towards the surface at what would be an impossible speed for any known vehicle. Passing though layers of atmosphere, the colors of our destinations shimmer with their own unique characteristics, and suddenly we find ourselves floating in virtual space just above the ground.
Completed 2001-08-03
Great Zoom out of Washington …
Title Great Zoom out of Washington, DC: NASA Headquarters
Abstract Using data from different spacecraft and some powerful computer technology, visualizers at the Goddard Space Flight Center present you with a collection of American cities in a way you have never seen them before. Starting with our camera high above the Earth, we rush in towards the surface at what would be an impossible speed for any known vehicle. Passing though layers of atmosphere, the colors of our destinations shimmer with their own unique characteristics, and suddenly we find ourselves floating in virtual space just above the ground.
Completed 2001-08-03
Great Zoom out of Washington …
Title Great Zoom out of Washington, DC: NASA Headquarters
Abstract Using data from different spacecraft and some powerful computer technology, visualizers at the Goddard Space Flight Center present you with a collection of American cities in a way you have never seen them before. Starting with our camera high above the Earth, we rush in towards the surface at what would be an impossible speed for any known vehicle. Passing though layers of atmosphere, the colors of our destinations shimmer with their own unique characteristics, and suddenly we find ourselves floating in virtual space just above the ground.
Completed 2001-08-03
Great Zoom out of Washington …
Title Great Zoom out of Washington, DC: NASA Headquarters
Abstract Using data from different spacecraft and some powerful computer technology, visualizers at the Goddard Space Flight Center present you with a collection of American cities in a way you have never seen them before. Starting with our camera high above the Earth, we rush in towards the surface at what would be an impossible speed for any known vehicle. Passing though layers of atmosphere, the colors of our destinations shimmer with their own unique characteristics, and suddenly we find ourselves floating in virtual space just above the ground.
Completed 2001-08-03
Great Zoom out of Washington …
Title Great Zoom out of Washington, DC: NASA Headquarters
Abstract Using data from different spacecraft and some powerful computer technology, visualizers at the Goddard Space Flight Center present you with a collection of American cities in a way you have never seen them before. Starting with our camera high above the Earth, we rush in towards the surface at what would be an impossible speed for any known vehicle. Passing though layers of atmosphere, the colors of our destinations shimmer with their own unique characteristics, and suddenly we find ourselves floating in virtual space just above the ground.
Completed 2001-08-03
Great Zoom out of Washington …
Title Great Zoom out of Washington, DC: NASA Headquarters
Abstract Using data from different spacecraft and some powerful computer technology, visualizers at the Goddard Space Flight Center present you with a collection of American cities in a way you have never seen them before. Starting with our camera high above the Earth, we rush in towards the surface at what would be an impossible speed for any known vehicle. Passing though layers of atmosphere, the colors of our destinations shimmer with their own unique characteristics, and suddenly we find ourselves floating in virtual space just above the ground.
Completed 2001-08-03
Great Zoom out of Washington …
Title Great Zoom out of Washington, DC: NASA Headquarters
Abstract Using data from different spacecraft and some powerful computer technology, visualizers at the Goddard Space Flight Center present you with a collection of American cities in a way you have never seen them before. Starting with our camera high above the Earth, we rush in towards the surface at what would be an impossible speed for any known vehicle. Passing though layers of atmosphere, the colors of our destinations shimmer with their own unique characteristics, and suddenly we find ourselves floating in virtual space just above the ground.
Completed 2001-08-03
Great Zoom out of Washington …
Title Great Zoom out of Washington, DC: NASA Headquarters
Abstract Using data from different spacecraft and some powerful computer technology, visualizers at the Goddard Space Flight Center present you with a collection of American cities in a way you have never seen them before. Starting with our camera high above the Earth, we rush in towards the surface at what would be an impossible speed for any known vehicle. Passing though layers of atmosphere, the colors of our destinations shimmer with their own unique characteristics, and suddenly we find ourselves floating in virtual space just above the ground.
Completed 2001-08-03
Isaac "Ike" Gillam
Photo Date June 8, 1978
Pilot Neil Armstrong with X- …
Photo Description NASA test pilot Neil Armstrong is seen here next to the X-15 ship #1 (56-6670) after a research flight. Neil A. Armstrong joined the National Advisory Committee for Aeronautics (NACA) at the Lewis Flight Propulsion Laboratory (later NASA?s Lewis Research Center, Cleveland, Ohio, and today the Glenn Research Center) in 1955. Later that year, he transferred to the NACA?s High-Speed Flight Station (today, NASA?s Dryden Flight Research Center) at Edwards Air Force Base in California as an aeronautical research scientist and then as a pilot, a position he held until becoming an astronaut in 1962. He was one of nine NASA astronauts in the second class to be chosen. As a research pilot Armstrong served as project pilot on the F-100A and F-100C aircraft, F-101, and the F-104A. He also flew the X-1B, X-5, F-105, F-106, B-47, KC-135, and Paresev. He left Dryden with a total of over 2450 flying hours. He was a member of the USAF-NASA Dyna-Soar Pilot Consultant Group before the Dyna-Soar project was cancelled, and studied X-20 Dyna-Soar approaches and abort maneuvers through use of the F-102A and F5D jet aircraft. Armstrong was actively engaged in both piloting and engineering aspects of the X-15 program from its inception. He completed the first flight in the aircraft equipped with a new flow-direction sensor (ball nose) and the initial flight in an X-15 equipped with a self-adaptive flight control system. He worked closely with designers and engineers in development of the adaptive system, and made seven flights in the rocket plane from December 1960 until July 1962. During those fights he reached a peak altitude of 207,500 feet in the X-15-3, and a speed of 3,989 mph (Mach 5.74) in the X-15-1. Armstrong was born August 5, 1930, in Wapakoneta, Ohio. He attended Purdue University, earning his Bachelor of Science degree in aeronautical engineering in 1955. During the Korean War, which interrupted his engineering studies, he flew 78 combat missions in F9F-2 jet fighters. He was awarded the Air Medal and two Gold Stars. He later earned a Master of Science degree in aerospace engineering from the University of Southern California. Armstrong has a total of 8 days and 14 hours in space, including 2 hours and 48 minutes walking on the Moon. In March 1966 he was commander of the Gemini 8 orbital space flight with David Scott as pilot?the first successful docking of two vehicles in orbit. On July 20, 1969, during the Apollo 11 lunar mission, he became the first human to set foot on the Moon. From 1969 to 1971 he was Deputy Associate Administrator for Aeronautics at NASA Headquarters, and resigned from NASA in August 1971 to become Professor of Engineering at the University of Cincinnati, a post he held until 1979. He became Chairman of the Board of Cardwell International, Ltd., in Lebanon, Ohio, in 1980 and served in that capacity until 1982. During the years 1982-1992, Armstrong was chairman of Computing Technologies for Aviation, Inc., in Charlottesville,, Virginia. From 1981 to 1999, he served on the board of directors for Eaton Corp. He served as chairman of the board of AIL Systems, Inc. of Deer Park, New York, until 1999 and in 2000 was elected chairman of the board of EDO Corp., a manaufacturer of electronic and mechanical systems for the aerospace, defense and industrial markets, based in New York City. From 1985 to 1986, Armstrong served on the National Commission on Space, a presidential committee to develop goals for a national space program into the 21st century. He was also Vice Chairman of the committee investigating the Space Shuttle Challenger disaster in 1986. During the early 1990s he hosted an aviation documentary series for television entitled First Flights.
Project Description The X-15 was a rocket-powered aircraft 50 ft long with a wingspan of 22 ft. It was a missile-shaped vehicle with an unusual wedge-shaped vertical tail, thin stubby wings, and unique fairings that extended along the side of the fuselage. The X-15 weighed about 14,000 lb empty and approximately 34,000 lb at launch. The XLR-99 rocket engine, manufactured by Thiokol Chemical Corp., was pilot controlled and was capable of developing 57,000 lb of rated thrust (actual thrust reportedly climbed to 60,000 lb). North American Aviation built three X-15 aircraft for the program. The X-15 research aircraft was developed to provide in-flight information and data on aerodynamics, structures, flight controls, and the physiological aspects of high-speed, high-altitude flight. A follow-on program used the aircraft as a testbed to carry various scientific experiments beyond the Earth's atmosphere on a repeated basis. For flight in the dense air of the usable atmosphere, the X-15 used conventional aerodynamic controls such as rudder surfaces on the vertical stabilizers to control yaw and canted horizontal surfaces on the tail to control pitch when moving in synchronization or roll when moved differentially. For flight in the thin air outside of the appreciable Earth's atmosphere, the X-15 used a reaction control system. Hydrogen peroxide thrust rockets located on the nose of the aircraft provided pitch and yaw control. Those on the wings provided roll control. Because of the large fuel consumption, the X-15 was air launched from a B-52 aircraft at 45,000 ft and a speed of about 500 mph. Depending on the mission, the rocket engine provided thrust for the first 80 to 120 sec of flight. The remainder of the normal 10 to 11 min. flight was powerless and ended with a 200-mph glide landing. Generally, one of two types of X-15 flight profiles was used: a high-altitude flight plan that called for the pilot to maintain a steep rate of climb, or a speed profile that called for the pilot to push over and maintain a level altitude. The X-15 was flown over a period of nearly 10 years--June 1959 to Oct. 1968--and set the world's unofficial speed and altitude records of 4,520 mph (Mach 6.7) and 354,200 ft (over 67 mi) in a program to investigate all aspects of piloted hypersonic flight. Information gained from the highly successful X-15 program contributed to the development of the Mercury, Gemini, and Apollo manned spaceflight programs, and also the Space Shuttle program. The X-15s made a total of 199 flights and were manufactured by North American Aviation. X-15-1, serial number 56-6670, is now located at the National Air and Space Museum, Washington DC. North American X-15A-2, serial number 56-6671, is at the United States Air Force Museum, Wright-Patterson AFB, Ohio. The X-15-3, serial number 56-6672, crashed on 15 November 1967, resulting in the death of Maj. Michael J. Adams.
Photo Date 1960s
Dr. von Braun at the Farewel …
Name of Image Dr. von Braun at the Farewell Ceremony
Date of Image 1970-02-24
Full Description Dr. von Braun was honored with a series of farewell events and ceremonies prior to his reassignment to NASA Headquarters in Washington, D.C. Alabama Governor Brewer greets Dr. von Braun following his speech at the front of the Madison County Courthouse in Huntsville, Alabama on February 24, 1970. Behind are Madison County Commissioner James Record, Huntsville Mayor Joe Davis, and U.S. Senator Sparkman.
Dr. von Braun Preparing to G …
Name of Image Dr. von Braun Preparing to Give Speech
Date of Image 1970-02-24
Full Description Dr. von Braun was noted for his public speeches and presentations. In this photograph, Dr. von Braun gave a speech during a series of events to honor him prior to his relocation to Washington where he was assigned to his new duty as NASA's Deputy Associate Administrator for Plarning at NASA Headquarters.
Dr. von Braun and His Family …
Name of Image Dr. von Braun and His Family Being Honored
Date of Image 1970-02-24
Full Description Marshall Space Flight Center (MSFC) Director Dr. von Braun and his family were honored with a series of events prior to his relocation to Washington, D.C., where he was assigned duties at NASA Headquarters as Deputy Associate Administrator for Plarning. (Left to right) Dr. von Braun, wife Maria, son Peter, and daughter Margrit are shown on the steps of the Madison County Courthouse, Huntsville, Alabama.
Dr. von Braun at the Farewel …
Name of Image Dr. von Braun at the Farewell Ceremony
Date of Image 1970-02-24
Full Description Dr. von Braun was honored with a series of farewell events and ceremonies prior to his reassignment to NASA Headquarters in Washington, D.C. Dr. von Braun speaks to the crowd in front of the Madison County Courthouse in Huntsville, Alabama. Alabama Governor Brewer and U.S. Senator Sparkman are in the foreground.
Astronaut Sharnon Lucid in M …
Name of Image Astronaut Sharnon Lucid in Mir Space Station
Date of Image 1996-01-01
Full Description In this photograph, Astronaut Shannon W. Lucid, Ph.D., communicates with the ground support team inside the Core Module of the Mir Space Station. Launched aboard the STS-76, the third Shuttle/Mir docking mission, in March 1996, to join the Mir crew in the orbiting laboratory, Astronaut Lucid returned to Earth aboard STS-79 in September 1996. Astronaut Lucid made the U.S. longest record of 188 days in space. Prior to this endeavor, Astronaut Lucid served as a mission specialist on STS-51G in June 1985, STS-34 in October 1989, STS-43 in August 1991, and STS-58 in October 1993. She had logged 5,354 hours (223 days) in space and holds both an international record for the most flight hours in orbit by any non-Russian, and the record for the most flight hours in orbit by any woman in the world. In February 2002. Dr. Lucid was selected as NASA's Chief Scientist at NASA Headquarters in Washington D.C., with responsibility for developing and communicating the agency's science and research objectives to the outside world.
Deep Impact Spacecraft Colli …
Name of Image Deep Impact Spacecraft Collides With Comet Tempel 1 (Video)
Date of Image 2005-07-04
Full Description After 172 days and 268 million miles of deep space travel, the NASA Deep Impact spacecraft successfully reached out and touched comet Tempel 1. The collision between the coffee table-sized space probe and city-sized comet occurred July 4, 2005 at 12:52 a.m. CDT. Comprised of images taken by the targeting sensor aboard the impactor probe, this movie shows the spacecraft approaching the comet up to just seconds before impact. Mission scientists expect Deep Impact to provide answers to basic questions about the formation of the solar system. Principal investigator for Deep Impact, Dr. Michael A?Hearn of the University of Maryland in College Park, is responsible for the mission, and project management is handled by the Jet Propulsion Laboratory in Pasadena, California. The program office at the Marshall Space Flight Center (MSFC) in Huntsville, Alabama assisted the Science Mission Directorate at NASA Headquarters in Washington with program management, technology planning, systems assessment, flight assurance and public outreach. The spacecraft was built for NASA by Ball Aerospace & Technologies Corporation of Boulder, Colorado. (NASA/JPL-Caltech/UMD)
Deep Impact Spacecraft Colli …
Name of Image Deep Impact Spacecraft Collides With Comet Tempel 1-Video
Date of Image 2005-07-04
Full Description After 172 days and 268 million miles of deep space travel, the NASA Deep Impact spacecraft successfully reached out and touched comet Tempel 1. The collision between the coffee table-sized space probe and city-sized comet occurred July 4, 2005 at 12:52 a.m. CDT. The objects met at 23,000 miles per hour. The heat produced by the impact was at least several thousand degrees Kelvin and at that extreme temperature, just about any material begins to glow. This movie, made up of images taken by the medium resolution camera aboard the spacecraft, from May 1 to July 2, shows the Deep Impact approach to comet Tempel 1. The spacecraft detected 3 outbursts during this time period, on June 14th, June 22nd, and July 2nd. The movie ends during the final outburst. Mission scientists expect Deep Impact to provide answers to basic questions about the formation of the solar system. Principal investigator, Dr. Michael A?Hearn of the University of Maryland in College Park, is responsible for the mission, and project management is handled by the Jet Propulsion Laboratory in Pasadena, California. The program office at Marshall Space Flight Center MSFC) in Huntsville, Alabama, assisted the Science Mission Directorate at NASA Headquarters in Washington with program management, technology planning, systems assessment, flight assurance and public outreach. The spacecraft was built for NASA by Ball Aerospace & Technologies Corporation of Boulder, Colorado. (NASA/JPL-Caltech/UMD)
M2-F1 lifting body and Pares …
Title M2-F1 lifting body and Paresev 1B on ramp
Description In this photo of the M2-F1 lifting body and the Paresev 1B on the ramp, the viewer sees two vehicles representing different approaches to building a research craft to simulate a spacecraft able to land on the ground instead of splashing down in the ocean as the Mercury capsules did. The M2-F1 was a lifting body, a shape able to re-enter from orbit and land. The Paresev (Paraglider Research Vehicle) used a Rogallo wing that could be (but never was) used to replace a conventional parachute for landing a capsule-type spacecraft, allowing it to make a controlled landing on the ground. The wingless, lifting body aircraft design was initially conceived as a means of landing an aircraft horizontally after atmospheric reentry. The absence of wings would make the extreme heat of re-entry less damaging to the vehicle. In 1962, Dryden management approved a program to build a lightweight, unpowered lifting body as a prototype to flight test the wingless concept. It would look like a "flying bathtub," and was designated the M2-F1, the "M" referring to "manned" and "F" referring to "flight" version. It featured a plywood shell placed over a tubular steel frame crafted at Dryden. Construction was completed in 1963. The first flight tests of the M2-F1 were over Rogers Dry Lake at the end of a tow rope attached to a hopped-up Pontiac convertible driven at speeds up to about 120 mph. This vehicle needed to be able to tow the M2-F1 on the Rogers Dry Lakebed adjacent to NASA's Flight Research Center (FRC) at a minimum speed of 100 miles per hour. To do that, it had to handle the 400-pound pull of the M2-F1. Walter "Whitey" Whiteside, who was a retired Air Force maintenance officer working in the FRC's Flight Operations Division, was a dirt-bike rider and hot-rodder. Together with Boyden "Bud" Bearce in the Procurement and Supply Branch of the FRC, Whitey acquired a Pontiac Catalina convertible with the largest engine available. He took the car to Bill Straup's renowned hot-rod shop near Long Beach for modification. With a special gearbox and racing slicks, the Pontiac could tow the 1,000-pound M2-F1 110 miles per hour in 30 seconds. It proved adequate for the roughly 400 car tows that got the M2-F1 airborne to prove it could fly safely and to train pilots before they were towed behind a C-47 aircraft and released. These initial car-tow tests produced enough flight data about the M2-F1 to proceed with flights behind the C-47 tow plane at greater altitudes. The C-47 took the craft to an altitude of 12,000 where free flights back to Rogers Dry Lake began. Pilot for the first series of flights of the M2-F1 was NASA research pilot Milt Thompson. Typical glide flights with the M2-F1 lasted about two minutes and reached speeds of 110 to l20 mph. A small solid landing rocket, referred to as the "instant L/D rocket," was installed in the rear base of the M2-F1. This rocket, which could be ignited by the pilot, provided about 250 pounds of thrust for about 10 seconds. The, Rogallo wing was never used on a spacecraft, it revolutionized the sport of hang gliding, and a different but related kind of wing will be used on the X-38 technology demonstrator for a crew return vehicle from the International space station., referred to as a `space frame.' The keel and leading edges of the wings were constructed of 2 1/2-inch diameter aluminum tubing. The leading edge sweep angle was held constant at 50 degrees by a rigid spreader bar. Additional wing structure fabricated of steel tubing ensured structural integrity. Seven weeks after the project was initiated the team rolled out the Paresev 1. It resembled a grown-up tricycle, with a rudimentary seat, an angled tripod mast, and, perched on top of the mast, a Rogallo-type parawing. The pilot sat out in the open, strapped in the seat, with no enclosure of any kind. He controlled the descent rate by tilting the wing fore and aft, and turned by tilting the wing from side to side with a control stick that came from overhead. NASA registered the Paresev, the first NASA research airplane to be constructed totally "in-house," with the Federal Aviation Administration on February 12, 1962. Flight testing started immediately. There was one space frame built called the Paresev that used four different wing types. Paresev 1 had a linen membrane, with the control stick coming from overhead in front of the pilots seat. Paresev 1A had a regulation control stick and a Dacron membrane. Paresev 1B had a smaller Dacron membrane with the space frame remaining the same. Paresev 1C used a half-scale version of the inflatable Gemini parawing with a small change to the space frame. All `space frames,' regardless of the parawing configuration, had a shield with "Paresev 1-A" and the NASA meatball on the front of the vehicle. PARESEV-1 After the space frame was completed a sailmaker was asked to sew the wing membrane according to the planform developed by NASA Flight Research Center personnel. He suggested using Dacron instead of the linen fabric chosen, but yielded to the engineers' specs. A nylon bolt rope was attached in the trailing edge of the 150-square-foot wing membrane. The rope was unrestrained except at the wing tips and was therefore free to equalize the load between the two lobes of the wing. This worked reasonably well, but flight tests proved the wing to be too flexible with it flapping and bulging in alarming ways. The poor membrane design led to trailing edge flutter, with longitudinal and lateral stick forces being severe. A number of different rigging modifications to improve the flying characteristics were tried, but very few were successful and none were predictable. Everything seemed to affect stick forces in the worst way. The fifth flight aloft lasted 10 seconds. On a ground tow the Paresev and pilot fell 10 feet. Considerable damage was done to the Paresev with the pilot, Bruce Peterson, being taken to the base hospital. Injuries sustained by the pilot were not serious. After this accident the Paresev was extensively rebuilt and renamed, Paresev-1A. PARESEV 1-A The sailmaker was asked again to construct a 150-square-foot membrane the way he wanted to. The resulting wing membrane had excellent contours in flight and, rocket could be used to extend the flight time near landing if needed. More than 400 ground tows and 77 aircraft tow flights were carried out with the M2-F1. The success of Dryden's M2-F1 program led to NASA's development and construction of two heavyweight lifting bodies based on studies at NASA's Ames and Langley research centers--the M2-F2 and the HL-10, both built by the Northrop Corporation, and the U.S. Air Force's X-24 program, with an X-24A and -B built by Martin. The Lifting Body program also heavily influenced the Space Shuttle program. The M2-F1 program demonstrated the feasibility of the lifting body concept for horizontal landings of atmospheric entry vehicles. It also demonstrated a procurement and management concept for prototype flight test vehicles that produced rapid results at very low cost (approximately $50,000, excluding salaries of government employees assigned to the project). The Paresev (Paraglider Rescue Vehicle) was an indirect outgrowth of kite-parachute studies by NACA Langley engineer Francis M. Rogallo. In the early 1960s the "Rogallo wing" seemed an excellent means of returning a spacecraft to Earth. The delta wing design was patented by Mr. Rogallo. In May 1961, Robert R. Gilruth, director NASA's Space Task Group, requested studies of an inflatable Rogallo-type "Parawing" for spacecraft. Several companies responded, North American Aviation produced the most acceptable concept and development was contracted to that company. In November 1961 NASA Headquarters launched a paraglider development program, with Langely doing wind-tunnel studies and the NASA Flight Research Center supporting the North American test program. The North American concept was a capsule type vehicle with a stowed "parawing" that could be deployed and controlled from within for a landing more like an airplane instead of a "splash down" in the ocean as was the practice in the Mercury and later the Gemini and Apollo programs. The logistics became enormous and the price exorbitant, besides which, NASA pilots and engineers felt some baseline experience like building a vehicle and flying a Parawing should be accomplished first. The Paresev (Paraglider Research Vehicle) was used to gain in-flight experience with four different membranes (wings) and was not used to develop the more complicated inflatable deployment system. The Paresev was designed by Charles Richard, of the Flight Research Center's Vehicle and System Dynamics Branch, with the rest of the team being: engineers Richard Klein, Gary Layton, John Orahood, and Joe Wilson, Frank Fedor and LeRoy Barto from the Maintenance and Manufacturing Branch, Project Manager Victor Horton, with Gary Layton becoming Project Manager later on in the Program. Mr. Paul Bikle, Director of the Center, gave instructions that were short and to the point: build a single-seat Paraglider and "do it quick and cheap." The Paresev was unpowered, the "fuselage" an open framework fabricated of welded 4130 steel tubing, was made from 6 ounce Dacron. The space frame was rebuilt with more sophistication than the Paresev 1 had. The shock absorbers were Ford automotive parts, the wing universal joint was a 1948 Pontiac part, and the tires and wheels were from a Cessna 175 aircraft. The overhead stick was replaced with a stick and pulley arrangement that operated more like conventional aircraft controls. This vehicle had much improved stick forces and handling qualities. The instrumentation used to obtain data was quite crude, partially as a result of the desire to keep the program simple and low in cost and also because there was no onboard power. To measure performance, technicians installed a large alpha vane on the wing apex with a scale at the trailing edge that the pilot could read directly. A curved bubble level measured the vehicle's attitude, and a Fairchild camera recorded the glide slope PARESEV 1-B The Paresev 1-B used the Paresev 1-A space frame with a smaller Dacron wing (100 square feet) and was flight tested to evaluate its handling qualities with lower lift-to-drag values. One NASA project engineer described its gliding ability as "pretty scary." PARESEV 1-C The space frame of the vehicle remained almost unchanged from the earlier vehicles. However, a new control box gave the pilot the ability to increase or decrease the nitrogen in the inflatable wing supports to compensate for the changing density of the air. Two bottles of nitrogen provided an extra supply of nitrogen. The vehicle featured a partially inflatable wing. The whole wing was not inflatable, the three chambers that acted as spars and supported the wing inflated. The center spar ran fore and aft and measured 191 inches, two other inflatable spars formed the leading edges. These three compartments were filled with nitrogen under pressure to make them rigid. The Paresev in this configuration was expected to closely approximate the aerodynamic characteristics that would be encountered with the Gemini space capsule with a parawing extended. The Paresev was very unstable in flight with this configuration. The first Paresev flights began with tows across the dry lakebed, in 1962, using a NASA vehicle, an International Harvester carry-all (6 cylinder). Eventually ground and airtows were done using a Stearman sport biplane (450 hp), a Piper Super Cub (150-180 hp), Cessna L-19 (200 hp Bird Dog) and a Boeing-Vertol HC-1A. Speed range of the Paresev was about 35-65 mph. The Paresev completed nearly 350 flights during a research program from 1962 until 1964. Pilots flying the Paresev included NASA pilots Milton Thompson, Bruce Peterson, and Neil Armstrong from Dryden, Robert Champine from Langley, and astronaut Gus Grissom, plus North American test pilot Charles Hetzel. The Paresev was legally transferred to the National Air and Space Museum of the Smithsonian Institute, Washington, D.C. Despite its looks, the Paresev was a useful research aircraft that helped develop a new way to fly. Although the
Date 01.01.1963
Spare Ion Engine Being Check …
Title Spare Ion Engine Being Checked
Description July 21, 2003 An ion thruster is removed from a vacuum chamber at NASA's Jet Propulsion Laboratory, Pasadena, Calif., its job done following almost five years of testing. Engineers John Anderson and Keith Goodfellow, from left, are part of JPL's Advanced Propulsion Technology Group. The thruster, a spare engine from NASA's Deep Space 1 mission, ran for a record 30,352 hours, giving researchers the ability to observe its performance and wear at different power levels throughout the test. This information will be vital to future missions that use ion propulsion. Ion propulsion systems can be very lightweight, running on just a few grams of xenon gas a day. This fuel efficiency can lower launch vehicle costs. Xenon is the same gas that is found in photo flash bulbs. The very successful Deep Space 1 mission featured the first use of an ion engine as the primary means of propulsion on a NASA spacecraft. NASA's next-generation ion propulsion efforts are led by the In-Space Propulsion Program, managed by the Office of Space Science at NASA Headquarters, Washington, D.C., and implemented by the Marshall Space Flight Center, Huntsville, Ala.. The program seeks to develop advanced propulsion technologies that will help near and mid-term NASA science missions by significantly reducing cost, mass or travel times. JPL is managed by the California Institute of Technology, Pasadena, Calif., for NASA.
Date 07.30.2003
STEREO Press Briefing (20110 …
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