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2003AME_9781563476259Aeronautics 2003. 1st. Hardcover. New/New. Aeronautics hardcover
198146619Washington DC: Civil Aeronautics Board 1981. good. Approx. 400 wraps covers somewhat worn and soiled minor crease at spine. Civil Aeronautics Board paperback
200352301Washington DC: GPO 2003. Wraps. good ex-library condition. 261 pages CDROM wraps volume 1 only of the 6-volume set color illustrations figures endnotes appendices usual library markings covers somewhat soiled. Includes CDROM with over 100 MB of video plus over 700 pages of NASA documents including the STS-107 press kit and NASA's implementation plan for return to flight and beyond. Investigates loss of the Space Shuttle Columbia STS-107 and its seven-member crew on February 1 2003. Four parts entitled: The Accident; Why the Accident Occurred; A Look Ahead; and Appendices A B C. Concludes with recommendations. Appendices D E F G and H comprise the remaining 5 volumes not present and provide information on technical documentation and transcripts of Accident Board public hearings. This volume comprises the major assessment conclusions and recommendations. GPO paperback
1967017611Rome 1967. paperback. Very Good. Minor edge wear and soiling to cream covers. No markings. Dual language English / Italian. Always securely packed. Professional booksellers since 1994. Satisfaction guaranteed. <br/><br/> paperback
1986900818<p>New York: Praeger Publishers 1986. First printing. Hardcover. Very Good . Cloth. 435 pages including a Bibliography and an Index tables and figures. Light wear at a few corner tips. <br /><br /></p> Praeger Publishers hardcover
15-8435Pasadena CA: NASA 1964. Folded Document 12 pp. Project Ranger; Color Photograph; Two Loose Pages; Three Stapled Documents. 7" x 9" Near Fine. According to a Jet Propulsion Laboratory Gate Pass this material was given to Vincent McHugh doing research for Venture Magazine on 2/25/1965. Pasadena, CA: NASA, 1964. unknown
77-0370NY. NY: National Aeronautics Council Inc. 1942 . 8vo. 94 pp. Stapled wrap. Good. Front cover has some wear and tearing at top and base of spine. Includes order form. Identification manual. NY. NY: National Aeronautics Council, Inc., 1942 unknown
201186082Houston TX: National Aeronautics and Space Administration Johnson Space Center 2011. Presumed First Edition First printing of multiple originals. Single sheet printed on both sides. Very good. The format is approximately 8.5 inches by 11 inches. This is a single sheet with printing/imagery on both sides in a plastic sleeve. On the front side is a large color photograph of the four astronauts/Shuttle Crew members. On the other side are primarily four columns of text one column for each of the crew members with a small one-column spread with a picture of the four crew members at the top left corner and a larger two-column spread with an illustration of the STS-135 Mission Patch and a text description. The four crew members were Commander Christopher J. Ferguson Captain United States Navy ret. Pilot Douglas G. Hurley Colonel U.S. Marine Corps Mission Specialist Sandra H. Magnus Ph.D. and Mission Specialist Rex J. Wallheim Colonel U.S. Air Force ret. The STS-135 patch represent the Space Shuttle embarking on its mission to resupply the International Space Station. The Shuttle is centered over elements of the NASA emblem depicting how the Space Shuttle has been at the heart of NASA for the previous 30 years. The Patch also pays tribute to the entire NASA and contractor team that made possible all the incredible accomplishments of the Space Shuttle. Omega the last letter in the Greek alphabet signifies that this mission is the last flight of the Space Shuttle Program. STS-135 ISS assembly flight ULF7 was the 135th and final mission of the American Space Shuttle program. It used the orbiter Atlantis and hardware originally processed for the STS-335 contingency mission which was not flown. STS-135 launched on July 8 2011 and landed on July 21 2011 following a one-day mission extension. The four-person crew was the smallest of any shuttle mission since STS-6 in April 1983. The mission's primary cargo was the Multi-Purpose Logistics Module MPLM Raffaello and a Lightweight Multi-Purpose Carrier LMC which were delivered to the International Space Station ISS. The flight of Raffaello marked the only time that Atlantis carried an MPLM. Although the mission was authorized it initially had no appropriation in the NASA budget raising questions about whether the mission would fly. On January 20 2011 program managers changed STS-335 to STS-135 on the flight manifest. This allowed for training and other mission specific preparations. On February 13 2011 program managers told their workforce that STS-135 would fly regardless of the funding situation via a continuing resolution. Until this point there had been no official references to the STS-135 mission in NASA documentation for the general public. During an address at the Marshall Space Flight Center on November 16 2010 NASA administrator Charles Bolden said that the agency needed to fly STS-135 to the station in 2011 due to possible delays in the development of commercial rockets and spacecraft designed to transport cargo to the ISS. "We are hoping to fly a third shuttle mission in addition to STS-133 and STS-134 in June 2011 what everybody calls the launch-on-need mission. and that's really needed to buy down the risk for the development time for commercial cargo" Bolden said. The mission was included in NASA's 2011 authorization which was signed into law on October 11 2010 but funding remained dependent on a subsequent appropriations bill. United Space Alliance signed a contract extension for the mission along with STS-134; the contract contained six one-month options with NASA in order to support continuing operations. The federal budget approved in April 2011 called for US$5.5 billion for NASA's space operations division including the shuttle and space station programs. According to NASA the budget running through September 30 2011 ended all concerns about funding the STS-135 mission. The reduced crew size also allowed the mission to maximize the payload carried to the ISS.20 It was the only time that a Shuttle crew of four flew to the ISS. The last shuttle mission to fly with just four crew members occurred 28 years earlier. The Multi-Purpose Logistics Module MPLM Raffaello made up the majority of the payload. This was Raffaello's fourth trip to the International Space Station since 2001 and the 12th use of an MPLM. Unlike previous MPLM missions that delivered large compartments and devices to outfit the space station laboratories STS-135 delivered only bags and supply containers. The MPLM was filled with 16 resupply racks which is the maximum that it could handle. Eight Resupply Stowage Platforms RSPs two Integrated Stowage Platforms ISPs six Resupply Stowage Racks RSRs and one Zero-G Stowage Rack ZSR which sits above another rack during transport. On flight day 4 Raffaello was lifted out of Atlantis's payload bay using the station's Canadarm2. It was berthed to nadir port of the Harmony node. After completing the cargo transfers to the ISS Raffaello was loaded with almost 5700 pounds of unneeded equipment and station waste to be brought back to Earth. On flight day 11 the MPLM was detached from Harmony and was secured in the cargo bay of the shuttle. National Aeronautics and Space Administration, Johnson Space Center unknown
200486160Houston TX: National Aeronautics and Space Administration Johnson Space Center 2004. Presumed First Edition First printing one of multiple originals. Single sheet printed on both sides. Very good. The format is approximately 8.5 inches by 11 inches. This is a single sheet with printing/imagery on both sides in a plastic sleeve. On the front side is a large color photograph of the seven astronauts/Shuttle Crew members. On the other side are primarily four columns of text with text for each of the crew members with a small two-column spread with a outline with names of the seven crew members at the top center and a half-column spread at the bottom of the fourth column with an illustration of the STS-114 Mission Patch and a text description. The STS-114 patch signifies the return of the Space Shuttle to flight and honors the memory of the STS-107 Columbia crew. The Shuttle rising above Earth's horizon includes the Columbia constellation of seven stars echoing the STS-107 patch and commemorating the seven members of that mission. The crew of STS-114 carry the memory of their mission back into Earth orbit. The dominant design element of the STS-114 patch is the planet Earth which represents the unity and dedication of the many people whose efforts allow the Shuttle to safely return to flight. Against the background of the Earth at night the blue orbit represents the International Space Station ISS with the EVA crewmembers named on the orbit. The red sun on the orbit signifies the contributions of the Japanese Space Agency to the mission and to the ISS program. The multi-colored Shuttle plume represents the broad spectrum of challenges for this mission including Shuttle inspection and repair experiments and International Space Station re-supply and repair. STS-114 was the first "Return to Flight" Space Shuttle mission following the Space Shuttle Columbia disaster. The crew members were Commander Eileen M. Collins Colonel USAF Pilot James M. Kelly Lieutenant Colonel USAF Mission Specialist Soichi Noguchi JAXA Astronaut Mission Specialist Stephen K. Robinson Ph.D. Mission Specialist Andrew S. W. Thomas Ph.D. Mission Specialist Wendy B Lawrence Captain USN and Mission Specialist Charles J. Camarda Ph.D. Discovery launched at 10:39 EDT 14:39 UTC July 26 2005. The launch 907 days approx. 29 months after the loss of Columbia was approved despite unresolved fuel sensor anomalies in the external tank that had prevented the shuttle from launching on July 13 its originally scheduled date. The mission ended on August 9 2005 when Discovery landed at Edwards Air Force Base in California.2 Poor weather over the Kennedy Space Center in Florida hampered the shuttle from using its primary landing site. Analysis of the launch footage showed debris separating from the external tank during ascent; this was of particular concern because it was the issue that had set off the Columbia disaster. As a result NASA decided on July 27 to postpone future shuttle flights pending additional modifications to the flight hardware. Shuttle flights resumed a year later with STS-121 on July 4 2006. STS-114 marked the return to flight of the Space Shuttle after the Columbia disaster and was the second Shuttle flight with a female commander Eileen Collins who also commanded the STS-93 mission. The STS-114 mission was initially to be flown aboard the orbiter Atlantis but NASA replaced it with Discovery after improperly installed gear was found in Atlantis' Rudder Speed Brake system. During OMM for Discovery an actuator on the RSB system was found to be installed incorrectly. This created a fleet wide suspect condition. The Rudder Speed Brake system was removed and refurbished on all three remaining orbiter vehicles and since Discovery's RSB was corrected first it became the new Return to Flight vehicle superseding Atlantis. Seventeen years prior Discovery had flown NASA's previous Return to Flight mission STS-26. The STS-114 mission delivered supplies to the International Space Station. However the major focus of the mission was testing and evaluating new Space Shuttle flight safety techniques which included new inspection and repair techniques. The crewmembers used the new Orbiter Boom Sensor System OBSS - a set of instruments on a 50 feet extension attached to the Canadarm. The OBSS instrument package consists of visual imaging equipment and a Laser Dynamic Range Imager LDRI to detect problems with the shuttle's Thermal Protection System TPS. The crew scanned the leading edges of the wings the nose cap and the crew compartment for damage as well as other potential problem areas engineers wished to inspect based on video taken during lift-off. STS-114 was classified as Logistics Flight 1. The flight carried the Raffaello Multi-Purpose Logistics Module built by the Italian Space Agency as well as the External Stowage Platform-2 which was mounted to the port side of the Quest Airlock. They deployed MISSE 5 to the station's exterior and replaced one of the ISS's Control Moment Gyroscopes CMG. The CMG was carried up on the LMC Lightweight Multi-Purpose Experiment Support Structure Carrier at the rear of the payload bay together with the TPS Repair Box. National Aeronautics and Space Administration, Johnson Space Center unknown
197065899Washington D.C.: National Aeronautics and Space Administration 1970. Hardcover. Near Fine. 35.5 x 27 cm. Folio. Red cloth. 125 pages. National Aeronautics and Space Administration hardcover
199346710Washington DC: NASA 1993. good. 376 wraps bibliography stamp on front cover covers somewhat worn and soiled. NASA paperback
196280604Washington DC: National Aeronautics and Space Administration c1962. Presumed First Edition First printing. Wraps. Good. Format is approximately 10.25 inches by 8.25 inches. 16 pages plus covers. Illustrated some in color. This is a college focused recruitment booklet. The date is assumed as there was an article in Aviation Week and Space Technology of June 2 1962 that used the phrase NASA.spearhead to space. This booklet is an invitation for college graduates with inquiring scientific minds.creative minds.to seek to join NASA's scientific and engineering staff. NASA offered rapid professional advancement early recognition rapid salary advancement support for graduate study and a choice of which NASA facilities to consider joining. The National Aeronautics and Space Administration NASA is an independent agency of the U.S. Federal Government responsible for the civilian space program as well as aeronautics and space research. NASA was established in 1958 succeeding the National Advisory Committee for Aeronautics NACA. The new agency was to have a distinctly civilian orientation encouraging peaceful applications in space science. Since its establishment most US space exploration efforts have been led by NASA including the Apollo Moon landing missions the Skylab space station and later the Space Shuttle. NASA is supporting the International Space Station and is overseeing the development of the Orion spacecraft the Space Launch System and Commercial Crew vehicles. The agency is also responsible for the Launch Services Program which provides oversight of launch operations and countdown management for uncrewed NASA launches. National Aeronautics and Space Administration paperback
196949368Washington DC: GPO 1969. fair to good. 238 wraps illus. tables appendices covers and edges foxed some foxing to a few pages mailing label on rear cover. Front cover creased. GPO paperback
195980611Washington DC: National Aeronautics and Space Administration 1959. Contemporary print. Photograph. Good. Sheet is approximately 8 inches by 10.5 inches. Black and white photographic image is approximately 9 inches by 6.5 inches. This is printed on photographic paper stock. The image is of a rocket in front of a gantry taken at night. There is a group of people gathered at the base of the rocket. This may be a photograph of the Mercury Redstone or the Mercury Atlas rocket. Mercury-Atlas was a subprogram of Project Mercury that included most of the flights and tests using the Atlas LV-3B launch vehicle. The Atlas was also used for one Mercury flight under the Big Joe subprogram. The photo is contemporary with Project Mercury. Project Mercury was the first human spaceflight program of the United States running from 1958 through 1963. An early highlight of the Space Race its goal was to put a man into Earth orbit and return him safely ideally before the Soviet Union. Taken over from the US Air Force by the newly created civilian space agency NASA it conducted twenty uncrewed developmental flights some using animals and six successful flights by astronauts. The program took its name from Roman mythology. The astronauts were collectively known as the "Mercury Seven" and each spacecraft was given a name ending with a "7" by its pilot. The Mercury-Redstone launch vehicle was the first crewed launch vehicle in the United States space program. The Mercury-Redstone provided NASA with an opportunity understand performance aspects of the Mercury spacecraft the effect of a weightless environment on astronauts and launch and recovery operations at Kennedy Space Center. Development of the Redstone missile began directly after the transfer of the Fort Bliss rocket team to Huntsville Alabama in 1950. The fuselage of the Redstone was developed in-house at the Army's Guided Missile Development Division with Chrysler serving as prime contractor. Peenemunde veteran William A. Mrazek was placed in charge of developing the structure that consisted of pressurized aluminum propellant tanks. The tail unit consisted of a riveted aluminum structure with four stabilizing fins and air rudders with carbon jet vanes extending into the exhaust stream. The initial flight test of the Redstone occurred on August 20 1953 at Cape Canaveral. Between August 1953 and November 1958 37 Redstone missiles were fired altogether with only 13 experiencing any sort of malfunction. On October 7 1958 NASA formally organized Project Mercury to place a manned space capsule in orbital flight around the Earth investigate man's reaction to this new environment and recover the capsule and the pilot safely. The Army agreed to provide ten Redstone and three Jupiter vehicles for NASA's manned space program. Funding for the eight Redstone boosters was provided to the Army Ordnance Missile Command at the Arsenal in January 1959. "Man-rating" for human spaceflight what was previously a ballistic missile was not an easy project. Requirements for the project included launching a two-ton payload to an apogee of 100 nautical miles. The vehicle also had to meet important criteria of safety during launch adequate human factors consideration and necessary performance margins. A key development decision involved using the Jupiter C variation of the Redstone for the project. The Jupiter C design included a propellant tank six feet longer than the Redstone a lighter overall structure and improved performance capable of 78000 pounds of thrust. The elongated tanks of the Jupiter C provided the vehicle with an engine burn time of 143.5 seconds a twenty seconds increase over the Redstone. On July 1 1960 a core group from the Army Ballistic Missile Agency ABMA transferred from the Army to NASA formally creating the Marshall Space Flight Center. With this transfer came overall responsibility for the Mercury-Redstone launch vehicles. By October of that year a status report on Marshall's involvement in Mercury noted that the first two Mercury-Redstones had been assembled by the Marshall Center with many of the components fabricated at Marshall. The Chrysler Corporation had assembled an additional six launch vehicles. The first four of the eight Mercury-Redstone vehicles had been static fired and the first Mercury-Redstone was on the launch pad at Cape Canaveral after a capsule-booster compatibility checkout in Huntsville. National Aeronautics and Space Administration unknown
196080610Washington DC: National Aeronautics and Space Administration 1960. Contemporary print. Photograph. Good. Sheet is approximately 8 inches by 10.5 inches. Black and white photographic image is approximately 9 inches by 6.5 inches. This is printed on photographic paper stock. The image is of a rocket between a gantry and another structure/tower. This may be a photograph of the Mercury Redstone or the Mercury Atlas rocket. Mercury-Atlas was a subprogram of Project Mercury that included most of the flights and tests using the Atlas LV-3B launch vehicle. The Atlas was also used for one Mercury flight under the Big Joe subprogram. The photo is contemporary with Project Mercury. Project Mercury was the first human spaceflight program of the United States running from 1958 through 1963. An early highlight of the Space Race its goal was to put a man into Earth orbit and return him safely ideally before the Soviet Union. Taken over from the US Air Force by the newly created civilian space agency NASA it conducted twenty uncrewed developmental flights some using animals and six successful flights by astronauts. The program took its name from Roman mythology. The astronauts were collectively known as the "Mercury Seven" and each spacecraft was given a name ending with a "7" by its pilot. The Mercury-Redstone launch vehicle was the first crewed launch vehicle in the United States space program. The Mercury-Redstone provided NASA with an opportunity understand performance aspects of the Mercury spacecraft the effect of a weightless environment on astronauts and launch and recovery operations at Kennedy Space Center. Development of the Redstone missile began directly after the transfer of the Fort Bliss rocket team to Huntsville Alabama in 1950. The fuselage of the Redstone was developed in-house at the Army's Guided Missile Development Division with Chrysler serving as prime contractor. Peenemunde veteran William A. Mrazek was placed in charge of developing the structure that consisted of pressurized aluminum propellant tanks. The tail unit consisted of a riveted aluminum structure with four stabilizing fins and air rudders with carbon jet vanes extending into the exhaust stream. The initial flight test of the Redstone occurred on August 20 1953 at Cape Canaveral. Between August 1953 and November 1958 37 Redstone missiles were fired altogether with only 13 experiencing any sort of malfunction. On October 7 1958 NASA formally organized Project Mercury to place a manned space capsule in orbital flight around the Earth investigate man's reaction to this new environment and recover the capsule and the pilot safely. The Army agreed to provide ten Redstone and three Jupiter vehicles for NASA's manned space program. Funding for the eight Redstone boosters was provided to the Army Ordnance Missile Command at the Arsenal in January 1959. "Man-rating" for human spaceflight what was previously a ballistic missile was not an easy project. Requirements for the project included launching a two-ton payload to an apogee of 100 nautical miles. The vehicle also had to meet important criteria of safety during launch adequate human factors consideration and necessary performance margins. A key development decision involved using the Jupiter C variation of the Redstone for the project. The Jupiter C design included a propellant tank six feet longer than the Redstone a lighter overall structure and improved performance capable of 78000 pounds of thrust. The elongated tanks of the Jupiter C provided the vehicle with an engine burn time of 143.5 seconds a twenty seconds increase over the Redstone. On July 1 1960 a core group from the Army Ballistic Missile Agency ABMA transferred from the Army to NASA formally creating the Marshall Space Flight Center. With this transfer came overall responsibility for the Mercury-Redstone launch vehicles. By October of that year a status report on Marshall's involvement in Mercury noted that the first two Mercury-Redstones had been assembled by the Marshall Center with many of the components fabricated at Marshall. The Chrysler Corporation had assembled an additional six launch vehicles. The first four of the eight Mercury-Redstone vehicles had been static fired and the first Mercury-Redstone was on the launch pad at Cape Canaveral after a capsule-booster compatibility checkout in Huntsville. National Aeronautics and Space Administration unknown
195980608Washington DC: National Aeronautics and Space Administration 1959. Contemporary print. Photograph. Good. Sheet is approximately 8 inches by 10.5 inches. Black and white photographic image is approximately 9 inches by 6.5 inches. This is printed on photographic paper stock. The image is of a rocket next to a gantry taken at night. There are many people visible at ground level. This may be a photgraph of the Mercury Redstone rocket. It is contemporary with Project Mercury. Project Mercury was the first human spaceflight program of the United States running from 1958 through 1963. An early highlight of the Space Race its goal was to put a man into Earth orbit and return him safely ideally before the Soviet Union. Taken over from the US Air Force by the newly created civilian space agency NASA it conducted twenty uncrewed developmental flights some using animals and six successful flights by astronauts. The program took its name from Roman mythology. The astronauts were collectively known as the "Mercury Seven" and each spacecraft was given a name ending with a "7" by its pilot. The Mercury-Redstone launch vehicle was the first crewed launch vehicle in the United States space program. The Mercury-Redstone provided NASA with an opportunity understand performance aspects of the Mercury spacecraft the effect of a weightless environment on astronauts and launch and recovery operations at Kennedy Space Center. Development of the Redstone missile began directly after the transfer of the Fort Bliss rocket team to Huntsville Alabama in 1950. The fuselage of the Redstone was developed in-house at the Army's Guided Missile Development Division with Chrysler serving as prime contractor. Peenemunde veteran William A. Mrazek was placed in charge of developing the structure that consisted of pressurized aluminum propellant tanks. The tail unit consisted of a riveted aluminum structure with four stabilizing fins and air rudders with carbon jet vanes extending into the exhaust stream. The initial flight test of the Redstone occurred on August 20 1953 at Cape Canaveral. Between August 1953 and November 1958 37 Redstone missiles were fired altogether with only 13 experiencing any sort of malfunction. On October 7 1958 NASA formally organized Project Mercury to place a manned space capsule in orbital flight around the Earth investigate man's reaction to this new environment and recover the capsule and the pilot safely. The Army agreed to provide ten Redstone and three Jupiter vehicles for NASA's manned space program. Funding for the eight Redstone boosters was provided to the Army Ordnance Missile Command at the Arsenal in January 1959. "Man-rating" for human spaceflight what was previously a ballistic missile was not an easy project. Requirements for the project included launching a two-ton payload to an apogee of 100 nautical miles. The vehicle also had to meet important criteria of safety during launch adequate human factors consideration and necessary performance margins. A key development decision involved using the Jupiter C variation of the Redstone for the project. The Jupiter C design included a propellant tank six feet longer than the Redstone a lighter overall structure and improved performance capable of 78000 pounds of thrust. The elongated tanks of the Jupiter C provided the vehicle with an engine burn time of 143.5 seconds a twenty seconds increase over the Redstone. On July 1 1960 a core group from the Army Ballistic Missile Agency ABMA transferred from the Army to NASA formally creating the Marshall Space Flight Center. With this transfer came overall responsibility for the Mercury-Redstone launch vehicles. By October of that year a status report on Marshall's involvement in Mercury noted that the first two Mercury-Redstones had been assembled by the Marshall Center with many of the components fabricated at Marshall. The Chrysler Corporation had assembled an additional six launch vehicles. The first four of the eight Mercury-Redstone vehicles had been static fired and the first Mercury-Redstone was on the launch pad at Cape Canaveral after a capsule-booster compatibility checkout in Huntsville. National Aeronautics and Space Administration unknown
195980609Washington DC: National Aeronautics and Space Administration 1959. Contemporary print. Photograph. Good. Sheet is approximately 8 inches by 10.5 inches. Black and white photographic image is approximately 9 inches by 6.5 inches. This is printed on photographic paper stock. The image is of a rocket lifting off next to a gantry taken at night. This may be a photograph of the Mercury Redstone rocket. It is contemporary with Project Mercury. Project Mercury was the first human spaceflight program of the United States running from 1958 through 1963. An early highlight of the Space Race its goal was to put a man into Earth orbit and return him safely ideally before the Soviet Union. Taken over from the US Air Force by the newly created civilian space agency NASA it conducted twenty uncrewed developmental flights some using animals and six successful flights by astronauts. The program took its name from Roman mythology. The astronauts were collectively known as the "Mercury Seven" and each spacecraft was given a name ending with a "7" by its pilot. The Mercury-Redstone launch vehicle was the first crewed launch vehicle in the United States space program. The Mercury-Redstone provided NASA with an opportunity understand performance aspects of the Mercury spacecraft the effect of a weightless environment on astronauts and launch and recovery operations at Kennedy Space Center. Development of the Redstone missile began directly after the transfer of the Fort Bliss rocket team to Huntsville Alabama in 1950. The fuselage of the Redstone was developed in-house at the Army's Guided Missile Development Division with Chrysler serving as prime contractor. Peenemunde veteran William A. Mrazek was placed in charge of developing the structure that consisted of pressurized aluminum propellant tanks. The tail unit consisted of a riveted aluminum structure with four stabilizing fins and air rudders with carbon jet vanes extending into the exhaust stream. The initial flight test of the Redstone occurred on August 20 1953 at Cape Canaveral. Between August 1953 and November 1958 37 Redstone missiles were fired altogether with only 13 experiencing any sort of malfunction. On October 7 1958 NASA formally organized Project Mercury to place a manned space capsule in orbital flight around the Earth investigate man's reaction to this new environment and recover the capsule and the pilot safely. The Army agreed to provide ten Redstone and three Jupiter vehicles for NASA's manned space program. Funding for the eight Redstone boosters was provided to the Army Ordnance Missile Command at the Arsenal in January 1959. "Man-rating" for human spaceflight what was previously a ballistic missile was not an easy project. Requirements for the project included launching a two-ton payload to an apogee of 100 nautical miles. The vehicle also had to meet important criteria of safety during launch adequate human factors consideration and necessary performance margins. A key development decision involved using the Jupiter C variation of the Redstone for the project. The Jupiter C design included a propellant tank six feet longer than the Redstone a lighter overall structure and improved performance capable of 78000 pounds of thrust. The elongated tanks of the Jupiter C provided the vehicle with an engine burn time of 143.5 seconds a twenty seconds increase over the Redstone. On July 1 1960 a core group from the Army Ballistic Missile Agency ABMA transferred from the Army to NASA formally creating the Marshall Space Flight Center. With this transfer came overall responsibility for the Mercury-Redstone launch vehicles. By October of that year a status report on Marshall's involvement in Mercury noted that the first two Mercury-Redstones had been assembled by the Marshall Center with many of the components fabricated at Marshall. The Chrysler Corporation had assembled an additional six launch vehicles. The first four of the eight Mercury-Redstone vehicles had been static fired and the first Mercury-Redstone was on the launch pad at Cape Canaveral after a capsule-booster compatibility checkout in Huntsville. National Aeronautics and Space Administration unknown
196080612Washington DC: National Aeronautics and Space Administration 1960. Contemporary print. Photograph. Good. Sheet is approximately 8 inches by 10.5 inches. Black and white photographic image is approximately 9 inches by 6.5 inches. This is printed on photographic paper stock. The image is of a rocket taking off at night. This may be a photograph of a sounding rocket. Rocket has two visible fins near that base of the rocket. The photo is contemporary with Project Mercury. Project Mercury was the first human spaceflight program of the United States running from 1958 through 1963. An early highlight of the Space Race its goal was to put a man into Earth orbit and return him safely ideally before the Soviet Union. Taken over from the US Air Force by the newly created civilian space agency NASA it conducted twenty uncrewed developmental flights some using animals and six successful flights by astronauts. The program took its name from Roman mythology. The astronauts were collectively known as the "Mercury Seven" and each spacecraft was given a name ending with a "7" by its pilot. The Mercury-Redstone launch vehicle was the first crewed launch vehicle in the United States space program. The Mercury-Redstone provided NASA with an opportunity understand performance aspects of the Mercury spacecraft the effect of a weightless environment on astronauts and launch and recovery operations at Kennedy Space Center. Development of the Redstone missile began directly after the transfer of the Fort Bliss rocket team to Huntsville Alabama in 1950. The fuselage of the Redstone was developed in-house at the Army's Guided Missile Development Division with Chrysler serving as prime contractor. Peenemunde veteran William A. Mrazek was placed in charge of developing the structure that consisted of pressurized aluminum propellant tanks. The tail unit consisted of a riveted aluminum structure with four stabilizing fins and air rudders with carbon jet vanes extending into the exhaust stream. The initial flight test of the Redstone occurred on August 20 1953 at Cape Canaveral. Between August 1953 and November 1958 37 Redstone missiles were fired altogether with only 13 experiencing any sort of malfunction. On October 7 1958 NASA formally organized Project Mercury to place a manned space capsule in orbital flight around the Earth investigate man's reaction to this new environment and recover the capsule and the pilot safely. The Army agreed to provide ten Redstone and three Jupiter vehicles for NASA's manned space program. Funding for the eight Redstone boosters was provided to the Army Ordnance Missile Command at the Arsenal in January 1959. "Man-rating" for human spaceflight what was previously a ballistic missile was not an easy project. Requirements for the project included launching a two-ton payload to an apogee of 100 nautical miles. The vehicle also had to meet important criteria of safety during launch adequate human factors consideration and necessary performance margins. A key development decision involved using the Jupiter C variation of the Redstone for the project. The Jupiter C design included a propellant tank six feet longer than the Redstone a lighter overall structure and improved performance capable of 78000 pounds of thrust. The elongated tanks of the Jupiter C provided the vehicle with an engine burn time of 143.5 seconds a twenty seconds increase over the Redstone. On July 1 1960 a core group from the Army Ballistic Missile Agency ABMA transferred from the Army to NASA formally creating the Marshall Space Flight Center. With this transfer came overall responsibility for the Mercury-Redstone launch vehicles. By October of that year a status report on Marshall's involvement in Mercury noted that the first two Mercury-Redstones had been assembled by the Marshall Center with many of the components fabricated at Marshall. The Chrysler Corporation had assembled an additional six launch vehicles. The first four of the eight Mercury-Redstone vehicles had been static fired and the first Mercury-Redstone was on the launch pad at Cape Canaveral after a capsule-booster compatibility checkout in Huntsville. National Aeronautics and Space Administration unknown
199877307Cleveland OH: National Aeronautics and Space Administration NASA Lewis Research Center Space Communications Program 1998. Presumed First Edition First printing of this Premier Issue. Wraps. Very good. 15 1 pages. Illustrations. Mailing information and ink notation on back cover. Minor wear and soiling noted. This is the premier issue of a quarterly publication of the Space Communications Program at the NASA Lewis Research Center. As such it has become an extremely rare item in the space and the collectibles markets. A substantial amount of this issue's content is related to ACTS the Advance Communications Technology Satellite. NASA is developing architecture technologies communication system technologies and subsystem and component technologies to enable NASA's future missions in science and human exploration. We develop space communication architectures via commercial ventures and international forums and we are a major supporter of extending the Internet into space. Technologies are being developed to support intelligent autonomous communications architectures that enable anytime anywhere operations and provide end-to-end information delivery from space directly to users. Through coordinated studies with other NASA centers government agencies industry and academia our scientists and engineers are designing feasible communication network architectures that enable the storage transmission and dynamic routing of large amounts of data at high rates among space assets and between space and ground assets. National Aeronautics and Space Administration, NASA Lewis Research Center, Space Communications Program paperback
200786117Kennedy Space Center FL: National Aeronautics and Space Administration Kennedy Space Center 2007. Presumed First Edition First printing. Wraps. Very good. The format is approximately 8.25 inches by 11 inches. 8 pages. Illustrations some in color. This includes information on STS-114 STS-121 STS-115 and STS-116 the 17th 18th 19th and 20th Space Station flights The write-ups include mission highlights EVAs Launch and Landing. A latter version of Volume 3 had 12 pages and included two more missions into 2007. This variant is now quite scarce having been superseded. The International Space Station ISS is the largest modular space station in low Earth orbit. The project involves five space agencies: the United States' NASA Russia's Roscosmos Japan's JAXA Europe's ESA and Canada's CSA. The ownership and use of the space station is established by intergovernmental treaties and agreements. The station serves as a microgravity and space environment research laboratory in which scientific research is conducted in astrobiology astronomy meteorology physics and other fields. The ISS is suited for testing the spacecraft systems and equipment required for possible future long-duration missions to the Moon and Mars. The Space Shuttle was a partially reusable low Earth orbital spacecraft system operated by NASA the National Aeronautics and Space Administration. Its official program name was Space Transportation System STS taken from a 1969 plan for a system of reusable spacecraft of which it was the only item funded for development. Operational missions launched numerous satellites conducted science experiments in orbit and participated in construction and servicing of the International Space Station ISS. The first of four orbital test flights occurred in 1981 leading to operational flights beginning in 1982. From 1981 to 2011 a total of 135 missions were flown all launched from Kennedy Space Center KSC in Florida. During that time period the fleet logged 1322 days 19 hours 21 minutes and 23 seconds of flight time. The longest orbital flight of the Shuttle was STS-80 at 17 days 15 hours while the shortest flight was STS-51-L at one minute 13 seconds when the Space Shuttle Challenger broke apart during launch. The cold morning shrunk an O-Ring on the right Solid Rocket Booster causing the external fuel tank to explode. The shuttles docked with Russian space station Mir nine times and visited the ISS thirty-seven times. The highest altitude apogee achieved by the shuttle was 386 milrd when deploying the Hubble Space Telescope. The program flew a total of 355 people representing 16 countries and with 852 total shuttle fliers. The Kennedy Space Center served as the landing site for 78 missions while 54 missions landed at Edwards Air Force Base in California and one mission landed at White Sands New Mexico. The first orbiter built Enterprise was used for atmospheric flight tests ALT but future plans to upgrade it to orbital capability were ultimately canceled. Four fully operational orbiters were initially built: Columbia Challenger Discovery and Atlantis. Challenger and Columbia were destroyed in mission accidents in 1986 and 2003 respectively killing a total of fourteen astronauts. A fifth operational orbiter Endeavour was built in 1991 to replace Challenger. The Space Shuttle was retired from service upon the conclusion of STS-135 by Atlantis on 21 July 2011. National Aeronautics and Space Administration, Kennedy Space Center paperback
198974608Lyndon B. Johnson Space Center Houston TX: National Aeronautics and Space Administration 1989. Presumed First Edition First printing. Wraps. Good. vii 1 44 pages plus covers. Illustrations most in color. Cover has some wear and soiling with edge tear at back. Format is approximately 8.5 inches by 11 inches. The Spacelab Life Sciences 1 SLS-1 mission originated with a call to the scientific community for experiments in 1978. Accepted experiments involved humans primates rodents amphibians and plants. The original payload configuration was reduced to include human passive rodent and basic biology experiments and engineering evaluations. Human experiments will address effects of micro-gravity on various physiological parameters during and postflight. Investigations with nonhuman subjects will study microgravity effects on the cardiopulmonary cardiovascular and musculoskeletal systems on the regulation of blood volume and erythropoiesis and on calcium metabolism and gravity receptors. SLS-1 was to serve as a stepping stone in establishing capabilities for flying nonhuman subjects and performing in-flight manipulations on these subjects without jeopardizing the crew environment. Fundamental technology incorporated in the animal holding facilities and laboratory work bench will be used in subsequent missions and in the future Space Station. Space Life Science-1 SLS-1 launched aboard Space Shuttle Orbiter Columbia STS-40 on June 5 1991 was the first Spacelab mission dedicated solely to life sciences research. The laboratory for the research took place in a module shown here carried in the cargo bay of the Columbia. The purpose of the mission was to study the mechanisms magnitudes and time courses of certain physiological changes that occur during space flight to investigate the consequences of the body's adaptation to microgravity and readjustment to Earth's gravity and to bring the benefits back home to Earth. The mission was designed to explore the responses of the heart lungs blood vessels kidneys and hormone-secreting glands to examine the causes of space motion sickness and study changes in the muscles bones and cells. Many studies started during SLS-1 provided data that served as the foundation for investigations on the International Space Station. National Aeronautics and Space Administration paperback
200586140Washington DC: National Aeronautics and Space Administration NASA Center for AeroSpace Information CASI Publications and Graphics Department 2005. Presumed First Edition First printing of this annual report. Trade paperback. Very good. Lynette Cook Front cover art. The format is approximately 11 inches by 8.5 inches. 167 1 pages. Illustrations most with color. Annual report on technology transfer or "technology twice used" inventions from NASA. Since 1976 Spinoff has profiled technologies that benefit from NASA investment and expertise. These developments have transformed into commercial products and services that are used throughout daily life from your cell phone camera to the memory foam in your mattress. When Congress created NASA it mandated the agency disseminate its innovations as widely possible. To that end the Technology Transfer Program was created in 1964 and it has functioned ever since making it NASA’s longest continuously operated mission. Early publications about NASA inventions made available to the scientific and engineering communities resulted in feedback indicating a broad interest in the private sector in adapting NASA technology for commercial uses. As products began to emerge NASA began preparing annual reports on these successes to present at congressional budget hearings. Spinoff has been published in a four-color editionand it has been released every year since 1976. All together since its first edition NASA has shared the stories of more 2000 products and services that began as or have benefited from NASA technology. In addition to the general public NASA sends copies of Spinoff to politicians representatives at the United Nations economic decision makers company CEOs academics scientists engineers professionals in technology transfer the news media and many others. The early black-and-white Technology Utilization Program Reports published in 1973 and ‘74 generated so much public interest that NASA decided to turn them into an attractive publication for a general audience. NASA SPINOFF now features dozens of success stories annually online and in its print publication demonstrating the wider benefits of America’s investment in its space program. The 2005 edition highlights Partnership Benefits in Health and Medicine Transportation Public Safety Consumer/Home/Recreations Environment and Resources Management; Computer Technology and Industrial Productivity/Manufacturing Technology. National Aeronautics and Space Administration, NASA Center for AeroSpace Information (CASI), Publications and Graphics Departmen paperback
199567850Washington DC: National Aeronautics and Space Administration 1995. Presumed first edition/first printing. Wraps. Good. No dust jacket. Cover has some wear and soiling. Tabs folced. Includes illustrations. Approximately 200 pages. Contains the two-day agenda and presentations from the first day Sessions 1 and 2. Occasional footnotes. This appears to be the first volume of a two volume proceedings of a NASA sponsored conference held in Washington DC. National Aeronautics and Space Administration paperback
196263828United States National Aeronautics and Space Administration 1962. Wraps. Good. No dust jacket. Cover has some wear and soiling. Includes illustrations. Unpaginated 40 pages plus covers United States, National Aeronautics and Space Administration paperback
194486761Washington DC: United States Navy Bureau of Aeronautics Special Devices Division 1944. Presumed First Edition First printing. Collectible Cards boxed in Card deck package. Good. Set of 54 cards with black and white photographs on one side and silhouette images of British warships and aircraft on the other side. Each card marked RESTRICTED and date August 1944. Believed to be a complete set of 54 cards comparable to a playing card deck with 52 standard cards and two additional cards/jokers. Box has some wear and soiling. The Bureau of Aeronautics BuAer was the U.S. Navy's material-support organization for naval aviation from 1921 to 1959. The bureau had "cognizance" i.e. responsibility for the design procurement and support of naval aircraft and related systems. Aerial weapons however were under the cognizance of the Navy's Bureau of Ordnance BuOrd. World War II brought immense changes as well. BuAer was forced to expand rapidly in order to comply with the nation's defense needs. By the war's end the bureau had developed an administrative structure that oversaw thousands of personnel and the procurement and maintenance of tens of thousands of aircraft. In 1943 the Navy established the position of Deputy Chief of Naval Operations for Air or DCNOAir a move which relieved some of BuAer's responsibility for Fleet operations. RADM McCain now promoted to vice admiral was the first to fill the position. It is likely that this set was produced to be used in the European Theater possibly in connection with the invasion of the German homeland. United States Navy Bureau of Aeronautics Special Devices Division unknown