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Search Results: All Fields similar to 'Pioneer' and Where equal to 'Marshall Space Flight Center (MSFC)'
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Dr. von Braun with Pioneer I
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| Name of Image |
Dr. von Braun with Pioneer IV |
| Date of Image |
1959-03-01 |
| Full Description |
Dr. von Braun and engineers inspect two components of Pioneer IV satellite, the payload of the Juno II AM14, March 1, 1959. The mercury batteries (left) would be used to power the radio transmitter, cosmic radiation counter and other instruments in Pioneer IV. The conical shroud placed over instruments of Pioneer IV was plated with gold to improve conductivity. The metal surface also served as the anterna for the probe's instruments signaling back to the Earth receiving stations. |
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Pioneer III
| Name of Image |
Pioneer III |
| Date of Image |
1959-01-01 |
| Full Description |
Assemblies of Pioneer III, lunar and planetary exploration satellite and the payload for AM-11 (Juno II). Pioneer III was launched on December 6, 1959. The mission was unsuccessful. |
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Launch of Juno II/Pioneer IV
| Name of Image |
Launch of Juno II/Pioneer IV |
| Date of Image |
1959-03-03 |
| Full Description |
The launch of Juno II (AM-14), carrying the lunar and planetary exploration satellite in orbit, Pioneer IV, on March 3, 1959. the Pioneer IV probe was the first U.S. satellite to orbit the Sun. |
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Pioneer IV
| Name of Image |
Pioneer IV |
| Date of Image |
1959-02-16 |
| Full Description |
Installing Pioneer IV, payload for AM-14 (Juno II) onto the fourth stage on the cluster before a spin test, February 16, 1959. The Pioneer IV, lunar and planetary exploration satellite, was the first U.S. satellite to orbit the Sun. |
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Dr. von Braun and Dr. Debus
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| Name of Image |
Dr. von Braun and Dr. Debus With Pioneer IV Components |
| Date of Image |
1959-03-01 |
| Full Description |
In this photo, Director of the U.S. Army Ballistic Missile Agency's (ABMA) Development Operations Division, Dr. Wernher von Braun, and Director of Missile Firing Division, Dr. Kurt Debus, are shown with unidentified individuals, discussing two components that would make up the Pioneer IV Lunar Probe. The mercury batteries (left) were used to power the radio transmitter, cosmic radiation counter and other instruments in Pioneer IV. The conical shroud placed over the instruments of Pioneer IV was plated with gold to improve conductivity. The metal surface also served as the anterna for the probe's instruments signaling back to the Earth receiving stations. |
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Dr. von Braun During the Pio
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| Name of Image |
Dr. von Braun During the Pioneer IV Launch |
| Date of Image |
1959-03-03 |
| Full Description |
Dr. von Braun at the launch control room during the Pioneer IV launch, March 3, 1959. |
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Launch of the Atlas-Centaur,
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| Name of Image |
Launch of the Atlas-Centaur, Pioneer G |
| Date of Image |
1973-04-15 |
| Full Description |
The launch of the Atlas-Centaur carrying the Pioneer G (11) spacecraft on April 5, 1973. The objects of this flight was to explore the planet Jupiter and its environment. |
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Dr. von Braun at a Parade Ce
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| Name of Image |
Dr. von Braun at a Parade Celebrating the Launch of the Pioneer IV |
| Date of Image |
1959-03-04 |
| Full Description |
Dr. Wernher von Braun, Director of the U.S. Army Ballistic Missile Agency's (ABMA) Development Operations Division, rides with his two daughters, Margrit and Iris, in a parade in downtown Huntsville, Alabama, March 4, 1959. Although the official occasion had been plarned a "Moon Day" weeks before, it was the successful launch of the sun probe Pioneer IV two days previously that increased the celebratory atmosphere. |
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Juno II
| Name of Image |
Juno II |
| Date of Image |
1959-03-03 |
| Full Description |
Wernher von Braun and his team were responsible for the Jupiter-C hardware. The family of launch vehicles developed by the team also came to include the Juno II, which was used to launch the Pioneer IV satellite on March 3, 1959. Pioneer IV passed within 37,000 miles of the Moon before going into solar orbit. |
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Installation of Pioneer III
| Name of Image |
Installation of Pioneer III |
| Date of Image |
1959-01-01 |
| Full Description |
In this photograph, the lunar and planetary exploration satellite, Pioneer III, is being prepared for installation to Juno II (AM-11) launch vehicle. AM-11 was launched on December 5, 1959, but the mission was unsuccessful. |
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Dr. von Braun on the Telepho
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| Name of Image |
Dr. von Braun on the Telephone |
| Date of Image |
1959-03-01 |
| Full Description |
Dr. von Braun on the telephone prior to the launch of the Pioneer IV, March 1, 1959. |
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Juno II (AM-14)
| Name of Image |
Juno II (AM-14) |
| Date of Image |
1959-03-03 |
| Full Description |
Juno II (AM-14) on the launch pad just prior to launch, March 3, 1959. The payload of AM-14 was Pioneer IV, America's first successful lunar mission. The Juno II was a modification of Jupiter ballistic missile |
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Dr. von Braun and Dr. Debus
| Name of Image |
Dr. von Braun and Dr. Debus |
| Date of Image |
1959-03-03 |
| Full Description |
Dr. von Braun, Director of the Development Operations Divisons, and Dr. Debus, Director of the Missile Firing Laboratory, Army Ballistic Missile Agency (ABMA), in the blockhouse during the launch of the Pioneer IV, March 3, 1959. |
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Dr. von Braun During Pioneer
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| Name of Image |
Dr. von Braun During Pioneer IV Launch |
| Date of Image |
1959-03-03 |
| Full Description |
This photograph shows Dr. von Braun, second from the left, in the blockhouse at the Florida launch facilities on March 3, 1959. He and others gathered for the launch of the Pioneer IV satellite. On the left of Dr. von Braun is Kurt Debus, who managed the Florida launch facilities. To the right of Dr. von Braun is Army General John B. Medaris. Next to him is General John Barclay. At this time, Dr. von Braun and his associates were members of the Army Ballistic Missile Agency in Huntsville, Alabama. |
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Dr. von Braun and Dr. Debus
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| Name of Image |
Dr. von Braun and Dr. Debus During CM-21 Firing |
| Date of Image |
1959-01-21 |
| Full Description |
In this photo, (left to right) Army Ballistic Missile Agency (ABMA) Missile Firing Laboratory Chief Dr. Kurt Debus, Director of the ABMA Development Operations Division, Dr. von Braun and an unidentified individual in blockhouse during the CM-21 (Jupiter) firing. The Jupiter missile CM-21 became the first Chrysler production qualification missile to be fired and in March 1959 launched the Pioneer IV. |
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Juno II
| Name of Image |
Juno II |
| Date of Image |
1959-08-14 |
| Full Description |
The Juno II launch vehicle, shown here, was a modified Jupiter Intermediate-Range Ballistic missionile, developed by Dr. Wernher von Braun and the rocket team at Redstone Arsenal in Huntsville, Alabama. Between December 1958 and April 1961, the Juno II launched space probes Pioneer III and IV, as well as Explorer satellites VII, VIII and XI. |
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The Sun's Heliosphere & Heli
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| Title |
The Sun's Heliosphere & Heliopause |
| Explanation |
Where does the Sun's influence end? Nobody is sure. Out past the orbits of Neptune [ http://antwrp.gsfc.nasa.gov/apod/neptune.html ] and Pluto [ http://www.nineplanets.org/pluto.html ] extends a region named the heliosphere [ http://science.msfc.nasa.gov/ssl/pad/solar/heliosph.htm ] where the Sun's magnetic field [ http://science.msfc.nasa.gov/ssl/pad/solar/the_key.htm ] and particles from the Solar Wind [ http://science.msfc.nasa.gov/ssl/pad/solar/sun_wind.htm ] continue to dominate. The surface where the Solar Wind [ http://antwrp.gsfc.nasa.gov/apod/ap000318.html ] drops below sound speed [ http://antwrp.gsfc.nasa.gov/apod/ap010221.html ] is called the termination shock [ http://web.mit.edu/space/www/voyager/voyager_science/helio.review/axford.suess.html#Distance ] and is depicted as the inner oval in the above computer-generated illustration [ http://www.cs.indiana.edu/~soljourn/ ]. It is thought that this surface occurs as close as 75-90 AU [ http://neo.jpl.nasa.gov/glossary/au.html ] -- so close that a Pioneer [ http://spaceprojects.arc.nasa.gov/Space_Projects/pioneer/PNhome.html ] or Voyager [ http://voyager.jpl.nasa.gov/ ] spacecraft may soon glide through [ http://www.srl.caltech.edu/personnel/ace/recentpub/JGR_96/pap_preprint.html ] it as they exit the Solar System [ http://antwrp.gsfc.nasa.gov/apod/ap020214.html ] at about 3 AU/year. The actual contact sheet between the Sun's ions [ http://www-istp.gsfc.nasa.gov/Education/wplasma.html ] and the Galaxy's ions is called the heliopause [ http://www-pw.physics.uiowa.edu/plasma-wave/voyager/heliopr.html ] and is thought to occur at about 110 AU. It is depicted above as the middle surface. The Sun's heliopause [ http://web.mit.edu/space/www/voyager/voyager_science/helio.review/axford.suess.html ] moves through the local interstellar medium [ http://antwrp.gsfc.nasa.gov/apod/ap020210.html ] much as a boat moves on water, pushing a bow shock [ http://antwrp.gsfc.nasa.gov/apod/ap001017.html ] out in front, thought to occur near 230 AU. |
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Weijia Zhou Inspects the Adv
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| Name of Image |
Weijia Zhou Inspects the Advanced Astroculture plant growth unit |
| Date of Image |
2003-02-09 |
| Full Description |
Dr. Weijia Zhou, director of the Wisconsin Center for Space Automation and Robotics at the University of Wisconsin-Madison, inspects the Advanced Astroculture(tm) plant growth unit before its first flight last spring. Coating technology is used inside the miniature plant greenhouse to remove ethylene, a chemical produced by plant leaves that can cause plants to mature too quickly. This same coating technology is used in a new anthrax-killing device. The Space Station experiment is managed by the Space Product Development Program at NASA's Marshall Space Flight Center in Huntsville, Ala. DuPont is partnering with NASA and the Wisconsin Center for Space Automation and Robotics (WCSAR) at the University of Wisconsin-Madison to grow soybeans aboard the Space Station to find out if they have improved oil, protein, carbohydrates or secondary metabolites that could benefit farmers and consumers. Principal Investigators: Dr. Tom Corbin, Pioneer Hi-Bred International Inc., a Dupont Company, with headquarters in Des Moines, Iowa, and Dr. Weijia Zhou, Wisconsin Center for Space Automation and Robotics (WCSAR), University of Wisconsin-Madison. |
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Soybeans Growing inside the
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| Name of Image |
Soybeans Growing inside the Advanced Astroculture Plant Growth Chamber |
| Date of Image |
2003-02-09 |
| Full Description |
This composite image shows soybean plants growing in the Advanced Astroculture experiment aboard the International Space Station during June 11-July 2, 2002. DuPont is partnering with NASA and the Wisconsin Center for Space Automation and Robotics (WCSAR) at the University of Wisconsin-Madison to grow soybeans aboard the Space Station to find out if they have improved oil, protein, carbohydrates or secondary metabolites that could benefit farmers and consumers. Principal Investigators: Dr. Tom Corbin, Pioneer Hi-Bred International Inc., a Dupont Company, with headquarters in Des Moines, Iowa, and Dr. Weijia Zhou, Wisconsin Center for Space Automation and Robotics (WCSAR), University of Wisconsin-Madison. |
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Five Pioneers with Scale Mod
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| Name of Image |
Five Pioneers with Scale Models of Their Missiles |
| Date of Image |
1950-01-01 |
| Full Description |
Five pioneers pose with scale models of their missiles they created in the 1950s. From left to right: Dr. Ernst Stuhlinger, a member of the original German rocket team who directed the Research Projects Office, Army Ballistic Missile Agency (ABMA), Major General Holger Toftoy, who consolidated U.S. missile and rocketry development, Professor Herman Oberth, a rocket pioneer and Dr. von Braun's mentor, Dr. Wernher von Braun, Director, Development Operation Division, ABMA, and Dr. Robert Lusser, who served as assistant director for Reliability Engineering for ABMA. This photographis was taken February 1, 1956 by Hank Walker and appeared in February 27, 1956 issue of Life magazine. |
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Juno II Launch Vehicle
| Name of Image |
Juno II Launch Vehicle |
| Date of Image |
1958-01-01 |
| Full Description |
The modified Jupiter C (sometimes called Juno I), used to launch Explorer I, had minimum payload lifting capabilities. Explorer I weighed slightly less than 31 pounds. Juno II was part of America's effort to increase payload lifting capabilities. Among other achievements, the vehicle successfully launched a Pioneer IV satellite on March 3, 1959, and an Explorer VII satellite on October 13, 1959. Responsibility for Juno II passed from the Army to the Marshall Space Flight Center when the Center was activated on July 1, 1960. On November 3, 1960, a Juno II sent Explorer VIII into a 1,000-mile deep orbit within the ionosphere. |
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Dr. von Braun Standing by Fi
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| Name of Image |
Dr. von Braun Standing by Five F-1 Engines |
| Date of Image |
2004-04-15 |
| Full Description |
A pioneer of America's space program, Dr. von Braun stands by the five F-1 engines of the Saturn V launch vehicle. This Saturn V vehicle is an actual test vehicle which has been displayed at the U.S. Space Rocket Center in Huntsville, Alabama. Designed and developed by Rocketdyne under the direction of the Marshall Space Flight Center, a cluster of five F-1 engines was mounted on the Saturn V S-IC (first) stage. The engines measured 19-feet tall by 12.5-feet at the nozzle exit and burned 15 tons of liquid oxygen and kerosene each second to produce 7,500,000 pounds of thrust. The S-IC stage is the first stage, or booster, of a 364-foot long rocket that ultimately took astronauts to the Moon. |
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Official Portrait of Astrona
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| Name of Image |
Official Portrait of Astronaut Frank Borman |
| Date of Image |
1964-09-09 |
| Full Description |
This is the official portrait of astronaut Frank Borman. A career Air Force officer from 1950, his assignments included service as a fighter pilot, an operational pilot and instructor, an experimental test pilot and an assistant professor of thermodynamics and fluid mechanics at West Point. When selected by NASA, Frank Borman was an instructor at the Aerospace Research Pilot School at Edwards AFB, California. In 1967 he served as a member of the Apollo 204 Fire Investigation Board, investigating the causes of the fire which killed three astronauts aboard an Apollo spacecraft. Later he became the Apollo Program Resident Manager, heading the team that reengineered the Apollo spacecraft. He also served as Field Director of the NASA Space Station Task Force. Frank Borman retired from the air Force in 1970, but is well remembered as a part of American history as a pioneer in the exploration of space. He is a veteran of both the Gemini 7, 1965 Space Orbital Rendezvous with Gemini 6 and the first manned lunar orbital mission, Apollo 8, in 1968. |
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Leon Van Speybroeck Wins Ast
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| Name of Image |
Leon Van Speybroeck Wins Astrophysics Bruno Rossi Prize |
| Date of Image |
2002-01-23 |
| Full Description |
Leon Van Speybroeck of the Harvard-Smithsonian Center for Astrophysics in Cambridge Massachusetts was awarded the 2002 Bruno Rossi Prize of the High-Energy Astrophysics Division of the American Astronomy Society. The Rossi Prize is an arnual recognition of significant contributions in high-energy astrophysics in honor of the Massachusetts Institute of Technology's late Professor Bruno Rossi, an authority on cosmic ray physics and a pioneer in the field of x-ray astronomy. Van Speybroeck, who led the effort to design and make the x-ray mirrors for NASA's premier Chandra X-Ray Observatory, was recognized for a career of stellar achievements in designing precision x-ray optics. As Telescope Scientist for Chandra, he has worked for more than 20 years with a team that includes scientists and engineers from the Harvard-Smithsonian, NASA's Marshall Space Flight Center, TRW, Inc., Huhes-Danbury (now B.F. Goodrich Aerospace), Optical Coating Laboratories, Inc., and Eastman-Kodak on all aspects of the x-ray mirror assembly that is the heart of the observatory. |
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Marshall Team Recreates Godd
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| Name of Image |
Marshall Team Recreates Goddard Rocket |
| Date of Image |
2003-07-01 |
| Full Description |
In honor of the Centernial of Flight celebration and commissioned by the American Institute of Aeronautics and Astronautics (AIAA), a team of engineers from Marshall Space Flight Center (MSFC) built a replica of the first liquid-fueled rocket. The original rocket, designed and built by rocket engineering pioneer Robert H. Goddard in 1926, opened the door to modern rocketry. Goddard's rocket reached an altitude of 41 feet while its flight lasted only 2.5 seconds. The Marshall design team's plan was to stay as close as possible to an authentic reconstruction of Goddard's rocket. The same propellants were used - liquid oxygen and gasoline - as available during Goddard's initial testing and firing. The team also tried to construct the replica using the original materials and design to the greatest extent possible. By purposely using less advanced techniques and materials than many that are available today, the team encountered numerous technical challenges in testing the functional hardware. There were no original blueprints or drawings, only photographs and notes. However, this faithful adherence to historical accuracy has also allowed the team to experience many of the same challenges Goddard faced 77 years ago, and more fully appreciate the genius of this extraordinary man. The replica will undergo ground tests at MSFC this summer. |
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Von Braun's Wheel
| Title |
Von Braun's Wheel |
| Explanation |
Orbiting 1,075 miles above the Earth, a 250 foot wide, inflated, reinforced nylon "wheel" was conceived in the early 1950s [ http://repos.msfc.nasa.gov/history/mm/sect005.html#Early Space Station Concepts ] to function as a navigational aid, meteorological station, military platform, and way station for space [ http://liftoff.msfc.nasa.gov/station/welcome.html ] exploration by rocket pioneer Wernher von Braun [ http://repos.msfc.nasa.gov/history/mm/vonbio.html ]. The wheel shaped station could be easily rotated creating artificial gravity so that the astronauts would not suffer the effects of prolonged weightlessness. Von Braun and his team favored building a permanently occupied Earth orbiting space station [ http://issa-www.jsc.nasa.gov/ss/spacestation.html ] from which to stage a lunar exploration program [ http://antwrp.gsfc.nasa.gov/apod/ap950909.html ]. But in the 1960s NASA adopted the Apollo Program [ http://antwrp.gsfc.nasa.gov/apod/ap950921.html ], which called for astronauts to transfer to a lunar landing vehicle after achieving lunar orbit, bypassing the construction of von Braun's wheel. |
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Marshall Team Fires Recreate
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| Name of Image |
Marshall Team Fires Recreated Goddard Rocket |
| Date of Image |
2003-07-23 |
| Full Description |
In honor of the Centernial of Flight Celebration and commissioned by the American Institute of Aeronautics and Astronautics (AIAA), a team of engineers from Marshall Space Flight Center (MSFC) built a replica of the first liquid-fueled rocket. The original rocket, designed and built by rocket engineering pioneer Robert H. Goddard in 1926, opened the door to modern rocketry. Goddard's rocket reached an altitude of 41 feet while its flight lasted only 2.5 seconds. The Marshall design team's plan was to stay as close as possible to an authentic reconstruction of Goddard's rocket. The same propellants were used - liquid oxygen and gasoline - as available during Goddard's initial testing and firing. The team also tried to construct the replica using the original materials and design to the greatest extent possible. By purposely using less advanced techniques and materials than many that are available today, the team encountered numerous technical challenges in testing the functional hardware. There were no original blueprints or drawings, only photographs and notes. However, this faithful adherence to historical accuracy has allowed the team to experience many of the same challenges Goddard faced 77 years ago, and more fully appreciate the genius of this extraordinary man. In this photo, the replica is shown firing in the A-frame launch stand in near-flight configuration at MSFC's Test Area 116 during the American Institute of Aeronautics and Astronautics 39th Joint Propulsion Conference on July 23, 2003. |
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Saturn The Giant
| Title |
Saturn The Giant |
| Explanation |
Forty years ago today (May 25, 1961) U.S. president John Kennedy announced [ http://history.nasa.gov/moondec.html ] the goal of landing Americans on the Moon by the end of the decade. Kennedy's ambitious speech triggered [ http://www.wamu.org/special/moon.html ] a nearly unprecedented peacetime technological mobilization and one result was the Saturn V [ http://www.hrw.com/science/si-science/earth/spacetravel/ spacerace/SpaceRace/sec300/sec380.html ] moon rocket [ http://kids.msfc.nasa.gov/Rockets/ ]. Its development directed by rocket pioneer Wernher Von Braun, the three stage Saturn V stood [ http://www.hq.nasa.gov/office/pao/History/SP-350/ch-3-1.html ] over 36 stories tall. It had a cluster of five first stage [ http://grin.hq.nasa.gov/ABSTRACTS/GPN-2000-000559.html ] engines fueled by [ http://users.commkey.net/Braeunig/space/propel.htm ] liquid oxygen and kerosene which together were capable of producing 7.5 million pounds of thrust. Giant Saturn V rockets ultimately hurled [ http://www.hq.nasa.gov/office/pao/History/SP-4204/ contents.html ] nine Apollo missions [ http://history.nasa.gov/apollo.html ] to the Moon and back again [ http://www.literature.org/authors/verne-jules/ round-the-moon/ ] with six landing on the lunar surface [ http://www.hq.nasa.gov/office/pao/History/alsj/ ]. The first landing, by Apollo 11 [ http://history.nasa.gov/ap11ann/ introduction.htm ], occurred on July 20, 1969 achieving Kennedy's goal. Bathed in light, this Saturn V [ http://www.apollosaturn.com/frame-sv.htm ] awaits an April 11, 1970 launch on the third lunar landing mission, Apollo 13 [ http://antwrp.gsfc.nasa.gov/apod/ap010519.html ]. |
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Mercury Astronauts and a Red
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| Title |
Mercury Astronauts and a Redstone |
| Explanation |
Space suited project Mercury [ http://www.ksc.nasa.gov/history/mercury/mercury.html ] astronauts John H. Glenn [ http://politicsusa.com/PoliticsUSA/resources/almanac/ohs1.html.cgi ], Virgil I. Grissom [ http://repos.msfc.nasa.gov/history/mm/grisbio.html ], and Alan B. Shepard Jr. [ http://repos.msfc.nasa.gov/history/mm/shepbio.html ] (left to right) are pictured here posing in front of a Redstone rocket [ http://www.redstone.army.mil/history/pioneer.html ] in this 1961 NASA publicity photo. Project Mercury [ http://www.osf.hq.nasa.gov/mercury/ ] was the first U.S. program designed to put humans in space. It resulted in 6 manned flights using one-man capsules and Redstone and Atlas rockets. Shortly after the first U.S. manned flight on May 5, 1961, a suborbital flight piloted by Alan Shepard, President Kennedy announced the goal of a manned lunar landing by 1970. This goal was achieved by NASA's Apollo program [ http://bang.lanl.gov/solarsys/apo14.htm ] and Shepard himself walked on the moon as a member of the Apollo 14 [ http://antwrp.gsfc.nasa.gov/apod/ap951209.html ] mission. |
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