|
|
Mariner 1 Launch
| title |
Mariner 1 Launch |
| date |
07.22.1962 |
| description |
An Atlas-Agena 5 carrying the Mariner 1 spacecraft lifts off from the Cape Kennedy Launch Complex on a mission to Venus. The rocket went off course and was blown up by a range safety officer about 5 minutes into flight. One month later, Mariner 2's launch was successful and it became the first spacecraft to fly past Venus in December 1962. *Image Credit*: NASA |
|
Mariner 2
| title |
Mariner 2 |
| description |
Mariner 2 was the world's first successful interplanetary spacecraft. Launched August 27, 1962, on an Atlas-Agena rocket, Mariner 2 passed within about 34,000 kilometers (21,000 miles) of Venus, sending back valuable new information about interplanetary space and the Venusian atmosphere. Mariner 2 recorded the temperature at Venus for the first time, revealing the planet's very hot atmosphere of about 500 degrees Celsius (900 degrees Fahrenheit). The spacecraft's solar wind experiment measured for the first time the density, velocity, composition and variation over time of the solar wind. *Image Credit*: NASA/JPL |
|
Mariner 1 Launch
| Title |
Mariner 1 Launch |
| Full Description |
An Atlas-Agena 5 carrying the Mariner 1 spacecraft lifted off today from Cape Kennedy Launch Complex 12. The Mariner spacecraft is scheduled to orbit Venus. |
| Date |
7/22/1962 |
| NASA Center |
Kennedy Space Center |
|
Agena Firing
| Title |
Agena Firing |
| Full Description |
The Gemini 10 spacecraft is successfully docked with the Agena Target Vehicle. The Agena display panel is clearly visible as is glow from Agena's primary propulsion system. |
| Date |
07/18/1966 |
| NASA Center |
Johnson Space Center |
|
Aldrin Performs EVA
| Title |
Aldrin Performs EVA |
| Full Description |
Edwin E. Aldrin Jr., pilot of the Gemini 12 spacecraft performs extravehicular activity (EVA) during the second day of the four day mission in space. Aldrin is positioned next to the Agena work station. |
| Date |
11/12/1966 |
| NASA Center |
Johnson Space Center |
|
Nimbus-A, Weather Satellite
| Title |
Nimbus-A, Weather Satellite |
| Full Description |
Nimbus-A, an advanced meteorological satellite, was launched August 28, 1964, from Vandenberg Air Force Base, California, on a Thor-Agena B launch vehicle. The satellite was designed in two sections. The lower circular ring housed the meteorological sensors and electronics. The upper hexagonal section contained the altitude control system and had two solar panels with 10,500 individual panels on each side. Nimbus-A weighed 830 lbs. and was comprised of 40,000 components. The satellite was built by General Electric Company and remained operational until September 23, 1964. |
| Date |
8/9/1964 |
| NASA Center |
Headquarters |
|
Artist's Concept of Seasat-A
| Title |
Artist's Concept of Seasat-A |
| Full Description |
An artist's concept of Seasat A, the first spacecraft dedicated for oceanographic studies. Seasat A was designed for monitoring the Earth's oceans with active microwave instruments. The scientific objectives were to collect data on sea-surface winds, oceanography, sea-surface temperatures, wave heights, wavelength and direction, atmospheric water, and sea ice features. Seasat-A was launched on June 16, 1978, on an Atlas-Agena launch vehicle from Vandenberg Air Force Base, California. The mission ended after 116 days due to a failure of the spacecraft's electric power system. The mission demonstrated the feasibility of using microwave sensors to monitor ocean conditions, and laid the groundwork for future ocean missions. The science of oceanography began more than 100 years ago with the sailing of HMS Challenger. Challenger's round-the- world trip became the model for oceanographic voyages. |
| Date |
5/16/1978 |
| NASA Center |
Headquarters |
|
Atlas Agena Launch
| Title |
Atlas Agena Launch |
| Full Description |
Atlas Agena target vehicle liftoff for Gemini 11 from Pad 14. Once the Agena was in orbit, Gemini 11 rendezvoused and docked with it. |
| Date |
9/12/1966 |
| NASA Center |
Kennedy Space Center |
|
Profile of Agena Docking Tar
…
| Title |
Profile of Agena Docking Target |
| Full Description |
A profile view of the Agena Docking Target Vehicle as seen from the Gemini 8 spacecraft during rendezvous in space. |
| Date |
03/16/1966 |
| NASA Center |
Johnson Space Center |
|
Gemini 10 launch time exposu
…
| Title |
Gemini 10 launch time exposure |
| Full Description |
A time-exposure photograph shows the configuration of Pad 19 up until the launch of Gemini 10. Onboard the spacecraft are John W. Young and Michael Collins. The two astronauts would spend almost three days practicing docking with the Agena target vehicle and conducting a number of experiments. |
| Date |
07/18/1966 |
| NASA Center |
Johnson Space Center |
|
Gemini 11 maintenance
| Title |
Gemini 11 maintenance |
| Full Description |
The Gemini 11 spacecraft is lowered onto a dolly for preflight maintenance before stacking on the Titan rocket at the Kennedy Space Center. Dick Gordon and Pete Conrad would liftoff in this spacecraft on September 12, 1966 for a mission lasting almost three days. The crew practiced docking with the Agena unmanned docking craft, and Gordon also performed two spacewalks during the mission. |
| Date |
07/21/1966 |
| NASA Center |
Johnson Space Center |
|
Gemini with Agena on Earth
| Title |
Gemini with Agena on Earth |
| Full Description |
Gemini 6 spacecraft (right) and Agena Target Vehicle (left) on the Boresight Range Tower for at the Kennedy Space Center to test the two spacecrafts? docking capability. Agena was designed to launch separately from Gemini and act as a target for astronauts in a Gemini spacecraft to rendezvous with. Gemini 6 was slated to be the first mission to dock with Agena, but a malfunction with the unmanned target resulted in new objectives for Gemini 6 calling for a one day rendezvous with Gemini 7 in December, 1965. |
| Date |
1965 |
| NASA Center |
Johnson Space Center |
|
Gemini-Titan 11 Launch
| Title |
Gemini-Titan 11 Launch |
| Full Description |
Lift-off of Gemini-Titan 11 (GT-11) on Complex 19. The Gemini 11 mission included a rendezvous with an Agena target vehicle. |
| Date |
9/12/1966 |
| NASA Center |
Kennedy Space Center |
|
The First Docking in Space
| Title |
The First Docking in Space |
| Full Description |
The Agena Target Vehicle as seen from the Gemini 8 spacecraft during rendezvous. This was the first time two spacecraft successfully docked, which was a critical milestone if a mission to the Moon was to become a reality. |
| Date |
03/16/1966 |
| NASA Center |
Johnson Space Center |
|
Atlas-Agena
| Name of Image |
Atlas-Agena |
| Date of Image |
1962-04-23 |
| Full Description |
The Atlas-Agena-4 boosted the Ranger IV spacecraft for the first U.S. lunar impact on April 23, 1962. |
|
Thorad-Agena Launch vehicle
| Name of Image |
Thorad-Agena Launch vehicle |
| Date of Image |
1970-02-04 |
| Full Description |
The Thorad-Agena launch vehicle with the SERT-2 (Space Electric Rocket Test-2) spacecraft on launch pad at the Western Test Range in California. The SERT-2 was launched on February 4, 1970 and tested the capability of an electric ion thruster system. |
|
Thor-Agena
| Name of Image |
Thor-Agena |
| Date of Image |
1969-04-13 |
| Full Description |
The Thor-Agena-10 launched the Nimbus III, Earth observation and meteorology satellite, on April 13, 1969. |
|
Titan, Gemini 12, liftoff
| Name of Image |
Titan, Gemini 12, liftoff |
| Date of Image |
1966-11-11 |
| Full Description |
The Gemini 12 astronauts James Lovell and Edwin Aldrin lifted off aboard a Titan launch vehicle from the Kennedy Space Center on November 11, 1966. an hour and a half after their Agena target vehicle was orbited by an Atlas rocket. The Gemini Program was an intermediate step between Project Mercury and the Apollo Program. The major objectives were to subject are two men and supporting equipment to long duration flights, to effect rendezvous and docking with other orbiting vehicle, and to perfect methods of reentry, and landing the spacecraft. |
|
Atlas Agena Launch
| Name of Image |
Atlas Agena Launch |
| Date of Image |
1966-03-16 |
| Full Description |
On March 16, 1966, an Atlas booster launched an Agena Target Vehicle for the Gemini 8 mission. The flight crew for the 3 day mission, astronauts Neil A. Armstrong and David R. Scott, achieved the first rendezvous and docking to Atlas/Agena in Earth orbit. |
|
Gemini 8 Launched by Titan B
…
| Name of Image |
Gemini 8 Launched by Titan Booster |
| Date of Image |
1966-03-16 |
| Full Description |
A Titan booster launched the Gemini 8 spacecraft on March 16, 1966 from launch complex 19 Cape Kennedy, Florida. The flight crew for the 3 day mission, astronauts Neil A. Armstrong and David R. Scott, achieved the first rendezvous and docking to Atlas/Agena in Earth orbit. |
|
Atlas-Agena, Gemini 12, laun
…
| Name of Image |
Atlas-Agena, Gemini 12, launch |
| Date of Image |
1966-11-11 |
| Full Description |
The launch of an Atlas-Agena booster carrying the target vehicle for the Gemini 12 mission on November 11, 1966. The Gemini Program was the intermediate step between the Project Mercury and the Apollo Program. Major objectives of the Gemini Program were to subject two men and supporting equipment to long duration flights, and to effect rendezvous and docking with other orbiting vehicles. |
|
Dr. von Braun Inspecting Gem
…
| Name of Image |
Dr. von Braun Inspecting Gemini-Agena Docking Simulator |
| Date of Image |
1964-10-14 |
| Full Description |
This is a photograph that was made on October 14, 1964 of Dr. von Braun while he toured the Marned Spacecraft Center, now the Johnson Space Center in Houston, Texas. He is shown inspecting a Gemini-Agena Docking Simulator. |
|
Official Portrait of Astrona
…
| Name of Image |
Official Portrait of Astronaut Michael Collins |
| Date of Image |
1967-01-09 |
| Full Description |
This is the official NASA portrait of astronaut Michael Collins. Collins chose an Air Force career following graduation from West Point. He served as an experimental flight test officer at the Air Force Flight Test Center, Edwards Air Force Base, California, and, in that capacity, tested performance and stability and control characteristics of Air Force aircraft, primarily jet fighters. Having logged approximately 5,000 hours flying time, Collins was one of the third group of astronauts named by NASA in October 1963. Collins completed two space flights, logging 266 hours in space, of which, 1 hour and 27 minutes was spent in Extra Vehicular Activity (EVA). On July 18, 1966, he served as backup pilot for the Gemini VII mission which included a successful rendezvous and docking with a separately launched Agena target vehicle and, using the power of the Agena, maneuvered the Gemini spacecraft into another orbit for a rendezvous with a second, passive Agena. His skillful performance in completing two periods of EVA included the recovery of a micrometeorite detection experiment from the passive Agena. July 16-24, 1969, Collins served as command module (CM) pilot on Apollo 11, the historic first lunar landing mission. He remained aboard the CM, Columbia, on station in lunar orbit and performed the final re-docking maneuvers following a successful lunar orbit rendezvous with the Lunar Module (LM), Eagle. Collins left NASA in January 1970. |
|
Atlas/Agena, Mariner-V, laun
…
| Name of Image |
Atlas/Agena, Mariner-V, launch |
| Date of Image |
1967-06-14 |
| Full Description |
The Atlas/Agena launch vehicle carrying The Mariner-V spacecraft on launch pad on June 14, 1967. The Marina V mission was to explore the planet Venus. |
|
Early Rocketry Models
| Name of Image |
Early Rocketry Models |
| Date of Image |
1967-10-18 |
| Full Description |
Photographed are models of early rocketry: The Atlas Mercury, Atlas Centaur, and Atlas Agena. |
|
1/10 SCALE AGENA MARINER C D
…
| Title |
1/10 SCALE AGENA MARINER C DYNAMIC PRESSURE MODEL |
| Description |
1/10 SCALE AGENA MARINER C DYNAMIC PRESSURE MODEL |
| Date |
03.18.1964 |
|
Alan Shepard in the Rendezvo
…
| Title |
Alan Shepard in the Rendezvous Docking Simulator |
| Description |
Astronaut Alan Shepard (right) was one of 14 astronauts, 8 NASA test pilots, and 2 McDonnell test pilots who took part in simulator studies. Shepard flew the simulator on November 14, 1963. A.W. Vogeley wrote: "Many of the astronauts have flown this simulator in support of the Gemini studies and they, without exception, appreciated the realism of the visual scene. The simulator has also been used in the development of pilot techniques to handle certain jet malfunctions in order that aborts could be avoided. In these situations large attitude changes are sometimes necessary and the false motion cues that were generated due to earth gravity were somewhat objectionable, however, the pilots were readily able to overlook these false motion cues in favor of the visual realism." Roy F. Brissenden noted that: "The basic Gemini control studies developed the necessary techniques and demonstrated the ability of human pilots to perform final space docking with the specified Gemini-Agena systems using only visual references. ... Results... showed that trained astronauts can effect the docking with direct acceleration control and even with jet malfunctions as long as good visual conditions exist.... Probably more important than data results was the early confidence that the astronauts themselves gained in their ability to perform the maneuver in the ultimate flight mission." Shepard commented: "I had the feeling tonight - a couple of times - that I was actually doing the space mission instead of the simulation. As I said before, I think it is a very good simulation." Shepard also commented on piloting techniques. Most astronauts arrived at this same preferred technique: Shepard: "I believe I have developed the preferred technique for these conditions and the technique appeared to me to be best was to come in slightly above the target so that I was able to use the longitudinal marks on the body of the target as a reference, particularly for a lateral translation and, of course, I used the foreshortening effect for a vertical translation, and this appeared to give me the best results. By that I mean the least number of control motions and the lowest fuel usage and the best end techniques, or the best end conditions, I should say." Engineer: "When you started to run you didn't start thrusting immediately I don't believe. It looked like you started working on your attitudes, then started closing in." Shepard: "That is correct. I did that because I felt that I wanted to get the X-axis translation in the most effective vector and for minimum fuel usage that wouldn't introduce any other lateral or vertical offsets that did not already exist. |
| Date |
11.19.1963 |
|
Apollo
| Title |
Apollo |
| Description |
An early lunar excursion model was designed on a Friday afternoon in early 1961 by John D. Bird and Ralph W. Stone, Jr., of Langley Research Center for project. Courtney G. Brooks, James M. Grimwood, and Loyd S. Swenson, Jr. wrote in Chariots For Apollo: A History of Manned Lunar Spacecraft: "From December 1960 to the summer of 1961, Langley continued its analyses of lunar-orbit rendezvous as it applied to a manned lunar landing. Bird and Stone among others, studied hardware concepts and procedures, ascent trajectories between the landing site and lunar orbit, and final rendezvous and docking maneuvers. Their findings were distributed in technical reports throughout NASA and in papers presented to professional organizations and space flight societies. In the spring of 1961, these Langley engineers compiled a paper proposing a three-phase plan for developing rendezvous capabilities that would ultimately lead to manned lunar landings: (1) MORAD (Manned Orbital Rendezvous and docking), using a Mercury capsule to prove the feasibility of manned rendezvous and to establish confidence in the techniques, (2) ARP (Apollo Rendezvous Phase), using Atlas, Agena, and Saturn vehicles to develop a variety of rendezvous capabilities in earth orbit, and (3) MALLIR (Manned Lunar Landing Involving Rendezvous), employing Saturn and Apollo components to place men on the moon." (p. 69) |
| Date |
10.04.1961 |
|
Apollo Project
| Title |
Apollo Project |
| Description |
Agena Docking Simulator Target. |
| Date |
04.22.1964 |
|
Multiple exposure of Rendezv
…
| Title |
Multiple exposure of Rendezvous Docking Simulator |
| Description |
Multiple exposure of Rendezvous Docking Simulator. Francis B. Smith, described the simmulator as follows: "The rendezvous and docking operation of the Gemini spacecraft with the Agena and of the Apollo Command Module with the Lunar Excursion Module have been the subject of simulator studies for several years. [This figure] illustrates the Gemini-Agena rendezvous docking simulator at Langley. The Gemini spacecraft was supported in a gimbal system by an overhead crane and gantry arrangement which provided 6 degrees of freedom - roll, pitch, yaw, and translation in any direction - all controllable by the astronaut in the spacecraft. Here again the controls fed into a computer which in turn provided an input to the servos driving the spacecraft so that it responded to control motions in a manner which accurately simulated the Gemini spacecraft. |
| Date |
02.07.1964 |
|
DRAFTSMEN AT WORK WITH MODEL
…
| Title |
DRAFTSMEN AT WORK WITH MODEL OF THOR AGENA MISSILE ON BOARD |
| Description |
DRAFTSMEN AT WORK WITH MODEL OF THOR AGENA MISSILE ON BOARD |
| Date |
03.29.1965 |
|
Space Station - early concep
…
| Title |
Space Station - early concept |
| Description |
Models of proposed space station launch vehicles (l-r): Saturn TB, Titan II Gemini, Atlas Agena. |
| Date |
04.19.1963 |
|
ECHO Project
| Title |
ECHO Project |
| Description |
Pageos Group at the launch from the Pacific Missile Range in June 1966. Pageos 1 was launched with a Thor-Agena rocket. |
| Date |
09.08.1966 |
|
Gemini
| Title |
Gemini |
| Description |
Rear view of rendezvous docking simulator. Francis B. Smith wrote: "The rendezvous and docking operation of the Gemini spacecraft with the Agena and of the Apollo Command Module with the Lunar Excursion Module have been the subject of simulator studies for several years. [This figure] illustrates the Gemini-Agena rendezvous docking simulator at Langley. The Gemini spacecraft was supported in a gimbal system by an overhead crane and gantry arrangement which provided 6 degrees of freedom - roll, pitch, yaw, and translation in any direction - all controllable by the astronaut in the spacecraft. Here again the controls fed into a computer which in turn provided an input to the servos driving the spacecraft so that it responded to control motions in a manner which accurately simulated the Gemini spacecraft. |
| Date |
01.10.1964 |
|
Gemini
| Title |
Gemini |
| Description |
Astronaut Neil Armstrong (left) was one of 14 astronauts, 8 NASA test pilots, and 2 McDonnell test pilots who took part in simulator studies. Armstrong was the first astronaut to participate (November 6, 1963). A.W. Vogeley described the simulator in his paper "Discussion of Existing and Planned Simulators For Space Research,""Many of the astronauts have flown this simulator in support of the Gemini studies and they, without exception, appreciated the realism of the visual scene. The simulator has also been used in the development of pilot techniques to handle certain jet malfunctions in order that aborts could be avoided. In these situations large attitude changes are sometimes necessary and the false motion cues that were generated due to earth gravity were somewhat objectionable, however, the pilots were readily able to overlook these false motion cues in favor of the visual realism." Roy F. Brissenden, noted in his paper "Initial Operations with Langley's Rendezvous Docking Facility,""The basic Gemini control studies developed the necessary techniques and demonstrated the ability of human pilots to perform final space docking with the specified Gemini-Agena systems using only visual references. ... Results... showed that trained astronauts can effect the docking with direct acceleration control and even with jet malfunctions as long as good visual conditions exist.... Probably more important than data results was the early confidence that the astronauts themselves gained in their ability to perform the maneuver in the ultimate flight mission." Francis B. Smith, noted in his paper "Simulators for Manned Space Research,""Some major areas of interest in these flights were fuel requirements, docking accuracies, the development of visual aids to assist alignment of the vehicles, and investigation of alternate control techniques with partial failure modes. However, the familiarization and confidence developed by the astronaut through flying and safely docking the simulator during these tests was one of the major contributions. For example, it was found that fuel used in docking from 200 feet typically dropped from about 20 pounds to 7 pounds after an astronaut had made a few training flights. |
| Date |
11.01.1963 |
|
Gemini
| Title |
Gemini |
| Description |
Gemini Rendezvous Docking Simulator suspended from the roof of the Langley Research Center's aircraft hanger closing in on its Agena target. Francis B. Smith wrote in his paper "Simulators for Manned Space Research,""The rendezvous and docking operation of the Gemini spacecraft with the Agena and of the Apollo Command Module with the Lunar Excursion Module have been the subject of simulator studies for several years. [This figure] illustrates the Gemini-Agena rendezvous docking simulator at Langley. The Gemini spacecraft was supported in a gimbal system by an overhead crane and gantry arrangement which provided 6 degrees of freedom - roll, pitch, yaw, and translation in any direction - all controllable by the astronaut in the spacecraft. Here again the controls fed into a computer which in turn provided an input to the servos driving the spacecraft so that it responded to control motions in a manner which accurately simulated the Gemini spacecraft." This is a photograph of "the Gemini spacecraft approaching the Agena target in a final docking maneuver. |
| Date |
10.23.1963 |
|
Gemini - John W. Young in Re
…
| Title |
Gemini - John W. Young in Rendezvous Docking Simulator |
| Description |
Astronaut John Young (above) was one of 14 astronauts, 8 NASA test pilots, and 2 McDonnell test pilots who took part in simulator studies. Young piloted the simulator on November 12, 1963 Arthur Vogeley wrote: "Many of the astronauts have flown this simulator in support of the Gemini studies and they, without exception, appreciated the realism of the visual scene. The simulator has also been used in the development of pilot techniques to handle certain jet malfunctions in order that aborts could be avoided. In these situations large attitude changes are sometimes necessary and the false motion cues that were generated due to earth gravity were somewhat objectionable, however, the pilots were readily able to overlook these false motion cues in favor of the visual realism." Roy F. Brissenden wrote:"The basic Gemini control studies developed the necessary techniques and demonstrated the ability of human pilots to perform final space docking with the specified Gemini-Agena systems using only visual references. ... Results... showed that trained astronauts can effect the docking with direct acceleration control and even with jet malfunctions as long as good visual conditions exist.... Probably more important than data results was the early confidence that the astronauts themselves gained in their ability to perform the maneuver in the ultimate flight mission. |
| Date |
11.19.1963 |
|
Gemini 11 Commander Conrad a
…
| Title |
Gemini 11 Commander Conrad and Pilot Gordon at post flight press conference |
| Description |
Gemini 11 Commander Charles Conrad, Jr (left) and Pilot Richard F. Gordon, Jr describe mission activities during their post flight press conference at JSC. Gordon at the microphone talks about the extravehicular activity (EVA) photo projected behind the two crewmembers. During the EVA Gordon attached a tether to the Agena and retrieved a nuclear emulsion experiment package. |
| Date |
09.26.1966 |
|
Gemini Rendezvous Docking Si
…
| Title |
Gemini Rendezvous Docking Simulator |
| Description |
Gemini Rendezvous Docking Simulator suspended from the roof of the Langley Research Center's aircraft hanger. Francis B. Smith wrote: "The rendezvous and docking operation of the Gemini spacecraft with the Agena and of the Apollo Command Module with the Lunar Excursion Module have been the subject of simulator studies for several years. [This figure] illustrates the Gemini-Agena rendezvous docking simulator at Langley. The Gemini spacecraft was supported in a gimbal system by an overhead crane and gantry arrangement which provided 6 degrees of freedom - roll, pitch, yaw, and translation in any direction - all controllable by the astronaut in the spacecraft. Here again the controls fed into a computer which in turn provided an input to the servos driving the spacecraft so that it responded to control motions in a manner which accurately simulated the Gemini spacecraft. |
| Date |
05.07.1964 |
|
GEMINI SIMULATOR and THE AGE
…
johnsonspacecentermediaarchi
…
GEMINI SIMULATOR and THE AGE
…
S63-08643
| mediatype |
IMAGE |
| mediatype |
image |
| date |
1963-06-18 |
| creator |
NASA |
| identifier |
S63-08643 |
|
SIMULATOR - GEMINI - DOCKING
johnsonspacecentermediaarchi
…
Gemini Docking Simulator. It
…
S65-11485
| mediatype |
IMAGE |
| mediatype |
image |
| date |
1965-03-01 |
| creator |
NASA |
| identifier |
S65-11485 |
|
MISSION CONTROL CENTER (MCC)
…
johnsonspacecentermediaarchi
…
The faces of key officials r
…
S65-44400
| mediatype |
IMAGE |
| mediatype |
image |
| date |
1965-11-01 |
| creator |
NASA |
| identifier |
S65-44400 |
|
GEMINI SIMULATOR and THE AGE
…
johnsonspacecentermediaarchi
…
GEMINI SIMULATOR and THE AGE
…
S63-08642
| mediatype |
IMAGE |
| mediatype |
image |
| date |
1963-06-18 |
| creator |
NASA |
| identifier |
S63-08642 |
|
Mariner 2
PIA04594
| Title |
Mariner 2 |
| Original Caption Released with Image |
Mariner 2 was the world's first successful interplanetary spacecraft. Launched August 27, 1962, on an Atlas-Agena rocket, Mariner 2 passed within about 34,000 kilometers (21,000 miles) of Venus, sending back valuable new information about interplanetary space and the Venusian atmosphere. Mariner 2 recorded the temperature at Venus for the first time, revealing the planet's very hot atmosphere of about 500 degrees Celsius (900 degrees Fahrenheit). The spacecraft's solar wind experiment measured for the first time the density, velocity, composition and variation over time of the solar wind. |
|
1/10 SCALE AGENA MARINER C D
…
| Title |
1/10 SCALE AGENA MARINER C DYNAMIC PRESSURE MODEL |
|
1/10 SCALE AGENA LUNAR ORBIT
…
| Title |
1/10 SCALE AGENA LUNAR ORBITER IN THE 10X10 FOOT WIND TUNNEL |
|
1/10 SCALE AGENA LUNAR ORBIT
…
| Title |
1/10 SCALE AGENA LUNAR ORBITER IN THE 10X10 FOOT WIND TUNNEL |
|
RICHARD DILLON PROJECT ENGIN
…
| Title |
RICHARD DILLON PROJECT ENGINEER FOR AGENA POLAR ORBITING GEOPHYSICAL OBSERVATORY POGO LAUNCH AND DR R GRAY OF NASA KENNEDY SPACE CENTER AT WTR WITH VEHICLE IN BACKGROUND |
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