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One year of reciprocal aid. Pilots of the U.S. Spitfire squadron in Great Britain are seen running to their planes. This aircraft with full complement of British fighter craft is one of hundreds turned over to the Americans by British government under reciprocal aid. Several of our fighter squadrons in North Africa fly Spitfires lend-leased to us. Some of the "Mae Wests" worn by the soldiers in this photograph were made of British material

One year of reciprocal aid. Pilots of the U.S. Spitfire squadron in Gr...

Picryl description: Public domain image of the British Empire armed forces, 19th-20th century war and military conflict, free to use, no copyright restrictions.

Sea jeeps. Successfully crossing a fast-flowing stream, the Ford-built amphibian, with full complement of four soldiers, easily climbs opposite shore and is ready for any scouting operations. Picture shows maneuvers recently held in the Detroit area, when soldiers from Fort Wayne in full combat dress manned the machines. The controls of the new Army transportation unit for land operations are identical to the quarter-ton, four-wheel drive reconnaissance car, and no steering changeover is required from land to water operation. The new car is being used by U.S. fighting forces in war zones

Sea jeeps. Successfully crossing a fast-flowing stream, the Ford-built...

Public domain photograph related to Great Depression, free to use, no copyright restrictions image - Picryl description

Fort Benning. Tank forces. Light tanks of the armored forces. With a tough American crew and its complement of ammunition, each of them becomes a thorn in the side of the Axis

Fort Benning. Tank forces. Light tanks of the armored forces. With a t...

Picryl description: Public domain image of military training, armed forces fort, camp, exercise activity, free to use, no copyright restrictions.

The interior of the DC-3 with its complement of Chinese soldiers enroute to India on their task missions being transported by United States Army Air force flyers

The interior of the DC-3 with its complement of Chinese soldiers enrou...

Public domain photograph of 1930s-1940s US industrial development, Second World War, US war production, indusry, no copyright restrictions image - Picryl description

KENNEDY SPACE CENTER, FLA. -- A student displays an experiment that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includes six educational experiments designed and developed by students in six different countries under the auspices of Space Technology and Research Students (STARS), a global education program managed by SPACEHAB subsidiary Space Media. The countries represented are Australia, China, Israel, Japan, Liechtenstein and the United States. The student investigators who conceived these experiments will monitor their operations in space. The experiments will be housed in BioServe Space Technologies' Isothermal Containment Module (ICM --a small temperature-controlled facility that provides experiment support such as physical containment, lighting, and video imaging) and stowed in a middeck-size locker aboard the SPACEHAB Research Double Module. KSC-03pd0096

KENNEDY SPACE CENTER, FLA. -- A student displays an experiment that wi...

KENNEDY SPACE CENTER, FLA. -- A student displays an experiment that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includes six educational ex... More

KENNEDY SPACE CENTER, FLA. - Students pause during their work on their experiments that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includes six educational experiments designed and developed by students in six different countries under the auspices of Space Technology and Research Students (STARS), a global education program managed by SPACEHAB subsidiary Space Media. The countries represented are Australia, China, Israel, Japan, Liechtenstein and the United States. The student investigators who conceived these experiments will monitor their operations in space. The experiments will be housed in BioServe Space Technologies' Isothermal Containment Module (ICM --a small temperature-controlled facility that provides experiment support such as physical containment, lighting, and video imaging) and stowed in a middeck-size locker aboard the SPACEHAB Research Double Module. KSC-03pd0085

KENNEDY SPACE CENTER, FLA. - Students pause during their work on thei...

KENNEDY SPACE CENTER, FLA. - Students pause during their work on their experiments that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includ... More

KENNEDY SPACE CENTER, FLA. -- Students show off one of the experiments that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includes six educational experiments designed and developed by students in six different countries under the auspices of Space Technology and Research Students (STARS), a global education program managed by SPACEHAB subsidiary Space Media. The countries represented are Australia, China, Israel, Japan, Liechtenstein and the United States. The student investigators who conceived these experiments will monitor their operations in space. The experiments will be housed in BioServe Space Technologies' Isothermal Containment Module (ICM --a small temperature-controlled facility that provides experiment support such as physical containment, lighting, and video imaging) and stowed in a middeck-size locker aboard the SPACEHAB Research Double Module. KSC-03pd0093

KENNEDY SPACE CENTER, FLA. -- Students show off one of the experiments...

KENNEDY SPACE CENTER, FLA. -- Students show off one of the experiments that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includes six educa... More

KENNEDY SPACE CENTER, FLA. - Students work on their experiments that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includes six educational experiments designed and developed by students in six different countries under the auspices of Space Technology and Research Students (STARS), a global education program managed by SPACEHAB subsidiary Space Media. The countries represented are Australia, China, Israel, Japan, Liechtenstein and the United States. The student investigators who conceived these experiments will monitor their operations in space. The experiments will be housed in BioServe Space Technologies' Isothermal Containment Module (ICM --a small temperature-controlled facility that provides experiment support such as physical containment, lighting, and video imaging) and stowed in a middeck-size locker aboard the SPACEHAB Research Double Module. KSC-03pd0084

KENNEDY SPACE CENTER, FLA. - Students work on their experiments that w...

KENNEDY SPACE CENTER, FLA. - Students work on their experiments that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includes six educational e... More

The load crew from the 48th Tactical Fighter Wing participate in the quick turn competition. The exercise, part of the Strike Command Tactical Bombing Competition, is used to test each team on their ability to execute a quick load of a full complement of bombs

The load crew from the 48th Tactical Fighter Wing participate in the q...

The original finding aid described this photograph as: Base: Raf Lossiemouth Country: Scotland (SCT) Scene Camera Operator: MSGT Don C. Sutherland Release Status: Released to Public Combined Military Servic... More

Bombs are moved into position near an F-16 Fighting Falcon aircraft during the quick turn competition. The exercise, part of the Strike Command Tactical Bombing Competition, is used to test each team on their ability to execute a quick load of a full complement of bombs

Bombs are moved into position near an F-16 Fighting Falcon aircraft du...

The original finding aid described this photograph as: Base: Raf Lossiemouth Country: Scotland (SCT) Scene Camera Operator: MSGT Don C. Sutherland Release Status: Released to Public Combined Military Servic... More

A crewmen loads 20mm ammunition aboard an F-16 Fighting Falcon aircraft during the quick turn competition. The exercise, part of the Strike Command Tactical Bombing Competition, is used to test each team on their ability to execute a quick load of a full complement of bombs

A crewmen loads 20mm ammunition aboard an F-16 Fighting Falcon aircraf...

The original finding aid described this photograph as: Base: Raf Lossiemouth Country: Scotland (SCT) Scene Camera Operator: MSGT Don C. Sutherland Release Status: Released to Public Combined Military Servic... More

Ames Aircraft complement on ramp DC-8, C-130, QSRA, RSRA, C-141, U-2, SH-3G, King Air, YO-3A, T-38, CH-47, Lear Jet, AH-1G, AV-8B Harrier, OH-58A, XV-15, UH-1H ARC-1986-AC86-0786-2

Ames Aircraft complement on ramp DC-8, C-130, QSRA, RSRA, C-141, U-2,...

Ames Aircraft complement on ramp DC-8, C-130, QSRA, RSRA, C-141, U-2, SH-3G, King Air, YO-3A, T-38, CH-47, Lear Jet, AH-1G, AV-8B Harrier, OH-58A, XV-15, UH-1H

Ames Aircraft complement on Ramp in front of N-211 hangar: DC-8, C-141, C-130, ER-2, Lear Jet, YO-3A, T-38, AH-1G, AV-8B, UH-60 ARC-1969-AC94-0253-1

Ames Aircraft complement on Ramp in front of N-211 hangar: DC-8, C-141...

Ames Aircraft complement on Ramp in front of N-211 hangar: DC-8, C-141, C-130, ER-2, Lear Jet, YO-3A, T-38, AH-1G, AV-8B, UH-60

KENNEDY SPACE CENTER, FLA. - The second International Microgravity Laboratory-2 (IML-2) is off to an ontime start as the Space Shuttle Columbia lifts off from Launch Pad 39A at 12:43:00 p.m. EDT. On board are a crew of seven and more than 80 investigations developed by more than 200 scientists from 13 countries. The IML-2 complement includes materials science, bioprocessing, space and radiation biology, and human physiology experiments that will be carried out over the course of the 14-day flight. The commander of Space Shuttle Mission STS-65 is Robert D. Cabana. James D. Halsell Jr. is the pilot; the payload commander is Richard J. Hieb; the three mission specialists are Carl E. Walz, Leroy Chiao and Donald A. Thomas. Dr. Chiaki Mukai, representing NASDA, the National Space Development Agency of Japan, is the payload specialist. Mukai becomes the first Japanese woman to fly into space.

KENNEDY SPACE CENTER, FLA. - The second International Microgravity Lab...

KENNEDY SPACE CENTER, FLA. - The second International Microgravity Laboratory-2 (IML-2) is off to an ontime start as the Space Shuttle Columbia lifts off from Launch Pad 39A at 12:43:00 p.m. EDT. On board are ... More

CAPE CANAVERAL, Fla. -- At NASA's Kennedy Space Center in Florida, technicians in the Spacecraft Assembly and Encapsulation Facility-2 SAEF-2) lift the Solar and Heliospheric Observatory SOHO after its removal from the crate it was shipped in from France. The SOHO spacecraft will carry a complement of 11 instruments from NASA and the European Space Agency ESA to study the origin of the energy within the sun which reaches the sun’s surface. SOHO was manufactured in France by Matra Marconi under a contract with ESA. The observatory will receive final testing and preparations for launch in SAEF-2. SOHO is targeted for launch on an Atlas IIAS from Launch Complex 36, Cape Canaveral Air Station, between Oct. 31 and Nov. 7, 1995. Photo Credit: NASA KSC-95PC-1159

CAPE CANAVERAL, Fla. -- At NASA's Kennedy Space Center in Florida, tec...

CAPE CANAVERAL, Fla. -- At NASA's Kennedy Space Center in Florida, technicians in the Spacecraft Assembly and Encapsulation Facility-2 SAEF-2) lift the Solar and Heliospheric Observatory SOHO after its removal ... More

New construction blends in with the old. New enlisted and officer Phases 1 and 2 housing are nearing completion. The new base housing is to replace Wherring housing built in 1953 and torn down in 1990. The 174 units are designed to complement existing appropriated housing built 1993-4

New construction blends in with the old. New enlisted and officer Phas...

The original finding aid described this photograph as: Base: Barksdale Air Force Base State: Louisiana (LA) Country: United States Of America (USA) Scene Camera Operator: Sr. AMN. Mary Johnvin Release Stat... More

The Spacelab long transfer tunnel that leads from the Space Shuttle Orbiter Columbia’s crew airlock to the Microgravity Science Laboratory-1 (MSL-1) Spacelab module in the spaceplane’s payload bay is removed in Orbiter Processing Facility 1. The tunnel was taken out to allow better access to the MSL-1 module during reservicing operations to prepare it for its reflight as MSL-1R. That mission is now scheduled to lift off July 1. This was the first time that this type of payload was reserviced without removing it from the payload bay. This new procedure pioneers processing efforts for quick relaunch turnaround times for future payloads. The Spacelab module was scheduled to fly again with the full complement of STS-83 experiments after that mission was cut short due to a faulty fuel cell. During the scheduled 16-day reflight, the experiments will be used to test some of the hardware, facilities and procedures that are planned for use on the International Space Station while the flight crew conducts combustion, protein crystal growth and materials processing experiments KSC-97pc671

The Spacelab long transfer tunnel that leads from the Space Shuttle Or...

The Spacelab long transfer tunnel that leads from the Space Shuttle Orbiter Columbia’s crew airlock to the Microgravity Science Laboratory-1 (MSL-1) Spacelab module in the spaceplane’s payload bay is removed in... More

The Spacelab long transfer tunnel that leads from the Space Shuttle Orbiter Columbia’s crew airlock to the Microgravity Science Laboratory-1 (MSL-1) Spacelab module in the spaceplane’s payload bay is removed by KSC paylaod processing employees in Orbiter Processing Facility 1. The tunnel was taken out to allow better access to the MSL-1 module during reservicing operations to prepare it for its reflight as MSL-1R. That mission is now scheduled to lift off July 1. This was the first time that this type of payload was reserviced without removing it from the payload bay. This new procedure pioneers processing efforts for quick relaunch turnaround times for future payloads. The Spacelab module was scheduled to fly again with the full complement of STS-83 experiments after that mission was cut short due to a faulty fuel cell. During the scheduled 16-day reflight, the experiments will be used to test some of the hardware, facilities and procedures that are planned for use on the International Space Station while the flight crew conducts combustion, protein crystal growth and materials processing experiments KSC-97pc670

The Spacelab long transfer tunnel that leads from the Space Shuttle Or...

The Spacelab long transfer tunnel that leads from the Space Shuttle Orbiter Columbia’s crew airlock to the Microgravity Science Laboratory-1 (MSL-1) Spacelab module in the spaceplane’s payload bay is removed by... More

KENNEDY SPACE CENTER, FLA. -- KSC payloads processing employees work to reservice the Microgravity Science Laboratory-1 (MSL-1) Spacelab module in the Space Shuttle Orbiter Columbia’s payload bay for the STS-94 mission in Orbiter Processing Facility 1. That mission is now scheduled to lift off in early July. This was the first time that this type of payload was reserviced without removing it from the payload bay. This new procedure pioneers processing efforts for quick relaunch turnaround times for future payloads. The Spacelab module was scheduled to fly again with the full complement of STS-83 experiments after that mission was cut short due to a faulty fuel cell. During the scheduled 16-day STS-94 mission, the experiments will be used to test some of the hardware, facilities and procedures that are planned for use on the International Space Station while the flight crew conducts combustion, protein crystal growth and materials processing experiments KSC-97pc763

KENNEDY SPACE CENTER, FLA. -- KSC payloads processing employees work t...

KENNEDY SPACE CENTER, FLA. -- KSC payloads processing employees work to reservice the Microgravity Science Laboratory-1 (MSL-1) Spacelab module in the Space Shuttle Orbiter Columbia’s payload bay for the STS-94... More

KENNEDY SPACE CENTER, FLA. -- KSC payloads processing employees work to reservice the Microgravity Science Laboratory-1 (MSL-1) Spacelab module in the Space Shuttle Orbiter Columbia’s payload bay for the STS-94 mission in Orbiter Processing Facility 1. That mission is now scheduled to lift off in early July. This was the first time that this type of payload was reserviced without removing it from the payload bay. This new procedure pioneers processing efforts for quick relaunch turnaround times for future payloads. The Spacelab module was scheduled to fly again with the full complement of STS-83 experiments after that mission was cut short due to a faulty fuel cell. During the scheduled 16-day STS-94 mission, the experiments will be used to test some of the hardware, facilities and procedures that are planned for use on the International Space Station while the flight crew conducts combustion, protein crystal growth and materials processing experiments KSC-97pc762

KENNEDY SPACE CENTER, FLA. -- KSC payloads processing employees work t...

KENNEDY SPACE CENTER, FLA. -- KSC payloads processing employees work to reservice the Microgravity Science Laboratory-1 (MSL-1) Spacelab module in the Space Shuttle Orbiter Columbia’s payload bay for the STS-94... More

KSC payloads processing employees work to reservice the Microgravity Science Laboratory-1 (MSL-1) Spacelab module in the Space Shuttle Orbiter Columbia’s payload bay for the STS-94 mission in Orbiter Processing Facility 1. That mission is now scheduled to lift off in early July. This was the first time that this type of payload was reserviced without removing it from the payload bay. This new procedure pioneers processing efforts for quick relaunch turnaround times for future payloads. The Spacelab module was scheduled to fly again with the full complement of STS-83 experiments after that mission was cut short due to a faulty fuel cell. During the scheduled 16-day STS-94 mission, the experiments will be used to test some of the hardware, facilities and procedures that are planned for use on the International Space Station while the flight crew conducts combustion, protein crystal growth and materials processing experiments KSC-97pc761

KSC payloads processing employees work to reservice the Microgravity S...

KSC payloads processing employees work to reservice the Microgravity Science Laboratory-1 (MSL-1) Spacelab module in the Space Shuttle Orbiter Columbia’s payload bay for the STS-94 mission in Orbiter Processing... More

KSC payload processing employees in Orbiter Processing Facility 1 prepare the Space Shuttle Orbiter Columbia’s crew airlock and payload bay for the reinstallation of the Spacelab long transfer tunnel that leads from the airlock to the Microgravity Science Laboratory-1 (MSL-1) Spacelab module. The tunnel was taken out after the STS-83 mission to allow better access to the MSL-1 module during reservicing operations to prepare it for for the STS-94 mission. That space flight is now scheduled to lift off in early July. This was the first time that this type of payload was reserviced without removing it from the payload bay. This new procedure pioneers processing efforts for quick relaunch turnaround times for future payloads. The Spacelab module was scheduled to fly again with the full complement of STS-83 experiments after that mission was cut short due to a faulty fuel cell. During the scheduled 16-day STS-94 mission, the experiments will be used to test some of the hardware, facilities and procedures that are planned for use on the International Space Station while the flight crew conducts combustion, protein crystal growth and materials processing experiments KSC-97pc764

KSC payload processing employees in Orbiter Processing Facility 1 prep...

KSC payload processing employees in Orbiter Processing Facility 1 prepare the Space Shuttle Orbiter Columbia’s crew airlock and payload bay for the reinstallation of the Spacelab long transfer tunnel that leads... More

While KSC workers in the Launch Complex 39 Area watch, The Space Shuttle Orbiter Columbia rolls over to the Vehicle Assembly Building (VAB) June 4 from Orbiter Processing Facility (OPF)1 atop its transporter in preparation for the STS-94 mission. Once inside the VAB, Columbia will be hoisted to be mated with its solid rocket boosters and external tank. Columbia was moved to the OPF April 8 after the completion of the STS-83 mission. KSC payloads processing employees then began work to reservice the Microgravity Science Laboratory-1 (MSL-1) Spacelab module in the orbiter’s payload bay for the STS-94 mission. This was the first time that this type of payload was reserviced without removing it from the payload bay. This new procedure pioneers processing efforts for possible quick relaunch turnaround times for future payloads. The MSL-1 module will fly again with the full complement of STS-83 experiments after that mission was cut short due to indications of a faulty fuel cell. During the scheduled 16-day STS-94 mission, the experiments will be used to test some of the hardware, facilities and procedures that are planned for use on the International Space Station while the flight crew conducts combustion, protein crystal growth and materials processing experiments KSC-97PC879

While KSC workers in the Launch Complex 39 Area watch, The Space Shut...

While KSC workers in the Launch Complex 39 Area watch, The Space Shuttle Orbiter Columbia rolls over to the Vehicle Assembly Building (VAB) June 4 from Orbiter Processing Facility (OPF)1 atop its transporter ... More

The Space Shuttle Orbiter Columbia is reflected in a nearby pond as it rolls over to the Vehicle Assembly Building (VAB) June 4 from Orbiter Processing Facility (OPF) 1 atop its transporter in preparation for the STS-94 mission. Once inside the VAB, Columbia will be hoisted to be mated with its solid rocket boosters and external tank. Columbia was moved to the OPF April 8 after the completion of the STS-83 mission. KSC payloads processing employees then began work to reservice the Microgravity Science Laboratory-1 (MSL-1) Spacelab module in the orbiter’s payload bay for the STS-94 mission. This was the first time that this type of payload was reserviced without removing it from the payload bay. This new procedure pioneers processing efforts for possible quick relaunch turnaround times for future payloads. The MSL-1 module will fly again with the full complement of STS-83 experiments after that mission was cut short due to indications of a faulty fuel cell. During the scheduled 16-day STS-94 mission, the experiments will be used to test some of the hardware, facilities and procedures that are planned for use on the International Space Station while the flight crew conducts combustion, protein crystal growth and materials processing experiments KSC-97PC880

The Space Shuttle Orbiter Columbia is reflected in a nearby pond as i...

The Space Shuttle Orbiter Columbia is reflected in a nearby pond as it rolls over to the Vehicle Assembly Building (VAB) June 4 from Orbiter Processing Facility (OPF) 1 atop its transporter in preparation for... More

STS-94 Pilot Susan Leigh Still watches as Commander James D. Halsell, Jr., speaks to the media after the crew arrived at the Shuttle Landing Facility at Kennedy Space Center in preparation for the reflight of the Microgravity Science Laboratory-1 mission. Launch is scheduled for July 1, 1997, at 2:37 p.m. EDT. The laboratory was scheduled to fly again with the full complement of STS-83 experiments after that mission was cut short due to a faulty fuel cell. During the scheduled 16-day STS-94 mission, the experiments will be used to test some of the hardware, facilities and procedures that are planned for use on the International Space Station while the flight crew conducts combustion, protein crystal growth and materials processing experiments KSC-97PC949

STS-94 Pilot Susan Leigh Still watches as Commander James D. Halsell, ...

STS-94 Pilot Susan Leigh Still watches as Commander James D. Halsell, Jr., speaks to the media after the crew arrived at the Shuttle Landing Facility at Kennedy Space Center in preparation for the reflight of ... More

STS-94 Commander James D. Halsell, Jr., arrives at the Shuttle Landing Facility aboard a T-38 jet in preparation for the reflight of the Microgravity Science Laboratory-1 mission. Launch is scheduled for July 1, 1997, at 2:37 p.m. EDT. The laboratory was scheduled to fly again with the full complement of STS-83 experiments after that mission was cut short due to a faulty fuel cell. During the scheduled 16-day STS-94 mission, the experiments will be used to test some of the hardware, facilities and procedures that are planned for use on the International Space Station while the flight crew conducts combustion, protein crystal growth and materials processing experiments KSC-97PC946

STS-94 Commander James D. Halsell, Jr., arrives at the Shuttle Landing...

STS-94 Commander James D. Halsell, Jr., arrives at the Shuttle Landing Facility aboard a T-38 jet in preparation for the reflight of the Microgravity Science Laboratory-1 mission. Launch is scheduled for July 1... More

STS-94 Commander James D. Halsell, Jr., speaks to the media at the Shuttle Landing Facility after the crew arrived at Kennedy Space Center in preparation for the reflight of the Microgravity Science Laboratory-1 mission. Launch is scheduled for July 1, 1997, at 2:37 p.m. EDT. From left to right, the crew members are Payload Specialists Gregory T. Linteris and Roger K. Crouch; Mission Specialists Michael L. Gernhardt and Donald A. Thomas; Payload Commander Janice E. Voss; Pilot Susan Leigh Still and Commander James D. Halsell, Jr. One of the T-38 jets aboard which the crew arrived can be seen in the background. The laboratory was scheduled to fly again with the full complement of STS-83 experiments after that mission was cut short due to a faulty fuel cell. During the scheduled 16-day STS-94 mission, the experiments will be used to test some of the hardware, facilities and procedures that are planned for use on the International Space Station while the flight crew conducts combustion, protein crystal growth and materials processing experiments KSC-97PC948

STS-94 Commander James D. Halsell, Jr., speaks to the media at the Shu...

STS-94 Commander James D. Halsell, Jr., speaks to the media at the Shuttle Landing Facility after the crew arrived at Kennedy Space Center in preparation for the reflight of the Microgravity Science Laboratory-... More

STS-94 Pilot Susan Leigh Still arrives at the Shuttle Landing Facility aboard a T-38 jet in preparation for the reflight of the Microgravity Science Laboratory-1 mission. Launch is scheduled for July 1, 1997, at 2:37 p.m. EDT. The laboratory was scheduled to fly again with the full complement of STS-83 experiments after that mission was cut short due to a faulty fuel cell. During the scheduled 16-day STS-94 mission, the experiments will be used to test some of the hardware, facilities and procedures that are planned for use on the International Space Station while the flight crew conducts combustion, protein crystal growth and materials processing experiments KSC-97PC947

STS-94 Pilot Susan Leigh Still arrives at the Shuttle Landing Facility...

STS-94 Pilot Susan Leigh Still arrives at the Shuttle Landing Facility aboard a T-38 jet in preparation for the reflight of the Microgravity Science Laboratory-1 mission. Launch is scheduled for July 1, 1997, ... More

At Launch Complex 40 on Cape Canaveral Air Station, the Mobile Service Tower is rolled away from the Titan IVB/Centaur carrying the Cassini spacecraft, marking a major milestone in the launch countdown sequence. Retraction of the structure began about an hour later than scheduled due to minor problems with ground support equipment. The countdown clock for the Cassini mission began ticking earlier today at the T-26-hour mark. Other upcoming prelaunch milestones include activation of the final launch sequence for the Cassini spacecraft at the T-180-minute mark in the countdown, to be followed about an hour later by initiation of loading of the Titan IVB's Centaur stage with its complement of liquid hydrogen and liquid oxygen. Liftoff of Cassini on the journey to Saturn and its moon Titan is slated to occur during a window opening at 4:55 a.m. EDT, Oct. 13, and extending through 7:15 a.m KSC-97PC1539

At Launch Complex 40 on Cape Canaveral Air Station, the Mobile Service...

At Launch Complex 40 on Cape Canaveral Air Station, the Mobile Service Tower is rolled away from the Titan IVB/Centaur carrying the Cassini spacecraft, marking a major milestone in the launch countdown sequence... More

KENNEDY SPACE CENTER, FLA. -- A seven-year journey to the ringed planet Saturn begins with the liftoff of a Titan IVB/Centaur carrying the Cassini orbiter and its attached Huygens probe. Launch occurred at 4:43 a.m. EDT, Oct. 15, from Launch Complex 40 on Cape Canaveral Air Station. After a 2.2-billion mile journey that will include two swingbys of Venus and one of Earth to gain additional velocity, the two-story tall spacecraft will arrive at Saturn in July 2004. The orbiter will circle the planet for four years, its complement of 12 scientific instruments gathering data about Saturn's atmosphere, rings and magnetosphere and conducting closeup observations of the Saturnian moons. Huygens, with a separate suite of six science instruments, will separate from Cassini to fly on a ballistic trajectory toward Titan, the only celestial body besides Earth to have an atmosphere rich in nitrogen. Scientists are eager to study further this chemical similarity in hopes of learning more about the origins of our own planet Earth. Huygens will provide the first direct sampling of Titan's atmospheric chemistry and the first detailed photographs of its surface. The Cassini mission is an international effort involving NASA, the European Space Agency (ESA) and the Italian Space Agency, Agenzia Spaziale Italiana (ASI). The Jet Propulsion Laboratory manages the U.S. contribution to the mission for NASA's Office of Space Science. The major U.S. contractor is Lockheed Martin, which provided the launch vehicle and upper stage, spacecraft propulsion module and radioisotope thermoelectric generators that will provide power for the spacecraft. The Titan IV/Centaur is a U.S. Air Force launch vehicle, and launch operations were managed by the 45th Space Wing KSC-97PC1546

KENNEDY SPACE CENTER, FLA. -- A seven-year journey to the ringed plane...

KENNEDY SPACE CENTER, FLA. -- A seven-year journey to the ringed planet Saturn begins with the liftoff of a Titan IVB/Centaur carrying the Cassini orbiter and its attached Huygens probe. Launch occurred at 4:43... More

A seven-year journey to the ringed planet Saturn begins with the liftoff of a Titan IVB/Centaur carrying the Cassini orbiter and its attached Huygens probe. Launch occurred at 4:43 a.m. EDT, Oct. 15, from Launch Complex 40 on Cape Canaveral Air Station. After a 2.2-billion mile journey that will include two swingbys of Venus and one of Earth to gain additional velocity, the two-story tall spacecraft will arrive at Saturn in July 2004. The orbiter will circle the planet for four years, its complement of 12 scientific instruments gathering data about Saturn's atmosphere, rings and magnetosphere and conducting closeup observations of the Saturnian moons. Huygens, with a separate suite of six science instruments, will separate from Cassini to fly on a ballistic trajectory toward Titan, the only celestial body besides Earth to have an atmosphere rich in nitrogen. Scientists are eager to study further this chemical similarity in hopes of learning more about the origins of our own planet Earth. Huygens will provide the first direct sampling of Titan's atmospheric chemistry and the first detailed photographs of its surface. The Cassini mission is an international effort involving NASA, the European Space Agency (ESA) and the Italian Space Agency, Agenzia Spaziale Italiana (ASI). The Jet Propulsion Laboratory manages the U.S. contribution to the mission for NASA's Office of Space Science. The major U.S. contractor is Lockheed Martin, which provided the launch vehicle and upper stage, spacecraft propulsion module and radioisotope thermoelectric generators that will provide power for the spacecraft. The Titan IV/Centaur is a U.S. Air Force launch vehicle, and launch operations were managed by the 45th Space Wing KSC-97PC1545

A seven-year journey to the ringed planet Saturn begins with the lifto...

A seven-year journey to the ringed planet Saturn begins with the liftoff of a Titan IVB/Centaur carrying the Cassini orbiter and its attached Huygens probe. Launch occurred at 4:43 a.m. EDT, Oct. 15, from Launc... More

A seven-year journey to the ringed planet Saturn begins with the liftoff of a Titan IVB/Centaur carrying the Cassini orbiter and its attached Huygens probe. This spectacular streak shot was taken from Hangar AF on Cape Canaveral Air Station, with a solid rocket booster retrieval ship in the foreground. Launch occurred at 4:43 a.m. EDT, Oct. 15, from Launch Complex 40 on Cape Canaveral Air Station. After a 2.2-billion mile journey that will include two swingbys of Venus and one of Earth to gain additional velocity, the two-story tall spacecraft will arrive at Saturn in July 2004. The orbiter will circle the planet for four years, its complement of 12 scientific instruments gathering data about Saturn's atmosphere, rings and magnetosphere and conducting closeup observations of the Saturnian moons. Huygens, with a separate suite of six science instruments, will separate from Cassini to fly on a ballistic trajectory toward Titan, the only celestial body besides Earth to have an atmosphere rich in nitrogen. Scientists are eager to study further this chemical similarity in hopes of learning more about the origins of our own planet Earth. Huygens will provide the first direct sampling of Titan's atmospheric chemistry and the first detailed photographs of its surface. The Cassini mission is an international effort involving NASA, the European Space Agency (ESA) and the Italian Space Agency, Agenzia Spaziale Italiana (ASI). The Jet Propulsion Laboratory manages the U.S. contribution to the mission for NASA's Office of Space Science. The major U.S. contractor is Lockheed Martin, which provided the launch vehicle and upper stage, spacecraft propulsion module and radioisotope thermoelectric generators that will provide power for the spacecraft. The Titan IV/Centaur is a U.S. Air Force launch vehicle, and launch operations were managed by the 45th Space Wing KSC-97PC1543

A seven-year journey to the ringed planet Saturn begins with the lifto...

A seven-year journey to the ringed planet Saturn begins with the liftoff of a Titan IVB/Centaur carrying the Cassini orbiter and its attached Huygens probe. This spectacular streak shot was taken from Hangar AF... More

A seven-year journey to the ringed planet Saturn begins with the liftoff of a Titan IVB/Centaur carrying the Cassini orbiter and its attached Huygens probe. Launch occurred at 4:43 a.m. EDT, Oct. 15, from Launch Complex 40 on Cape Canaveral Air Station. After a 2.2-billion mile journey that will include two swingbys of Venus and one of Earth to gain additional velocity, the two-story tall spacecraft will arrive at Saturn in July 2004. The orbiter will circle the planet for four years, its complement of 12 scientific instruments gathering data about Saturn's atmosphere, rings and magnetosphere and conducting closeup observations of the Saturnian moons. Huygens, with a separate suite of six science instruments, will separate from Cassini to fly on a ballistic trajectory toward Titan, the only celestial body besides Earth to have an atmosphere rich in nitrogen. Scientists are eager to study further this chemical similarity in hopes of learning more about the origins of our own planet Earth. Huygens will provide the first direct sampling of Titan's atmospheric chemistry and the first detailed photographs of its surface. The Cassini mission is an international effort involving NASA, the European Space Agency (ESA) and the Italian Space Agency, Agenzia Spaziale Italiana (ASI). The Jet Propulsion Laboratory manages the U.S. contribution to the mission for NASA's Office of Space Science. The major U.S. contractor is Lockheed Martin, which provided the launch vehicle and upper stage, spacecraft propulsion module and radioisotope thermoelectric generators that will provide power for the spacecraft. The Titan IV/Centaur is a U.S. Air Force launch vehicle, and launch operations were managed by the 45th Space Wing KSC-97PC1544

A seven-year journey to the ringed planet Saturn begins with the lifto...

A seven-year journey to the ringed planet Saturn begins with the liftoff of a Titan IVB/Centaur carrying the Cassini orbiter and its attached Huygens probe. Launch occurred at 4:43 a.m. EDT, Oct. 15, from Launc... More

A seven-year journey to the ringed planet Saturn begins with the liftoff of a Titan IVB/Centaur carrying the Cassini orbiter and its attached Huygens probe. Launch occurred at 4:43 a.m. EDT, Oct. 15, from Launch Complex 40 on Cape Canaveral Air Station. After a 2.2-billion mile journey that will include two swingbys of Venus and one of Earth to gain additional velocity, the two-story tall spacecraft will arrive at Saturn in July 2004. The orbiter will circle the planet for four years, its complement of 12 scientific instruments gathering data about Saturn's atmosphere, rings and magnetosphere and conducting closeup observations of the Saturnian moons. Huygens, with a separate suite of six science instruments, will separate from Cassini to fly on a ballistic trajectory toward Titan, the only celestial body besides Earth to have an atmosphere rich in nitrogen. Scientists are eager to study further this chemical similarity in hopes of learning more about the origins of our own planet Earth. Huygens will provide the first direct sampling of Titan's atmospheric chemistry and the first detailed photographs of its surface. The Cassini mission is an international effort involving NASA, the European Space Agency (ESA) and the Italian Space Agency, Agenzia Spaziale Italiana (ASI). The Jet Propulsion Laboratory manages the U.S. contribution to the mission for NASA's Office of Space Science. The major U.S. contractor is Lockheed Martin, which provided the launch vehicle and upper stage, spacecraft propulsion module and radioisotope thermoelectric generators that will provide power for the spacecraft. The Titan IV/Centaur is a U.S. Air Force launch vehicle, and launch operations were managed by the 45th Space Wing KSC-97PC1547

A seven-year journey to the ringed planet Saturn begins with the lifto...

A seven-year journey to the ringed planet Saturn begins with the liftoff of a Titan IVB/Centaur carrying the Cassini orbiter and its attached Huygens probe. Launch occurred at 4:43 a.m. EDT, Oct. 15, from Launc... More

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsulation Facility -2 (SAEF-2), the Mars Polar Lander is prepared to receive a number of microprobes being added to the spacecraft. Scheduled to be launched on Jan. 3, 1999, the solar-powered spacecraft is designed to touch down on the Martian surface near the northern-most boundary of the south pole in order to study the water cycle there. The lander also will help scientists learn more about climate change and current resources on Mars, studying such things as frost, dust, water vapor and condensates in the Martian atmosphere. The Mars microprobes will complement the climate-related scientific focus of the lander by demonstrating an advanced, rugged microlaser system for detecting subsurface water. Such data on polar subsurface water, in the form of ice, should help put limits on scientific projections for the global abundance of water on Mars KSC-98pc1625

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsula...

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsulation Facility -2 (SAEF-2), the Mars Polar Lander is prepared to receive a number of microprobes being added to the spacecraft. Scheduled to ... More

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsulation Facility -2 (SAEF-2), Satish Krishnan (right) from the Jet Propulsion Laboratory places a Mars microprobe on a workstand. In the background, Chris Voorhees watches. Two microprobes will hitchhike on the Mars Polar Lander, scheduled to be launched Jan. 3, 1999, aboard a Delta II rocket. The solar-powered spacecraft is designed to touch down on the Martian surface near the northern-most boundary of the south pole in order to study the water cycle there. The lander also will help scientists learn more about climate change and current resources on Mars, studying such things as frost, dust, water vapor and condensates in the Martian atmosphere. The Mars microprobes, called Deep Space 2, are part of NASA's New Millennium Program. They will complement the climate-related scientific focus of the lander by demonstrating an advanced, rugged microlaser system for detecting subsurface water. Such data on polar subsurface water, in the form of ice, should help put limits on scientific projections for the global abundance of water on Mars KSC-98pc1628

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsula...

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsulation Facility -2 (SAEF-2), Satish Krishnan (right) from the Jet Propulsion Laboratory places a Mars microprobe on a workstand. In the backgr... More

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsulation Facility -2 (SAEF-2), workers from the Jet Propulsion Laboratory open the drums containing the Mars microprobes that will hitchhike on the Mars Polar Lander. From left, they are Satish Krishnan, Charles Cruzan, Chris Voorhees and Arden Acord. Scheduled to be launched Jan. 3, 1999, aboard a Delta II rocket, the solar-powered spacecraft is designed to touch down on the Martian surface near the northern-most boundary of the south pole in order to study the water cycle there. The lander also will help scientists learn more about climate change and current resources on Mars, studying such things as frost, dust, water vapor and condensates in the Martian atmosphere. The Mars microprobes, called Deep Space 2, are part of NASA's New Millennium Program. They will complement the climate-related scientific focus of the lander by demonstrating an advanced, rugged microlaser system for detecting subsurface water. Such data on polar subsurface water, in the form of ice, should help put limits on scientific projections for the global abundance of water on Mars KSC-98pc1626

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsula...

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsulation Facility -2 (SAEF-2), workers from the Jet Propulsion Laboratory open the drums containing the Mars microprobes that will hitchhike on ... More

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsulation Facility -2 (SAEF-2), Chris Voorhees and Satish Krishnan from the Jet Propulsion Laboratory remove a microprobe which will hitchhike on the Mars Polar Lander. Scheduled to be launched Jan. 3, 1999, aboard a Delta II rocket, the solar-powered spacecraft is designed to touch down on the Martian surface near the northern-most boundary of the south pole in order to study the water cycle there. The lander also will help scientists learn more about climate change and current resources on Mars, studying such things as frost, dust, water vapor and condensates in the Martian atmosphere. The Mars microprobes, called Deep Space 2, are part of NASA's New Millennium Program. They will complement the climate-related scientific focus of the lander by demonstrating an advanced, rugged microlaser system for detecting subsurface water. Such data on polar subsurface water, in the form of ice, should help put limits on scientific projections for the global abundance of water on Mars KSC-98pc1627

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsula...

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsulation Facility -2 (SAEF-2), Chris Voorhees and Satish Krishnan from the Jet Propulsion Laboratory remove a microprobe which will hitchhike on... More

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsulation Facility-2 (SAEF-2), Tandy Bianco, with Lockheed Martin, and Satish Krishnan (foreground) and Chris Voorhees (behind him), from the Jet Propulsion Laboratory, observe a Mars microprobe on the workstand. Two microprobes will hitchhike on the Mars Polar Lander, scheduled to be launched Jan. 3, 1999, aboard a Delta II rocket. The solar-powered spacecraft is designed to touch down on the Martian surface near the northern-most boundary of the south pole in order to study the water cycle there. The lander also will help scientists learn more about climate change and current resources on Mars, studying such things as frost, dust, water vapor and condensates in the Martian atmosphere. The Mars microprobes, called Deep Space 2, are part of NASA's New Millelnnium Program. They will complement the climate-related scientific focus of the lander by demonstrating an advanced, rugged microlaser system for detecting subsurface water. Such data on polar subsurface water, in the form of ice, should help put limits on scientific projections for the global abundance of water on Mars KSC-98pc1629

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsula...

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsulation Facility-2 (SAEF-2), Tandy Bianco, with Lockheed Martin, and Satish Krishnan (foreground) and Chris Voorhees (behind him), from the Jet... More

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsulation Facility -2 (SAEF-2), the two Mars microprobes are shown mounted on opposite sides of the Mars Polar Lander. The two microprobes and the lander are scheduled to be launched Jan. 3, 1999, aboard a Delta II rocket. The solar-powered spacecraft is designed to touch down on the Martian surface near the northern-most boundary of the south pole in order to study the water cycle there. The lander also will help scientists learn more about climate change and current resources on Mars, studying such things as frost, dust, water vapor and condensates in the Martian atmosphere. The Mars microprobes, called Deep Space 2, are part of NASA's New Millennium Program. They will complement the climate-related scientific focus of the lander by demonstrating an advanced, rugged microlaser system for detecting subsurface water. Such data on polar subsurface water, in the form of ice, should help put limits on scientific projections for the global abundance of water on Mars KSC-98pc1648

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsula...

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsulation Facility -2 (SAEF-2), the two Mars microprobes are shown mounted on opposite sides of the Mars Polar Lander. The two microprobes and th... More

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsulation Facility -2 (SAEF-2), JPL workers mount a Mars microprobe onto the Mars Polar Lander. Two microprobes will hitchhike on the lander, scheduled to be launched Jan. 3, 1999, aboard a Delta II rocket. The solar-powered spacecraft is designed to touch down on the Martian surface near the northern-most boundary of the south pole in order to study the water cycle there. The lander also will help scientists learn more about climate change and current resources on Mars, studying such things as frost, dust, water vapor and condensates in the Martian atmosphere. The Mars microprobes, called Deep Space 2, are part of NASA's New Millennium Program. They will complement the climate-related scientific focus of the lander by demonstrating an advanced, rugged microlaser system for detecting subsurface water. Such data on polar subsurface water, in the form of ice, should help put limits on scientific projections for the global abundance of water on Mars KSC-98pc1645

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsula...

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsulation Facility -2 (SAEF-2), JPL workers mount a Mars microprobe onto the Mars Polar Lander. Two microprobes will hitchhike on the lander, sch... More

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsulation Facility -2 (SAEF-2), Chris Voorhees (left) and Satish Krishnan (right), from the Jet Propulsion Laboratory, remove the second Mars microprobe from a drum. Two microprobes will hitchhike on the Mars Polar Lander, scheduled to be launched Jan. 3, 1999, aboard a Delta II rocket. The solar-powered spacecraft is designed to touch down on the Martian surface near the northern-most boundary of the south pole in order to study the water cycle there. The lander also will help scientists learn more about climate change and current resources on Mars, studying such things as frost, dust, water vapor and condensates in the Martian atmosphere. The Mars microprobes, called Deep Space 2, are part of NASA's New Millennium Program. They will complement the climate-related scientific focus of the lander by demonstrating an advanced, rugged microlaser system for detecting subsurface water. Such data on polar subsurface water, in the form of ice, should help put limits on scientific projections for the global abundance of water on Mars KSC-98pc1641

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsula...

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsulation Facility -2 (SAEF-2), Chris Voorhees (left) and Satish Krishnan (right), from the Jet Propulsion Laboratory, remove the second Mars mic... More

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsulation Facility -2 (SAEF-2), a JPL worker carries a Mars microprobe to the Mars Polar Lander at left. Two microprobes will hitchhike on the lander, scheduled to be launched Jan. 3, 1999, aboard a Delta II rocket. The solar-powered spacecraft is designed to touch down on the Martian surface near the northern-most boundary of the south pole in order to study the water cycle there. The lander also will help scientists learn more about climate change and current resources on Mars, studying such things as frost, dust, water vapor and condensates in the Martian atmosphere. The Mars microprobes, called Deep Space 2, are part of NASA's New Millennium Program. They will complement the climate-related scientific focus of the lander by demonstrating an advanced, rugged microlaser system for detecting subsurface water. Such data on polar subsurface water, in the form of ice, should help put limits on scientific projections for the global abundance of water on Mars KSC-98pc1646

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsula...

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsulation Facility -2 (SAEF-2), a JPL worker carries a Mars microprobe to the Mars Polar Lander at left. Two microprobes will hitchhike on the la... More

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsulation Facility -2 (SAEF-2), a JPL worker checks the Mars microprobe. Two microprobes will hitchhike on the Mars Polar Lander, scheduled to be launched Jan. 3, 1999, aboard a Delta II rocket. The solar-powered spacecraft is designed to touch down on the Martian surface near the northern-most boundary of the south pole in order to study the water cycle there. The lander also will help scientists learn more about climate change and current resources on Mars, studying such things as frost, dust, water vapor and condensates in the Martian atmosphere. The Mars microprobes, called Deep Space 2, are part of NASA's New Millennium Program. They will complement the climate-related scientific focus of the lander by demonstrating an advanced, rugged microlaser system for detecting subsurface water. Such data on polar subsurface water, in the form of ice, should help put limits on scientific projections for the global abundance of water on Mars KSC-98pc1643

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsula...

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsulation Facility -2 (SAEF-2), a JPL worker checks the Mars microprobe. Two microprobes will hitchhike on the Mars Polar Lander, scheduled to be... More

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsulation Facility -2 (SAEF-2), Chris Voorhees (front) watches while Satish Krishnan (back) places a Mars microprobe on a workstand. Two microprobes will hitchhike on the Mars Polar Lander, scheduled to be launched Jan. 3, 1999, aboard a Delta II rocket. The solar-powered spacecraft is designed to touch down on the Martian surface near the northern-most boundary of the south pole in order to study the water cycle there. The lander also will help scientists learn more about climate change and current resources on Mars, studying such things as frost, dust, water vapor and condensates in the Martian atmosphere. The Mars microprobes, called Deep Space 2, are part of NASA's New Millennium Program. They will complement the climate-related scientific focus of the lander by demonstrating an advanced, rugged microlaser system for detecting subsurface water. Such data on polar subsurface water, in the form of ice, should help put limits on scientific projections for the global abundance of water on Mars KSC-98pc1642

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsula...

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsulation Facility -2 (SAEF-2), Chris Voorhees (front) watches while Satish Krishnan (back) places a Mars microprobe on a workstand. Two micropro... More

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsulation Facility -2 (SAEF-2), two JPL workers measure a Mars microprobe. Two microprobes will hitchhike on the Mars Polar Lander, scheduled to be launched Jan. 3, 1999, aboard a Delta II rocket. The solar-powered spacecraft is designed to touch down on the Martian surface near the northern-most boundary of the south pole in order to study the water cycle there. The lander also will help scientists learn more about climate change and current resources on Mars, studying such things as frost, dust, water vapor and condensates in the Martian atmosphere. The Mars microprobes, called Deep Space 2, are part of NASA's New Millennium Program. They will complement the climate-related scientific focus of the lander by demonstrating an advanced, rugged microlaser system for detecting subsurface water. Such data on polar subsurface water, in the form of ice, should help put limits on scientific projections for the global abundance of water on Mars KSC-98pc1644

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsula...

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsulation Facility -2 (SAEF-2), two JPL workers measure a Mars microprobe. Two microprobes will hitchhike on the Mars Polar Lander, scheduled to ... More

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsulation Facility -2 (SAEF-2), JPL workers prepare to mount a Mars microprobe onto the Mars Polar Lander. Two microprobes will hitchhike on the lander, scheduled to be launched Jan. 3, 1999, aboard a Delta II rocket. The solar-powered spacecraft is designed to touch down on the Martian surface near the northern-most boundary of the south pole in order to study the water cycle there. The lander also will help scientists learn more about climate change and current resources on Mars, studying such things as frost, dust, water vapor and condensates in the Martian atmosphere. The Mars microprobes, called Deep Space 2, are part of NASA's New Millennium Program. They will complement the climate-related scientific focus of the lander by demonstrating an advanced, rugged microlaser system for detecting subsurface water. Such data on polar subsurface water, in the form of ice, should help put limits on scientific projections for the global abundance of water on Mars KSC-98pc1647

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsula...

KENNEDY SPACE CENTER, FLA. -- In the Spacecraft Assembly and Encapsulation Facility -2 (SAEF-2), JPL workers prepare to mount a Mars microprobe onto the Mars Polar Lander. Two microprobes will hitchhike on the ... More

During Freedom Fest 2000, members of the 1ST Cavalry Divisions 1ST Battalion, 21st Field Artillery, fires a volley to complement the festivities

During Freedom Fest 2000, members of the 1ST Cavalry Divisions 1ST Bat...

The original finding aid described this photograph as: Base: Fort Hood State: Texas (TX) Country: United States Of America (USA) Scene Camera Operator: John Byerly Release Status: Released to Public Combin... More

During Freedom Fest 2000, the 1ST Cavalry Divisions band plays a selection of patriotic music to complement the festivities

During Freedom Fest 2000, the 1ST Cavalry Divisions band plays a selec...

The original finding aid described this photograph as: Base: Fort Hood State: Texas (TX) Country: United States Of America (USA) Scene Camera Operator: John Byerly Release Status: Released to Public Combin... More

KENNEDY SPACE CENTER, Fla. - A piece of equipment for Hubble Space Telescope Servicing mission arrives at Hangar AE, Cape Canaveral. Inside the canister is the Advanced Camera for Surveys (ACS). The ACS will increase the discovery efficiency of the HST by a factor of ten. It consists of three electronic cameras and a complement of filters and dispersers that detect light from the ultraviolet to the near infrared (1200 - 10,000 angstroms). The ACS was built through a collaborative effort between Johns Hopkins University, Goddard Space Flight Center, Ball Aerospace Corporation and Space Telescope Science Institute. The goal of the mission, STS-109, is to service the HST, replacing Solar Array 2 with Solar Array 3, replacing the Power Control Unit, removing the Faint Object Camera and installing the ACS, installing the Near Infrared Camera and Multi-Object Spectrometer (NICMOS) Cooling System, and installing New Outer Blanket Layer insulation on bays 5 through 8. Mission STS-109 is scheduled for launch Feb. 14, 2002 KSC01pd1735

KENNEDY SPACE CENTER, Fla. - A piece of equipment for Hubble Space Te...

KENNEDY SPACE CENTER, Fla. - A piece of equipment for Hubble Space Telescope Servicing mission arrives at Hangar AE, Cape Canaveral. Inside the canister is the Advanced Camera for Surveys (ACS). The ACS will ... More

KENNEDY SPACE CENTER, Fla. -- A piece of equipment for Hubble Space Telescope Servicing mission is moved inside Hangar AE, Cape Canaveral. In the canister is the Advanced Camera for Surveys (ACS). The ACS will increase the discovery efficiency of the HST by a factor of ten. It consists of three electronic cameras and a complement of filters and dispersers that detect light from the ultraviolet to the near infrared (1200 - 10,000 angstroms). The ACS was built through a collaborative effort between Johns Hopkins University, Goddard Space Flight Center, Ball Aerospace Corporation and Space Telescope Science Institute. The goal of the mission, STS-109, is to service the HST, replacing Solar Array 2 with Solar Array 3, replacing the Power Control Unit, removing the Faint Object Camera and installing the ACS, installing the Near Infrared Camera and Multi-Object Spectrometer (NICMOS) Cooling System, and installing New Outer Blanket Layer insulation on bays 5 through 8. Mission STS-109 is scheduled for launch Feb. 14, 2002 KSC01pd1736

KENNEDY SPACE CENTER, Fla. -- A piece of equipment for Hubble Space Te...

KENNEDY SPACE CENTER, Fla. -- A piece of equipment for Hubble Space Telescope Servicing mission is moved inside Hangar AE, Cape Canaveral. In the canister is the Advanced Camera for Surveys (ACS). The ACS will... More

KENNEDY SPACE CENTER, Fla. -- In Hangar A&E, workers watch as an overhead crane lifts the Advanced Camera for Surveys out of its transportation container. Part of the payload on the Hubble Space Telescope Servicing Mission, STS-109, the ACS will increase the discovery efficiency of the HST by a factor of ten. It consists of three electronic cameras and a complement of filters and dispersers that detect light from the ultraviolet to the near infrared (1200 - 10,000 angstroms). The ACS was built through a collaborative effort between Johns Hopkins University, Goddard Space Flight Center, Ball Aerospace Corporation and Space Telescope Science Institute. Tasks for the mission include replacing Solar Array 2 with Solar Array 3, replacing the Power Control Unit, removing the Faint Object Camera and installing the ACS, installing the Near Infrared Camera and Multi-Object Spectrometer (NICMOS) Cooling System, and installing New Outer Blanket Layer insulation on bays 5 through 8. Mission STS-109 is scheduled for launch Feb. 14, 2002 KSC-01pp1758

KENNEDY SPACE CENTER, Fla. -- In Hangar A&E, workers watch as an over...

KENNEDY SPACE CENTER, Fla. -- In Hangar A&E, workers watch as an overhead crane lifts the Advanced Camera for Surveys out of its transportation container. Part of the payload on the Hubble Space Telescope Ser... More

KENNEDY SPACE CENTER, Fla. -- Fully unwrapped, the Advanced Camera for Surveys, which is suspended by an overhead crane, is checked over by workers. Part of the payload on the Hubble Space Telescope Servicing Mission, STS-109, the ACS will increase the discovery efficiency of the HST by a factor of ten. It consists of three electronic cameras and a complement of filters and dispersers that detect light from the ultraviolet to the near infrared (1200 - 10,000 angstroms). The ACS was built through a collaborative effort between Johns Hopkins University, Goddard Space Flight Center, Ball Aerospace Corporation and Space Telescope Science Institute. Tasks for the mission include replacing Solar Array 2 with Solar Array 3, replacing the Power Control Unit, removing the Faint Object Camera and installing the ACS, installing the Near Infrared Camera and Multi-Object Spectrometer (NICMOS) Cooling System, and installing New Outer Blanket Layer insulation on bays 5 through 8. Mission STS-109 is scheduled for launch Feb. 14, 2002 KSC-01pp1760

KENNEDY SPACE CENTER, Fla. -- Fully unwrapped, the Advanced Camera fo...

KENNEDY SPACE CENTER, Fla. -- Fully unwrapped, the Advanced Camera for Surveys, which is suspended by an overhead crane, is checked over by workers. Part of the payload on the Hubble Space Telescope Servicing ... More

KENNEDY SPACE CENTER, FLA. - A student works on an experiment that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includes six educational experiments designed and developed by students in six different countries under the auspices of Space Technology and Research Students (STARS), a global education program managed by SPACEHAB subsidiary Space Media. The countries represented are Australia, China, Israel, Japan, Liechtenstein and the United States. The student investigators who conceived these experiments will monitor their operations in space. The experiments will be housed in BioServe Space Technologies' Isothermal Containment Module (ICM --a small temperature-controlled facility that provides experiment support such as physical containment, lighting, and video imaging) and stowed in a middeck-size locker aboard the SPACEHAB Research Double Module. KSC-03pd0095

KENNEDY SPACE CENTER, FLA. - A student works on an experiment that wil...

KENNEDY SPACE CENTER, FLA. - A student works on an experiment that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includes six educational exp... More

KENNEDY SPACE CENTER, FLA. -- Students work on their experiments that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includes six educational experiments designed and developed by students in six different countries under the auspices of Space Technology and Research Students (STARS), a global education program managed by SPACEHAB subsidiary Space Media. The countries represented are Australia, China, Israel, Japan, Liechtenstein and the United States. The student investigators who conceived these experiments will monitor their operations in space. The experiments will be housed in BioServe Space Technologies' Isothermal Containment Module (ICM --a small temperature-controlled facility that provides experiment support such as physical containment, lighting, and video imaging) and stowed in a middeck-size locker aboard the SPACEHAB Research Double Module. KSC-03pd0094

KENNEDY SPACE CENTER, FLA. -- Students work on their experiments that ...

KENNEDY SPACE CENTER, FLA. -- Students work on their experiments that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includes six educational ... More

KENNEDY SPACE CENTER, FLA. -- Students check out their experiments that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includes six educational experiments designed and developed by students in six different countries under the auspices of Space Technology and Research Students (STARS), a global education program managed by SPACEHAB subsidiary Space Media. The countries represented are Australia, China, Israel, Japan, Liechtenstein and the United States. The student investigators who conceived these experiments will monitor their operations in space. The experiments will be housed in BioServe Space Technologies' Isothermal Containment Module (ICM --a small temperature-controlled facility that provides experiment support such as physical containment, lighting, and video imaging) and stowed in a middeck-size locker aboard the SPACEHAB Research Double Module. KSC-03pd0090

KENNEDY SPACE CENTER, FLA. -- Students check out their experiments tha...

KENNEDY SPACE CENTER, FLA. -- Students check out their experiments that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includes six educationa... More

KENNEDY SPACE CENTER, FLA. - Students work on their experiments that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includes six educational experiments designed and developed by students in six different countries under the auspices of Space Technology and Research Students (STARS), a global education program managed by SPACEHAB subsidiary Space Media. The countries represented are Australia, China, Israel, Japan, Liechtenstein and the United States. The student investigators who conceived these experiments will monitor their operations in space. The experiments will be housed in BioServe Space Technologies' Isothermal Containment Module (ICM --a small temperature-controlled facility that provides experiment support such as physical containment, lighting, and video imaging) and stowed in a middeck-size locker aboard the SPACEHAB Research Double Module. KSC-03pd0083

KENNEDY SPACE CENTER, FLA. - Students work on their experiments that w...

KENNEDY SPACE CENTER, FLA. - Students work on their experiments that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includes six educational e... More

KENNEDY SPACE CENTER, FLA. - Students check out their experiments that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includes six educational experiments designed and developed by students in six different countries under the auspices of Space Technology and Research Students (STARS), a global education program managed by SPACEHAB subsidiary Space Media. The countries represented are Australia, China, Israel, Japan, Liechtenstein and the United States. The student investigators who conceived these experiments will monitor their operations in space. The experiments will be housed in BioServe Space Technologies' Isothermal Containment Module (ICM --a small temperature-controlled facility that provides experiment support such as physical containment, lighting, and video imaging) and stowed in a middeck-size locker aboard the SPACEHAB Research Double Module. KSC-03pd0088

KENNEDY SPACE CENTER, FLA. - Students check out their experiments that...

KENNEDY SPACE CENTER, FLA. - Students check out their experiments that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includes six educational... More

KENNEDY SPACE CENTER, FLA. - Students look over their experiments that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includes six educational experiments designed and developed by students in six different countries under the auspices of Space Technology and Research Students (STARS), a global education program managed by SPACEHAB subsidiary Space Media. The countries represented are Australia, China, Israel, Japan, Liechtenstein and the United States. The student investigators who conceived these experiments will monitor their operations in space. The experiments will be housed in BioServe Space Technologies' Isothermal Containment Module (ICM --a small temperature-controlled facility that provides experiment support such as physical containment, lighting, and video imaging) and stowed in a middeck-size locker aboard the SPACEHAB Research Double Module. KSC-03pd0081

KENNEDY SPACE CENTER, FLA. - Students look over their experiments that...

KENNEDY SPACE CENTER, FLA. - Students look over their experiments that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includes six educational... More

KENNEDY SPACE CENTER, FLA. -- Students display an experiment that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includes six educational experiments designed and developed by students in six different countries under the auspices of Space Technology and Research Students (STARS), a global education program managed by SPACEHAB subsidiary Space Media. The countries represented are Australia, China, Israel, Japan, Liechtenstein and the United States. The student investigators who conceived these experiments will monitor their operations in space. The experiments will be housed in BioServe Space Technologies' Isothermal Containment Module (ICM --a small temperature-controlled facility that provides experiment support such as physical containment, lighting, and video imaging) and stowed in a middeck-size locker aboard the SPACEHAB Research Double Module. KSC-03pd0097

KENNEDY SPACE CENTER, FLA. -- Students display an experiment that will...

KENNEDY SPACE CENTER, FLA. -- Students display an experiment that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includes six educational expe... More

KENNEDY SPACE CENTER, FLA. -- Students show off one of the experiments that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includes six educational experiments designed and developed by students in six different countries under the auspices of Space Technology and Research Students (STARS), a global education program managed by SPACEHAB subsidiary Space Media. The countries represented are Australia, China, Israel, Japan, Liechtenstein and the United States. The student investigators who conceived these experiments will monitor their operations in space. The experiments will be housed in BioServe Space Technologies' Isothermal Containment Module (ICM --a small temperature-controlled facility that provides experiment support such as physical containment, lighting, and video imaging) and stowed in a middeck-size locker aboard the SPACEHAB Research Double Module. KSC-03pd0092

KENNEDY SPACE CENTER, FLA. -- Students show off one of the experiments...

KENNEDY SPACE CENTER, FLA. -- Students show off one of the experiments that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includes six educa... More

KENNEDY SPACE CENTER, FLA. -- Students work on their experiments that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includes six educational experiments designed and developed by students in six different countries under the auspices of Space Technology and Research Students (STARS), a global education program managed by SPACEHAB subsidiary Space Media. The countries represented are Australia, China, Israel, Japan, Liechtenstein and the United States. The student investigators who conceived these experiments will monitor their operations in space. The experiments will be housed in BioServe Space Technologies' Isothermal Containment Module (ICM --a small temperature-controlled facility that provides experiment support such as physical containment, lighting, and video imaging) and stowed in a middeck-size locker aboard the SPACEHAB Research Double Module. KSC-03pd0091

KENNEDY SPACE CENTER, FLA. -- Students work on their experiments that ...

KENNEDY SPACE CENTER, FLA. -- Students work on their experiments that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includes six educational ... More

KENNEDY SPACE CENTER, FLA. - Students check on their experiments that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includes six educational experiments designed and developed by students in six different countries under the auspices of Space Technology and Research Students (STARS), a global education program managed by SPACEHAB subsidiary Space Media. The countries represented are Australia, China, Israel, Japan, Liechtenstein and the United States. The student investigators who conceived these experiments will monitor their operations in space. The experiments will be housed in BioServe Space Technologies' Isothermal Containment Module (ICM --a small temperature-controlled facility that provides experiment support such as physical containment, lighting, and video imaging) and stowed in a middeck-size locker aboard the SPACEHAB Research Double Module. KSC-03pd0082

KENNEDY SPACE CENTER, FLA. - Students check on their experiments that ...

KENNEDY SPACE CENTER, FLA. - Students check on their experiments that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includes six educational ... More

KENNEDY SPACE CENTER, FLA. - Students work on their experiments that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includes six educational experiments designed and developed by students in six different countries under the auspices of Space Technology and Research Students (STARS), a global education program managed by SPACEHAB subsidiary Space Media. The countries represented are Australia, China, Israel, Japan, Liechtenstein and the United States. The student investigators who conceived these experiments will monitor their operations in space. The experiments will be housed in BioServe Space Technologies' Isothermal Containment Module (ICM --a small temperature-controlled facility that provides experiment support such as physical containment, lighting, and video imaging) and stowed in a middeck-size locker aboard the SPACEHAB Research Double Module. KSC-03pd0087

KENNEDY SPACE CENTER, FLA. - Students work on their experiments that w...

KENNEDY SPACE CENTER, FLA. - Students work on their experiments that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includes six educational e... More

KENNEDY SPACE CENTER, FLA. - A student shows off one of the experiments that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includes six educational experiments designed and developed by students in six different countries under the auspices of Space Technology and Research Students (STARS), a global education program managed by SPACEHAB subsidiary Space Media. The countries represented are Australia, China, Israel, Japan, Liechtenstein and the United States. The student investigators who conceived these experiments will monitor their operations in space. The experiments will be housed in BioServe Space Technologies' Isothermal Containment Module (ICM --a small temperature-controlled facility that provides experiment support such as physical containment, lighting, and video imaging) and stowed in a middeck-size locker aboard the SPACEHAB Research Double Module. KSC-03pd0089

KENNEDY SPACE CENTER, FLA. - A student shows off one of the experiment...

KENNEDY SPACE CENTER, FLA. - A student shows off one of the experiments that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includes six educ... More

KENNEDY SPACE CENTER, FLA. - Students work on their experiments that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includes six educational experiments designed and developed by students in six different countries under the auspices of Space Technology and Research Students (STARS), a global education program managed by SPACEHAB subsidiary Space Media. The countries represented are Australia, China, Israel, Japan, Liechtenstein and the United States. The student investigators who conceived these experiments will monitor their operations in space. The experiments will be housed in BioServe Space Technologies' Isothermal Containment Module (ICM --a small temperature-controlled facility that provides experiment support such as physical containment, lighting, and video imaging) and stowed in a middeck-size locker aboard the SPACEHAB Research Double Module. KSC-03pd0086

KENNEDY SPACE CENTER, FLA. - Students work on their experiments that w...

KENNEDY SPACE CENTER, FLA. - Students work on their experiments that will fly in SPACEHAB on Space Shuttle Columbia on mission STS-107. SPACEHAB's complement of commercial experiments includes six educational e... More

KENNEDY SPACE CENTER, FLA. - The MESSENGER spacecraft is moved out the door at Astrotech Space Operations in Titusville, Fla.. It is being transferred to a hazardous processing facility where the spacecraft’s complement of hypergolic propellants will be loaded. MESSENGER is scheduled to launch Aug. 2 aboard a Boeing Delta II rocket from Pad 17-B, Cape Canaveral Air Force Station, Fla., bound for Mercury. The spacecraft is expected to reach orbit around Mercury in March 2011. MESSENGER was built for NASA by The Johns Hopkins University Applied Physics Laboratory in Laurel, Md. KSC-04pd1376

KENNEDY SPACE CENTER, FLA. - The MESSENGER spacecraft is moved out th...

KENNEDY SPACE CENTER, FLA. - The MESSENGER spacecraft is moved out the door at Astrotech Space Operations in Titusville, Fla.. It is being transferred to a hazardous processing facility where the spacecraft’s... More

KENNEDY SPACE CENTER, FLA. - Secure on the back of a transport vehicle, the MESSENGER spacecraft is being transferred to a hazardous processing facility at Astrotech Space Operations where the spacecraft’s complement of hypergolic propellants will be loaded. MESSENGER is scheduled to launch Aug. 2 aboard a Boeing Delta II rocket from Pad 17-B, Cape Canaveral Air Force Station, Fla., bound for Mercury. The spacecraft is expected to reach orbit around Mercury in March 2011. MESSENGER was built for NASA by the Johns Hopkins University Applied Physics Laboratory in Laurel, Md. KSC-04pd1378

KENNEDY SPACE CENTER, FLA. - Secure on the back of a transport vehicl...

KENNEDY SPACE CENTER, FLA. - Secure on the back of a transport vehicle, the MESSENGER spacecraft is being transferred to a hazardous processing facility at Astrotech Space Operations where the spacecraft’s com... More

KENNEDY SPACE CENTER, FLA. - The MESSENGER spacecraft is moved across the floor at Astrotech Space Operations in Titusville, Fla.. It is being transferred to a hazardous processing facility where the spacecraft’s complement of hypergolic propellants will be loaded. MESSENGER is scheduled to launch Aug. 2 aboard a Boeing Delta II rocket from Pad 17-B, Cape Canaveral Air Force Station, Fla., bound for Mercury. The spacecraft is expected to reach orbit around Mercury in March 2011. MESSENGER was built for NASA by The Johns Hopkins University Applied Physics Laboratory in Laurel, Md. KSC-04pd1375

KENNEDY SPACE CENTER, FLA. - The MESSENGER spacecraft is moved across...

KENNEDY SPACE CENTER, FLA. - The MESSENGER spacecraft is moved across the floor at Astrotech Space Operations in Titusville, Fla.. It is being transferred to a hazardous processing facility where the spacecra... More

KENNEDY SPACE CENTER, FLA. - The MESSENGER spacecraft is moved toward a work stand inside Astrotech Space Operations’ hazardous processing facility. MESSENGER is being prepared for loading the spacecraft’s complement of hypergolic propellants. MESSENGER is scheduled to launch Aug. 2 aboard a Boeing Delta II rocket from Pad 17-B, Cape Canaveral Air Force Station, Fla., bound for Mercury. The spacecraft is expected to reach orbit around Mercury in March 2011. MESSENGER was built for NASA by the Johns Hopkins University Applied Physics Laboratory in Laurel, Md. KSC-04pd1383

KENNEDY SPACE CENTER, FLA. - The MESSENGER spacecraft is moved toward...

KENNEDY SPACE CENTER, FLA. - The MESSENGER spacecraft is moved toward a work stand inside Astrotech Space Operations’ hazardous processing facility. MESSENGER is being prepared for loading the spacecraft’s c... More

KENNEDY SPACE CENTER, FLA. - At Astrotech Space Operations’ hazardous processing facility, the MESSENGER spacecraft rests on a work stand, ready to receive the spacecraft’s complement of hypergolic propellants. MESSENGER is scheduled to launch Aug. 2 aboard a Boeing Delta II rocket from Pad 17-B, Cape Canaveral Air Force Station, Fla., bound for Mercury. The spacecraft is expected to reach orbit around Mercury in March 2011. MESSENGER was built for NASA by The Johns Hopkins University Applied Physics Laboratory in Laurel, Md. KSC-04pd1385

KENNEDY SPACE CENTER, FLA. - At Astrotech Space Operations’ hazardous...

KENNEDY SPACE CENTER, FLA. - At Astrotech Space Operations’ hazardous processing facility, the MESSENGER spacecraft rests on a work stand, ready to receive the spacecraft’s complement of hypergolic propellants... More

KENNEDY SPACE CENTER, FLA. - Workers at Astrotech Space Operations’ hazardous processing facility remove a protective cover around the MESSENGER spacecraft. It was moved the site in preparation for loading the spacecraft’s complement of hypergolic propellants. MESSENGER is scheduled to launch Aug. 2 aboard a Boeing Delta II rocket from Pad 17-B, Cape Canaveral Air Force Station, Fla., bound for Mercury. The spacecraft is expected to reach orbit around Mercury in March 2011. MESSENGER was built for NASA by the Johns Hopkins University Applied Physics Laboratory in Laurel, Md. KSC-04pd1381

KENNEDY SPACE CENTER, FLA. - Workers at Astrotech Space Operations’ h...

KENNEDY SPACE CENTER, FLA. - Workers at Astrotech Space Operations’ hazardous processing facility remove a protective cover around the MESSENGER spacecraft. It was moved the site in preparation for loading th... More

KENNEDY SPACE CENTER, FLA. - At Astrotech in Titusville, Fla., technicians with The Johns Hopkins University Applied Physics Laboratory (APL) prepare to cover the MESSESNGER spacecraft for a move to a hazardous processing facility in preparation for loading the spacecraft’s complement of hypergolic propellants. MESSENGER is scheduled to launch Aug. 2 aboard a Boeing Delta II rocket from Pad 17-B, Cape Canaveral Air Force Station, Fla., on a journey to Mercury. It will return to Earth for a gravity boost in July 2005, then fly past Venus twice, in October 2006 and June 2007. The spacecraft uses the tug of Venus’ gravity to resize and rotate its trajectory closer to Mercury’s orbit. Three Mercury flybys, each followed about two months later by a course-correction maneuver, put MESSENGER in position to enter Mercury orbit in March 2011. During the flybys, MESSENGER will map nearly the entire planet in color, image most of the areas unseen by Mariner 10, and measure the composition of the surface, atmosphere and magnetosphere. It will be the first new data from Mercury in more than 30 years - and invaluable for planning MESSENGER’s year-long orbital mission. MESSENGER was built for NASA by APL in Laurel, Md. KSC-04pd1373

KENNEDY SPACE CENTER, FLA. - At Astrotech in Titusville, Fla., techni...

KENNEDY SPACE CENTER, FLA. - At Astrotech in Titusville, Fla., technicians with The Johns Hopkins University Applied Physics Laboratory (APL) prepare to cover the MESSESNGER spacecraft for a move to a hazardou... More

KENNEDY SPACE CENTER, FLA. - At Astrotech in Titusville, Fla., technicians with The Johns Hopkins University Applied Physics Laboratory (APL) prepare the MESSESNGER spacecraft for a move to a hazardous processing facility in preparation for loading the spacecraft’s complement of hypergolic propellants. MESSENGER is scheduled to launch Aug. 2 aboard a Boeing Delta II rocket from Pad 17-B, Cape Canaveral Air Force Station, Fla., on a journey to Mercury. It will return to Earth for a gravity boost in July 2005, then fly past Venus twice, in October 2006 and June 2007. The spacecraft uses the tug of Venus’ gravity to resize and rotate its trajectory closer to Mercury’s orbit. Three Mercury flybys, each followed about two months later by a course-correction maneuver, put MESSENGER in position to enter Mercury orbit in March 2011. During the flybys, MESSENGER will map nearly the entire planet in color, image most of the areas unseen by Mariner 10, and measure the composition of the surface, atmosphere and magnetosphere. It will be the first new data from Mercury in more than 30 years - and invaluable for planning MESSENGER’s year-long orbital mission. MESSENGER was built for NASA by APL in Laurel, Md. KSC-04pd1372

KENNEDY SPACE CENTER, FLA. - At Astrotech in Titusville, Fla., techni...

KENNEDY SPACE CENTER, FLA. - At Astrotech in Titusville, Fla., technicians with The Johns Hopkins University Applied Physics Laboratory (APL) prepare the MESSESNGER spacecraft for a move to a hazardous process... More

KENNEDY SPACE CENTER, FLA. - - The MESSENGER spacecraft is lifted off its stand inside Astrotech Space Operations’ hazardous processing facility. MESSENGER is being prepared for loading the spacecraft’s complement of hypergolic propellants. MESSENGER is scheduled to launch Aug. 2 aboard a Boeing Delta II rocket from Pad 17-B, Cape Canaveral Air Force Station, Fla., bound for Mercury. The spacecraft is expected to reach orbit around Mercury in March 2011. MESSENGER was built for NASA by the Johns Hopkins University Applied Physics Laboratory in Laurel, Md. KSC-04pd1382

KENNEDY SPACE CENTER, FLA. - - The MESSENGER spacecraft is lifted off...

KENNEDY SPACE CENTER, FLA. - - The MESSENGER spacecraft is lifted off its stand inside Astrotech Space Operations’ hazardous processing facility. MESSENGER is being prepared for loading the spacecraft’s compl... More

KENNEDY SPACE CENTER, FLA. - The MESSENGER spacecraft arrives at a hazardous processing facility at Astrotech Space Operations where the spacecraft’s complement of hypergolic propellants will be loaded. MESSENGER is scheduled to launch Aug. 2 aboard a Boeing Delta II rocket from Pad 17-B, Cape Canaveral Air Force Station, Fla., bound for Mercury. The spacecraft is expected to reach orbit around Mercury in March 2011. MESSENGER was built for NASA by the Johns Hopkins University Applied Physics Laboratory in Laurel, Md. KSC-04pd1379

KENNEDY SPACE CENTER, FLA. - The MESSENGER spacecraft arrives at a ha...

KENNEDY SPACE CENTER, FLA. - The MESSENGER spacecraft arrives at a hazardous processing facility at Astrotech Space Operations where the spacecraft’s complement of hypergolic propellants will be loaded. MESSE... More

KENNEDY SPACE CENTER, FLA. - Workers at Astrotech Space Operations’ hazardous processing facility help guide the MESSENGER spacecraft onto a work stand. MESSENGER is being prepared for loading the spacecraft’s complement of hypergolic propellants. MESSENGER is scheduled to launch Aug. 2 aboard a Boeing Delta II rocket from Pad 17-B, Cape Canaveral Air Force Station, Fla., bound for Mercury. The spacecraft is expected to reach orbit around Mercury in March 2011. MESSENGER was built for NASA by the Johns Hopkins University Applied Physics Laboratory in Laurel, Md. KSC-04pd1384

KENNEDY SPACE CENTER, FLA. - Workers at Astrotech Space Operations’ h...

KENNEDY SPACE CENTER, FLA. - Workers at Astrotech Space Operations’ hazardous processing facility help guide the MESSENGER spacecraft onto a work stand. MESSENGER is being prepared for loading the spacecraft’... More

KENNEDY SPACE CENTER, FLA. - - After the deployment test of two solar panels at Astrotech in Titusville, Fla., technicians with The Johns Hopkins University Applied Physics Laboratory (APL) prepare the MESSESNGER spacecraft for a move to a hazardous processing facility in preparation for loading the spacecraft’s complement of hypergolic propellants. The solar arrays will provide MESSENGER’s power on its journey to Mercury. MESSENGER is scheduled to launch Aug. 2 aboard a Boeing Delta II rocket from Pad 17-B, Cape Canaveral Air Force Station, Fla. It will return to Earth for a gravity boost in July 2005, then fly past Venus twice, in October 2006 and June 2007. The spacecraft uses the tug of Venus’ gravity to resize and rotate its trajectory closer to Mercury’s orbit. Three Mercury flybys, each followed about two months later by a course-correction maneuver, put MESSENGER in position to enter Mercury orbit in March 2011. During the flybys, MESSENGER will map nearly the entire planet in color, image most of the areas unseen by Mariner 10, and measure the composition of the surface, atmosphere and magnetosphere. It will be the first new data from Mercury in more than 30 years - and invaluable for planning MESSENGER’s year-long orbital mission. MESSENGER was built for NASA by APL in Laurel, Md. KSC-04pd1371

KENNEDY SPACE CENTER, FLA. - - After the deployment test of two solar...

KENNEDY SPACE CENTER, FLA. - - After the deployment test of two solar panels at Astrotech in Titusville, Fla., technicians with The Johns Hopkins University Applied Physics Laboratory (APL) prepare the MESSESN... More

KENNEDY SPACE CENTER, FLA. - Workers at Astrotech Space Operations’ hazardous processing facility remove a protective cover around the MESSENGER spacecraft. It was moved the site in preparation for loading the spacecraft’s complement of hypergolic propellants. MESSENGER is scheduled to launch Aug. 2 aboard a Boeing Delta II rocket from Pad 17-B, Cape Canaveral Air Force Station, Fla., bound for Mercury. The spacecraft is expected to reach orbit around Mercury in March 2011. MESSENGER was built for NASA by the Johns Hopkins University Applied Physics Laboratory in Laurel, Md. KSC-04pd1380

KENNEDY SPACE CENTER, FLA. - Workers at Astrotech Space Operations’ h...

KENNEDY SPACE CENTER, FLA. - Workers at Astrotech Space Operations’ hazardous processing facility remove a protective cover around the MESSENGER spacecraft. It was moved the site in preparation for loading th... More

KENNEDY SPACE CENTER, FLA. - At Astrotech Space Operations in Titusville, Fla., the MESSENGER spacecraft is prepared for a move to a hazardous processing facility where the spacecraft’s complement of hypergolic propellants will be loaded. MESSENGER is scheduled to launch Aug. 2 aboard a Boeing Delta II rocket from Pad 17-B, Cape Canaveral Air Force Station, Fla., bound for Mercury. The spacecraft is expected to reach orbit around Mercury in March 2011. MESSENGER was built for NASA by the Johns Hopkins University Applied Physics Laboratory in Laurel, Md. KSC-04pd1374

KENNEDY SPACE CENTER, FLA. - At Astrotech Space Operations in Titusvi...

KENNEDY SPACE CENTER, FLA. - At Astrotech Space Operations in Titusville, Fla., the MESSENGER spacecraft is prepared for a move to a hazardous processing facility where the spacecraft’s complement of hypergoli... More

KENNEDY SPACE CENTER, FLA. - Secure on the back of a transport vehicle, the MESSENGER spacecraft is being transferred to a hazardous processing facility where the spacecraft’s complement of hypergolic propellants will be loaded. MESSENGER is scheduled to launch Aug. 2 aboard a Boeing Delta II rocket from Pad 17-B, Cape Canaveral Air Force Station, Fla., bound for Mercury. The spacecraft is expected to reach orbit around Mercury in March 2011. MESSENGER was built for NASA by the Johns Hopkins University Applied Physics Laboratory in Laurel, Md. KSC-04pd1377

KENNEDY SPACE CENTER, FLA. - Secure on the back of a transport vehicl...

KENNEDY SPACE CENTER, FLA. - Secure on the back of a transport vehicle, the MESSENGER spacecraft is being transferred to a hazardous processing facility where the spacecraft’s complement of hypergolic propella... More

US Navy (USN) Hull Maintenance Technician Second Class (HT2) Carl Harris (left) waits patiently as USN CHIEF Electronics Technician (ETC) Ronald Olmsted assembles his EOD-8 Explosive Ordnance Disposal Suit during a training evolution (session). Members of Explosive Ordnance Disposal (EOD) Mobile Unit Four Detachment 12 recently conducted a Final Evaluation Phase (FEP) of training to simulate operations the team may experience while supporting maritime security operations (MSO). MSO set the conditions for security and stability in the maritime onment, complement the counter-terrorism and security efforts of regional nations, and denies international terrorists use of the maritime...

US Navy (USN) Hull Maintenance Technician Second Class (HT2) Carl Harr...

The original finding aid described this photograph as: [Complete] Scene Caption: US Navy (USN) Hull Maintenance Technician Second Class (HT2) Carl Harris (left) waits patiently as USN CHIEF Electronics Technic... More

US Navy (USN) Lieutenant (LT) Scott Small mans the Integrated Catapult Control System (ICCS) in the Waist Bubble (a.k.a. bubble), during flight operations aboard the USN aircraft carrier USS NIMITZ (CVN 68). The Nimitz Carrier Strike Group is currently on a regularly scheduled deployment and is participating in Maritime Security Operations (MSO). MSO set the conditions for security and stability in the maritime environment as well as complement the counter-terrorism and security efforts of regional nations

US Navy (USN) Lieutenant (LT) Scott Small mans the Integrated Catapult...

The original finding aid described this photograph as: Base: USS Nimitz (CVN 68) Scene Major Command Shown: CVN-68 Scene Camera Operator: PH3 Elisabeth A. Saccotelli, Usn Release Status: Released to Public ... More

The US Navy (USN) Ticonderoga Class Guided Missile Cruiser USS PRINCETON (CG 59) (left), the Military Sealift Command (MSC) Supply Class Fast Combat Support Ship USNS BRIDGE (T-AOE 10) and the USN Aircraft Carrier USS NIMITZ (CVN 68) perform a connected replenishment at sea (CONREP), transferring fuel and supplies. The Nimitz Strike Group is currently on a regularly scheduled deployment and is participating in Maritime Security Operations (MSO). MSO set the conditions for security and stability in the maritime environment as well as complement the counter-terrorism and security efforts of regional nations

The US Navy (USN) Ticonderoga Class Guided Missile Cruiser USS PRINCET...

The original finding aid described this photograph as: Country: Persian Gulf Scene Camera Operator: PH2 Elizabeth Thompson, Usn Release Status: Released to Public Combined Military Service Digital Photographic Files

The US Navy (USN) Arleigh Burke-cla guided miile detroyer USS MCCAMPBELL (DDG 85) come alongide the USN Nimitz-cla aircraft carrier USS RONALD REAGAN (CVN 76) for a routine fueling at ea in upport of the Global War on Terrorim (GWOT).2006 USS McCampbell (DDG 85) come alongide USS Ronald Reagan (CVN 76) for a routine fueling at ea (FAS). Reagan i currently deployed a part of a routine rotation of U.S. maritime force in upport of Operation Iraqi Freedom and Enduring Freedoma well a conducting Maritime Security Operation (MSO) in the region. MSO et the condition for ecurity and tability in the maritime environment a well a complement the counter-terrorim and...

The US Navy (USN) Arleigh Burke-cla guided miile detroyer USS MCCAMPBE...

The original finding aid described this photograph as: [Complete] Scene Caption: The US Navy (USN) Arleigh Burke-class guided missile destroyer USS MCCAMPBELL (DDG 85) comes alongside the USN Nimitz-class airc... More

The US Navy (USN) Arleigh Burke-cla guided miile detroyer USS MCCAMPBELL (DDG 85) come alongide the USN Nimitz-cla aircraft carrier USS RONALD REAGAN (CVN 76) for a routine fueling at ea in upport of the Global War on Terrorim (GWOT).2006 USS McCampbell (DDG 85) come alongide USS Ronald Reagan (CVN 76) for a routine fueling at ea (FAS). Reagan i currently deployed a part of a routine rotation of U.S. maritime force in upport of Operation Iraqi Freedom and Enduring Freedoma well a conducting Maritime Security Operation (MSO) in the region. MSO et the condition for ecurity and tability in the maritime environment a well a complement the counter-terrorim and...

The US Navy (USN) Arleigh Burke-cla guided miile detroyer USS MCCAMPBE...

The original finding aid described this photograph as: [Complete] Scene Caption: The US Navy (USN) Arleigh Burke-class guided missile destroyer USS MCCAMPBELL (DDG 85) comes alongside the USN Nimitz-class airc... More

The US Navy (USN) Arleigh Burke-class guided missile destroyer USS MCCAMPBELL (DDG 85) comes alongside the USN Nimitz-class aircraft carrier USS RONALD REAGAN (CVN 76) for a routine fueling at a in support of the Global War on Terrorism (GWOT).2006 USS McCampbell (DDG 85) comes alongside USS Ronald Reagan (CVN 76) for a routine fueling at a (FAS). Reagan is currently deployed as part of a routine rotation of U.S. maritime forces in support of Operations Iraqi Freedom and Enduring Freedomas well as conducting Maritime Security Operations (MSO) in the region. MSO t the conditions for curity and stability in the maritime environment as well as complement the counter-terrorism and...

The US Navy (USN) Arleigh Burke-class guided missile destroyer USS MCC...

The original finding aid described this photograph as: [Complete] Scene Caption: The US Navy (USN) Arleigh Burke-class guided missile destroyer USS MCCAMPBELL (DDG 85) comes alongside the USN Nimitz-class airc... More

MANAMA, Bahrain (Nov. 7, 2006) Los Angeles class nuclear-powered attack submarine USS DALLAS (SSN 700) departed Manama following a weeklong port visit to the island country. DALLAS is midway through a six-month deployment to U.S. Navy's 5th Fleet area of operations in support of Maritime Security Operations (MSO). MSO help set the conditions for security and stability in the maritime environment, as well as complement the counter-terrorism and security efforts of regional nations. These operations deny international terrorists use of the maritime environment as a venue for attack or to transport personnel, weapons or other material. U.S. Navy photo by Mass Communication SPECIALIST 2nd...

MANAMA, Bahrain (Nov. 7, 2006) Los Angeles class nuclear-powered attac...

The original finding aid described this photograph as: [Complete] Scene Caption: MANAMA, Bahrain (Nov. 7, 2006) Los Angeles class nuclear-powered attack submarine USS DALLAS (SSN 700) departed Manama followin... More

A black and white poster with the words negative positive. Positive negative contrast.

A black and white poster with the words negative positive. Positive ne...

A black and white image of the words negative, positive, and negative / A black and white poster with the words negative positive / Public domain stock illustration.

A black and white image of a positive and negative sign. Positive negative contrast.

A black and white image of a positive and negative sign. Positive nega...

The positive and negative that's me - line art / A black and white image of a positive and negative sign / Public domain stock illustration.

The words positive are reflected in the water. Positive negative contrast.

The words positive are reflected in the water. Positive negative contr...

A reflection of the water and the words positive / The words positive are reflected in the water / Public domain stock illustration.

Public domain stock image. Right false next.

Public domain stock image. Right false next.

Public domain stock image. Woman silhouette font, beauty fashion.

Public domain stock image. Woman silhouette font, beauty fashion.

A black and red yin sign with the words positive and negative that's me. Positive negative contrast.

A black and red yin sign with the words positive and negative that's m...

A positive and negative that's me / A black and red yin sign with the words positive and negative that's me / Public domain stock illustration.

The words positive and negative that's me on a white background. Positive negative contrast.

The words positive and negative that's me on a white background. Posit...

Positive and negative that's me - text / The words positive and negative that's me on a white background / Public domain stock illustration.

A black and white photo of the word positive. Positive negative contrast.

A black and white photo of the word positive. Positive negative contra...

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A man standing in front of a pink background. Man silhouette font.

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A drawing of a set of awards and certificates. Prizes collection types, sports.

A drawing of a set of awards and certificates. Prizes collection types...

A collection of awards for the first time / A drawing of a set of awards and certificates / Public domain stock illustration.

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