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CAPE CANAVERAL, Fla. - With more than 12 times the thrust produced by a Boeing 747 jet aircraft, the Constellation Program's Ares I-X test rocket roars off Launch Complex 39B at NASA's Kennedy Space Center in Florida. The rocket produces 2.96 million pounds of thrust at liftoff and goes supersonic in 39 seconds. Liftoff of the 6-minute flight test was at 11:30 a.m. EDT Oct. 28. This was the first launch from Kennedy's pads of a vehicle other than the space shuttle since the Apollo Program's Saturn rockets were retired. The parts used to make the Ares I-X booster flew on 30 different shuttle missions ranging from STS-29 in 1989 to STS-106 in 2000. The data returned from more than 700 sensors throughout the rocket will be used to refine the design of future launch vehicles and bring NASA one step closer to reaching its exploration goals. For information on the Ares I-X vehicle and flight test, visit http://www.nasa.gov/aresIX. Photo credit: NASA/Jim Grossmann KSC-2009-5933

CAPE CANAVERAL, Fla. - With more than 12 times the thrust produced by ...

CAPE CANAVERAL, Fla. - With more than 12 times the thrust produced by a Boeing 747 jet aircraft, the Constellation Program's Ares I-X test rocket roars off Launch Complex 39B at NASA's Kennedy Space Center in F... More

CAPE CANAVERAL, Fla. -- In Firing Room No. 1 in the Launch Control Center at NASA's Kennedy Space Center, the number of new equipment cabinets increases as workers put the elements together. The firing room will support the future Ares rocket launches as part of the Constellation Program. Future astronauts will ride to orbit on Ares I, which uses a single five-segment solid rocket booster, a derivative of the space shuttle's solid rocket booster, for the first stage. Ares will be launched from Pad 39B, which is being reconfigured from supporting space shuttle launches. The Launch Control Center firing rooms face the launch pads. Photo credit: NASA/Kim Shiflett KSC-08pd1095

CAPE CANAVERAL, Fla. -- In Firing Room No. 1 in the Launch Control Cen...

CAPE CANAVERAL, Fla. -- In Firing Room No. 1 in the Launch Control Center at NASA's Kennedy Space Center, the number of new equipment cabinets increases as workers put the elements together. The firing room wi... More

Under the goals of the Vision for Space Exploration, Ares I is a chief component of the cost-effective space transportation infrastructure being developed by NASA's Constellation Program. This transportation system will safely and reliably carry human explorers back to the moon, and then onward to Mars and other destinations in the solar system. The Ares I effort includes multiple project element teams at NASA centers and contract organizations around the nation, and is managed by the Exploration Launch Projects Office at NASA's Marshall Space Flight Center (MFSC). ATK Launch Systems near Brigham City, Utah, is the prime contractor for the first stage booster. ATK's subcontractor, United Space Alliance of Houston, is designing, developing and testing the parachutes at its facilities at NASA's Kennedy Space Center in Florida. NASA's Johnson Space Center in Houston hosts the Constellation Program and Orion Crew Capsule Project Office and provides test instrumentation and support personnel. Together, these teams are developing vehicle hardware, evolving proven technologies, and testing components and systems. Their work builds on powerful, reliable space shuttle propulsion elements and nearly a half-century of NASA space flight experience and technological advances. Ares I is an inline, two-stage rocket configuration topped by the Crew Exploration Vehicle, its service module, and a launch abort system. This HD video image depicts friction stir welding used in manufacturing aluminum panels that will fabricate the Ares I upper stage barrel. The aluminum panels are subjected to confidence panel tests during which the bent aluminum is stressed to breaking point and thoroughly examined. The panels are manufactured by AMRO Manufacturing located in El Monte, California. (Highest resolution available) n/a

Under the goals of the Vision for Space Exploration, Ares I is a chief...

Under the goals of the Vision for Space Exploration, Ares I is a chief component of the cost-effective space transportation infrastructure being developed by NASA's Constellation Program. This transportation sy... More

KENNEDY SPACE CENTER, FLA. -- At Launch Complex 36-A, Cape Canaveral Air Force Station, a Lockheed Martin Atlas Centaur IIA (AC-144) rocket is lifted up the launch tower. The rocket will be used in the launch of TDRS-J, scheduled for Nov. 20. The third in a series of telemetry satellites, TDRS-J will help replenish the current constellation of geosynchronous TDRS satellites. The TDRS System is the primary source of space-to-ground voice, data and telemetry for the Space Shuttle. It also provides communications with the International Space Station and scientific spacecraft in low-Earth orbit such as the Hubble Space Telescope. This new advanced series of satellites will extend the availability of TDRS communications services until about 2017. KSC-02pd1525

KENNEDY SPACE CENTER, FLA. -- At Launch Complex 36-A, Cape Canaveral A...

KENNEDY SPACE CENTER, FLA. -- At Launch Complex 36-A, Cape Canaveral Air Force Station, a Lockheed Martin Atlas Centaur IIA (AC-144) rocket is lifted up the launch tower. The rocket will be used in the launch o... More

CAPE CANAVERAL, Fla. - As night settles over Launch Complex 39B at NASA's Kennedy Space Center in Florida, xenon lights reveal the Ares I-X rocket awaiting the approaching liftoff of its flight test. This is the first time since the Apollo Program's Saturn rockets were retired that a vehicle other than the space shuttle has occupied the pad. Part of the Constellation Program, the Ares I-X is the test vehicle for the Ares I. The Ares I-X flight test is set for Oct. 27. For information on the Ares I-X vehicle and flight test, visit http://www.nasa.gov/aresIX. Photo credit: NASA/Kim Shiflett KSC-2009-5857

CAPE CANAVERAL, Fla. - As night settles over Launch Complex 39B at NAS...

CAPE CANAVERAL, Fla. - As night settles over Launch Complex 39B at NASA's Kennedy Space Center in Florida, xenon lights reveal the Ares I-X rocket awaiting the approaching liftoff of its flight test. This is... More

CAPE CANAVERAL, Fla. – Outside the massive Vehicle Assembly Building at NASA's Kennedy Space Center in Florida, members of the news media (foreground) wait in the dark for the rollout of the Ares I-X to begin. The rocket will travel the 4.2 miles to Launch Pad 39B atop the crawler-transporter. The transfer of the pad from the Space Shuttle Program to the Constellation Program took place May 31. Modifications made to the pad include the removal of shuttle unique subsystems, such as the orbiter access arm and a section of the gaseous oxygen vent arm, along with the installation of three 600-foot lightning towers, access platforms, environmental control systems and a vehicle stabilization system. Part of the Constellation Program, the Ares I-X is the test vehicle for the Ares I. The Ares I-X flight test is targeted for Oct. 27. For information on the Ares I-X vehicle and flight test, visit http://www.nasa.gov/aresIX. Photo credit: NASA/Jack Pfaller KSC-2009-5534

CAPE CANAVERAL, Fla. – Outside the massive Vehicle Assembly Building a...

CAPE CANAVERAL, Fla. – Outside the massive Vehicle Assembly Building at NASA's Kennedy Space Center in Florida, members of the news media (foreground) wait in the dark for the rollout of the Ares I-X to begin. ... More

KENNEDY SPACE CENTER, FLA. -- Workers make adjustments on the first part of the fairing around the TDRS-J satellite before encapsulation continues. The satellite is scheduled to be launched aboard a Lockheed Martin Atlas IIA-Centaur rocket from Launch Complex 36-A, Cape Canaveral Air Force Station, Fla., on Dec. 4. The third in a series of telemetry satellites, TDRS-J will help replenish the current constellation of geosynchronous TDRS satellites. The TDRS System is the primary source of space-to-ground voice, data and telemetry for the Space Shuttle. It also provides communications with the International Space Station and scientific spacecraft in low-Earth orbit such as the Hubble Space Telescope. This new advanced series of satellites will extend the availability of TDRS communications services until about 2017. KSC-02pd1776

KENNEDY SPACE CENTER, FLA. -- Workers make adjustments on the first p...

KENNEDY SPACE CENTER, FLA. -- Workers make adjustments on the first part of the fairing around the TDRS-J satellite before encapsulation continues. The satellite is scheduled to be launched aboard a Lockheed M... More

CAPE CANAVERAL, Fla. – NASA's Ares I-X test rocket ignites its first stage at Launch Pad 39B at NASA's Kennedy Space Center in Florida at 11:30 a.m. EDT on Oct. 28. The Constellation Program's 327-foot-tall rocket produces 2.96 million pounds of thrust at liftoff and reaches a speed of 100 mph in eight seconds. This was the first launch from Kennedy's pads of a vehicle other than the space shuttle since the Apollo Program's Saturn rockets were retired. The parts used to make the Ares I-X booster flew on 30 different shuttle missions ranging from STS-29 in 1989 to STS-106 in 2000. The data returned from more than 700 sensors throughout the rocket will be used to refine the design of future launch vehicles and bring NASA one step closer to reaching its exploration goals. For information on the Ares I-X vehicle and flight test, visit http://www.nasa.gov/aresIX. Photo credit: NASA/ George Roberts and Tony Gray KSC-2009-5968

CAPE CANAVERAL, Fla. – NASA's Ares I-X test rocket ignites its first s...

CAPE CANAVERAL, Fla. – NASA's Ares I-X test rocket ignites its first stage at Launch Pad 39B at NASA's Kennedy Space Center in Florida at 11:30 a.m. EDT on Oct. 28. The Constellation Program's 327-foot-tall roc... More

CAPE CANAVERAL, Fla. – At NASA's Kennedy Space Center in Florida, the sixth tower segment is lifted toward five segments already secured to a new mobile launcher, or ML, being constructed to support the Constellation Program. When completed, the tower will be approximately 345 feet tall and have multiple platforms for personnel access. The construction is under way at the mobile launcher park site area north of Kennedy's Vehicle Assembly Building. The launcher will provide a base to launch the Ares I rocket, designed to transport the Orion crew exploration vehicle, its crew and cargo to low Earth orbit. Its base is being made lighter than space shuttle mobile launcher platforms so the crawler-transporter can pick up the heavier load of the tower and taller rocket. For information on the Ares I, visit http://www.nasa.gov/ares. Photo credit: NASA/Jim Grossmann KSC-2009-6788

CAPE CANAVERAL, Fla. – At NASA's Kennedy Space Center in Florida, the ...

CAPE CANAVERAL, Fla. – At NASA's Kennedy Space Center in Florida, the sixth tower segment is lifted toward five segments already secured to a new mobile launcher, or ML, being constructed to support the Constel... More

CAPE CANAVERAL, Fla. – At NASA's Kennedy Space Center in Florida, the tower on a new mobile launcher, or ML, for the Constellation Program grows as the fourth section is lowered into position. The tower will be approximately 345 feet tall when completed and have multiple platforms for personnel access. The ML is being built at the mobile launcher park site area north of Kennedy's Vehicle Assembly Building. The launcher will provide a base to launch the Ares I, designed to transport the Orion crew exploration vehicle, its crew and cargo to low Earth orbit. The base is being made lighter than space shuttle mobile launcher platforms so the crawler-transporter can pick up the heavier load of the tower and taller rocket. For information on the Ares I, visit http://www.nasa.gov/ares. Photo credit: NASA/Jack Pfaller KSC-2009-6225

CAPE CANAVERAL, Fla. – At NASA's Kennedy Space Center in Florida, the ...

CAPE CANAVERAL, Fla. – At NASA's Kennedy Space Center in Florida, the tower on a new mobile launcher, or ML, for the Constellation Program grows as the fourth section is lowered into position. The tower will... More

CAPE CANAVERAL, Fla. – The Ares I-X test rocket launches into a bright Florida sky from Launch Pad 39B at NASA's Kennedy Space Center in Florida at 11:30 a.m. EDT on Oct. 28. NASA’s Constellation Program's 327-foot-tall rocket produces 2.96 million pounds of thrust at liftoff and reaches a speed of 100 mph in eight seconds. This was the first launch from Kennedy's pads of a vehicle other than the space shuttle since the Apollo Program's Saturn rockets were retired. The parts used to make the Ares I-X booster flew on 30 different shuttle missions ranging from STS-29 in 1989 to STS-106 in 2000. The data returned from more than 700 sensors throughout the rocket will be used to refine the design of future launch vehicles and bring NASA one step closer to reaching its exploration goals. For information on the Ares I-X vehicle and flight test, visit http://www.nasa.gov/aresIX. Photo credit: NASA/George Roberts and Tom Farrar KSC-2009-5973

CAPE CANAVERAL, Fla. – The Ares I-X test rocket launches into a bright...

CAPE CANAVERAL, Fla. – The Ares I-X test rocket launches into a bright Florida sky from Launch Pad 39B at NASA's Kennedy Space Center in Florida at 11:30 a.m. EDT on Oct. 28. NASA’s Constellation Program's 327-... More

CAPE CANAVERAL, Fla. - Inside the Vehicle Assembly Building at NASA's Kennedy Space Center in Florida, the 327-foot-tall Ares I-X rocket stands on its mobile launcher platform. The transfer of the pad from the Space Shuttle Program to the Constellation Program took place May 31. Modifications made to the pad include the removal of shuttle unique subsystems, such as the orbiter access arm and a section of the gaseous oxygen vent arm, along with the installation of three 600-foot lightning towers, access platforms, environmental control systems and a vehicle stabilization system. Part of the Constellation Program, the Ares I-X is the test vehicle for the Ares I. The Ares I-X flight test is targeted for Oct. 27. For information on the Ares I-X vehicle and flight test, visit http://www.nasa.gov/aresIX. Photo credit: NASA/Kim Shiflett KSC-2009-5541

CAPE CANAVERAL, Fla. - Inside the Vehicle Assembly Building at NASA's ...

CAPE CANAVERAL, Fla. - Inside the Vehicle Assembly Building at NASA's Kennedy Space Center in Florida, the 327-foot-tall Ares I-X rocket stands on its mobile launcher platform. The transfer of the pad from t... More

CAPE CANAVERAL, Fla. – The arms of the vehicle stabilization system are closed around the towering 327-foot-tall Ares I-X rocket, newly arrived on Launch Pad 39B at NASA's Kennedy Space Center in Florida. The test rocket left the Vehicle Assembly Building at 1:39 a.m. EDT on its 4.2-mile trek to the pad and was "hard down" on the pad’s pedestals at 9:17 a.m. The transfer of the pad from the Space Shuttle Program to the Constellation Program took place May 31. Modifications made to the pad include the removal of shuttle unique subsystems, such as the orbiter access arm and a section of the gaseous oxygen vent arm, along with the installation of three 600-foot lightning towers, access platforms, environmental control systems and a vehicle stabilization system. Part of the Constellation Program, the Ares I-X is the test vehicle for the Ares I. The Ares I-X flight test is targeted for Oct. 27. For information on the Ares I-X vehicle and flight test, visit http://www.nasa.gov/aresIX. Photo credit: NASA/Kim Shiflett KSC-2009-5596

CAPE CANAVERAL, Fla. – The arms of the vehicle stabilization system ar...

CAPE CANAVERAL, Fla. – The arms of the vehicle stabilization system are closed around the towering 327-foot-tall Ares I-X rocket, newly arrived on Launch Pad 39B at NASA's Kennedy Space Center in Florida. Th... More

KENNEDY SPACE CENTER, FLA. -- The TDRS-J satellite sits between the two halves of the fairing before encapsulation for launch. The satellite is scheduled to be launched aboard a Lockheed Martin Atlas IIA-Centaur rocket from Launch Complex 36-A, Cape Canaveral Air Force Station, Fla., on Dec. 4. The third in a series of telemetry satellites, TDRS-J will help replenish the current constellation of geosynchronous TDRS satellites. The TDRS System is the primary source of space-to-ground voice, data and telemetry for the Space Shuttle. It also provides communications with the International Space Station and scientific spacecraft in low-Earth orbit such as the Hubble Space Telescope. This new advanced series of satellites will extend the availability of TDRS communications services until about 2017. KSC-02pd1778

KENNEDY SPACE CENTER, FLA. -- The TDRS-J satellite sits between the t...

KENNEDY SPACE CENTER, FLA. -- The TDRS-J satellite sits between the two halves of the fairing before encapsulation for launch. The satellite is scheduled to be launched aboard a Lockheed Martin Atlas IIA-Centa... More

CAPE CANAVERAL, Fla. - The crawler-transporter is positioned under the mobile launcher platform with the 327-foot-tall Ares I-X rocket. The rocket is prepared to leave the Vehicle Assembly Building at NASA's Kennedy Space Center in Florida, on its way to Launch Pad 39B. The move to the launch pad, known as "rollout," began at 1:39 a.m. EDT. The transfer of the pad from the Space Shuttle Program to the Constellation Program took place May 31. Modifications made to the pad include the removal of shuttle unique subsystems, such as the orbiter access arm and a section of the gaseous oxygen vent arm, along with the installation of three 600-foot lightning towers, access platforms, environmental control systems and a vehicle stabilization system. Part of the Constellation Program, the Ares I-X is the test vehicle for the Ares I. The Ares I-X flight test is targeted for Oct. 27. For information on the Ares I-X vehicle and flight test, visit http://www.nasa.gov/aresIX. Photo credit: NASA/Kim Shiflett KSC-2009-5544

CAPE CANAVERAL, Fla. - The crawler-transporter is positioned under the...

CAPE CANAVERAL, Fla. - The crawler-transporter is positioned under the mobile launcher platform with the 327-foot-tall Ares I-X rocket. The rocket is prepared to leave the Vehicle Assembly Building at NASA's Ke... More

CAPE CANAVERAL, Fla. - As the sun sets behind Launch Complex 39B at NASA's Kennedy Space Center in Florida, the Ares I-X rocket awaits the approaching liftoff of its flight test. This is the first time since the Apollo Program's Saturn rockets were retired that a vehicle other than the space shuttle has occupied the pad. Part of the Constellation Program, the Ares I-X is the test vehicle for the Ares I. The Ares I-X flight test is set for Oct. 27. For information on the Ares I-X vehicle and flight test, visit http://www.nasa.gov/aresIX. Photo credit: NASA/Kim Shiflett KSC-2009-5832

CAPE CANAVERAL, Fla. - As the sun sets behind Launch Complex 39B at NA...

CAPE CANAVERAL, Fla. - As the sun sets behind Launch Complex 39B at NASA's Kennedy Space Center in Florida, the Ares I-X rocket awaits the approaching liftoff of its flight test. This is the first time since... More

An Air Force Atlas II Rocket IS launched from CX-36A, CCAFS at 6:40 P.M., est. The Atlas II is carrying a Defense Satellite Communications System (DSCS-III) Spacecraft which is part of a larger constellation of military communications satellites

An Air Force Atlas II Rocket IS launched from CX-36A, CCAFS at 6:40 P....

The original finding aid described this photograph as: Base: Patrick Air Force Base State: Florida (FL) Country: United States Of America (USA) Scene Camera Operator: Rvits Still Image Laboratory Release S... More

An Air Force Atlas II Rocket sits poised on Launch CX-36A at CCAFS ready to launch a Defense Satellite Communications System (DSCS-III) Spacecraft which is part of a larger constellation of military communications satellites

An Air Force Atlas II Rocket sits poised on Launch CX-36A at CCAFS rea...

The original finding aid described this photograph as: Base: Patrick Air Force Base State: Florida (FL) Country: United States Of America (USA) Scene Camera Operator: Rvits Still Image Laboratory Release S... More

Some thirty seconds after lift-off, a Titan II rocket makes it's way into the upper atmosphere above Vandenberg AFB, Calif. The rocket is carrying the first 5 of the 66 Iridium satellites that will make up the Iridium satellite constellation allowing people to communicate with anyone, anytime, anyplace on earth

Some thirty seconds after lift-off, a Titan II rocket makes it's way i...

The original finding aid described this photograph as: Base: Vandenberg Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera Operator: SSGT. Scott Wagers Release Statu... More

The Delta II rocket lifts off from Space Launch Complex 2. The rocket is carrying the first 5 of 66 Iridium satellites that will make up the Iridium satellite constellation allowing people to communicate with anyone, anytime, anyplace on earth

The Delta II rocket lifts off from Space Launch Complex 2. The rocket ...

The original finding aid described this photograph as: Base: Vandenberg Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera Operator: SRA Pam Taubman Release Status: ... More

An aerial view of the Delta II rocket prior to lift-off at Space Launch Complex 2. The rocket is carrying the first 5 of the 66 Iridium satellites that will make up the Iridium satellite constellation allowing people to communicate with anyone, anytime, anyplace on earth

An aerial view of the Delta II rocket prior to lift-off at Space Launc...

The original finding aid described this photograph as: Base: Vandenberg Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera Operator: SSGT. Mark Borosch Release Stat... More

An aerial view of the Delta II rocket prior to lift-off at Space Launch Complex 2. The rocket was carrying the first 5 of the 66 Iridium satellites that will make up the Iridium satellite constellation allowing people to communicate with anyone, anytime, anyplace on earth

An aerial view of the Delta II rocket prior to lift-off at Space Launc...

The original finding aid described this photograph as: Base: Vandenberg Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera Operator: SSGT. Mark Borosch Release Stat... More

Workers at Cape Canaveral Air Force Station prepare to erect the first stage of an Atlas II/Centaur rocket in the launch gantry on pad 36A. Atlas II is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the NASA/Lockheed Martin GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing KSC00pp0412

Workers at Cape Canaveral Air Force Station prepare to erect the first...

Workers at Cape Canaveral Air Force Station prepare to erect the first stage of an Atlas II/Centaur rocket in the launch gantry on pad 36A. Atlas II is designed to launch payloads into low earth orbit, geosynch... More

At Cape Canaveral Air Force Station, the first stage of an Atlas II/Centaur rocket begins erection in the launch gantry on pad 36A. Atlas II is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the NASA/Lockheed Martin GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing KSC-00pp0414

At Cape Canaveral Air Force Station, the first stage of an Atlas II/Ce...

At Cape Canaveral Air Force Station, the first stage of an Atlas II/Centaur rocket begins erection in the launch gantry on pad 36A. Atlas II is designed to launch payloads into low earth orbit, geosynchronous t... More

The first stage of an Atlas II/Centaur rocket stands erect in the launch gantry on pad 36A, Cape Canaveral Air Force Station. Atlas II is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the NASA/Lockheed Martin GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing KSC-00pp0417

The first stage of an Atlas II/Centaur rocket stands erect in the laun...

The first stage of an Atlas II/Centaur rocket stands erect in the launch gantry on pad 36A, Cape Canaveral Air Force Station. Atlas II is designed to launch payloads into low earth orbit, geosynchronous transfe... More

At Cape Canaveral Air Force Station, the first stage of an Atlas II/Centaur rocket is nearing erection in the launch gantry on pad 36A. Atlas II is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the NASA/Lockheed Martin GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing KSC00pp0416

At Cape Canaveral Air Force Station, the first stage of an Atlas II/Ce...

At Cape Canaveral Air Force Station, the first stage of an Atlas II/Centaur rocket is nearing erection in the launch gantry on pad 36A. Atlas II is designed to launch payloads into low earth orbit, geosynchrono... More

Workers at Cape Canaveral Air Force Station prepare to erect the first stage of an Atlas II/Centaur rocket in the launch gantry on pad 36A. Atlas II is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the NASA/Lockheed Martin GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing KSC-00pp0412

Workers at Cape Canaveral Air Force Station prepare to erect the first...

Workers at Cape Canaveral Air Force Station prepare to erect the first stage of an Atlas II/Centaur rocket in the launch gantry on pad 36A. Atlas II is designed to launch payloads into low earth orbit, geosynch... More

The first stage of an Atlas II/Centaur rocket stands erect in the launch gantry on pad 36A, Cape Canaveral Air Force Station. Atlas II is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the NASA/Lockheed Martin GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing KSC00pp0417

The first stage of an Atlas II/Centaur rocket stands erect in the laun...

The first stage of an Atlas II/Centaur rocket stands erect in the launch gantry on pad 36A, Cape Canaveral Air Force Station. Atlas II is designed to launch payloads into low earth orbit, geosynchronous transfe... More

Workers at Cape Canaveral Air Force Station prepare to erect the first stage of an Atlas II/Centaur rocket in the launch gantry on pad 36A. Shown are the rocket thrusters. Atlas II is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the NASA/Lockheed Martin GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing KSC-00pp0413

Workers at Cape Canaveral Air Force Station prepare to erect the first...

Workers at Cape Canaveral Air Force Station prepare to erect the first stage of an Atlas II/Centaur rocket in the launch gantry on pad 36A. Shown are the rocket thrusters. Atlas II is designed to launch payload... More

At Cape Canaveral Air Force Station, the first stage of an Atlas II/Centaur rocket begins erection in the launch gantry on pad 36A. Atlas II is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the NASA/Lockheed Martin GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing KSC00pp0414

At Cape Canaveral Air Force Station, the first stage of an Atlas II/Ce...

At Cape Canaveral Air Force Station, the first stage of an Atlas II/Centaur rocket begins erection in the launch gantry on pad 36A. Atlas II is designed to launch payloads into low earth orbit, geosynchronous t... More

At Cape Canaveral Air Force Station, the first stage of an Atlas II/Centaur rocket is slowly raised in the launch gantry on pad 36A. Atlas II is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the NASA/Lockheed Martin GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing KSC00pp0415

At Cape Canaveral Air Force Station, the first stage of an Atlas II/Ce...

At Cape Canaveral Air Force Station, the first stage of an Atlas II/Centaur rocket is slowly raised in the launch gantry on pad 36A. Atlas II is designed to launch payloads into low earth orbit, geosynchronous ... More

At Cape Canaveral Air Force Station, the first stage of an Atlas II/Centaur rocket is nearing erection in the launch gantry on pad 36A. Atlas II is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the NASA/Lockheed Martin GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing KSC-00pp0416

At Cape Canaveral Air Force Station, the first stage of an Atlas II/Ce...

At Cape Canaveral Air Force Station, the first stage of an Atlas II/Centaur rocket is nearing erection in the launch gantry on pad 36A. Atlas II is designed to launch payloads into low earth orbit, geosynchrono... More

At Cape Canaveral Air Force Station, the first stage of an Atlas II/Centaur rocket is slowly raised in the launch gantry on pad 36A. Atlas II is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the NASA/Lockheed Martin GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing KSC-00pp0415

At Cape Canaveral Air Force Station, the first stage of an Atlas II/Ce...

At Cape Canaveral Air Force Station, the first stage of an Atlas II/Centaur rocket is slowly raised in the launch gantry on pad 36A. Atlas II is designed to launch payloads into low earth orbit, geosynchronous ... More

Workers at Cape Canaveral Air Force Station prepare to erect the first stage of an Atlas II/Centaur rocket in the launch gantry on pad 36A. Shown are the rocket thrusters. Atlas II is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the NASA/Lockheed Martin GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing KSC00pp0413

Workers at Cape Canaveral Air Force Station prepare to erect the first...

Workers at Cape Canaveral Air Force Station prepare to erect the first stage of an Atlas II/Centaur rocket in the launch gantry on pad 36A. Shown are the rocket thrusters. Atlas II is designed to launch payload... More

Workers at Cape Canaveral Air Force Station watch as the second stage of an Atlas II/Centaur rocket is raised to a vertical position in front of the gantry on pad 36-A. Atlas II is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing KSC00pp0423

Workers at Cape Canaveral Air Force Station watch as the second stage ...

Workers at Cape Canaveral Air Force Station watch as the second stage of an Atlas II/Centaur rocket is raised to a vertical position in front of the gantry on pad 36-A. Atlas II is designed to launch payloads i... More

At launch pad 36-A, Cape Canaveral Air Force Station, workers check over the second stage of an Atlas II/Centaur rocket before it is lifted up the gantry (behind it) for mating with the first stage. Atlas II is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing KSC00pp0424

At launch pad 36-A, Cape Canaveral Air Force Station, workers check ov...

At launch pad 36-A, Cape Canaveral Air Force Station, workers check over the second stage of an Atlas II/Centaur rocket before it is lifted up the gantry (behind it) for mating with the first stage. Atlas II is... More

The second stage of an Atlas II/Centaur rocket arrives on pad 36-A, Cape Canaveral Air Force Station, for mating with the first stage. Atlas II is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing KSC-00pp0421

The second stage of an Atlas II/Centaur rocket arrives on pad 36-A, Ca...

The second stage of an Atlas II/Centaur rocket arrives on pad 36-A, Cape Canaveral Air Force Station, for mating with the first stage. Atlas II is designed to launch payloads into low earth orbit, geosynchronou... More

At launch pad 36-A, Cape Canaveral Air Force Station, workers check over the second stage of an Atlas II/Centaur rocket before it is lifted up the gantry (behind it) for mating with the first stage. Atlas II is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing KSC-00pp0424

At launch pad 36-A, Cape Canaveral Air Force Station, workers check ov...

At launch pad 36-A, Cape Canaveral Air Force Station, workers check over the second stage of an Atlas II/Centaur rocket before it is lifted up the gantry (behind it) for mating with the first stage. Atlas II is... More

The second stage of an Atlas II/Centaur rocket arrives on pad 36-A, Cape Canaveral Air Force Station, for mating with the first stage. Atlas II is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing KSC00pp0421

The second stage of an Atlas II/Centaur rocket arrives on pad 36-A, Ca...

The second stage of an Atlas II/Centaur rocket arrives on pad 36-A, Cape Canaveral Air Force Station, for mating with the first stage. Atlas II is designed to launch payloads into low earth orbit, geosynchronou... More

At launch pad 36-A, Cape Canaveral Air Force Station, the second stage of an Atlas II/Centaur rocket is lifted up the gantry (behind it) for mating with the first stage. Atlas II is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing KSC-00pp0425

At launch pad 36-A, Cape Canaveral Air Force Station, the second stage...

At launch pad 36-A, Cape Canaveral Air Force Station, the second stage of an Atlas II/Centaur rocket is lifted up the gantry (behind it) for mating with the first stage. Atlas II is designed to launch payloads ... More

At launch pad 36-A, Cape Canaveral Air Force Station, lifting of the second stage of an Atlas II/Centaur rocket in the launch gantry is completed. The rocket is the launch vehicle for the GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing KSC-00pp0427

At launch pad 36-A, Cape Canaveral Air Force Station, lifting of the s...

At launch pad 36-A, Cape Canaveral Air Force Station, lifting of the second stage of an Atlas II/Centaur rocket in the launch gantry is completed. The rocket is the launch vehicle for the GOES-L satellite, part... More

At launch pad 36-A, Cape Canaveral Air Force Station, cables help guide the second stage of an Atlas II/Centaur rocket as it is lifted up the gantry (behind it) for mating with the first stage. Atlas II is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing KSC-00pp0426

At launch pad 36-A, Cape Canaveral Air Force Station, cables help guid...

At launch pad 36-A, Cape Canaveral Air Force Station, cables help guide the second stage of an Atlas II/Centaur rocket as it is lifted up the gantry (behind it) for mating with the first stage. Atlas II is desi... More

Workers at Cape Canaveral Air Force Station watch as the second stage of an Atlas II/Centaur rocket is raised to a vertical position in front of the gantry on pad 36-A. Atlas II is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing KSC-00pp0423

Workers at Cape Canaveral Air Force Station watch as the second stage ...

Workers at Cape Canaveral Air Force Station watch as the second stage of an Atlas II/Centaur rocket is raised to a vertical position in front of the gantry on pad 36-A. Atlas II is designed to launch payloads i... More

At launch pad 36-A, Cape Canaveral Air Force Station, the second stage of an Atlas II/Centaur rocket is lifted up the gantry (behind it) for mating with the first stage. Atlas II is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing KSC00pp0425

At launch pad 36-A, Cape Canaveral Air Force Station, the second stage...

At launch pad 36-A, Cape Canaveral Air Force Station, the second stage of an Atlas II/Centaur rocket is lifted up the gantry (behind it) for mating with the first stage. Atlas II is designed to launch payloads ... More

At launch pad 36-A, Cape Canaveral Air Force Station, lifting of the second stage of an Atlas II/Centaur rocket in the launch gantry is completed. The rocket is the launch vehicle for the GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing KSC00pp0427

At launch pad 36-A, Cape Canaveral Air Force Station, lifting of the s...

At launch pad 36-A, Cape Canaveral Air Force Station, lifting of the second stage of an Atlas II/Centaur rocket in the launch gantry is completed. The rocket is the launch vehicle for the GOES-L satellite, part... More

The second stage of an Atlas II/Centaur rocket is raised to a vertical position in front of the gantry on pad 36-A, Cape Canaveral Air Force Station, for mating with the first stage. Atlas II is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing KSC-00pp0422

The second stage of an Atlas II/Centaur rocket is raised to a vertical...

The second stage of an Atlas II/Centaur rocket is raised to a vertical position in front of the gantry on pad 36-A, Cape Canaveral Air Force Station, for mating with the first stage. Atlas II is designed to lau... More

The second stage of an Atlas II/Centaur rocket is raised to a vertical position in front of the gantry on pad 36-A, Cape Canaveral Air Force Station, for mating with the first stage. Atlas II is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing KSC00pp0422

The second stage of an Atlas II/Centaur rocket is raised to a vertical...

The second stage of an Atlas II/Centaur rocket is raised to a vertical position in front of the gantry on pad 36-A, Cape Canaveral Air Force Station, for mating with the first stage. Atlas II is designed to lau... More

The GOES-L satellite is lifted up the gantry on pad 36A, Cape Canaveral Air Force Station. the Atlas IIA is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing. Launch is scheduled for May 3 KSC-00pp0541

The GOES-L satellite is lifted up the gantry on pad 36A, Cape Canavera...

The GOES-L satellite is lifted up the gantry on pad 36A, Cape Canaveral Air Force Station. the Atlas IIA is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbi... More

The GOES-L satellite is lifted up the gantry on pad 36A, Cape Canaveral Air Force Station. the Atlas IIA is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing. Launch is scheduled for May 3 KSC00pp0541

The GOES-L satellite is lifted up the gantry on pad 36A, Cape Canavera...

The GOES-L satellite is lifted up the gantry on pad 36A, Cape Canaveral Air Force Station. the Atlas IIA is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbi... More

The GOES-L satellite is ready for mating with the lower stages of the Atlas IIA rocket on pad 36A, Cape Canaveral Air Force Station. Atlas II is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing. Launch is scheduled for May 3 KSC-00pp0542

The GOES-L satellite is ready for mating with the lower stages of the ...

The GOES-L satellite is ready for mating with the lower stages of the Atlas IIA rocket on pad 36A, Cape Canaveral Air Force Station. Atlas II is designed to launch payloads into low earth orbit, geosynchronous ... More

The GOES-L satellite is ready for mating with the lower stages of the Atlas IIA rocket on pad 36A, Cape Canaveral Air Force Station. Atlas II is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing. Launch is scheduled for May 3 KSC00pp0542

The GOES-L satellite is ready for mating with the lower stages of the ...

The GOES-L satellite is ready for mating with the lower stages of the Atlas IIA rocket on pad 36A, Cape Canaveral Air Force Station. Atlas II is designed to launch payloads into low earth orbit, geosynchronous ... More

The GOES-L satellite arrives on pad 36A, Cape Canaveral Air Force Station. The Atlas IIA rocket is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing. Launch is scheduled for May 3 KSC00pp0540

The GOES-L satellite arrives on pad 36A, Cape Canaveral Air Force Stat...

The GOES-L satellite arrives on pad 36A, Cape Canaveral Air Force Station. The Atlas IIA rocket is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The ro... More

The GOES-L satellite arrives on pad 36A, Cape Canaveral Air Force Station. The Atlas IIA rocket is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing. Launch is scheduled for May 3 KSC-00pp0540

The GOES-L satellite arrives on pad 36A, Cape Canaveral Air Force Stat...

The GOES-L satellite arrives on pad 36A, Cape Canaveral Air Force Station. The Atlas IIA rocket is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The ro... More

The GOES-L satellite approaches the end of its journey up the gantry on pad 36A, Cape Canaveral Air Force Station, for mating with the Atlas IIA/Centaur rocket. The Atlas IIA is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing. Launch is scheduled for May 3 KSC00pp0544

The GOES-L satellite approaches the end of its journey up the gantry o...

The GOES-L satellite approaches the end of its journey up the gantry on pad 36A, Cape Canaveral Air Force Station, for mating with the Atlas IIA/Centaur rocket. The Atlas IIA is designed to launch payloads into... More

The GOES-L satellite is about midway in its journey up the gantry on pad 36A, Cape Canaveral Air Force Station. The Atlas IIA rocket is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing. Launch is scheduled for May 3 KSC-00pp0543

The GOES-L satellite is about midway in its journey up the gantry on p...

The GOES-L satellite is about midway in its journey up the gantry on pad 36A, Cape Canaveral Air Force Station. The Atlas IIA rocket is designed to launch payloads into low earth orbit, geosynchronous transfer ... More

The GOES-L satellite, after being lifted up to the top of the gantry on pad 36A, Cape Canaveral Air Force Station, is ready for mating with the Atlas IIA/Centaur rocket. Atlas IIA is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing. Launch is scheduled for May 3 KSC-00pp0545

The GOES-L satellite, after being lifted up to the top of the gantry o...

The GOES-L satellite, after being lifted up to the top of the gantry on pad 36A, Cape Canaveral Air Force Station, is ready for mating with the Atlas IIA/Centaur rocket. Atlas IIA is designed to launch payloads... More

The GOES-L satellite approaches the end of its journey up the gantry on pad 36A, Cape Canaveral Air Force Station, for mating with the Atlas IIA/Centaur rocket. The Atlas IIA is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing. Launch is scheduled for May 3 KSC-00pp0544

The GOES-L satellite approaches the end of its journey up the gantry o...

The GOES-L satellite approaches the end of its journey up the gantry on pad 36A, Cape Canaveral Air Force Station, for mating with the Atlas IIA/Centaur rocket. The Atlas IIA is designed to launch payloads into... More

The GOES-L satellite, after being lifted up to the top of the gantry on pad 36A, Cape Canaveral Air Force Station, is ready for mating with the Atlas IIA/Centaur rocket. Atlas IIA is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing. Launch is scheduled for May 3 KSC00pp0545

The GOES-L satellite, after being lifted up to the top of the gantry o...

The GOES-L satellite, after being lifted up to the top of the gantry on pad 36A, Cape Canaveral Air Force Station, is ready for mating with the Atlas IIA/Centaur rocket. Atlas IIA is designed to launch payloads... More

The GOES-L satellite is about midway in its journey up the gantry on pad 36A, Cape Canaveral Air Force Station. The Atlas IIA rocket is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing. Launch is scheduled for May 3 KSC00pp0543

The GOES-L satellite is about midway in its journey up the gantry on p...

The GOES-L satellite is about midway in its journey up the gantry on pad 36A, Cape Canaveral Air Force Station. The Atlas IIA rocket is designed to launch payloads into low earth orbit, geosynchronous transfer ... More

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite GOES-L is revealed as the tower rolls back before launch. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, in order to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing. Liftoff is targeted to occur at the opening of a launch window extending from 2:27 5:53 a.m. EDT, a duration of three hours and 27 minutes. Launch will occur from Pad A at Complex 36 on Cape Canaveral Air Force Station KSC00pp0616

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite G...

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite GOES-L is revealed as the tower rolls back before launch. The primary objective of the GOES-L is to provide a full capability satellite in an... More

The night sky is briefly turned bright as day with the launch of the Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite GOES-L. Liftoff occurred at 3:07 a.m. EDT. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, in order to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing. Once in orbit, the spacecraft is to be designated GOES-11 and will complete its 90-day checkout in time for availability during the 2000 hurricane season KSC-00pp0623

The night sky is briefly turned bright as day with the launch of the A...

The night sky is briefly turned bright as day with the launch of the Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite GOES-L. Liftoff occurred at 3:07 a.m. EDT. The primary objective of the GOES... More

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite GOES-L casts a luminescent glow as it starts to clear the tower at Pad A, Complex 36, Cape Canaveral Air Force Station. Liftoff occurred at 3:07 a.m. EDT. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, in order to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing. Once in orbit, the spacecraft is to be designated GOES-11 and will complete its 90-day checkout in time for availability during the 2000 hurricane season KSC-00pp0620

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite G...

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite GOES-L casts a luminescent glow as it starts to clear the tower at Pad A, Complex 36, Cape Canaveral Air Force Station. Liftoff occurred at 3... More

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite GOES-L is revealed as the tower rolls back before launch. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, in order to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing. Liftoff is targeted to occur at the opening of a launch window extending from 2:27 5:53 a.m. EDT, a duration of three hours and 27 minutes. Launch will occur from Pad A at Complex 36 on Cape Canaveral Air Force Station KSC-00pp0616

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite G...

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite GOES-L is revealed as the tower rolls back before launch. The primary objective of the GOES-L is to provide a full capability satellite in an... More

Seconds after liftoff, the Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite GOES-L hurtles into space from Pad A at Complex 36 on Cape Canaveral Air Force Station. Liftoff occurred at 3:07 a.m. EDT. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, in order to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing. Once in orbit, the spacecraft is to be designated GOES-11 and will complete its 90-day checkout in time for availability during the 2000 hurricane season KSC-00pp0622

Seconds after liftoff, the Atlas II/Centaur rocket carrying the NASA/N...

Seconds after liftoff, the Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite GOES-L hurtles into space from Pad A at Complex 36 on Cape Canaveral Air Force Station. Liftoff occurred at 3:07 a.m. ... More

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite GOES-L lifts off at 3:07 a.m. EDT from Pad A at Complex 36 on Cape Canaveral Air Force Station. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, in order to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing. Once in orbit, the spacecraft is to be designated GOES-11 and will complete its 90-day checkout in time for availability during the 2000 hurricane season KSC00pp0619

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite G...

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite GOES-L lifts off at 3:07 a.m. EDT from Pad A at Complex 36 on Cape Canaveral Air Force Station. The primary objective of the GOES-L is to pro... More

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite GOES-L launches toward space from Pad A at Complex 36 on Cape Canaveral Air Force Station. Liftoff occurred at 3:07 a.m. EDT. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, in order to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing. Once in orbit, the spacecraft is to be designated GOES-11 and will complete its 90-day checkout in time for availability during the 2000 hurricane season KSC00pp0618

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite G...

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite GOES-L launches toward space from Pad A at Complex 36 on Cape Canaveral Air Force Station. Liftoff occurred at 3:07 a.m. EDT. The primary obj... More

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite GOES-L launches toward space from Pad A at Complex 36 on Cape Canaveral Air Force Station. Liftoff occurred at 3:07 a.m. EDT. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, in order to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing. Once in orbit, the spacecraft is to be designated GOES-11 and will complete its 90-day checkout in time for availability during the 2000 hurricane season KSC-00pp0618

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite G...

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite GOES-L launches toward space from Pad A at Complex 36 on Cape Canaveral Air Force Station. Liftoff occurred at 3:07 a.m. EDT. The primary obj... More

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite GOES-L lifts off at 3:07 a.m. EDT from Pad A at Complex 36 on Cape Canaveral Air Force Station. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, in order to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing. Once in orbit, the spacecraft is to be designated GOES-11 and will complete its 90-day checkout in time for availability during the 2000 hurricane season KSC00pp0621

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite G...

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite GOES-L lifts off at 3:07 a.m. EDT from Pad A at Complex 36 on Cape Canaveral Air Force Station. The primary objective of the GOES-L is to pro... More

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite GOES-L is revealed after the tower was rolled back before launch. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, in order to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing. Liftoff is targeted to occur at the opening of a launch window extending from 2:27 5:53 a.m. EDT, a duration of three hours and 27 minutes. Launch will occur from Pad A at Complex 36 on Cape Canaveral Air Force Station KSC-00pp0617

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite G...

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite GOES-L is revealed after the tower was rolled back before launch. The primary objective of the GOES-L is to provide a full capability satelli... More

Seconds after liftoff, the Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite GOES-L hurtles into space from Pad A at Complex 36 on Cape Canaveral Air Force Station. Liftoff occurred at 3:07 a.m. EDT. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, in order to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing. Once in orbit, the spacecraft is to be designated GOES-11 and will complete its 90-day checkout in time for availability during the 2000 hurricane season KSC00pp0622

Seconds after liftoff, the Atlas II/Centaur rocket carrying the NASA/N...

Seconds after liftoff, the Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite GOES-L hurtles into space from Pad A at Complex 36 on Cape Canaveral Air Force Station. Liftoff occurred at 3:07 a.m. ... More

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite GOES-L lifts off at 3:07 a.m. EDT from Pad A at Complex 36 on Cape Canaveral Air Force Station. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, in order to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing. Once in orbit, the spacecraft is to be designated GOES-11 and will complete its 90-day checkout in time for availability during the 2000 hurricane season KSC-00pp0621

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite G...

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite GOES-L lifts off at 3:07 a.m. EDT from Pad A at Complex 36 on Cape Canaveral Air Force Station. The primary objective of the GOES-L is to pro... More

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite GOES-L lifts off at 3:07 a.m. EDT from Pad A at Complex 36 on Cape Canaveral Air Force Station. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, in order to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing. Once in orbit, the spacecraft is to be designated GOES-11 and will complete its 90-day checkout in time for availability during the 2000 hurricane season KSC-00pp0619

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite G...

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite GOES-L lifts off at 3:07 a.m. EDT from Pad A at Complex 36 on Cape Canaveral Air Force Station. The primary objective of the GOES-L is to pro... More

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite GOES-L casts a luminescent glow as it starts to clear the tower at Pad A, Complex 36, Cape Canaveral Air Force Station. Liftoff occurred at 3:07 a.m. EDT. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, in order to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing. Once in orbit, the spacecraft is to be designated GOES-11 and will complete its 90-day checkout in time for availability during the 2000 hurricane season KSC00pp0620

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite G...

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite GOES-L casts a luminescent glow as it starts to clear the tower at Pad A, Complex 36, Cape Canaveral Air Force Station. Liftoff occurred at 3... More

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite GOES-L is revealed after the tower was rolled back before launch. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, in order to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing. Liftoff is targeted to occur at the opening of a launch window extending from 2:27 5:53 a.m. EDT, a duration of three hours and 27 minutes. Launch will occur from Pad A at Complex 36 on Cape Canaveral Air Force Station KSC00pp0617

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite G...

The Atlas II/Centaur rocket carrying the NASA/NOAA weather satellite GOES-L is revealed after the tower was rolled back before launch. The primary objective of the GOES-L is to provide a full capability satelli... More

KENNEDY SPACE CENTER, FLA. -- At Launch Complex 36-A, Cape Canaveral Air Force Station, a Lockheed Martin Atlas Centaur IIA (AC-144) rocket is raised to a vertical position for its lift up the launch tower . The rocket will be used in the launch of TDRS-J, scheduled for Nov. 20. The third in a series of telemetry satellites, TDRS-J will help replenish the current constellation of geosynchronous TDRS satellites. The TDRS System is the primary source of space-to-ground voice, data and telemetry for the Space Shuttle. It also provides communications with the International Space Station and scientific spacecraft in low-Earth orbit such as the Hubble Space Telescope. This new advanced series of satellites will extend the availability of TDRS communications services until about 2017. KSC-02pd1524

KENNEDY SPACE CENTER, FLA. -- At Launch Complex 36-A, Cape Canaveral ...

KENNEDY SPACE CENTER, FLA. -- At Launch Complex 36-A, Cape Canaveral Air Force Station, a Lockheed Martin Atlas Centaur IIA (AC-144) rocket is raised to a vertical position for its lift up the launch tower . T... More

KENNEDY SPACE CENTER, FLA. -- At Launch Complex 36-A, Cape Canaveral Air Force Station, a Lockheed Martin Atlas Centaur IIA (AC-144) rocket nears the top of the launch tower. The rocket will be used in the launch of TDRS-J, scheduled for Nov. 20. The third in a series of telemetry satellites, TDRS-J will help replenish the current constellation of geosynchronous TDRS satellites. The TDRS System is the primary source of space-to-ground voice, data and telemetry for the Space Shuttle. It also provides communications with the International Space Station and scientific spacecraft in low-Earth orbit such as the Hubble Space Telescope. This new advanced series of satellites will extend the availability of TDRS communications services until about 2017. KSC-02pd1527

KENNEDY SPACE CENTER, FLA. -- At Launch Complex 36-A, Cape Canaveral A...

KENNEDY SPACE CENTER, FLA. -- At Launch Complex 36-A, Cape Canaveral Air Force Station, a Lockheed Martin Atlas Centaur IIA (AC-144) rocket nears the top of the launch tower. The rocket will be used in the laun... More

KENNEDY SPACE CENTER, FLA. -- At Launch Complex 36-A, Cape Canaveral Air Force Station, a Lockheed Martin Atlas Centaur IIA (AC-144) rocket is halfway up the launch tower . The rocket will be used in the launch of TDRS-J, scheduled for Nov. 20. The third in a series of telemetry satellites, TDRS-J will help replenish the current constellation of geosynchronous TDRS satellites. The TDRS System is the primary source of space-to-ground voice, data and telemetry for the Space Shuttle. It also provides communications with the International Space Station and scientific spacecraft in low-Earth orbit such as the Hubble Space Telescope. This new advanced series of satellites will extend the availability of TDRS communications services until about 2017. KSC-02pd1526

KENNEDY SPACE CENTER, FLA. -- At Launch Complex 36-A, Cape Canaveral A...

KENNEDY SPACE CENTER, FLA. -- At Launch Complex 36-A, Cape Canaveral Air Force Station, a Lockheed Martin Atlas Centaur IIA (AC-144) rocket is halfway up the launch tower . The rocket will be used in the launch... More

KENNEDY SPACE CENTER, FLA. -- At Launch Complex 36-A, Cape Canaveral Air Force Station, a Lockheed Martin Atlas Centaur IIA (AC-144) rocket arrives at the top of the launch tower. The rocket will be used in the launch of TDRS-J, scheduled for Nov. 20. The third in a series of telemetry satellites, TDRS-J will help replenish the current constellation of geosynchronous TDRS satellites. The TDRS System is the primary source of space-to-ground voice, data and telemetry for the Space Shuttle. It also provides communications with the International Space Station and scientific spacecraft in low-Earth orbit such as the Hubble Space Telescope. This new advanced series of satellites will extend the availability of TDRS communications services until about 2017. KSC-02pd1528

KENNEDY SPACE CENTER, FLA. -- At Launch Complex 36-A, Cape Canaveral A...

KENNEDY SPACE CENTER, FLA. -- At Launch Complex 36-A, Cape Canaveral Air Force Station, a Lockheed Martin Atlas Centaur IIA (AC-144) rocket arrives at the top of the launch tower. The rocket will be used in the... More

KENNEDY SPACE CENTER, FLA. -- The TDRS-J satellite rests inside the first half of the fairing during encapsulation. The satellite is scheduled to be launched aboard a Lockheed Martin Atlas IIA-Centaur rocket from Launch Complex 36-A, Cape Canaveral Air Force Station, Fla., on Dec. 4. The third in a series of telemetry satellites, TDRS-J will help replenish the current constellation of geosynchronous TDRS satellites. The TDRS System is the primary source of space-to-ground voice, data and telemetry for the Space Shuttle. It also provides communications with the International Space Station and scientific spacecraft in low-Earth orbit such as the Hubble Space Telescope. This new advanced series of satellites will extend the availability of TDRS communications services until about 2017. KSC-02pd1777

KENNEDY SPACE CENTER, FLA. -- The TDRS-J satellite rests inside the f...

KENNEDY SPACE CENTER, FLA. -- The TDRS-J satellite rests inside the first half of the fairing during encapsulation. The satellite is scheduled to be launched aboard a Lockheed Martin Atlas IIA-Centaur rocket f... More

KENNEDY SPACE CENTER, FLA. -- The TDRS-J satellite is fully encapsulated and ready for transport to Launch Complex 36-A, Cape Canaveral Air Force Station, Fla. There it will be mated with the Lockheed Martin Atlas IIA-Centaur rocket for launch on Dec. 4. The third in a series of telemetry satellites, TDRS-J will help replenish the current constellation of geosynchronous TDRS satellites. The TDRS System is the primary source of space-to-ground voice, data and telemetry for the Space Shuttle. It also provides communications with the International Space Station and scientific spacecraft in low-Earth orbit such as the Hubble Space Telescope. This new advanced series of satellites will extend the availability of TDRS communications services until about 2017. KSC-02pd1781

KENNEDY SPACE CENTER, FLA. -- The TDRS-J satellite is fully encapsula...

KENNEDY SPACE CENTER, FLA. -- The TDRS-J satellite is fully encapsulated and ready for transport to Launch Complex 36-A, Cape Canaveral Air Force Station, Fla. There it will be mated with the Lockheed Martin ... More

KENNEDY SPACE CENTER, FLA. -- Workers keep check on the TDRS-J satellite (foreground) as the fairing (background) moves toward it for encapsulation. The satellite is scheduled to be launched aboard a Lockheed Martin Atlas IIA-Centaur rocket from Launch Complex 36-A, Cape Canaveral Air Force Station, Fla., on Dec. 4. The third in a series of telemetry satellites, TDRS-J will help replenish the current constellation of geosynchronous TDRS satellites. The TDRS System is the primary source of space-to-ground voice, data and telemetry for the Space Shuttle. It also provides communications with the International Space Station and scientific spacecraft in low-Earth orbit such as the Hubble Space Telescope. This new advanced series of satellites will extend the availability of TDRS communications services until about 2017. KSC-02pd1774

KENNEDY SPACE CENTER, FLA. -- Workers keep check on the TDRS-J satell...

KENNEDY SPACE CENTER, FLA. -- Workers keep check on the TDRS-J satellite (foreground) as the fairing (background) moves toward it for encapsulation. The satellite is scheduled to be launched aboard a Lockheed... More

KENNEDY SPACE CENTER, FLA. -- TheTDRS-J satellite (left) and part of the fairing (right) are on display for the media before encapsulation. The satellite is scheduled to be launched aboard a Lockheed Martin Atlas IIA-Centaur rocket from Launch Complex 36-A, Cape Canaveral Air Force Station, Fla., on Dec. 4. The third in a series of telemetry satellites, TDRS-J will help replenish the current constellation of geosynchronous TDRS satellites. The TDRS System is the primary source of space-to-ground voice, data and telemetry for the Space Shuttle. It also provides communications with the International Space Station and scientific spacecraft in low-Earth orbit such as the Hubble Space Telescope. This new advanced series of satellites will extend the availability of TDRS communications services until about 2017. KSC-02pd1772

KENNEDY SPACE CENTER, FLA. -- TheTDRS-J satellite (left) and part of ...

KENNEDY SPACE CENTER, FLA. -- TheTDRS-J satellite (left) and part of the fairing (right) are on display for the media before encapsulation. The satellite is scheduled to be launched aboard a Lockheed Martin A... More

KENNEDY SPACE CENTER, FLA. -- The fairing (left) is moved toward the TDRS-J satellite (right) for encapsulation. The satellite is scheduled to be launched aboard a Lockheed Martin Atlas IIA-Centaur rocket from Launch Complex 36-A, Cape Canaveral Air Force Station, Fla., on Dec. 4. The third in a series of telemetry satellites, TDRS-J will help replenish the current constellation of geosynchronous TDRS satellites. The TDRS System is the primary source of space-to-ground voice, data and telemetry for the Space Shuttle. It also provides communications with the International Space Station and scientific spacecraft in low-Earth orbit such as the Hubble Space Telescope. This new advanced series of satellites will extend the availability of TDRS communications services until about 2017. KSC-02pd1773

KENNEDY SPACE CENTER, FLA. -- The fairing (left) is moved toward the ...

KENNEDY SPACE CENTER, FLA. -- The fairing (left) is moved toward the TDRS-J satellite (right) for encapsulation. The satellite is scheduled to be launched aboard a Lockheed Martin Atlas IIA-Centaur rocket fro... More

KENNEDY SPACE CENTER, FLA. -- The TDRS-J satellite rests inside the first half of the fairing during encapsulation. The satellite is scheduled to be launched aboard a Lockheed Martin Atlas IIA-Centaur rocket from Launch Complex 36-A, Cape Canaveral Air Force Station, Fla., on Dec. 4. The third in a series of telemetry satellites, TDRS-J will help replenish the current constellation of geosynchronous TDRS satellites. The TDRS System is the primary source of space-to-ground voice, data and telemetry for the Space Shuttle. It also provides communications with the International Space Station and scientific spacecraft in low-Earth orbit such as the Hubble Space Telescope. This new advanced series of satellites will extend the availability of TDRS communications services until about 2017. KSC-02pd1775

KENNEDY SPACE CENTER, FLA. -- The TDRS-J satellite rests inside the f...

KENNEDY SPACE CENTER, FLA. -- The TDRS-J satellite rests inside the first half of the fairing during encapsulation. The satellite is scheduled to be launched aboard a Lockheed Martin Atlas IIA-Centaur rocket f... More

KENNEDY SPACE CENTER, FLA. -- The second half of the fairing (right) is prepared for mating with the first half and encapsulating the TDRS-J satellite for launch. The satellite is scheduled to be launched aboard a Lockheed Martin Atlas IIA-Centaur rocket from Launch Complex 36-A, Cape Canaveral Air Force Station, Fla., on Dec. 4. The third in a series of telemetry satellites, TDRS-J will help replenish the current constellation of geosynchronous TDRS satellites. The TDRS System is the primary source of space-to-ground voice, data and telemetry for the Space Shuttle. It also provides communications with the International Space Station and scientific spacecraft in low-Earth orbit such as the Hubble Space Telescope. This new advanced series of satellites will extend the availability of TDRS communications services until about 2017. KSC-02pd1779

KENNEDY SPACE CENTER, FLA. -- The second half of the fairing (right)...

KENNEDY SPACE CENTER, FLA. -- The second half of the fairing (right) is prepared for mating with the first half and encapsulating the TDRS-J satellite for launch. The satellite is scheduled to be launched abo... More

KENNEDY SPACE CENTER, FLA. -- Workers move the second half of the fairing around the TDRS-J satellite to complete encapsulation. The satellite is scheduled to be launched aboard a Lockheed Martin Atlas IIA-Centaur rocket from Launch Complex 36-A, Cape Canaveral Air Force Station, Fla., on Dec. 4. The third in a series of telemetry satellites, TDRS-J will help replenish the current constellation of geosynchronous TDRS satellites. The TDRS System is the primary source of space-to-ground voice, data and telemetry for the Space Shuttle. It also provides communications with the International Space Station and scientific spacecraft in low-Earth orbit such as the Hubble Space Telescope. This new advanced series of satellites will extend the availability of TDRS communications services until about 2017. KSC-02pd1780

KENNEDY SPACE CENTER, FLA. -- Workers move the second half of the fai...

KENNEDY SPACE CENTER, FLA. -- Workers move the second half of the fairing around the TDRS-J satellite to complete encapsulation. The satellite is scheduled to be launched aboard a Lockheed Martin Atlas IIA-Cen... More

VANDENBERG AIR FORCE BASE, CALIF. - Inside Orbital Sciences Building 1555 at Vandenberg Air Force Base in California, a worker installs one of the fins on the aft skirt of the Pegasus XL rocket that will launch the Space Technology 5 spacecraft later this month. ST5 contains three micro-satellites that will be positioned in a "string of pearls" constellation to perform simultaneous multi-point measurements of the Earth's magnetic field using highly sensitive magnetometers. The scheduled launch date is Feb. 28. KSC-06pd0261

VANDENBERG AIR FORCE BASE, CALIF. - Inside Orbital Sciences Buildin...

VANDENBERG AIR FORCE BASE, CALIF. - Inside Orbital Sciences Building 1555 at Vandenberg Air Force Base in California, a worker installs one of the fins on the aft skirt of the Pegasus XL rocket that will lau... More

VANDENBERG AIR FORCE BASE, CALIF. - Inside Orbital Sciences Building 1555 at Vandenberg Air Force Base in California, workers attach segments of the Pegasus XL rocket that will launch the Space Technology 5 spacecraft later this month. ST5 contains three micro-satellites that will be positioned in a "string of pearls" constellation to perform simultaneous multi-point measurements of the Earth's magnetic field using highly sensitive magnetometers. The scheduled launch date is Feb. 28. KSC-06pd0259

VANDENBERG AIR FORCE BASE, CALIF. - Inside Orbital Sciences Buildin...

VANDENBERG AIR FORCE BASE, CALIF. - Inside Orbital Sciences Building 1555 at Vandenberg Air Force Base in California, workers attach segments of the Pegasus XL rocket that will launch the Space Technology 5 ... More

VANDENBERG AIR FORCE BASE, CALIF. - Inside Orbital Sciences Building 1555 at Vandenberg Air Force Base in California, workers get ready to install one of the fins on the aft skirt of the Pegasus XL rocket that will launch the Space Technology 5 spacecraft later this month. ST5 contains three micro-satellites that will be positioned in a "string of pearls" constellation to perform simultaneous multi-point measurements of the Earth's magnetic field using highly sensitive magnetometers. The scheduled launch date is Feb. 28. KSC-06pd0260

VANDENBERG AIR FORCE BASE, CALIF. - Inside Orbital Sciences Building...

VANDENBERG AIR FORCE BASE, CALIF. - Inside Orbital Sciences Building 1555 at Vandenberg Air Force Base in California, workers get ready to install one of the fins on the aft skirt of the Pegasus XL rocket tha... More

VANDENBERG AIR FORCE BASE, CALIF. - Inside Orbital Sciences Building 1555 at Vandenberg Air Force Base in California, a worker underneath the tail of the Pegasus XL rocket completes installation of the fin. The Pegasus will launch the Space Technology 5 spacecraft later this month. ST5 contains three micro-satellites that will be positioned in a "string of pearls" constellation to perform simultaneous multi-point measurements of the Earth's magnetic field using highly sensitive magnetometers. The scheduled launch date is Feb. 28. KSC-06pd0262

VANDENBERG AIR FORCE BASE, CALIF. - Inside Orbital Sciences Buildin...

VANDENBERG AIR FORCE BASE, CALIF. - Inside Orbital Sciences Building 1555 at Vandenberg Air Force Base in California, a worker underneath the tail of the Pegasus XL rocket completes installation of the fin. ... More

VANDENBERG AIR FORCE BASE, Calif. — In the Orbital Sciences Building 836 at Vandenberg Air Force Base in California, workers lower the second satellite onto the payload support structure. Three micro-satellites are being mounted on a payload support structure. The three satellites make up the Space Technology 5 spacecraft, called ST5, and will be launched by a Pegasus XL rocket. The satellites contain miniaturized redundant components and technologies. Each will validate New Millennium Program selected technologies, such as the Cold Gas Micro-Thruster and X-Band Transponder Communication System. After deployment from the Pegasus, the micro-satellites will be positioned in a “string of pearls” constellation that demonstrates the ability to position them to perform simultaneous multi-point measurements of the magnetic field using highly sensitive magnetometers. The data will help scientists understand and map the intensity and direction of the Earth’s magnetic field, its relation to space weather events, and affects on our planet. With such missions, NASA hopes to improve scientists’ ability to accurately forecast space weather and minimize its harmful effects on space- and ground-based systems. Launch of ST5 is scheduled for Feb. 28 from Vandenberg Air Force Base. KSC-06pd0165

VANDENBERG AIR FORCE BASE, Calif. — In the Orbital Sciences Building...

VANDENBERG AIR FORCE BASE, Calif. — In the Orbital Sciences Building 836 at Vandenberg Air Force Base in California, workers lower the second satellite onto the payload support structure. Three micro-satelli... More

VANDENBERG AIR FORCE BASE, Calif. — In the Orbital Sciences Building 836 at Vandenberg Air Force Base in California, workers move lift one of three micro-satellites to prepare it for mating to the payload support structure. The three satellites that make up the Space Technology 5 spacecraft, called ST5, will be launched by a Pegasus XL rocket. The satellites contain miniaturized redundant components and technologies. Each will validate New Millennium Program selected technologies, such as the Cold Gas Micro-Thruster and X-Band Transponder Communication System. After deployment from the Pegasus, the micro-satellites will be positioned in a “string of pearls” constellation that demonstrates the ability to position them to perform simultaneous multi-point measurements of the magnetic field using highly sensitive magnetometers. The data will help scientists understand and map the intensity and direction of the Earth’s magnetic field, its relation to space weather events, and affects on our planet. With such missions, NASA hopes to improve scientists’ ability to accurately forecast space weather and minimize its harmful effects on space- and ground-based systems. Launch of ST5 is scheduled for Feb. 28 from Vandenberg Air Force Base. KSC-06pd0161

VANDENBERG AIR FORCE BASE, Calif. — In the Orbital Sciences Building...

VANDENBERG AIR FORCE BASE, Calif. — In the Orbital Sciences Building 836 at Vandenberg Air Force Base in California, workers move lift one of three micro-satellites to prepare it for mating to the payload sup... More

VANDENBERG AIR FORCE BASE, Calif. — In the Orbital Sciences Building 836 at Vandenberg Air Force Base in California, workers secure one of three micro-satellites onto a payload support structure. The three satellites that make up the Space Technology 5 spacecraft, called ST5, will be launched by a Pegasus XL rocket. The satellites contain miniaturized redundant components and technologies. Each will validate New Millennium Program selected technologies, such as the Cold Gas Micro-Thruster and X-Band Transponder Communication System. After deployment from the Pegasus, the micro-satellites will be positioned in a “string of pearls” constellation that demonstrates the ability to position them to perform simultaneous multi-point measurements of the magnetic field using highly sensitive magnetometers. The data will help scientists understand and map the intensity and direction of the Earth’s magnetic field, its relation to space weather events, and affects on our planet. With such missions, NASA hopes to improve scientists’ ability to accurately forecast space weather and minimize its harmful effects on space- and ground-based systems. Launch of ST5 is scheduled for Feb. 28 from Vandenberg Air Force Base. KSC-06pd0163

VANDENBERG AIR FORCE BASE, Calif. — In the Orbital Sciences Building...

VANDENBERG AIR FORCE BASE, Calif. — In the Orbital Sciences Building 836 at Vandenberg Air Force Base in California, workers secure one of three micro-satellites onto a payload support structure. The three ... More

VANDENBERG AIR FORCE BASE, Calif. — In the Orbital Sciences Building 836 at Vandenberg Air Force Base in California, workers guide one of three micro-satellites onto a payload support structure. The three satellites that make up the Space Technology 5 spacecraft, called ST5, will be launched by a Pegasus XL rocket. The satellites contain miniaturized redundant components and technologies. Each will validate New Millennium Program selected technologies, such as the Cold Gas Micro-Thruster and X-Band Transponder Communication System. After deployment from the Pegasus, the micro-satellites will be positioned in a “string of pearls” constellation that demonstrates the ability to position them to perform simultaneous multi-point measurements of the magnetic field using highly sensitive magnetometers. The data will help scientists understand and map the intensity and direction of the Earth’s magnetic field, its relation to space weather events, and affects on our planet. With such missions, NASA hopes to improve scientists’ ability to accurately forecast space weather and minimize its harmful effects on space- and ground-based systems. Launch of ST5 is scheduled for Feb. 28 from Vandenberg Air Force Base. KSC-06pd0162

VANDENBERG AIR FORCE BASE, Calif. — In the Orbital Sciences Building...

VANDENBERG AIR FORCE BASE, Calif. — In the Orbital Sciences Building 836 at Vandenberg Air Force Base in California, workers guide one of three micro-satellites onto a payload support structure. The three s... More

VANDENBERG AIR FORCE BASE, Calif. — In the Orbital Sciences Building 836 at Vandenberg Air Force Base in California, workers are maneuvering a second satellite suspended by an overhead crane. Three micro-satellites are being mounted on a payload support structure. The three satellites make up the Space Technology 5 spacecraft, called ST5, and will be launched by a Pegasus XL rocket. The satellites contain miniaturized redundant components and technologies. Each will validate New Millennium Program selected technologies, such as the Cold Gas Micro-Thruster and X-Band Transponder Communication System. After deployment from the Pegasus, the micro-satellites will be positioned in a “string of pearls” constellation that demonstrates the ability to position them to perform simultaneous multi-point measurements of the magnetic field using highly sensitive magnetometers. The data will help scientists understand and map the intensity and direction of the Earth’s magnetic field, its relation to space weather events, and affects on our planet. With such missions, NASA hopes to improve scientists’ ability to accurately forecast space weather and minimize its harmful effects on space- and ground-based systems. Launch of ST5 is scheduled for Feb. 28 from Vandenberg Air Force Base. KSC-06pd0164

VANDENBERG AIR FORCE BASE, Calif. — In the Orbital Sciences Building...

VANDENBERG AIR FORCE BASE, Calif. — In the Orbital Sciences Building 836 at Vandenberg Air Force Base in California, workers are maneuvering a second satellite suspended by an overhead crane. Three micro-sat... More

VANDENBERG AIR FORCE BASE, Calif. — In the Orbital Sciences Building 836 at Vandenberg Air Force Base in California, three micro-satellites are mounted on the payload support structure. The three satellites make up the Space Technology 5 spacecraft, called ST5, and will be launched by a Pegasus XL rocket. The satellites contain miniaturized redundant components and technologies. Each will validate New Millennium Program selected technologies, such as the Cold Gas Micro-Thruster and X-Band Transponder Communication System. After deployment from the Pegasus, the micro-satellites will be positioned in a “string of pearls” constellation that demonstrates the ability to position them to perform simultaneous multi-point measurements of the magnetic field using highly sensitive magnetometers. The data will help scientists understand and map the intensity and direction of the Earth’s magnetic field, its relation to space weather events, and affects on our planet. With such missions, NASA hopes to improve scientists’ ability to accurately forecast space weather and minimize its harmful effects on space- and ground-based systems. Launch of ST5 is scheduled for Feb. 28 from Vandenberg Air Force Base. KSC-06pd0168

VANDENBERG AIR FORCE BASE, Calif. — In the Orbital Sciences Building...

VANDENBERG AIR FORCE BASE, Calif. — In the Orbital Sciences Building 836 at Vandenberg Air Force Base in California, three micro-satellites are mounted on the payload support structure. The three satellites m... More

VANDENBERG AIR FORCE BASE, Calif. — In the Orbital Sciences Building 836 at Vandenberg Air Force Base in California, workers are mating a third satellite onto the payload support structure. The three satellites make up the Space Technology 5 spacecraft, called ST5, and will be launched by a Pegasus XL rocket. The satellites contain miniaturized redundant components and technologies. Each will validate New Millennium Program selected technologies, such as the Cold Gas Micro-Thruster and X-Band Transponder Communication System. After deployment from the Pegasus, the micro-satellites will be positioned in a “string of pearls” constellation that demonstrates the ability to position them to perform simultaneous multi-point measurements of the magnetic field using highly sensitive magnetometers. The data will help scientists understand and map the intensity and direction of the Earth’s magnetic field, its relation to space weather events, and affects on our planet. With such missions, NASA hopes to improve scientists’ ability to accurately forecast space weather and minimize its harmful effects on space- and ground-based systems. Launch of ST5 is scheduled for Feb. 28 from Vandenberg Air Force Base. KSC-06pd0167

VANDENBERG AIR FORCE BASE, Calif. — In the Orbital Sciences Building...

VANDENBERG AIR FORCE BASE, Calif. — In the Orbital Sciences Building 836 at Vandenberg Air Force Base in California, workers are mating a third satellite onto the payload support structure. The three satellit... More

VANDENBERG AIR FORCE BASE, Calif. — n the Orbital Sciences Building 836 at Vandenberg Air Force Base in California, a third satellite is transported across the floor. It will be mounted with the other satellites on the payload support structure. The three satellites make up the Space Technology 5 spacecraft, called ST5, and will be launched by a Pegasus XL rocket. The satellites contain miniaturized redundant components and technologies. Each will validate New Millennium Program selected technologies, such as the Cold Gas Micro-Thruster and X-Band Transponder Communication System. After deployment from the Pegasus, the micro-satellites will be positioned in a “string of pearls” constellation that demonstrates the ability to position them to perform simultaneous multi-point measurements of the magnetic field using highly sensitive magnetometers. The data will help scientists understand and map the intensity and direction of the Earth’s magnetic field, its relation to space weather events, and affects on our planet. With such missions, NASA hopes to improve scientists’ ability to accurately forecast space weather and minimize its harmful effects on space- and ground-based systems. Launch of ST5 is scheduled for Feb. 28 from Vandenberg Air Force Base. KSC-06pd0166

VANDENBERG AIR FORCE BASE, Calif. — n the Orbital Sciences Building ...

VANDENBERG AIR FORCE BASE, Calif. — n the Orbital Sciences Building 836 at Vandenberg Air Force Base in California, a third satellite is transported across the floor. It will be mounted with the other satell... More

VANDENBERG AIR FORCE BASE, Calif. — In the Orbital Sciences Building 836 at Vandenberg Air Force Base in California, technicians complete mating of the three micro-satellites on the payload support structure. The three satellites make up the Space Technology 5 spacecraft, called ST5, and will be launched by a Pegasus XL rocket. The satellites contain miniaturized redundant components and technologies. Each will validate New Millennium Program selected technologies, such as the Cold Gas Micro-Thruster and X-Band Transponder Communication System. After deployment from the Pegasus, the micro-satellites will be positioned in a “string of pearls” constellation that demonstrates the ability to position them to perform simultaneous multi-point measurements of the magnetic field using highly sensitive magnetometers. The data will help scientists understand and map the intensity and direction of the Earth’s magnetic field, its relation to space weather events, and affects on our planet. With such missions, NASA hopes to improve scientists’ ability to accurately forecast space weather and minimize its harmful effects on space- and ground-based systems. Launch of ST5 is scheduled for Feb. 28 from Vandenberg Air Force Base. KSC-06pd0170

VANDENBERG AIR FORCE BASE, Calif. — In the Orbital Sciences Building...

VANDENBERG AIR FORCE BASE, Calif. — In the Orbital Sciences Building 836 at Vandenberg Air Force Base in California, technicians complete mating of the three micro-satellites on the payload support structure.... More

VANDENBERG AIR FORCE BASE, Calif. — In the Orbital Sciences Building 836 at Vandenberg Air Force Base in California, technicians complete mating of the three micro-satellites on the payload support structure. The three satellites make up the Space Technology 5 spacecraft, called ST5, and will be launched by a Pegasus XL rocket. The satellites contain miniaturized redundant components and technologies. Each will validate New Millennium Program selected technologies, such as the Cold Gas Micro-Thruster and X-Band Transponder Communication System. After deployment from the Pegasus, the micro-satellites will be positioned in a “string of pearls” constellation that demonstrates the ability to position them to perform simultaneous multi-point measurements of the magnetic field using highly sensitive magnetometers. The data will help scientists understand and map the intensity and direction of the Earth’s magnetic field, its relation to space weather events, and affects on our planet. With such missions, NASA hopes to improve scientists’ ability to accurately forecast space weather and minimize its harmful effects on space- and ground-based systems. Launch of ST5 is scheduled for Feb. 28 from Vandenberg Air Force Base. KSC-06pd0171

VANDENBERG AIR FORCE BASE, Calif. — In the Orbital Sciences Building...

VANDENBERG AIR FORCE BASE, Calif. — In the Orbital Sciences Building 836 at Vandenberg Air Force Base in California, technicians complete mating of the three micro-satellites on the payload support structure.... More

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