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STS-88 Mating in VAB
| Title |
STS-88 Mating in VAB |
| Full Description |
The orbiter Endeavour is suspended in a vertical position inside the Vehicle Assembly Building where it will be mated with its solid rocket boosters and external tank. Endeavour is scheduled to fly on mission STS-88, the first Space Shuttle flight for the assembly of the International Space Station, on December 3, 1998. The primary payload on the mission is the Unity connecting module, which will be mated to the Russian-built Zarya Control Module already in orbit at that time. |
| Date |
10/15/1998 |
| NASA Center |
Kennedy Space Center |
|
Unity Module in the Payload
…
| Title |
Unity Module in the Payload Bay for STS-88 |
| Full Description |
The Unity module inside the shuttle payload bay of Space Shuttle Endeavour. Endeavour is scheduled to fly on mission STS-88, the first Space Shuttle flight for the assembly of the International Space Station, on December 3, 1998. The primary payload on the mission is the Unity connecting module, which will be mated to the Russian-built Zarya Control Module already in orbit at that time. |
| Date |
11/19/1998 |
| NASA Center |
Kennedy Space Center |
|
Astronaut Susan Helms in the
…
| Name of Image |
Astronaut Susan Helms in the ISS Unity Node |
| Date of Image |
2001-08-12 |
| Full Description |
In this photograph, Astronaut Susan Helms, Expedition Two flight engineer, is positioned near a large amount of water temporarily stored in the Unity Node aboard the International Space Station (ISS). Astronaut Helms accompanied the STS-105 crew back to Earth after having spent five months with two crewmates aboard the ISS. The 11th ISS assembly flight, the Space Shuttle Orbiter Discovery STS-105 mission was launched on August 10, 2001, and landed on August 22, 2001 at the Kennedy Space Center after the completion of the successful 12-day mission. |
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Astronaut Voss Works in the
…
| Name of Image |
Astronaut Voss Works in the Destiny Laboratory |
| Date of Image |
2001-08-01 |
| Full Description |
In this photograph, Astronaut James Voss, flight engineer of Expedition Two, performs a task at a work station in the International Space Station (ISS) Destiny Laboratory, or U.S. Laboratory, as Astronaut Scott Horowitz, STS-105 mission commander, floats through the hatchway leading to the Unity node. After spending five months aboard the orbital outpost, the ISS Expedition Two crew was replaced by Expedition Three and returned to Earth aboard the STS-105 Space Shuttle Discovery on August 22, 2001. The Orbiter Discovery was launched from the Kennedy Space Center on August 10, 2001. |
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The STS-104 crew takes part
…
| Title |
The STS-104 crew takes part in CEIT |
| Description |
KENNEDY SPACE CENTER, Fla. -- At the Space Station Processing Facility, the STS-104 crew look over equipment as part of Crew Equipment Interface Test activities. From left are Commander Steven Lindsey, Mission Specialist James F. Reilly II and Mission Specialist Michael L. Gernhardt at far right. Not shown is Pilot Charles O. Hobaugh. The STS-104 mission will carry the Joint Airlock Module to the International Space Station. The U.S.-made module will allow astronauts and cosmonauts in residence on the Station to perform future spacewalks without the presence of a Space Shuttle. The module, which comprises a crew lock and an equipment lock, will be connected to the starboard (right) side of Node 1 Unity. Atlantis will also carry oxygen and nitrogen storage tanks, vital to operation of the Joint Airlock, on a Spacelab Logistics Double Pallet in the payload bay. The tanks, to be installed on the perimeter of the Joint Module during the mission"'"s spacewalks, will support future spacewalk operations and experiments plus agument the resupply system for the Station"'"s Service Module. |
| Date |
03.19.2001 |
|
The STS-104 crew takes part
…
| Title |
The STS-104 crew takes part in CEIT |
| Description |
KENNEDY SPACE CENTER, Fla. -- Members of the STS-104 crew check out equipment at the Space Station Processing Facility as part of Crew Equipment Interface Test activities. Shown (from left) are Mission Specialist James F. Reilly II and Commander Steven W. Lindsey, (rear) Pilot Charles O. Hobaugh, (right) Mission Specialist Michael L. Gernhardt. Not shown is Mission Specialist Janet L. Kavandi. ). The mission will carry the Joint Airlock Module to the International Space Station. The U.S.-made module will allow astronauts and cosmonauts in residence on the Station to perform future spacewalks without the presence of a Space Shuttle. The module, which comprises a crew lock and an equipment lock, will be connected to the starboard (right) side of Node 1 Unity. Atlantis will also carry oxygen and nitrogen storage tanks, vital to operation of the Joint Airlock, on a Spacelab Logistics Double Pallet in the payload bay. The tanks, to be installed on the perimeter of the Joint Module during the mission"'"s spacewalks, will support future spacewalk operations and experiments plus augment the resupply system for the Station"'"s Service Module. |
| Date |
03.19.2001 |
|
The STS-104 crew takes part
…
| Title |
The STS-104 crew takes part in CEIT |
| Description |
KENNEDY SPACE CENTER, Fla. -- Members of the STS-104 crew check out equipment at the Space Station Processing Facility as part of Crew Equipment Interface Test activities. Seen are (from left) Mission Specialist Michael L. Gernhardt, Commander Steven W. Lindsey, Pilot Charles O. Hobaugh and Mission Specialist James F. Reilly II. Not shown is Mission Specialist Janet L. Kavandi. The mission will carry the Joint Airlock Module to the International Space Station. The U.S.-made module will allow astronauts and cosmonauts in residence on the Station to perform future spacewalks without the presence of a Space Shuttle. The module, which comprises a crew lock and an equipment lock, will be connected to the starboard (right) side of Node 1 Unity. Atlantis will also carry oxygen and nitrogen storage tanks, vital to operation of the Joint Airlock, on a Spacelab Logistics Double Pallet in the payload bay. The tanks, to be installed on the perimeter of the Joint Module during the mission"'"s spacewalks, will support future spacewalk operations and experiments plus augment the resupply system for the Station"'"s Service Module. |
| Date |
03.19.2001 |
|
The STS-104 crew takes part
…
| Title |
The STS-104 crew takes part in CEIT |
| Description |
KENNEDY SPACE CENTER, Fla. -- At the Space Station Processing Facility, STS-104 Mission Specialist James F. Reilly II checks out a piece of equipment. The crew is at KSC to take part in Crew Equipment Interface Test activities. Reilly will perform three spacewalks during the mission, which will carry the Joint Airlock Module to the International Space Station. The U.S.-made module will allow astronauts and cosmonauts in residence on the Station to perform future spacewalks without the presence of a Space Shuttle. The module, which comprises a crew lock and an equipment lock, will be connected to the starboard (right) side of Node 1 Unity. Atlantis will also carry oxygen and nitrogen storage tanks, vital to operation of the Joint Airlock, on a Spacelab Logistics Double Pallet in the payload bay. The tanks, to be installed on the perimeter of the Joint Module during the mission"'"s spacewalks, will support future spacewalk operations and experiments plus agument the resupply system for the Station"'"s Service Module. |
| Date |
03.19.2001 |
|
The STS-104 crew takes part
…
| Title |
The STS-104 crew takes part in CEIT |
| Description |
KENNEDY SPACE CENTER, Fla. -- At the Space Station Processing Facility, members of the STS-104 crew check out equipment. At left is Mission Specialist Michael L. Gernhardt, and second from right is Mission Specialist James F. Reilly II. The crew is taking part in Crew Equipment Interface Test activities. The mission will carry the Joint Airlock Module to the International Space Station. The U.S.-made module will allow astronauts and cosmonauts in residence on the Station to perform future spacewalks without the presence of a Space Shuttle. The module, which comprises a crew lock and an equipment lock, will be connected to the starboard (right) side of Node 1 Unity. Atlantis will also carry oxygen and nitrogen storage tanks, vital to operation of the Joint Airlock, on a Spacelab Logistics Double Pallet in the payload bay. The tanks, to be installed on the perimeter of the Joint Module during the mission"'"s spacewalks, will support future spacewalk operations and experiments plus augment the resupply system for the Station"'"s Service Module. |
| Date |
03.19.2001 |
|
The STS-104 crew takes part
…
| Title |
The STS-104 crew takes part in CEIT |
| Description |
KENNEDY SPACE CENTER, Fla. -- At the Space Station Processing Facility, STS-104 Mission Specialist James F. Reilly II checks out a piece of equipment. The crew is at KSC to take part in Crew Equipment Interface Test activities. Reilly will perform three spacewalks during the mission, which will carry the Joint Airlock Module to the International Space Station. The U.S.-made module will allow astronauts and cosmonauts in residence on the Station to perform future spacewalks without the presence of a Space Shuttle. The module, which comprises a crew lock and an equipment lock, will be connected to the starboard (right) side of Node 1 Unity. Atlantis will also carry oxygen and nitrogen storage tanks, vital to operation of the Joint Airlock, on a Spacelab Logistics Double Pallet in the payload bay. The tanks, to be installed on the perimeter of the Joint Module during the mission"'"s spacewalks, will support future spacewalk operations and experiments plus agument the resupply system for the Station"'"s Service Module. |
| Date |
03.19.2001 |
|
The STS-104 crew takes part
…
| Title |
The STS-104 crew takes part in CEIT |
| Description |
KENNEDY SPACE CENTER, Fla. -- At the Space Station Processing Facility, the STS-104 crew look over equipment as part of Crew Equipment Interface Test activities. Starting second from left are Mission Specialists James F. Reilly II, Janet L. Kavandi, Pilot Charles O. Hobaugh, Commander Steven Lindsey and Mission Specialist Michael L. Gernhardt. The STS-104 mission will carry the Joint Airlock Module to the International Space Station. The U.S.-made module will allow astronauts and cosmonauts in residence on the Station to perform future spacewalks without the presence of a Space Shuttle. The module, which comprises a crew lock and an equipment lock, will be connected to the starboard (right) side of Node 1 Unity. Atlantis will also carry oxygen and nitrogen storage tanks, vital to operation of the Joint Airlock, on a Spacelab Logistics Double Pallet in the payload bay. The tanks, to be installed on the perimeter of the Joint Module during the mission"'"s spacewalks, will support future spacewalk operations and experiments plus agument the resupply system for the Station"'"s Service Module. |
| Date |
03.19.2001 |
|
The STS-104 crew takes part
…
| Title |
The STS-104 crew takes part in CEIT |
| Description |
KENNEDY SPACE CENTER, Fla. -- Members of the STS-104 crew check out equipment at the Space Station Processing Facility as part of Crew Equipment Interface Test activities. Seen are (from left) Mission Specialist Michael L. Gernhardt, Commander Steven W. Lindsey, Pilot Charles O. Hobaugh and Mission Specialist James F. Reilly II. Not shown is Mission Specialist Janet L. Kavandi. The mission will carry the Joint Airlock Module to the International Space Station. The U.S.-made module will allow astronauts and cosmonauts in residence on the Station to perform future spacewalks without the presence of a Space Shuttle. The module, which comprises a crew lock and an equipment lock, will be connected to the starboard (right) side of Node 1 Unity. Atlantis will also carry oxygen and nitrogen storage tanks, vital to operation of the Joint Airlock, on a Spacelab Logistics Double Pallet in the payload bay. The tanks, to be installed on the perimeter of the Joint Module during the mission"'"s spacewalks, will support future spacewalk operations and experiments plus augment the resupply system for the Station"'"s Service Module. |
| Date |
03.19.2001 |
|
The STS-104 crew takes part
…
| Title |
The STS-104 crew takes part in CEIT |
| Description |
KENNEDY SPACE CENTER, Fla. -- Members of the STS-104 crew check out equipment at the Space Station Processing Facility as part of Crew Equipment Interface Test activities. Shown are Mission Specialist James F. Reilly II (left), Pilot Charles O. Hobaugh (center) and Mission Specialist Michael L. Gernhardt (right). The mission will carry the Joint Airlock Module to the International Space Station. The U.S.-made module will allow astronauts and cosmonauts in residence on the Station to perform future spacewalks without the presence of a Space Shuttle. The module, which comprises a crew lock and an equipment lock, will be connected to the starboard (right) side of Node 1 Unity. Atlantis will also carry oxygen and nitrogen storage tanks, vital to operation of the Joint Airlock, on a Spacelab Logistics Double Pallet in the payload bay. The tanks, to be installed on the perimeter of the Joint Module during the mission"'"s spacewalks, will support future spacewalk operations and experiments plus augment the resupply system for the Station"'"s Service Module. |
| Date |
03.19.2001 |
|
The STS-104 crew takes part
…
| Title |
The STS-104 crew takes part in CEIT |
| Description |
KENNEDY SPACE CENTER, Fla. -- Members of the STS-104 crew practice using tools they will work with on their mission. The crew is at KSC to take part in Crew Equipment Interface Test activities. Seen are (from left) Pilot Charles O. Hobaugh and Mission Specialist Michael L. Gernhardt. Also among the crew are Commander Steven W. Lindsey and Mission Specialists Janet L. Kavandi and James F. Reilly. The mission will carry the Joint Airlock Module to the International Space Station. The U.S.-made module will allow astronauts and cosmonauts in residence on the Station to perform future spacewalks without the presence of a Space Shuttle. The module, which comprises a crew lock and an equipment lock, will be connected to the starboard (right) side of Node 1 Unity. Atlantis will also carry oxygen and nitrogen storage tanks, vital to operation of the Joint Airlock, on a Spacelab Logistics Double Pallet in the payload bay. The tanks, to be installed on the perimeter of the Joint Module during the mission"'"s spacewalks, will support future spacewalk operations and experiments plus augment the resupply system for the Station"'"s Service Module. |
| Date |
03.19.2001 |
|
| General Description |
International Space Station Imagery |
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| General Description |
International Space Station Imagery |
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| General Description |
STS-98 Shuttle Mission Imagery |
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| General Description |
International Space Station Imagery |
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| General Description |
International Space Station Imagery |
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| General Description |
International Space Station Imagery |
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| General Description |
International Space Station Imagery |
|
| General Description |
International Space Station Imagery |
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A Russian 3-stage Proton roc
…
| Description |
A Russian 3-stage Proton rocket blasts into the sky at 12:56 a.m. EDT with the Russian-built Zvezda module in a successful launch from Baikonur Cosmodrome, Kazakhstan. Zvezda is the primary Russian contribution to the International Space Station, serving as the early Station living quarters. It will also provide early propulsive attitude control and reboost capabilities and be the main docking port for Russian Progress cargo resupply vehicles. The third Station component, Zvezda will dock by remote control with the already orbiting Zarya and Unity modules at an altitude of about 245 by 230 statute miles. "(Image taken with Nikon D1 digital camera.) |
| Release Date |
07/12/2000 |
|
KENNEDY SPACE CENTER, FLA. -
…
| Description |
KENNEDY SPACE CENTER, FLA. -- Members of the STS-92 crew pose for the photographer during a break from checking out Discovery's payload bay in the Orbiter Processing Facility bay 1. Their mission, the fourth U.S. flight to the ISS, includes as payload the Integrated Truss Structure Z1, an early exterior framework to allow the first U.S. solar arrays on a future flight to be temporarily installed on Unity for early power, Ku-band communication to support early science capability and U.S. television, and PMA-3 to provide a Shuttle docking port for solar array installation on the sixth ISS flight and Lab installation on the seventh ISS flight. The crew comprises Mission Commander Brian Duffy, Pilot Pamela Melroy, and Mission Specialists Koichi Wakata, Leroy Chiao, Peter "Jeff" Wisoff, Michael Lopez-Alegria, and William McArthur. Launch of STS-92 is scheduled for Sept. 21, 2000. Wakata is with the National Space Development Agency of Japan |
| Release Date |
04/20/2000 |
|
KENNEDY SPACE CENTER, FLA. -
…
| Description |
KENNEDY SPACE CENTER, FLA. -- Members of the STS-92 crew take a moment for discussion while checking out the payload bay of the orbiter Discovery in the Orbiter Processing Facility bay 1. Their mission, the fourth U.S. flight to the ISS, includes as payload the Integrated Truss Structure Z1, an early exterior framework to allow the first U.S. solar arrays on a future flight to be temporarily installed on Unity for early power, Ku-band communication to support early science capability and U.S. television, and PMA-3 to provide a Shuttle docking port for solar array installation on the sixth ISS flight and Lab installation on the seventh ISS flight. The crew comprises Mission Commander Brian Duffy, Pilot Pamela Melroy, and Mission Specialists Koichi Wakata, Leroy Chiao, Peter "Jeff" Wisoff, Michael Lopez-Alegria, and William McArthur. Launch of STS-92 is scheduled for Sept. 21, 2000. Wakata is with the National Space Development Agency of Japan |
| Release Date |
04/20/2000 |
|
KENNEDY SPACE CENTER, FLA. -
…
| Description |
KENNEDY SPACE CENTER, FLA. -- In the Space Station Processing Facility, members of the STS-92 crew examine equipment that will be part of their mission to the International Space Station (ISS). The fourth U.S. flight to the ISS, the mission payload includes the Integrated Truss Structure Z1, an early exterior framework to allow the first U.S. solar arrays on a future flight to be temporarily installed on Unity for early power, Ku-band communication to support early science capability and U.S. television, and PMA-3 to provide a Shuttle docking port for solar array installation on the sixth ISS flight and Lab installation on the seventh ISS flight. The crew comprises Mission Commander Brian Duffy, Pilot Pamela Melroy, and Mission Specialists Koichi Wakata, Leroy Chiao, Peter "Jeff" Wisoff, Michael Lopez-Alegria, and William McArthur. Launch of STS-92 is scheduled for Sept. 21, 2000. Wakata is with the National Space Development Agency of Japan. |
| Release Date |
04/20/2000 |
|
KENNEDY SPACE CENTER, FLA. -
…
| Description |
KENNEDY SPACE CENTER, FLA. -- In the Orbiter Processing Facility bay 1, members of the STS-92 crew examine equipment that will be part of their mission to the International Space Station (ISS). The fourth U.S. flight to the ISS, the mission payload includes the Integrated Truss Structure Z1, an early exterior framework to allow the first U.S. solar arrays on a future flight to be temporarily installed on Unity for early power, Ku-band communication to support early science capability and U.S. television, and PMA-3 to provide a Shuttle docking port for solar array installation on the sixth ISS flight and Lab installation on the seventh ISS flight. The crew comprises Mission Commander Brian Duffy, Pilot Pamela Melroy, and Mission Specialists Koichi Wakata, Leroy Chiao, Peter "Jeff" Wisoff, Michael Lopez-Alegria, and William McArthur. Launch of STS-92 is scheduled for Sept. 21, 2000. Wakata is with the National Space Development Agency of Japan |
| Release Date |
04/20/2000 |
|
KENNEDY SPACE CENTER, FLA. -
…
| Description |
KENNEDY SPACE CENTER, FLA. -- In the Space Station Processing Facility, members of the STS-92 crew get a close look at some of the equipment, such as the Integrated Truss Structure Z1, to fly on their mission. STS-92 is the fifth U.S. flight in the construction of the International Space Station. At left is Commander Brian Duffy, with their backs to the camera are Mission Specialist Koichi Wakata and Pilot Pamela A. Melroy. The Z1 is an early exterior framework to allow the first U.S. solar arrays on a future flight to be temporarily installed on Unity for early power. Another part of the payload is a pressurized mating adapter, PMA-3, to provide a Shuttle docking port for solar array installation on the sixth ISS flight and Lab installation on the seventh ISS flight. The other crew members are Mission Specialists Leroy Chiao, Peter J.K. Wisoff, Michael E. Lopez-Alegria, and William S. McArthur Jr. Wakata is with the National Space Development Agency of Japan. Launch of STS-92 is scheduled for Sept. 21, 2000 |
| Release Date |
04/21/2000 |
|
KENNEDY SPACE CENTER, FLA. -
…
| Description |
KENNEDY SPACE CENTER, FLA. -- In the Space Station Processing Facility, members of the STS-92 crew get a close look at some of the equipment, such as the Integrated Truss Structure Z1, to fly on their mission. STS-92 is the fifth U.S. flight in the construction of the International Space Station. At left is Pilot Pamela A. Melroy, at right is Mission Specialist Koichi Wakata, who is with the National Space Development Agency of Japan. The Z1 is an early exterior framework to allow the first U.S. solar arrays on a future flight to be temporarily installed on Unity for early power. Another part of the payload is a pressurized mating adapter, PMA-3, to provide a Shuttle docking port for solar array installation on the sixth ISS flight and Lab installation on the seventh ISS flight. The other crew members are Mission Commander Brian Duffy and Mission Specialists Leroy Chiao, Peter J.K. Wisoff, Michael E. Lopez-Alegria, and William S. McArthur Jr. Launch of STS-92 is scheduled for Sept. 21, 2000 |
| Release Date |
04/21/2000 |
|
KENNEDY SPACE CENTER, FLA. -
…
| Description |
KENNEDY SPACE CENTER, FLA. -- In the Space Station Processing Facility, members of the STS-92 crew get a close look at some of the equipment, such as the Integrated Truss Structure Z1, to fly on their mission. STS-92 is the fifth U.S. flight in the construction of the International Space Station. At left is Mission Specialist Koichi Wakata, who is with the National Space Development Agency of Japan. The Z1 is an early exterior framework to allow the first U.S. solar arrays on a future flight to be temporarily installed on Unity for early power. Another part of the payload is a pressurized mating adapter, PMA-3, to provide a Shuttle docking port for solar array installation on the sixth ISS flight and Lab installation on the seventh ISS flight. The other crew members are Mission Commander Brian Duffy, Pilot Pamela A. Melroy, and Mission Specialists Leroy Chiao, Peter J.K. Wisoff, Michael E. Lopez-Alegria, and William S. McArthur Jr. Launch of STS-92 is scheduled for Sept. 21, 2000 |
| Release Date |
04/21/2000 |
|
KENNEDY SPACE CENTER, FLA. -
…
| Description |
KENNEDY SPACE CENTER, FLA. -- The STS-92 crew pose in front of the Integrated Truss Structure Z1, an element of the International Space Station that will be part of the mission payload. STS-92 is the fifth U.S. flight in the construction of the International Space Station. Standing left to right are Mission Specialists William S. McArthur Jr., Leroy Chiao, and Michael E. Lopez-Alegria, Pilot Pamela A. Melroy, Mission Specialists Peter J.K. Wisoff and Koichi Wakata, and Commander Brian Duffy. Wakata is with the National Space Development Agency of Japan. The Z1 is an early exterior framework to allow the first U.S. solar arrays on a future flight to be temporarily installed on Unity for early power. Another part of the payload is a pressurized mating adapter, PMA-3, to provide a Shuttle docking port for solar array installation on the sixth ISS flight and Lab installation on the seventh ISS flight. Launch of STS-92 is scheduled for Sept. 21, 2000 |
| Release Date |
04/21/2000 |
|
KENNEDY SPACE CENTER, FLA. -
…
| Description |
KENNEDY SPACE CENTER, FLA. -- In the Space Station Processing Facility, members of the STS-92 crew get a close look at some of the equipment, such as the Integrated Truss Structure Z1, to fly on their mission. STS-92 is the fifth U.S. flight in the construction of the International Space Station. At left is Mission Specialist Koichi Wakata, who is with the National Space Development Agency of Japan . The Z1 is an early exterior framework to allow the first U.S. solar arrays on a future flight to be temporarily installed on Unity for early power. Another part of the payload is a pressurized mating adapter, PMA-3, to provide a Shuttle docking port for solar array installation on the sixth ISS flight and Lab installation on the seventh ISS flight. Other crew members are Mission Commander Brian Duffy, Pilot Pamela A. Melroy, and Mission Specialists Leroy Chiao, Peter J.K. Wisoff, Michael E. Lopez-Alegria, and William S. McArthur Jr. Launch of STS-92 is scheduled for Sept. 21, 2000 |
| Release Date |
04/21/2000 |
|
KENNEDY SPACE CENTER, FLA. -
…
| Description |
KENNEDY SPACE CENTER, FLA. -- In the Space Station Processing Facility, members of the STS-92 crew get hands-on experience with some of the equipment, such as the Integrated Truss Structure Z1, to fly on their mission. STS-92 is the fifth U.S. flight in the construction of the International Space Station. The Z1 is an early exterior framework to allow the first U.S. solar arrays on a future flight to be temporarily installed on Unity for early power. Another part of the payload is a pressurized mating adapter, PMA-3, to provide a Shuttle docking port for solar array installation on the sixth ISS flight and Lab installation on the seventh ISS flight. The crew comprises Mission Commander Brian Duffy, Pilot Pamela A. Melroy, and Mission Specialists Koichi Wakata, Leroy Chiao, Peter J.K. Wisoff, Michael E. Lopez-Alegria, and William S. McArthur Jr. Wakata is with the National Space Development Agency of Japan. Launch of STS-92 is scheduled for Sept. 21, 2000 |
| Release Date |
04/21/2000 |
|
KENNEDY SPACE CENTER, FLA. -
…
| Description |
KENNEDY SPACE CENTER, FLA. -- In the Space Station Processing Facility, members of the STS-92 crew get a close look at the Integrated Truss Structure Z1, part of the payload on their mission. STS-92 is the fifth U.S. flight in the construction of the International Space Station. The crew comprises Mission Commander Brian Duffy, Pilot Pamela A. Melroy, and Mission Specialists Koichi Wakata, Leroy Chiao, Peter J.K. Wisoff, Michael E. Lopez-Alegria, and William S. McArthur Jr. Wakata is with the National Space Development Agency of Japan. The Z1 is an early exterior framework to allow the first U.S. solar arrays on a future flight to be temporarily installed on Unity for early power. Another part of the payload is a pressurized mating adapter, PMA-3, to provide a Shuttle docking port for solar array installation on the sixth ISS flight and Lab installation on the seventh ISS flight. Launch of STS-92 is scheduled for Sept. 21, 2000 |
| Release Date |
04/21/2000 |
|
KENNEDY SPACE CENTER, FLA. -
…
| Description |
KENNEDY SPACE CENTER, FLA. -- In the Space Station Processing Facility, members of the STS-92 crew get a close look at some of the equipment, such as the Integrated Truss Structure Z1, to fly on their mission. STS-92 is the fifth U.S. flight in the construction of the International Space Station. At right are Mission Specialists Leroy Chiao and William S. McArthur Jr. (pointing). Other crew members are Commander Brian Duffy, Pilot Pamela A. Melroy, and Mission Specialists Koichi Wakata, Peter J.K. Wisoff, and Michael E. Lopez-Alegria. Wakata is with the National Space Development Agency of Japan. The Z1 is an early exterior framework to allow the first U.S. solar arrays on a future flight to be temporarily installed on Unity for early power. Another part of the payload is a pressurized mating adapter, PMA-3, to provide a Shuttle docking port for solar array installation on the sixth ISS flight and Lab installation on the seventh ISS flight. Launch of STS-92 is scheduled for Sept. 21, 2000 |
| Release Date |
04/21/2000 |
|
KENNEDY SPACE CENTER, FLA. -
…
| Description |
KENNEDY SPACE CENTER, FLA. -- In the Space Station Processing Facility, STS-92 Pilot Pamela A. Melroy gets a close look at the Integrated Truss Structure Z1 that will fly on the mission, the fifth U.S. flight in the construction of the International Space Station. Other crew members are Commander Brian Duffy, and Mission Specialists Koichi Wakata, Leroy Chaio, Peter J.K. Wisoff, Michael E. Lopez-Alegria, and William S. McArthur Jr. Wakata is with the National Space Development Agency of Japan. The Z1 is an early exterior framework to allow the first U.S. solar arrays on a future flight to be temporarily installed on Unity for early power. Another part of the payload is a pressurized mating adapter, PMA-3, to provide a Shuttle docking port for solar array installation on the sixth ISS flight and Lab installation on the seventh ISS flight. Launch of STS-92 is scheduled for Sept. 21, 2000 |
| Release Date |
04/21/2000 |
|
Workers in the Space Station
…
| Description |
Workers in the Space Station Processing Facility look over an S-band Antenna Support Assembly (SASA) that will be attached to the Integrated Truss Structure (ITS) Z1 on the International Space Station. The SASA antenna is primarily for local communications between the orbiter and Space Station. The Z1 is an early exterior framework to allow the first U.S. solar arrays, on mission STS-97, flight 4A, to be temporarily installed on Unity for early power. The Z1 is scheduled on mission STS-92, the fifth flight to the Space Station, in the fall |
| Release Date |
06/06/2000 |
|
In the Space Station Process
…
| Description |
In the Space Station Processing Facility, workers prepare an S-band Antenna Support Assembly (SASA) to be lifted and moved to the Integrated Truss Structure (ITS) Z1, an element of the International Space Station. The antenna will be attached to the truss. The SASA antenna is primarily for local communications between the orbiter and Space Station. The Z1 is an early exterior framework to allow the first U.S. solar arrays, on mission STS-97, flight 4A, to be temporarily installed on Unity for early power. The Z1 is scheduled on mission STS-92, the fifth flight to the Space Station, in the fall |
| Release Date |
06/06/2000 |
|
Workers at left stand by whi
…
| Description |
Workers at left stand by while work is done on the Integrated Truss Structure (ITS) Z1 at right. To the left of the Z1 is a high-gain antenna that will be installed on the Z1. An early exterior framework for the International Space Station, the Z1 will allow the first U.S. solar arrays, on mission STS-97, flight 4A, to be temporarily installed on Unity for early power. The Z1 is a payload scheduled on mission STS-92, the fifth flight to the Space Station, in the fall |
| Release Date |
06/17/2000 |
|
An overhead crane in the Spa
…
| Description |
An overhead crane in the Space Shuttle Processing Facility lifts a high-gain antenna over a work platform toward the Integrated Truss Structure (ITS) Z1, to which it will be attached. The Z1, part of the payload on mission STS-92 (flight 3A) to be launched in mid-fall, is an early exterior framework for the International Space Station. It will allow the first U.S. solar arrays, on mission STS-97 (flight 4A), to be temporarily installed on Unity for early power |
| Release Date |
06/17/2000 |
|
Workers in the Space Shuttle
…
| Description |
Workers in the Space Shuttle Processing Facility (SSPF) are getting ready to prepare the high-gain antenna beside them on the floor for installation on the Integrated Truss Structure (ITS) Z1, just beyond the scaffolding. The Z1 is an early exterior framework for the International Space Station to allow the first U.S. solar arrays, on mission STS-97, flight 4A, to be temporarily installed on Unity for early power. The Z1 is a payload scheduled on mission STS-92, the fifth flight to the Space Station, in the fall |
| Release Date |
06/17/2000 |
|
In the Space Shuttle Process
…
| Description |
In the Space Shuttle Processing Facility, workers confer about the high-gain antenna in front of them that will be attached to the Integrated Truss Structure (ITS) Z1. The Z1, part of the payload on mission STS-92 (flight 3A) to be launched in mid-fall, is an early exterior framework for the International Space Station. It will allow the first U.S. solar arrays, on mission STS-97 (flight 4A), to be temporarily installed on Unity for early power |
| Release Date |
06/17/2000 |
|
In the Space Shuttle Process
…
| Description |
In the Space Shuttle Processing Facility, an overhead crane begins lifting a high-gain antenna to move it to the Integrated Truss Structure (ITS) Z1, to which it will be attached. The Z1, part of the payload on mission STS-92 (flight 3A) to be launched in mid-fall, is an early exterior framework for the International Space Station. It will allow the first U.S. solar arrays, on mission STS-97 (flight 4A), to be temporarily installed on Unity for early power |
| Release Date |
06/17/2000 |
|
On a workstand in the Space
…
| Description |
On a workstand in the Space Station Processing Facility, workers release the S-band Antenna Support Assembly (SASA) from an overhead crane. The SASA will be attached to the Integrated Truss Structure (ITS) Z1, an element of the International Space Station, sitting below. The antenna is primarily for local communications between the orbiter and Space Station. The Z1 is an early exterior framework to allow the first U.S. solar arrays, on mission STS-97, flight 4A, to be temporarily installed on Unity for early power. The Z1 is scheduled on mission STS-92, the fifth flight to the Space Station, in the fall |
| Release Date |
06/06/2000 |
|
In the Space Shuttle Process
…
| Description |
In the Space Shuttle Processing Facility, workers get ready to attach cables to a high-gain antenna that will be lifted and attached to the Integrated Truss Structure (ITS) Z1. The Z1, part of the payload on mission STS-92 (flight 3A) to be launched in mid-fall, is an early exterior framework for the International Space Station. It will allow the first U.S. solar arrays, on mission STS-97 (flight 4A), to be temporarily installed on Unity for early power |
| Release Date |
06/17/2000 |
|
Workers in the Space Shuttle
…
| Description |
Workers in the Space Shuttle Processing Facility (SSPF) move a high-gain antenna for installation onto the Integrated Truss Structure (ITS) Z1, already in the SSPF. The Z1 is an early exterior framework for the International Space Station that will allow the first U.S. solar arrays, on mission STS-97, flight 4A, to be temporarily installed on Unity for early power. The Z1 is a payload scheduled on mission STS-92, the fifth flight to the Space Station, in the fall |
| Release Date |
06/17/2000 |
|
In the Space Shuttle Process
…
| Description |
In the Space Shuttle Processing Facility, a worker checks a rope attached to a high-gain antenna before it moves to the Integrated Truss Structure (ITS) Z1, to which it will be attached. The Z1, part of the payload on mission STS-92 (flight 3A) to be launched in mid-fall, is an early exterior framework for the International Space Station. It will allow the first U.S. solar arrays, on mission STS-97 (flight 4A), to be temporarily installed on Unity for early power |
| Release Date |
06/17/2000 |
|
An S-band Antenna Support As
…
| Description |
An S-band Antenna Support Assembly (SASA) is suspended from an overhead crane in the Space Station Processing Facility. It will be attached to the Integrated Truss Structure (ITS) Z1, an element of the International Space Station, sitting below. The SASA is primarily for local communications between the orbiter and Space Station. The Z1 is an early exterior framework to allow the first U.S. solar arrays, on mission STS-97, flight 4A, to be temporarily installed on Unity for early power. The Z1 is scheduled on mission STS-92, the fifth flight to the Space Station, in the fall |
| Release Date |
06/06/2000 |
|
An overhead crane in the Spa
…
| Description |
An overhead crane in the Space Station Processing Facility moves an S-band Antenna Support Assembly (SASA) to the Integrated Truss Structure (ITS) Z1, an element of the International Space Station. . The antenna will be attached to the truss. The SASA antenna is primarily for local communications between the orbiter and Space Station. The Z1 is an early exterior framework to allow the first U.S. solar arrays, on mission STS-97, flight 4A, to be temporarily installed on Unity for early power. The Z1 is scheduled on mission STS-92, the fifth flight to the Space Station, in the fall |
| Release Date |
06/06/2000 |
|
In the Space Shuttle Process
…
| Description |
In the Space Shuttle Processing Facility, workers make adjustments on a high-gain antenna that will be attached to the Integrated Truss Structure (ITS) Z1. The Z1, part of the payload on mission STS-92 (flight 3A) to be launched in mid-fall, is an early exterior framework for the International Space Station. It will allow the first U.S. solar arrays, on mission STS-97 (flight 4A), to be temporarily installed on Unity for early power |
| Release Date |
06/17/2000 |
|
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