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General Description	International Space Station Imagery

General Description	International Space Station Imagery

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.)

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. -- 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

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. -- 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

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. -- 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.

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. -- 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

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. -- 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

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. -- 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

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. -- 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

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. -- 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

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. -- 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

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 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

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 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

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 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

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 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

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 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

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 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

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 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

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 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

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 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

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 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

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 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

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 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

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 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

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 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

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

STS-92 Mission Specialist Leroy Chiao poses in front of the Integrated Truss Structure (ITS) Z1 in the Space Shuttle Processing Facility. Chiao is a member of the crew on the fifth flight to the International Space Station, scheduled for launch in mid-fall. The Z1 is an early exterior framework for the Space Station, and will allow the first U.S. solar arrays, on mission STS-97, flight 4A, to be temporarily installed on Unity for early power

STS-92 Mission Specialist Le …

Description	STS-92 Mission Specialist Leroy Chiao poses in front of the Integrated Truss Structure (ITS) Z1 in the Space Shuttle Processing Facility. Chiao is a member of the crew on the fifth flight to the International Space Station, scheduled for launch in mid-fall. The Z1 is an early exterior framework for the Space Station, and 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 the scaffolding in the Space Shuttle Processing Facility (SSPF), STS-92 Mission Specialist Michael Lopez-Alegria leans over to get a better look at the Integrated Truss Structure (ITS) Z1 below. The Z1 is a payload scheduled on mission STS-92, the fifth flight to the Space Station, in the fall. The Z1 is an early exterior framework for the International Space Station, and will allow the first U.S. solar arrays, on mission STS-97, flight 4A, to be temporarily installed on Unity for early power

On the scaffolding in the Sp …

Description	On the scaffolding in the Space Shuttle Processing Facility (SSPF), STS-92 Mission Specialist Michael Lopez-Alegria leans over to get a better look at the Integrated Truss Structure (ITS) Z1 below. The Z1 is a payload scheduled on mission STS-92, the fifth flight to the Space Station, in the fall. The Z1 is an early exterior framework for the International Space Station, and 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 Station Processing Facility, members of the STS-92 crew check out equipment they will be using on the mission to the International Space Station. Here, (left to right) Mission Specialists Jeff Wisoff and Leroy Chiao watch while Michael Lopez-Alegria practices putting on and taking off fittings on the Z1 Integrated Truss Structure. In the background are Boeing technicians. The Z-1 truss, a component of the Station, 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. STS-92 is scheduled to launch Oct. 5 from launch Pad 39A

In the Space Station Process …

Description	In the Space Station Processing Facility, members of the STS-92 crew check out equipment they will be using on the mission to the International Space Station. Here, (left to right) Mission Specialists Jeff Wisoff and Leroy Chiao watch while Michael Lopez-Alegria practices putting on and taking off fittings on the Z1 Integrated Truss Structure. In the background are Boeing technicians. The Z-1 truss, a component of the Station, 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. STS-92 is scheduled to launch Oct. 5 from launch Pad 39A
Release Date	07/11/2000

The Zenith-1 (Z-1) Truss, the cornerstone truss of the Space Station, is shown on the floor of the Space Station Processing Facility. The Z-1 Truss was officially turned over to NASA from The Boeing Co. on July 31. It is scheduled to fly in Space Shuttle Discovery's payload pay on STS-92 targeted for launch Oct. 5, 2000. The Z-1 is considered a cornerstone truss because it carries critical components of the Station's attitude, communications, thermal and power control systems as well as four control moment gyros, high and low gain antenna systems, and two plasma contactor units used to disperse electrical charge build-ups. The Z-1 truss and a Pressurized Mating Adapter (PMA-3), also flying to the Station on the same mission, will be the first major U.S. elements flown to the ISS aboard the Shuttle since the launch of the Unity element in December 1998

The Zenith-1 (Z-1) Truss, th …

Description	The Zenith-1 (Z-1) Truss, the cornerstone truss of the Space Station, is shown on the floor of the Space Station Processing Facility. The Z-1 Truss was officially turned over to NASA from The Boeing Co. on July 31. It is scheduled to fly in Space Shuttle Discovery's payload pay on STS-92 targeted for launch Oct. 5, 2000. The Z-1 is considered a cornerstone truss because it carries critical components of the Station's attitude, communications, thermal and power control systems as well as four control moment gyros, high and low gain antenna systems, and two plasma contactor units used to disperse electrical charge build-ups. The Z-1 truss and a Pressurized Mating Adapter (PMA-3), also flying to the Station on the same mission, will be the first major U.S. elements flown to the ISS aboard the Shuttle since the launch of the Unity element in December 1998
Release Date	07/31/2000

The Zenith-1 (Z-1) Truss is officially presented to NASA by The Boeing Co. on the Space Station Processing Facility floor on July 31. STS-92 Commander Col. Brian Duffy, comments on the presentation. Pictured are The Boeing Co. processing team and STS-92 astronauts. The Z-1 Truss is the cornerstone truss of the International Space Station and is scheduled to fly in Space Shuttle Discovery's payload pay on STS-92 targeted for launch Oct. 5, 2000. The Z-1 is considered a cornerstone truss because it carries critical components of the Station's attitude, communications, thermal and power control systems as well as four control moment gyros, high and low gain antenna systems, and two plasma contactor units used to disperse electrical charge build-ups. The Z-1 truss and a Pressurized Mating Adapter (PMA-3), also flying to the Station on the same mission, will be the first major U.S. elements flown to the ISS aboard the Shuttle since the launch of the Unity element in December 1998

The Zenith-1 (Z-1) Truss is …

Description	The Zenith-1 (Z-1) Truss is officially presented to NASA by The Boeing Co. on the Space Station Processing Facility floor on July 31. STS-92 Commander Col. Brian Duffy, comments on the presentation. Pictured are The Boeing Co. processing team and STS-92 astronauts. The Z-1 Truss is the cornerstone truss of the International Space Station and is scheduled to fly in Space Shuttle Discovery's payload pay on STS-92 targeted for launch Oct. 5, 2000. The Z-1 is considered a cornerstone truss because it carries critical components of the Station's attitude, communications, thermal and power control systems as well as four control moment gyros, high and low gain antenna systems, and two plasma contactor units used to disperse electrical charge build-ups. The Z-1 truss and a Pressurized Mating Adapter (PMA-3), also flying to the Station on the same mission, will be the first major U.S. elements flown to the ISS aboard the Shuttle since the launch of the Unity element in December 1998
Release Date	07/31/2000

A wide-angle view of the floor of the Space Station Processing Facility. The floor is filled with racks and hardware for processing and testing the various components of the International Space Station (ISS). At center left is the Zenith-1 (Z-1) Truss, the cornerstone truss of the Space Station. The Z-1 Truss was officially turned over to NASA from The Boeing Co. on July 31. It is scheduled to fly in Space Shuttle Discovery's payload pay on STS-92 targeted for launch Oct. 5, 2000. The Z-1 is considered a cornerstone truss because it carries critical components of the Station's attitude, communications, thermal and power control systems as well as four control moment gyros, high and low gain antenna systems, and two plasma contactor units used to disperse electrical charge build-ups. The Z-1 truss and a Pressurized Mating Adapter (PMA-3), also flying to the Station on the same mission, will be the first major U.S. elements flown to the ISS aboard the Shuttle since the launch of the Unity element in December 1998. The large module in the upper right hand corner of the floor is the U.S. Lab, Destiny. Expected to be a major feature in future research, Destiny will provide facilities for biotechnology, fluid physics, combustion, and life sciences research. It is scheduled to be launched on mission STS-98 (no date determined yet for launch)

A wide-angle view of the flo …

Description	A wide-angle view of the floor of the Space Station Processing Facility. The floor is filled with racks and hardware for processing and testing the various components of the International Space Station (ISS). At center left is the Zenith-1 (Z-1) Truss, the cornerstone truss of the Space Station. The Z-1 Truss was officially turned over to NASA from The Boeing Co. on July 31. It is scheduled to fly in Space Shuttle Discovery's payload pay on STS-92 targeted for launch Oct. 5, 2000. The Z-1 is considered a cornerstone truss because it carries critical components of the Station's attitude, communications, thermal and power control systems as well as four control moment gyros, high and low gain antenna systems, and two plasma contactor units used to disperse electrical charge build-ups. The Z-1 truss and a Pressurized Mating Adapter (PMA-3), also flying to the Station on the same mission, will be the first major U.S. elements flown to the ISS aboard the Shuttle since the launch of the Unity element in December 1998. The large module in the upper right hand corner of the floor is the U.S. Lab, Destiny. Expected to be a major feature in future research, Destiny will provide facilities for biotechnology, fluid physics, combustion, and life sciences research. It is scheduled to be launched on mission STS-98 (no date determined yet for launch)
Release Date	07/31/2000

The Zenith-1 (Z-1) Truss is …

Description	The Zenith-1 (Z-1) Truss is officially presented to NASA by The Boeing Co. on the Space Station Processing Facility floor on July 31. STS-92 Commander Col. Brian Duffy, comments on the presentation. At his side is Tip Talone, NASA director of International Space Station and Payload Processing at KSC. Talone and Col. Duffy received a symbolic key for the truss from John Elbon, Boeing director of ISS ground operations. The Z-1 Truss is the cornerstone truss of the International Space Station and is scheduled to fly in Space Shuttle Discovery's payload pay on STS-92 targeted for launch Oct. 5, 2000. The Z-1 is considered a cornerstone truss because it carries critical components of the Station's attitude, communications, thermal and power control systems as well as four control moment gyros, high and low gain antenna systems, and two plasma contactor units used to disperse electrical charge build-ups. The Z-1 truss and a Pressurized Mating Adapter (PMA-3), also flying to the Station on the same mission, will be the first major U.S. elements flown to the ISS aboard the Shuttle since the launch of the Unity element in December 1998
Release Date	07/31/2000

The Zenith-1 (Z-1) Truss is officially presented to NASA by The Boeing Co. on the Space Station Processing Facility floor on July 31. Astronauts from the STS-92 crew look on while their commander, Col. Brian Duffy, and Tip Talone, NASA director of International Space Station and Payload Processing at KSC, receive a symbolic key from John Elbon, Boeing director of ISS ground operations. The Z-1 Truss is the cornerstone truss of the International Space Station and is scheduled to fly in Space Shuttle Discovery's payload pay on STS-92 targeted for launch Oct. 5, 2000. The Z-1 is considered a cornerstone truss because it carries critical components of the Station's attitude, communications, thermal and power control systems as well as four control moment gyros, high and low gain antenna systems, and two plasma contactor units used to disperse electrical charge build-ups. The Z-1 truss and a Pressurized Mating Adapter (PMA-3), also flying to the Station on the same mission, will be the first major U.S. elements flown to the ISS aboard the Shuttle since the launch of the Unity element in December 1998

The Zenith-1 (Z-1) Truss is …

Description	The Zenith-1 (Z-1) Truss is officially presented to NASA by The Boeing Co. on the Space Station Processing Facility floor on July 31. Astronauts from the STS-92 crew look on while their commander, Col. Brian Duffy, and Tip Talone, NASA director of International Space Station and Payload Processing at KSC, receive a symbolic key from John Elbon, Boeing director of ISS ground operations. The Z-1 Truss is the cornerstone truss of the International Space Station and is scheduled to fly in Space Shuttle Discovery's payload pay on STS-92 targeted for launch Oct. 5, 2000. The Z-1 is considered a cornerstone truss because it carries critical components of the Station's attitude, communications, thermal and power control systems as well as four control moment gyros, high and low gain antenna systems, and two plasma contactor units used to disperse electrical charge build-ups. The Z-1 truss and a Pressurized Mating Adapter (PMA-3), also flying to the Station on the same mission, will be the first major U.S. elements flown to the ISS aboard the Shuttle since the launch of the Unity element in December 1998
Release Date	07/31/2000

The Zenith-1 (Z-1) Truss is …

Description	The Zenith-1 (Z-1) Truss is officially presented to NASA by The Boeing Co. on the Space Station Processing Facility floor on July 31. STS-92 Commander Col. Brian Duffy discusses the significance of the Z-1 Truss during a press conference after the presentation. The Z-1 Truss is the cornerstone truss of the International Space Station and is scheduled to fly in Space Shuttle Discovery's payload pay on STS-92 targeted for launch Oct. 5, 2000. The Z-1 is considered a cornerstone truss because it carries critical components of the Station's attitude, communications, thermal and power control systems as well as four control moment gyros, high and low gain antenna systems, and two plasma contactor units used to disperse electrical charge build-ups. The Z-1 truss and a Pressurized Mating Adapter (PMA-3), also flying to the Station on the same mission, will be the first major U.S. elements flown to the ISS aboard the Shuttle since the launch of the Unity element in December 1998
Release Date	07/31/2000

A wide-angle view of the flo …

Description	A wide-angle view of the floor of the Space Station Processing Facility. The floor is filled with racks and hardware for processing and testing the various components of the International Space Station (ISS). At the bottom left is the Zenith-1 (Z-1) Truss, the cornerstone truss of the Space Station. The Z-1 Truss was officially turned over to NASA from The Boeing Co. on July 31. The truss is scheduled to fly in Space Shuttle Discovery's payload pay on STS-92 targeted for launch Oct. 5, 2000. The Z-1 is considered a cornerstone truss because it carries critical components of the Station's attitude, communications, thermal and power control systems as well as four control moment gyros, high and low gain antenna systems, and two plasma contactor units used to disperse electrical charge build-ups. The Z-1 truss and a Pressurized Mating Adapter (PMA-3), also flying to the Station on the same mission, will be the first major U.S. elements flown to the ISS aboard the Shuttle since the launch of the Unity element in December 1998. The large module in the center of the floor is the U.S. Lab, Destiny. Expected to be a major feature in future research, Destiny will provide facilities for biotechnology, fluid physics, combustion, and life sciences research. It is scheduled to be launched on mission STS-98 (no date determined yet for launch)
Release Date	07/31/2000

The Joint Airlock Module swings into position near the top of the Operations and Checkout Building to move toward the vacuum chamber at right. Workers alongside the chamber watch the airlock?s progress. The airlock is being tested for leaks. The module is the gateway from which crew members aboard the International Space Station (ISS) will enter and exit the 470-ton orbiting research facility. The airlock is a critical element of the ISS because of design differences between American and Russian spacesuits. The Joint Airlock Module provides a chamber where astronauts from every nation can suit up for space walks to conduct maintenance and construction work or to do science experiments outside the Station. The Space Shuttle Atlantis will carry the airlock to orbit on mission STS-104, the 10th International Space Station flight, currently targeted for liftoff in May 2001. The Shuttle crew will secure the airlock to the right side of Unity, the American-built connecting node that currently comprises one-third of the current Space Station, along with the Russian modules Zarya and Zvezda

The Joint Airlock Module swi …

Description	The Joint Airlock Module swings into position near the top of the Operations and Checkout Building to move toward the vacuum chamber at right. Workers alongside the chamber watch the airlock?s progress. The airlock is being tested for leaks. The module is the gateway from which crew members aboard the International Space Station (ISS) will enter and exit the 470-ton orbiting research facility. The airlock is a critical element of the ISS because of design differences between American and Russian spacesuits. The Joint Airlock Module provides a chamber where astronauts from every nation can suit up for space walks to conduct maintenance and construction work or to do science experiments outside the Station. The Space Shuttle Atlantis will carry the airlock to orbit on mission STS-104, the 10th International Space Station flight, currently targeted for liftoff in May 2001. The Shuttle crew will secure the airlock to the right side of Unity, the American-built connecting node that currently comprises one-third of the current Space Station, along with the Russian modules Zarya and Zvezda
Release Date	09/19/2000

The Joint Airlock Module waits on a stand in the Operations and Checkout Building to be lifted and moved into a vacuum chamber for testing. The module is the gateway from which crew members aboard the International Space Station (ISS) will enter and exit the 470-ton orbiting research facility. The airlock is a critical element of the ISS because of design differences between American and Russian spacesuits. The Joint Airlock Module is specially designed to accommodate both suits, providing a chamber where astronauts from every nation can suit up for space walks to conduct maintenance and construction work or to do science experiments outside the Station. The Space Shuttle Atlantis will carry the airlock to orbit on mission STS-104, the 10th International Space Station flight, currently targeted for liftoff in May 2001. The Shuttle crew will secure the airlock to the right side of Unity, the American-built connecting node that currently comprises one-third of the current Space Station, along with the Russian modules Zarya and Zvezda

The Joint Airlock Module wai …

Description	The Joint Airlock Module waits on a stand in the Operations and Checkout Building to be lifted and moved into a vacuum chamber for testing. The module is the gateway from which crew members aboard the International Space Station (ISS) will enter and exit the 470-ton orbiting research facility. The airlock is a critical element of the ISS because of design differences between American and Russian spacesuits. The Joint Airlock Module is specially designed to accommodate both suits, providing a chamber where astronauts from every nation can suit up for space walks to conduct maintenance and construction work or to do science experiments outside the Station. The Space Shuttle Atlantis will carry the airlock to orbit on mission STS-104, the 10th International Space Station flight, currently targeted for liftoff in May 2001. The Shuttle crew will secure the airlock to the right side of Unity, the American-built connecting node that currently comprises one-third of the current Space Station, along with the Russian modules Zarya and Zvezda
Release Date	09/19/2000

In the Operations and Checkout Building, the Joint Airlock Module, now in vertical position, is ready to be moved into a vacuum chamber for testing. The module is the gateway from which crew members aboard the International Space Station (ISS) will enter and exit the 470-ton orbiting research facility. The airlock is a critical element of the ISS because of design differences between American and Russian spacesuits. The Joint Airlock Module is specially designed to accommodate both suits, providing a chamber where astronauts from every nation can suit up for space walks to conduct maintenance and construction work or to do science experiments outside the Station. The Space Shuttle Atlantis will carry the airlock to orbit on mission STS-104, the 10th International Space Station flight, currently targeted for liftoff in May 2001. The Shuttle crew will secure the airlock to the right side of Unity, the American-built connecting node that currently comprises one-third of the current Space Station, along with the Russian modules Zarya and Zvezda

In the Operations and Checko …

Description	In the Operations and Checkout Building, the Joint Airlock Module, now in vertical position, is ready to be moved into a vacuum chamber for testing. The module is the gateway from which crew members aboard the International Space Station (ISS) will enter and exit the 470-ton orbiting research facility. The airlock is a critical element of the ISS because of design differences between American and Russian spacesuits. The Joint Airlock Module is specially designed to accommodate both suits, providing a chamber where astronauts from every nation can suit up for space walks to conduct maintenance and construction work or to do science experiments outside the Station. The Space Shuttle Atlantis will carry the airlock to orbit on mission STS-104, the 10th International Space Station flight, currently targeted for liftoff in May 2001. The Shuttle crew will secure the airlock to the right side of Unity, the American-built connecting node that currently comprises one-third of the current Space Station, along with the Russian modules Zarya and Zvezda
Release Date	09/19/2000

In the Operations and Checkout Building, an overhead crane lifts the Joint Airlock Module to move it to a vacuum chamber for testing. The module is the gateway from which crew members aboard the International Space Station (ISS) will enter and exit the 470-ton orbiting research facility. The airlock is a critical element of the ISS because of design differences between American and Russian spacesuits. The Joint Airlock Module is specially designed to accommodate both suits, providing a chamber where astronauts from every nation can suit up for space walks to conduct maintenance and construction work or to do science experiments outside the Station. The Space Shuttle Atlantis will carry the airlock to orbit on mission STS-104, the 10th International Space Station flight, currently targeted for liftoff in May 2001. The Shuttle crew will secure the airlock to the right side of Unity, the American-built connecting node that currently comprises one-third of the current Space Station, along with the Russian modules Zarya and Zvezda

In the Operations and Checko …

Description	In the Operations and Checkout Building, an overhead crane lifts the Joint Airlock Module to move it to a vacuum chamber for testing. The module is the gateway from which crew members aboard the International Space Station (ISS) will enter and exit the 470-ton orbiting research facility. The airlock is a critical element of the ISS because of design differences between American and Russian spacesuits. The Joint Airlock Module is specially designed to accommodate both suits, providing a chamber where astronauts from every nation can suit up for space walks to conduct maintenance and construction work or to do science experiments outside the Station. The Space Shuttle Atlantis will carry the airlock to orbit on mission STS-104, the 10th International Space Station flight, currently targeted for liftoff in May 2001. The Shuttle crew will secure the airlock to the right side of Unity, the American-built connecting node that currently comprises one-third of the current Space Station, along with the Russian modules Zarya and Zvezda
Release Date	09/19/2000

The overhead crane lowers the Joint Airlock Module inside the vacuum chamber in the Operations and Checkout Building. The airlock is being tested for leaks. The module is the gateway from which crew members aboard the International Space Station (ISS) will enter and exit the 470-ton orbiting research facility. The airlock is a critical element of the ISS because of design differences between American and Russian spacesuits. The Joint Airlock Module provides a chamber where astronauts from every nation can suit up for space walks to conduct maintenance and construction work or to do science experiments outside the Station. The Space Shuttle Atlantis will carry the airlock to orbit on mission STS-104, the 10th International Space Station flight, currently targeted for liftoff in May 2001. The Shuttle crew will secure the airlock to the right side of Unity, the American-built connecting node that currently comprises one-third of the current Space Station, along with the Russian modules Zarya and Zvezda

The overhead crane lowers th …

Description	The overhead crane lowers the Joint Airlock Module inside the vacuum chamber in the Operations and Checkout Building. The airlock is being tested for leaks. The module is the gateway from which crew members aboard the International Space Station (ISS) will enter and exit the 470-ton orbiting research facility. The airlock is a critical element of the ISS because of design differences between American and Russian spacesuits. The Joint Airlock Module provides a chamber where astronauts from every nation can suit up for space walks to conduct maintenance and construction work or to do science experiments outside the Station. The Space Shuttle Atlantis will carry the airlock to orbit on mission STS-104, the 10th International Space Station flight, currently targeted for liftoff in May 2001. The Shuttle crew will secure the airlock to the right side of Unity, the American-built connecting node that currently comprises one-third of the current Space Station, along with the Russian modules Zarya and Zvezda
Release Date	09/19/2000

In the payload changeout room at Launch Pad 39B, STS-97 Commander Brent Jett (left), Mission Specialist Marc Garneau (center) and Pilot Michael Bloomfield (right) pause during a payload walkdown. The payload comprises the P6 Integrated Truss Segment, with solar arrays and batteries that will be temporarily installed on the recently delivered Z1 truss, connecting them to the Unity module. The two solar arrays are each more than 100 feet long. They will capture energy from the sun and convert it to power for the Station. Two spacewalks will be required to install the solar array connections. STS-97 is scheduled to launch Nov. 30 at about 10:06 p.m. EST

In the payload changeout roo …

Description	In the payload changeout room at Launch Pad 39B, STS-97 Commander Brent Jett (left), Mission Specialist Marc Garneau (center) and Pilot Michael Bloomfield (right) pause during a payload walkdown. The payload comprises the P6 Integrated Truss Segment, with solar arrays and batteries that will be temporarily installed on the recently delivered Z1 truss, connecting them to the Unity module. The two solar arrays are each more than 100 feet long. They will capture energy from the sun and convert it to power for the Station. Two spacewalks will be required to install the solar array connections. STS-97 is scheduled to launch Nov. 30 at about 10:06 p.m. EST
Release Date	11/22/2000

Members of the STS-97 crew take part in payload walkdown inside the payload changeout room at Launch Pad 39B. In the background is seen some of the batteries being carried to the International Space Station on the mission. What appear to be vertical posts at left are the solar arrays. The batteries and solar arrays are part of the P6 Integrated Truss Segment and will be temporarily installed to the Unity connecting module by the Z1 truss, recently delivered to and installed on the Station on mission STS-92. The two solar arrays are each more than 100 feet long. They will capture energy from the sun and convert it to power for the Station. Two spacewalks will be required to install the solar array connections. STS-97 is scheduled to launch Nov. 30 at about 10:06 p.m. EST

Members of the STS-97 crew t …

Description	Members of the STS-97 crew take part in payload walkdown inside the payload changeout room at Launch Pad 39B. In the background is seen some of the batteries being carried to the International Space Station on the mission. What appear to be vertical posts at left are the solar arrays. The batteries and solar arrays are part of the P6 Integrated Truss Segment and will be temporarily installed to the Unity connecting module by the Z1 truss, recently delivered to and installed on the Station on mission STS-92. The two solar arrays are each more than 100 feet long. They will capture energy from the sun and convert it to power for the Station. Two spacewalks will be required to install the solar array connections. STS-97 is scheduled to launch Nov. 30 at about 10:06 p.m. EST
Release Date	11/22/2000

STS-97 Mission Specialist Marc Garneau points to Endeavour's robotic arm that he will use during a spacewalk on the mission. Members of the STS-97 crew are taking part in a payload walkdown from the payload changeout room at Launch Pad 39B. The payload comprises the P6 Integrated Truss Segment, with solar arrays that will be temporarily installed on the recently delivered Z1 truss, connecting them to the Unity module, and batteries. The two solar arrays are each more than 100 feet long. They will capture energy from the sun and convert it to power for the Station. Two spacewalks will be required to install the solar array connections. STS-97 is scheduled to launch Nov. 30 at about 10:06 p.m. EST

STS-97 Mission Specialist Ma …

Description	STS-97 Mission Specialist Marc Garneau points to Endeavour's robotic arm that he will use during a spacewalk on the mission. Members of the STS-97 crew are taking part in a payload walkdown from the payload changeout room at Launch Pad 39B. The payload comprises the P6 Integrated Truss Segment, with solar arrays that will be temporarily installed on the recently delivered Z1 truss, connecting them to the Unity module, and batteries. The two solar arrays are each more than 100 feet long. They will capture energy from the sun and convert it to power for the Station. Two spacewalks will be required to install the solar array connections. STS-97 is scheduled to launch Nov. 30 at about 10:06 p.m. EST
Release Date	11/22/2000

A happy and relaxed STS-98 crew pause for a photo at Launch Pad 39A one day before launch. From left, they are Pilot Mark Polansky, Commander Ken Cockrell and Mission Specialists Marsha Ivins, Robert Curbeam and Thomas Jones. Behind them is Space Shuttle Atlantis, poised for launch.This mission marks the seventh Shuttle flight to the International Space Station and the first Shuttle mission of the year. On the mission, the crew will deliver the U.S. Laboratory Destiny to the growing Space Station. Destiny will be attached to the Unity node using the Shuttle?s robotic arm. Three spacewalks are required to complete the planned construction work. The 11-day STS-98 mission is scheduled to launch Feb. 7 at 6:11 p.m. EST, with a planned KSC landing about 1:39 p.m. on Feb. 18

A happy and relaxed STS-98 c …

Description	A happy and relaxed STS-98 crew pause for a photo at Launch Pad 39A one day before launch. From left, they are Pilot Mark Polansky, Commander Ken Cockrell and Mission Specialists Marsha Ivins, Robert Curbeam and Thomas Jones. Behind them is Space Shuttle Atlantis, poised for launch.This mission marks the seventh Shuttle flight to the International Space Station and the first Shuttle mission of the year. On the mission, the crew will deliver the U.S. Laboratory Destiny to the growing Space Station. Destiny will be attached to the Unity node using the Shuttle?s robotic arm. Three spacewalks are required to complete the planned construction work. The 11-day STS-98 mission is scheduled to launch Feb. 7 at 6:11 p.m. EST, with a planned KSC landing about 1:39 p.m. on Feb. 18
Release Date	02/06/2001

The STS-98 crew, gathered at Launch Pad 39A one day before launch, wave and give a thumbs up. From left, they are Pilot Mark Polansky, Commander Ken Cockrell and Mission Specialists Marsha Ivins, Robert Curbeam and Thomas Jones. Behind them is Space Shuttle Atlantis, poised for launch.This mission marks the seventh Shuttle flight to the International Space Station and the first Shuttle mission of the year. On the mission, the crew will deliver the U.S. Laboratory Destiny to the growing Space Station. Destiny will be attached to the Unity node using the Shuttle?s robotic arm. Three spacewalks are required to complete the planned construction work. The 11-day STS-98 mission is scheduled to launch Feb. 7 at 6:11 p.m. EST, with a planned KSC landing about 1:39 p.m. on Feb. 18

The STS-98 crew, gathered at …

Description	The STS-98 crew, gathered at Launch Pad 39A one day before launch, wave and give a thumbs up. From left, they are Pilot Mark Polansky, Commander Ken Cockrell and Mission Specialists Marsha Ivins, Robert Curbeam and Thomas Jones. Behind them is Space Shuttle Atlantis, poised for launch.This mission marks the seventh Shuttle flight to the International Space Station and the first Shuttle mission of the year. On the mission, the crew will deliver the U.S. Laboratory Destiny to the growing Space Station. Destiny will be attached to the Unity node using the Shuttle?s robotic arm. Three spacewalks are required to complete the planned construction work. The 11-day STS-98 mission is scheduled to launch Feb. 7 at 6:11 p.m. EST, with a planned KSC landing about 1:39 p.m. on Feb. 18
Release Date	02/06/2001

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