launch complex

cape canaveral

nasa

station

kennedy space center

spacecraft

launch

rocket

air

cape canaveral air station, launch complex

471 media by topicpage 1 of 5
Cape Canaveral Air Station, Launch Complex 17, Facility 36007, East end of Lighthouse Road, Cape Canaveral, Brevard County, FL

Cape Canaveral Air Station, Launch Complex 17, Facility 36007, East en...

Survey number: HAER FL-8-5-CC Building/structure dates: 1956 Initial Construction National Register of Historic Places NRIS Number: 84003872

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

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

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

Solar and Heliospheric Observatory Preparations

Solar and Heliospheric Observatory Preparations

Fully assembled, checked out and fueled for flight, the Solar and Heliospheric Observatory (SOHO) is ready for encapsulation in its protective payload fairing. Note the protective thermal blankets encasing the ... More

A Lockheed Martin Atlas IIA/AC114 is poised on Launch Complex 36A ready to carry a commercial Mobile Communications Satellite (MSAT) into orbit

A Lockheed Martin Atlas IIA/AC114 is poised on Launch Complex 36A read...

The original finding aid described this photograph as: Base: Cape Canaveral Air Station State: Florida (FL) Country: United States Of America (USA) Scene Camera Operator: Unknown Release Status: Released t... More

Mars Global Surveyor Preparations

Mars Global Surveyor Preparations

At Launch Complex 17A on Cape Canaveral Air Station, the Mars Global Surveyor upper stage booster assembly is being encased in the Delta II payload fairing. Liftoff of the first in a series of U.S. missions to ... More

Launch of Cassini Orbiter & Huygens Probe

Launch of Cassini Orbiter & Huygens Probe

(October 15, 1997) A seven-year journey to the ringed planet Saturn begins with the liftoff of a Titan IVB/Centaur carrying the Cassini orbiter and its attached Huygens probe. Launch occurred at 4:43 a.m. EDT, ... More

Mars Pathfinder Preparations. NASA public domain image colelction.

Mars Pathfinder Preparations. NASA public domain image colelction.

Workers at Launch Complex 17B on Cape Canaveral Air Station get one final look at the Mars Pathfinder before it is sealed inside a protective payload fairing for flight. The Pathfinder and its PAM-D upper stage... More

Workers take off the protective covering on the propulsion module for the Cassini spacecraft after uncrating the module at KSC's Spacecraft Assembly and Encapsulation Facility-2 (SAEF-2). The extended journey of 6.7 years to Saturn and the 4-year mission for Cassini once it gets there will require the spacecraft to carry a large amount of propellant for inflight trajectory-correction maneuvers and attitude control, particularly during the science observations. The propulsion module has redundant 445-newton main engines that burn nitrogen tetraoxide and monomethyl-hydrazine for main propulsion and 16 smaller 1-newton engines that burn hydrazine to control attitude and to correct small deviations from the spacecraft flight path. Cassini will be launched on a Titan IVB/Centaur expendable launch vehicle. Liftoff is targeted for October 6 from Launch Complex 40, Cape Canaveral Air Station KSC-97pc402

Workers take off the protective covering on the propulsion module for ...

Workers take off the protective covering on the propulsion module for the Cassini spacecraft after uncrating the module at KSC's Spacecraft Assembly and Encapsulation Facility-2 (SAEF-2). The extended journey o... More

The Atlas 1 rocket which will carry the Geostationary Operational Environmental Satellite-K (GOES-K) into space is erected at Launch Complex 36, Pad B, Cape Canaveral Air Station. The Lockheed Martin-built rocket and its Centaur upper stage will form the AC-79 vehicle, the final vehicle in the Atlas 1 series which began launches for NASA in 1962. GOES-K will be the third spacecraft to be launched in the advanced series of geostationary weather satellites built for NASA and the National Oceanic and Atmospheric Administration (NOAA). The spacecraft will be designated GOES-10 in orbit. Launch is targeted for April 24 KSC-97pc475

The Atlas 1 rocket which will carry the Geostationary Operational Envi...

The Atlas 1 rocket which will carry the Geostationary Operational Environmental Satellite-K (GOES-K) into space is erected at Launch Complex 36, Pad B, Cape Canaveral Air Station. The Lockheed Martin-built rock... More

The Geostationary Operational Environmental Satellite-K (GOES-K) is placed on display for news media representatives at the Astrotech Space Operations LP facility in Titusville. GOES-K, the latest in the current series of advanced geostationary weather satellites in service, is scheduled to be launched into space aboard an Atlas 1 rocket on April 24 from Launch Complex 36, Pad B, Cape Canaveral Air Station. Once in orbit, GOES-K will become GOES-10, joining GOES-8 and GOES-9 in space KSC-97pc477

The Geostationary Operational Environmental Satellite-K (GOES-K) is pl...

The Geostationary Operational Environmental Satellite-K (GOES-K) is placed on display for news media representatives at the Astrotech Space Operations LP facility in Titusville. GOES-K, the latest in the curren... More

The Geostationary Operational Environmental Satellite-K (GOES-K) is placed on display for news media representatives at the Astrotech Space Operations LP facility in Titusville. GOES-K, the latest in the current series of advanced geostationary weather satellites in service, is scheduled to be launched into space aboard an Atlas 1 rocket on April 24 from Launch Complex 36, Pad B, Cape Canaveral Air Station. Once in orbit, GOES-K will become GOES-10, joining GOES-8 and GOES-9 in space KSC-97pc476

The Geostationary Operational Environmental Satellite-K (GOES-K) is pl...

The Geostationary Operational Environmental Satellite-K (GOES-K) is placed on display for news media representatives at the Astrotech Space Operations LP facility in Titusville. GOES-K, the latest in the curren... More

With its prelaunch processing completed, the GOES-K advanced weather satellite awaits encapsulation in the Atlas 1 payload fairing, seen at left rear. GOES-K was prepared for launch at the Astrotech Space Operations LP facility in Titusville. GOES-K will be the third spacecraft to be launched in the advanced series of Geostationary Operational Environmental Satellites (GOES). The GOES satellites are owned and operated by the National Oceanic and Atmospheric Administration (NOAA); NASA manages the design, development and launch of the spacecraft. GOES-K is targeted for an /1997/63-97.htm">April 24 launch</a> aboard a Lockheed Martin Atlas 1 expendable launch vehicle (AC-79) from Launch Complex 36, Pad B, Cape Canaveral Air Station. The launch window opens at 1:50 a.m. and extends to 3:09 a.m. EDT. Once in orbit, GOES-K will become GOES-10, joining GOES-8 and GOES-9 in space KSC-97pc635

With its prelaunch processing completed, the GOES-K advanced weather s...

With its prelaunch processing completed, the GOES-K advanced weather satellite awaits encapsulation in the Atlas 1 payload fairing, seen at left rear. GOES-K was prepared for launch at the Astrotech Space Opera... More

Workers at the Astrotech Space Operations LP facility in Titusville make final checks and adjustments after encapsulating the GOES-K advanced weather satellite in the Atlas 1 payload fairing. GOES-K will be the third spacecraft to be launched in the advanced series of Geostationary Operational Environmental Satellites (GOES). The GOES satellites are owned and operated by the National Oceanic and Atmospheric Administration (NOAA); NASA manages the design, development and launch of the spacecraft. GOES-K is targeted for an /1997/63-97.htm">April 24 launch</a> aboard a Lockheed Martin Atlas 1 expendable launch vehicle (AC-79) from Launch Complex 36, Pad B, Cape Canaveral Air Station. The launch window opens at 1:50 a.m. and extends to 3:09 a.m. EDT. Once in orbit, GOES-K will become GOES-10, joining GOES-8 and GOES-9 in space KSC-97pc637

Workers at the Astrotech Space Operations LP facility in Titusville ma...

Workers at the Astrotech Space Operations LP facility in Titusville make final checks and adjustments after encapsulating the GOES-K advanced weather satellite in the Atlas 1 payload fairing. GOES-K will be the... More

The Atlas 1 payload fairing with the encapsulated GOES-K advanced weather satellite awaits transport to the launch pad. GOES-K was prepared for launch at the Astrotech Space Operations LP facility in Titusville. GOES-K will be the third spacecraft to be launched in the advanced series of Geostationary Operational Environmental Satellites (GOES). The GOES satellites are owned and operated by the National Oceanic and Atmospheric Administration (NOAA); NASA manages the design, development and launch of the spacecraft. GOES-K is targeted for an /1997/63-97.htm">April 24 launch</a> aboard a Lockheed Martin Atlas 1 expendable launch vehicle (AC-79) from Launch Complex 36, Pad B, Cape Canaveral Air Station. The launch window opens at 1:50 a.m. and extends to 3:09 a.m. EDT. Once in orbit, GOES-K will become GOES-10, joining GOES-8 and GOES-9 in space KSC-97pc638

The Atlas 1 payload fairing with the encapsulated GOES-K advanced weat...

The Atlas 1 payload fairing with the encapsulated GOES-K advanced weather satellite awaits transport to the launch pad. GOES-K was prepared for launch at the Astrotech Space Operations LP facility in Titusville... More

Workers at the Astrotech Space Operations LP facility in Titusville make final checks and adjustments after encapsulating the GOES-K advanced weather satellite in the Atlas 1 payload fairing. GOES-K will be the third spacecraft to be launched in the advanced series of Geostationary Operational Environmental Satellites (GOES). The GOES satellites are owned and operated by the National Oceanic and Atmospheric Administration (NOAA); NASA manages the design, development and launch of the spacecraft. GOES-K is targeted for an /1997/63-97.htm">April 24 launch</a> aboard a Lockheed Martin Atlas 1 expendable launch vehicle (AC-79) from Launch Complex 36, Pad B, Cape Canaveral Air Station. The launch window opens at 1:50 a.m. and extends to 3:09 a.m. EDT. Once in orbit, GOES-K will become GOES-10, joining GOES-8 and GOES-9 in space KSC-97pc636

Workers at the Astrotech Space Operations LP facility in Titusville ma...

Workers at the Astrotech Space Operations LP facility in Titusville make final checks and adjustments after encapsulating the GOES-K advanced weather satellite in the Atlas 1 payload fairing. GOES-K will be the... More

The GOES-K advanced weather satellite, already encapsulated in the Atlas 1 payload fairing, is carefully placed on the transporter at Astrotech Space Operations LP facility in Titusville. GOES-K will be the third spacecraft to be launched in the advanced series of Geostationary Operational Environmental Satellites (GOES). The GOES satellites are owned and operated by the National Oceanic and Atmospheric Administration (NOAA); NASA manages the design, development and launch of the spacecraft. GOES-K is targeted for an /1997/63-97.htm">April 24 launch</a> aboard a Lockheed Martin Atlas 1 expendable launch vehicle (AC-79) from Launch Complex 36, Pad B, Cape Canaveral Air Station. The launch window opens at 1:50 a.m. and extends to 3:09 a.m. EDT. Once in orbit, GOES-K will become GOES-10, joining GOES-8 and GOES-9 in space KSC-97pc634

The GOES-K advanced weather satellite, already encapsulated in the Atl...

The GOES-K advanced weather satellite, already encapsulated in the Atlas 1 payload fairing, is carefully placed on the transporter at Astrotech Space Operations LP facility in Titusville. GOES-K will be the thi... More

The Atlas 1 payload fairing with the encapsulated GOES-K advanced weather satellite, at top center, is mated to the Lockheed Martin Atlas 1 expendable launch vehicle (AC-79) at Launch Complex 36, Pad B, Cape Canaveral Air Station. GOES-K will be the third spacecraft to be launched in the advanced series of Geostationary Operational Environmental Satellites (GOES). The GOES satellites are owned and operated by the National Oceanic and Atmospheric Administration (NOAA); NASA manages the design, development and launch of the spacecraft. GOES-K is targeted for an /1997/63-97.htm">April 24 launch</a> during a launch window which extends from 1:50-3:09 a.m. EDT KSC-97pc651

The Atlas 1 payload fairing with the encapsulated GOES-K advanced weat...

The Atlas 1 payload fairing with the encapsulated GOES-K advanced weather satellite, at top center, is mated to the Lockheed Martin Atlas 1 expendable launch vehicle (AC-79) at Launch Complex 36, Pad B, Cape Ca... More

Workers prepare for the mating of the Atlas 1 payload fairing containing the GOES-K advanced weather satellite with the Lockheed Martin Atlas 1 expendable launch vehicle (AC-79) at Launch Complex 36, Pad B, Cape Canaveral Air Station. GOES-K will be the third spacecraft to be launched in the advanced series of Geostationary Operational Environmental Satellites (GOES). The GOES satellites are owned and operated by the National Oceanic and Atmospheric Administration (NOAA); NASA manages the design, development and launch of the spacecraft. GOES-K is targeted for an /1997/63-97.htm">April 24 launch</a> during a launch window which extends from 1:50-3:09 a.m. EDT KSC-97pc649

Workers prepare for the mating of the Atlas 1 payload fairing containi...

Workers prepare for the mating of the Atlas 1 payload fairing containing the GOES-K advanced weather satellite with the Lockheed Martin Atlas 1 expendable launch vehicle (AC-79) at Launch Complex 36, Pad B, Cap... More

The Atlas 1 payload fairing with the encapsulated GOES-K advanced weather satellite is being lifted into position for mating to the Lockheed Martin Atlas 1 expendable launch vehicle (AC-79) at Launch Complex 36, Pad B, Cape Canaveral Air Station. GOES-K will be the third spacecraft to be launched in the advanced series of Geostationary Operational Environmental Satellites (GOES). The GOES satellites are owned and operated by the National Oceanic and Atmospheric Administration (NOAA); NASA manages the design, development and launch of the spacecraft. GOES-K is targeted for an /1997/63-97.htm">April 24 launch</a> during a launch window which extends from 1:50-3:09 a.m. EDT. Once in orbit, GOES-K will become GOES-10, joining GOES-8 and GOES-9 in space KSC-97pc650

The Atlas 1 payload fairing with the encapsulated GOES-K advanced weat...

The Atlas 1 payload fairing with the encapsulated GOES-K advanced weather satellite is being lifted into position for mating to the Lockheed Martin Atlas 1 expendable launch vehicle (AC-79) at Launch Complex 36... More

Lockheed Martin technicians and engineers in the Vertical Integration Building prepare to hoist the second stage of a Titan IV/Centaur expendable launch vehicle into a vertical position where it can lifted and mated to the first stage of the rocket. The Titan IVB rocket is the newest version of America's most powerful unmanned rocket. This rocket will be used for the Cassini mission to Saturn. The Cassini launch is targeted for October 6 from Launch Complex 40, Cape Canaveral Air Station KSC-97pc661

Lockheed Martin technicians and engineers in the Vertical Integration ...

Lockheed Martin technicians and engineers in the Vertical Integration Building prepare to hoist the second stage of a Titan IV/Centaur expendable launch vehicle into a vertical position where it can lifted and ... More

The second stage of a Titan IV/Centaur expendable launch vehicle is suspended in the Vertical Integration Building before being moved into position for mating to the first stage. The Titan IVB rocket is the newest version of America's most powerful unmanned rocket. This rocket will be used for the Cassini mission to Saturn. The Cassini launch is targeted for October 6 from Launch Complex 40, Cape Canaveral Air Station KSC-97pc662

The second stage of a Titan IV/Centaur expendable launch vehicle is su...

The second stage of a Titan IV/Centaur expendable launch vehicle is suspended in the Vertical Integration Building before being moved into position for mating to the first stage. The Titan IVB rocket is the new... More

The Titan IVB core vehicle and its twin Solid Rocket Motor Upgrades (SRMUs) which will be used to propel the Cassini spacecraft to its final destination, Saturn, approaches the pad at Launch Complex 40, Cape Canaveral Air Station. At the pad, the Centaur upper stage will be added and, eventually, the prime payload, the Cassini spacecraft. Cassini will explore the Saturnian system, including the planet’s rings and moon, Titan. Launch of the Cassini mission to Saturn is scheduled for Oct. 6 KSC-97PC871

The Titan IVB core vehicle and its twin Solid Rocket Motor Upgrades (...

The Titan IVB core vehicle and its twin Solid Rocket Motor Upgrades (SRMUs) which will be used to propel the Cassini spacecraft to its final destination, Saturn, approaches the pad at Launch Complex 40, Cape ... More

The Titan IVB core vehicle and its twin Solid Rocket Motor Upgrades (SRMUs) which will be used to propel the Cassini spacecraft to its final destination, Saturn, arrive at the pad at Launch Complex 40, Cape Canaveral Air Station. At the pad, the Centaur upper stage will be added and, eventually, the prime payload, the Cassini spacecraft. Cassini will explore the Saturnian system, including the planet’s rings and moon, Titan. Launch of the Cassini mission to Saturn is scheduled for Oct. 6 KSC-97PC872

The Titan IVB core vehicle and its twin Solid Rocket Motor Upgrades (...

The Titan IVB core vehicle and its twin Solid Rocket Motor Upgrades (SRMUs) which will be used to propel the Cassini spacecraft to its final destination, Saturn, arrive at the pad at Launch Complex 40, Cape C... More

The Titan IVB core vehicle and its twin Solid Rocket Motor Upgrades (SRMUs) which will be used to propel the Cassini spacecraft to its final destination, Saturn, arrive at the pad at Launch Complex 40, Cape Canaveral Air Station. At the pad, the Centaur upper stage will be added and, eventually, the prime payload, the Cassini spacecraft. Cassini will explore the Saturnian system, including the planet’s rings and moon, Titan. Launch of the Cassini mission to Saturn is scheduled for Oct. 6 KSC-97PC869

The Titan IVB core vehicle and its twin Solid Rocket Motor Upgrades (...

The Titan IVB core vehicle and its twin Solid Rocket Motor Upgrades (SRMUs) which will be used to propel the Cassini spacecraft to its final destination, Saturn, arrive at the pad at Launch Complex 40, Cape C... More

A Titan IVB core vehicle and its twin Solid Rocket Motor Upgrades (SRMUs) depart from the Solid Rocket Motor Assembly and Readiness Facility (SMARF), Cape Canaveral Air Station (CCAS), en route to Launch Complex 40. At the pad, the Centaur upper stage will be added and, eventually, the prime payload, the Cassini spacecraft. Cassini will explore the Saturnian system, including the planet’s rings and moon, Titan. Launch of the Cassini mission to Saturn is scheduled for Oct. 6 from Pad 40, CCAS KSC-97PC870

A Titan IVB core vehicle and its twin Solid Rocket Motor Upgrades (SR...

A Titan IVB core vehicle and its twin Solid Rocket Motor Upgrades (SRMUs) depart from the Solid Rocket Motor Assembly and Readiness Facility (SMARF), Cape Canaveral Air Station (CCAS), en route to Launch Co... More

The propulsion system is mated to the Lower Equipment Module of the Cassini spacecraft in the Payload Hazardous Servicing Facility (PHSF). Cassini will explore the Saturnian system, including the planet’s rings and its moon, Titan. Launch of the Cassini mission to Saturn is scheduled for Oct. 6 from Launch Complex 40, Cape Canaveral Air Station, aboard a Titan IVB unmanned vehicle KSC-97PC982

The propulsion system is mated to the Lower Equipment Module of the Ca...

The propulsion system is mated to the Lower Equipment Module of the Cassini spacecraft in the Payload Hazardous Servicing Facility (PHSF). Cassini will explore the Saturnian system, including the planet’s ring... More

The Lower Equipment Module of the Cassini spacecraft is lifted into a workstand in the Payload Hazardous Servicing Facility (PHSF). Cassini will explore the Saturnian system, including the planet’s rings and its moon, Titan. Launch of the Cassini mission to Saturn is scheduled for Oct. 6 from Launch Complex 40, Cape Canaveral Air Station, aboard a Titan IVB unmanned vehicle KSC-97PC977

The Lower Equipment Module of the Cassini spacecraft is lifted into a ...

The Lower Equipment Module of the Cassini spacecraft is lifted into a workstand in the Payload Hazardous Servicing Facility (PHSF). Cassini will explore the Saturnian system, including the planet’s rings and i... More

The Lower Equipment Module of the Cassini spacecraft is lifted into a workstand in the Payload Hazardous Servicing Facility (PHSF). Cassini will explore the Saturnian system, including the planet’s rings and its moon, Titan. Launch of the Cassini mission to Saturn is scheduled for Oct. 6 from Launch Complex 40, Cape Canaveral Air Station, aboard a Titan IVB unmanned vehicle KSC-97PC976

The Lower Equipment Module of the Cassini spacecraft is lifted into a ...

The Lower Equipment Module of the Cassini spacecraft is lifted into a workstand in the Payload Hazardous Servicing Facility (PHSF). Cassini will explore the Saturnian system, including the planet’s rings and i... More

The propulsion system is mated to the Lower Equipment Module of the Cassini spacecraft in the Payload Hazardous Servicing Facility (PHSF). Cassini will explore the Saturnian system, including the planet’s rings and its moon, Titan. Launch of the Cassini mission to Saturn is scheduled for Oct. 6 from Launch Complex 40, Cape Canaveral Air Station, aboard a Titan IVB unmanned vehicle KSC-97PC981

The propulsion system is mated to the Lower Equipment Module of the Ca...

The propulsion system is mated to the Lower Equipment Module of the Cassini spacecraft in the Payload Hazardous Servicing Facility (PHSF). Cassini will explore the Saturnian system, including the planet’s ring... More

The Lower Equipment Module of the Cassini spacecraft is lifted into a workstand in the Payload Hazardous Servicing Facility (PHSF). Cassini will explore the Saturnian system, including the planet’s rings and its moon, Titan. Launch of the Cassini mission to Saturn is scheduled for Oct. 6 from Launch Complex 40, Cape Canaveral Air Station, aboard a Titan IVB unmanned vehicle KSC-97PC978

The Lower Equipment Module of the Cassini spacecraft is lifted into a ...

The Lower Equipment Module of the Cassini spacecraft is lifted into a workstand in the Payload Hazardous Servicing Facility (PHSF). Cassini will explore the Saturnian system, including the planet’s rings and i... More

The propulsion system is mated to the Lower Equipment Module of the Cassini spacecraft in the Payload Hazardous Servicing Facility (PHSF). Cassini will explore the Saturnian system, including the planet’s rings and its moon, Titan. Launch of the Cassini mission to Saturn is scheduled for Oct. 6 from Launch Complex 40, Cape Canaveral Air Station, aboard a Titan IVB unmanned vehicle KSC-97PC979

The propulsion system is mated to the Lower Equipment Module of the Ca...

The propulsion system is mated to the Lower Equipment Module of the Cassini spacecraft in the Payload Hazardous Servicing Facility (PHSF). Cassini will explore the Saturnian system, including the planet’s ring... More

The propulsion system is mated to the Lower Equipment Module of the Cassini spacecraft in the Payload Hazardous Servicing Facility (PHSF). Cassini will explore the Saturnian system, including the planet’s rings and its moon, Titan. Launch of the Cassini mission to Saturn is scheduled for Oct. 6 from Launch Complex 40, Cape Canaveral Air Station, aboard a Titan IVB unmanned vehicle KSC-97PC983

The propulsion system is mated to the Lower Equipment Module of the Ca...

The propulsion system is mated to the Lower Equipment Module of the Cassini spacecraft in the Payload Hazardous Servicing Facility (PHSF). Cassini will explore the Saturnian system, including the planet’s ring... More

The propulsion system is mated to the Lower Equipment Module of the Cassini spacecraft in the Payload Hazardous Servicing Facility (PHSF). Cassini will explore the Saturnian system, including the planet’s rings and its moon, Titan. Launch of the Cassini mission to Saturn is scheduled for Oct. 6 from Launch Complex 40, Cape Canaveral Air Station, aboard a Titan IVB unmanned vehicle KSC-97PC980

The propulsion system is mated to the Lower Equipment Module of the Ca...

The propulsion system is mated to the Lower Equipment Module of the Cassini spacecraft in the Payload Hazardous Servicing Facility (PHSF). Cassini will explore the Saturnian system, including the planet’s ring... More

Workers erect the first stage of a Lockheed Martin Launch Vehicle-2 (LMLV-2) at Launch Complex 46 at Cape Canaveral Air Station, Fla. The Lunar Prospector spacecraft is scheduled to launch aboard the LMLV-2 in October for an 18-month mission that will orbit the Earth’s Moon to collect data from the lunar surface. Designed for a low polar orbit investigation of the Moon, the Lunar Prospector will map the Moon’s surface composition and possible polar ice deposits, measure magnetic and gravity fields, and study lunar outgassing events KSC-97pc1040

Workers erect the first stage of a Lockheed Martin Launch Vehicle-2 (...

Workers erect the first stage of a Lockheed Martin Launch Vehicle-2 (LMLV-2) at Launch Complex 46 at Cape Canaveral Air Station, Fla. The Lunar Prospector spacecraft is scheduled to launch aboard the LMLV-2 ... More

Workers hoist the first stage of a Lockheed Martin Launch Vehicle-2 (LMLV-2) for placement at Launch Complex 46 at Cape Canaveral Air Station (CCAS), Fla. The Lunar Prospector spacecraft is scheduled to launch aboard the LMLV-2 from CCAS in October for an 18-month mission that will orbit the Earth’s Moon to collect data from the lunar surface. Information gathered during the mission will allow construction of a detailed map of the surface composition of the Moon and will improve our understanding of its origin, evolution, current state, and resources KSC-97pc1043

Workers hoist the first stage of a Lockheed Martin Launch Vehicle-2 (L...

Workers hoist the first stage of a Lockheed Martin Launch Vehicle-2 (LMLV-2) for placement at Launch Complex 46 at Cape Canaveral Air Station (CCAS), Fla. The Lunar Prospector spacecraft is scheduled to launch ... More

Workers erect the first stage of a Lockheed Martin Launch Vehicle-2 (LMLV-2) at Launch Complex 46 at Cape Canaveral Air Station, Fla. The Lunar Prospector spacecraft is scheduled to launch aboard the LMLV-2 in October for an 18-month mission that will orbit the Earth’s Moon to collect data from the lunar surface. Scientific experiments to be conducted by the Prospector include locating water ice that may exist near the lunar poles, gathering data to understand the evolution of the lunar highland crust and the lunar magnetic field, finding radon outgassing events, and describing the lunar gravity field by means of Doppler tracking KSC-97pc1041

Workers erect the first stage of a Lockheed Martin Launch Vehicle-2 (L...

Workers erect the first stage of a Lockheed Martin Launch Vehicle-2 (LMLV-2) at Launch Complex 46 at Cape Canaveral Air Station, Fla. The Lunar Prospector spacecraft is scheduled to launch aboard the LMLV-2 in ... More

Workers erect the first stage of a Lockheed Martin Launch Vehicle-2 (LMLV-2) at Launch Complex 46 at Cape Canaveral Air Station, Fla. The Lunar Prospector spacecraft is scheduled to launch aboard the LMLV-2 in October for an 18-month mission that will orbit the Earth’s Moon to collect data from the lunar surface. Designed for a low polar orbit investigation of the Moon, the Lunar Prospector will map the Moon’s surface composition and possible polar ice deposits, measure magnetic and gravity fields, and study lunar outgassing events KSC-97pc1039

Workers erect the first stage of a Lockheed Martin Launch Vehicle-2 (...

Workers erect the first stage of a Lockheed Martin Launch Vehicle-2 (LMLV-2) at Launch Complex 46 at Cape Canaveral Air Station, Fla. The Lunar Prospector spacecraft is scheduled to launch aboard the LMLV-2 ... More

Workers hoist the first stage of a Lockheed Martin Launch Vehicle-2 (LMLV-2) for placement at Launch Complex 46 at Cape Canaveral Air Station (CCAS), Fla. The Lunar Prospector spacecraft is scheduled to launch aboard the LMLV-2 from CCAS in October for an 18-month mission that will orbit the Earth’s Moon to collect data from the lunar surface. Information gathered during the mission will allow construction of a detailed map of the surface composition of the Moon and will improve our understanding of its origin, evolution, current state, and resources KSC-97pc1042

Workers hoist the first stage of a Lockheed Martin Launch Vehicle-2 (...

Workers hoist the first stage of a Lockheed Martin Launch Vehicle-2 (LMLV-2) for placement at Launch Complex 46 at Cape Canaveral Air Station (CCAS), Fla. The Lunar Prospector spacecraft is scheduled to laun... More

The second stage of the Lockheed Martin Launch Vehicle-2 (LMLV-2) arrives aboard a truck at Launch Complex 46 at Cape Canaveral Air Station before it is mated to the first stage, seen in the center of the pad structure in the background. The LMLV-2 will carry the Lunar Prospector spacecraft, scheduled to launch in October for an 18-month mission that will orbit the Earth’s moon to collect data from the lunar surface. Scientific experiments to be conducted by the Prospector include locating water ice that may exist near the lunar poles, gathering data to understand the evolution of the lunar highland crust and the lunar magnetic field, finding radon outgassing events, and describing the lunar gravity field by means of Doppler tracking KSC-97PC1100

The second stage of the Lockheed Martin Launch Vehicle-2 (LMLV-2) arr...

The second stage of the Lockheed Martin Launch Vehicle-2 (LMLV-2) arrives aboard a truck at Launch Complex 46 at Cape Canaveral Air Station before it is mated to the first stage, seen in the center of the pad... More

The second stage of the Lockheed Martin Launch Vehicle-2 (LMLV-2) is mated to its first stage at Launch Complex 46 at Cape Canaveral Air Station. The LMLV-2 will carry the Lunar Prospector spacecraft, scheduled to launch in October for an 18-month mission that will orbit the Earth’s moon to collect data from the lunar surface. Information gathered during the mission will allow construction of a detailed map of the surface composition of the moon and will improve our understanding of its origin, evolution, current state, and resources KSC-97PC1102

The second stage of the Lockheed Martin Launch Vehicle-2 (LMLV-2) is ...

The second stage of the Lockheed Martin Launch Vehicle-2 (LMLV-2) is mated to its first stage at Launch Complex 46 at Cape Canaveral Air Station. The LMLV-2 will carry the Lunar Prospector spacecraft, schedul... More

The first stage of the Delta II rocket which will to be used to launch the Advanced Composition Explorer (ACE) spacecraft is erected at Launch Complex 17A at Cape Canaveral Air Station. Scheduled for launch on Aug. 25, ACE will study low-energy particles of solar origin and high-energy galactic particles. The ACE observatory will be placed into an orbit almost a million miles (1.5 million kilometers) away from the Earth, about 1/100 the distance from the Earth to the Sun KSC-97PC1143

The first stage of the Delta II rocket which will to be used to launch...

The first stage of the Delta II rocket which will to be used to launch the Advanced Composition Explorer (ACE) spacecraft is erected at Launch Complex 17A at Cape Canaveral Air Station. Scheduled for launch on ... More

The first stage of the Delta II rocket which will to be used to launch the Advanced Composition Explorer (ACE) spacecraft is erected at Launch Complex 17A at Cape Canaveral Air Station. Scheduled for launch on Aug. 25, ACE will study low-energy particles of solar origin and high-energy galactic particles. The ACE observatory will be placed into an orbit almost a million miles (1.5 million kilometers) away from the Earth, about 1/100 the distance from the Earth to the Sun KSC-97PC1144

The first stage of the Delta II rocket which will to be used to launch...

The first stage of the Delta II rocket which will to be used to launch the Advanced Composition Explorer (ACE) spacecraft is erected at Launch Complex 17A at Cape Canaveral Air Station. Scheduled for launch on ... More

The first stage of the Delta II rocket which will to be used to launch the Advanced Composition Explorer (ACE) spacecraft is erected at Launch Complex 17A at Cape Canaveral Air Station. Scheduled for launch on Aug. 25, ACE will study low-energy particles of solar origin and high-energy galactic particles. The ACE observatory will be placed into an orbit almost a million miles (1.5 million kilometers) away from the Earth, about 1/100 the distance from the Earth to the Sun KSC-97PC1142

The first stage of the Delta II rocket which will to be used to launch...

The first stage of the Delta II rocket which will to be used to launch the Advanced Composition Explorer (ACE) spacecraft is erected at Launch Complex 17A at Cape Canaveral Air Station. Scheduled for launch on ... More

The first stage of the Delta II rocket which will to be used to launch the Advanced Composition Explorer (ACE) spacecraft is erected at Launch Complex 17A at Cape Canaveral Air Station. Scheduled for launch on Aug. 25, ACE will study low-energy particles of solar origin and high-energy galactic particles. The ACE observatory will be placed into an orbit almost a million miles (1.5 million kilometers) away from the Earth, about 1/100 the distance from the Earth to the Sun KSC-97PC1141

The first stage of the Delta II rocket which will to be used to launch...

The first stage of the Delta II rocket which will to be used to launch the Advanced Composition Explorer (ACE) spacecraft is erected at Launch Complex 17A at Cape Canaveral Air Station. Scheduled for launch on ... More

The solid rocket motors of the Delta II rocket which will to be used to launch the Advanced Composition Explorer (ACE) spacecraft are erected at Launch Complex 17A at Cape Canaveral Air Station. Scheduled for launch on Aug. 25, ACE will study low-energy particles of solar origin and high-energy galactic particles. The ACE observatory will be placed into an orbit almost a million miles (1.5 million kilometers) away from the Earth, about 1/100 the distance from the Earth to the Sun KSC-97PC1170

The solid rocket motors of the Delta II rocket which will to be used t...

The solid rocket motors of the Delta II rocket which will to be used to launch the Advanced Composition Explorer (ACE) spacecraft are erected at Launch Complex 17A at Cape Canaveral Air Station. Scheduled for l... More

The second stage of the Delta II rocket which will to be used to launch the Advanced Composition Explorer (ACE) spacecraft is erected at Launch Complex 17A at Cape Canaveral Air Station. Scheduled for launch on Aug. 25, ACE will study low-energy particles of solar origin and high-energy galactic particles. The ACE observatory will be placed into an orbit almost a million miles (1.5 million kilometers) away from the Earth, about 1/100 the distance from the Earth to the Sun KSC-97PC1175

The second stage of the Delta II rocket which will to be used to launc...

The second stage of the Delta II rocket which will to be used to launch the Advanced Composition Explorer (ACE) spacecraft is erected at Launch Complex 17A at Cape Canaveral Air Station. Scheduled for launch on... More

The Advanced Composition Explorer (ACE) undergoes final prelaunch processing in KSC’s Spacecraft Assembly and Encapsulation Facility-2 (SAEF-2) before being transported to Pad A at Launch Complex 17, Cape Canaveral Air Station, for mating to the Delta II launch vehicle. This photo was taken during a news media opportunity. The worker at right is installing protective covering over one of the spacecraft’s solar arrays. ACE with its combination of nine sensors and instruments will investigate the origin and evolution of solar phenomenon, the formation of solar corona, solar flares and acceleration of the solar wind. Launch is targeted for Aug. 24 KSC-97PC1236

The Advanced Composition Explorer (ACE) undergoes final prelaunch proc...

The Advanced Composition Explorer (ACE) undergoes final prelaunch processing in KSC’s Spacecraft Assembly and Encapsulation Facility-2 (SAEF-2) before being transported to Pad A at Launch Complex 17, Cape Canav... More

The Advanced Composition Explorer (ACE) spacecraft is placed atop its launch vehicle at Launch Complex 17A. Scheduled for launch on a Delta II rocket from Cape Canaveral Air Station on Aug. 24, ACE will study low-energy particles of solar origin and high-energy galactic particles. The collecting power of instruments aboard ACE is 10 to 1,000 times greater than anything previously flown to collect similar data by NASA KSC-97PC1238

The Advanced Composition Explorer (ACE) spacecraft is placed atop its ...

The Advanced Composition Explorer (ACE) spacecraft is placed atop its launch vehicle at Launch Complex 17A. Scheduled for launch on a Delta II rocket from Cape Canaveral Air Station on Aug. 24, ACE will study l... More

In KSC’s Spacecraft Assembly and Encapsulation Facility-II (SAEF-II), the Advanced Composition Explorer (ACE) spacecraft is encapsulated and placed into the transporter which will move it to Launch Complex 17A. Scheduled for launch on a Delta II rocket from Cape Canaveral Air Station on Aug. 24, ACE will study low-energy particles of solar origin and high-energy galactic particles. The collecting power of instruments aboard ACE is 10 to 1,000 times greater than anything previously flown to collect similar data by NASA KSC-97PC1234

In KSC’s Spacecraft Assembly and Encapsulation Facility-II (SAEF-II), ...

In KSC’s Spacecraft Assembly and Encapsulation Facility-II (SAEF-II), the Advanced Composition Explorer (ACE) spacecraft is encapsulated and placed into the transporter which will move it to Launch Complex 17A.... More

In KSC’s Spacecraft Assembly and Encapsulation Facility-II (SAEF-II), the Advanced Composition Explorer (ACE) spacecraft is encapsulated and placed into the transporter which will move it to Launch Complex 17A. Scheduled for launch on a Delta II rocket from Cape Canaveral Air Station on Aug. 24, ACE will study low-energy particles of solar origin and high-energy galactic particles. The collecting power of instruments aboard ACE is 10 to 1,000 times greater than anything previously flown to collect similar data by NASA KSC-97PC1232

In KSC’s Spacecraft Assembly and Encapsulation Facility-II (SAEF-II), ...

In KSC’s Spacecraft Assembly and Encapsulation Facility-II (SAEF-II), the Advanced Composition Explorer (ACE) spacecraft is encapsulated and placed into the transporter which will move it to Launch Complex 17A.... More

The Advanced Composition Explorer (ACE) spacecraft is placed atop its launch vehicle at Launch Complex 17A. Scheduled for launch on a Delta II rocket from Cape Canaveral Air Station on Aug. 24, ACE will study low-energy particles of solar origin and high-energy galactic particles. The collecting power of instruments aboard ACE is 10 to 1,000 times greater than anything previously flown to collect similar data by NASA KSC-97PC1240

The Advanced Composition Explorer (ACE) spacecraft is placed atop its ...

The Advanced Composition Explorer (ACE) spacecraft is placed atop its launch vehicle at Launch Complex 17A. Scheduled for launch on a Delta II rocket from Cape Canaveral Air Station on Aug. 24, ACE will study l... More

Final prelaunch preparations are made at Launch Complex 17A, Cape Canaveral Air Station, for liftoff of the Boeing Delta II expendable launch vehicle with the Advanced Composition Explorer (ACE) spacecraft, at top. The black rectangular-shaped panel in front is one of ACE’s solar arrays. ACE will investigate the origin and evolution of solar phenomenon, the formation of solar corona, solar flares and acceleration of the solar wind. This will be the second Delta launch under the Boeing name and the first from Cape Canaveral. Liftoff is scheduled Aug. 24 KSC-97DC1286

Final prelaunch preparations are made at Launch Complex 17A, Cape Cana...

Final prelaunch preparations are made at Launch Complex 17A, Cape Canaveral Air Station, for liftoff of the Boeing Delta II expendable launch vehicle with the Advanced Composition Explorer (ACE) spacecraft, at ... More

Workers make final checks as the second part of the bi-sector payload fairing for the Advanced Composition Explorer (ACE) is closed around the spacecraft at Launch Complex 17A, Cape Canaveral Air Station. ACE will be launched on a Boeing Delta II expendable launch vehicle. The spacecraft will investigate the origin and evolution of solar phenomenon, the formation of solar corona, solar flares and acceleration of the solar wind. This will be the second Delta launch under the Boeing name and the first from Cape Canaveral. Liftoff is scheduled Aug. 24 KSC-97DC1283

Workers make final checks as the second part of the bi-sector payload ...

Workers make final checks as the second part of the bi-sector payload fairing for the Advanced Composition Explorer (ACE) is closed around the spacecraft at Launch Complex 17A, Cape Canaveral Air Station. ACE w... More

In the Payload Hazardous Servicing Facility (PHSF), the Cassini spacecraft is prepared for its lift onto a transporter which will move it to Launch Complex 40, Cape Canaveral Air Station (CCAS). Cassini is an international mission conducted by the National Aeronautics and Space Administration (NASA), the European Space Agency (ESA), and the Italian Space Agency (ASI). The two-story-tall spacecraft, scheduled for launch on Oct. 6, is destined to arrive at Saturn in July 2004, where it will study the planet, its rings, moons and magnetic environment in detail over a four-year period. The Cassini mission is managed for NASA's Office of Space Science by the Jet Propulsion Laboratory, a division of the California Institute of Technology KSC-97PC1335

In the Payload Hazardous Servicing Facility (PHSF), the Cassini spacec...

In the Payload Hazardous Servicing Facility (PHSF), the Cassini spacecraft is prepared for its lift onto a transporter which will move it to Launch Complex 40, Cape Canaveral Air Station (CCAS). Cassini is an i... More

After launch tower retraction, the Boeing Delta II expendable launch vehicle carrying the Advanced Composition Explorer (ACE) undergoes final preparations for liftoff in the predawn hours of Aug. 24, 1997, at Launch Complex 17A, Cape Canaveral Air Station. This is the second Delta launch under the Boeing name and the first from Cape Canaveral. ACE with its combination of nine sensors and instruments will investigate the origin and evolution of solar phenomenon, the formation of solar corona, solar flares and acceleration of the solar wind. ACE was built for NASA by the Johns Hopkins Applied Physics Laboratory and is managed by the Explorer Project Office at NASA’s Goddard Space Flight Center. The lead scientific institution is the California Institute of Technology KSC-97PC1287

After launch tower retraction, the Boeing Delta II expendable launch v...

After launch tower retraction, the Boeing Delta II expendable launch vehicle carrying the Advanced Composition Explorer (ACE) undergoes final preparations for liftoff in the predawn hours of Aug. 24, 1997, at L... More

Workers in the Payload Hazardous Servicing Facility (PHSF) place a protective covering over the Cassini spacecraft in preparation for its move to Launch Complex 40, Cape Canaveral Air Station (CCAS). Cassini is an international mission conducted by the National Aeronautics and Space Administration (NASA), the European Space Agency (ESA), and the Italian Space Agency (ASI). The two-story-tall spacecraft, scheduled for launch on Oct. 6, is destined to arrive at Saturn in July 2004, where it will study the planet, its rings, moons and magnetic environment in detail over a four-year period. The Cassini mission is managed for NASA's Office of Space Science by the Jet Propulsion Laboratory, a division of the California Institute of Technology KSC-97PC1334

Workers in the Payload Hazardous Servicing Facility (PHSF) place a pro...

Workers in the Payload Hazardous Servicing Facility (PHSF) place a protective covering over the Cassini spacecraft in preparation for its move to Launch Complex 40, Cape Canaveral Air Station (CCAS). Cassini is... More

The Boeing Delta II expendable launch vehicle carrying the Advanced Composition Explorer (ACE) undergoes final preparations for liftoff in the predawn hours of Aug. 25, 1997, at Launch Complex 17A, Cape Canaveral Air Station. This is the second Delta launch under the Boeing name and the first from Cape Canaveral. The first launch attempt on Aug. 24 was scrubbed by Air Force range safety personnel because two commercial fishing vessels were within the Delta’s launch danger area. ACE with its combination of nine sensors and instruments will investigate the origin and evolution of solar phenomenon, the formation of solar corona, solar flares and acceleration of the solar wind. ACE was built for NASA by the Johns Hopkins Applied Physics Laboratory and is managed by the Explorer Project Office at NASA’s Goddard Space Flight Center. The lead scientific institution is the California Institute of Technology KSC-97PC1289

The Boeing Delta II expendable launch vehicle carrying the Advanced Co...

The Boeing Delta II expendable launch vehicle carrying the Advanced Composition Explorer (ACE) undergoes final preparations for liftoff in the predawn hours of Aug. 25, 1997, at Launch Complex 17A, Cape Canaver... More

Photographers and other onlookers watch as a Boeing Delta II expendable launch vehicle lifts off with NASA’s Advanced Composition Explorer (ACE) observatory at 10:39 a.m. EDT, on Aug. 25, 1997, from Launch Complex 17A, Cape Canaveral Air Station. This is the second Delta launch under the Boeing name and the first from Cape Canaveral. Liftoff had been scheduled for Aug. 24, but was scrubbed one day by Air Force range safety personnel because two commercial fishing vessels were within the Delta’s launch danger area. The ACE spacecraft will study low-energy particles of solar origin and high-energy galactic particles on its one-million-mile journey. The collecting power of instruments aboard ACE is 10 to 1,000 times greater than anything previously flown to collect similar data by NASA. Study of these energetic particles may contribute to our understanding of the formation and evolution of the solar system. ACE has a two-year minimum mission lifetime and a goal of five years of service. ACE was built for NASA by the Johns Hopkins Applied Physics Laboratory and is managed by the Explorer Project Office at NASA's Goddard Space Flight Center. The lead scientific institution is the California Institute of Technology (Caltech) in Pasadena, Calif KSC-97PC1291

Photographers and other onlookers watch as a Boeing Delta II expendabl...

Photographers and other onlookers watch as a Boeing Delta II expendable launch vehicle lifts off with NASA’s Advanced Composition Explorer (ACE) observatory at 10:39 a.m. EDT, on Aug. 25, 1997, from Launch Comp... More

The Boeing Delta II expendable launch vehicle carrying the Advanced Composition Explorer (ACE) undergoes final preparations for liftoff in the predawn hours of Aug. 25, 1997, at Launch Complex 17A, Cape Canaveral Air Station. This is the second Delta launch under the Boeing name and the first from Cape Canaveral. The first launch attempt on Aug. 24 was scrubbed by Air Force range safety personnel because two commercial fishing vessels were within the Delta’s launch danger area. ACE with its combination of nine sensors and instruments will investigate the origin and evolution of solar phenomenon, the formation of solar corona, solar flares and acceleration of the solar wind. ACE was built for NASA by the Johns Hopkins Applied Physics Laboratory and is managed by the Explorer Project Office at NASA’s Goddard Space Flight Center. The lead scientific institution is the California Institute of Technology KSC-97PC1288

The Boeing Delta II expendable launch vehicle carrying the Advanced Co...

The Boeing Delta II expendable launch vehicle carrying the Advanced Composition Explorer (ACE) undergoes final preparations for liftoff in the predawn hours of Aug. 25, 1997, at Launch Complex 17A, Cape Canaver... More

A Boeing Delta II expendable launch vehicle lifts off with NASA’s Advanced Composition Explorer (ACE) observatory at 10:39 a.m. EDT, on Aug. 25, 1997, from Launch Complex 17A, Cape Canaveral Air Station. This is the second Delta launch under the Boeing name and the first from Cape Canaveral. Launch was scrubbed one day by Air Force range safety personnel because two commercial fishing vessels were within the Delta’s launch danger area. The ACE spacecraft will study low-energy particles of solar origin and high-energy galactic particles on its one-million-mile journey. The collecting power of instruments aboard ACE is 10 to 1,000 times greater than anything previously flown to collect similar data by NASA. Study of these energetic particles may contribute to our understanding of the formation and evolution of the solar system. ACE has a two-year minimum mission lifetime and a goal of five years of service. ACE was built for NASA by the Johns Hopkins Applied Physics Laboratory and is managed by the Explorer Project Office at NASA's Goddard Space Flight Center. The lead scientific institution is the California Institute of Technology (Caltech) in Pasadena, Calif KSC-97PC1293

A Boeing Delta II expendable launch vehicle lifts off with NASA’s Adva...

A Boeing Delta II expendable launch vehicle lifts off with NASA’s Advanced Composition Explorer (ACE) observatory at 10:39 a.m. EDT, on Aug. 25, 1997, from Launch Complex 17A, Cape Canaveral Air Station. This i... More

A Boeing Delta II expendable launch vehicle lifts off with NASA’s Advanced Composition Explorer (ACE) observatory at 10:39 a.m. EDT, on Aug. 25, 1997, from Launch Complex 17A, Cape Canaveral Air Station. This is the second Delta launch under the Boeing name and the first from Cape Canaveral. Launch was scrubbed one day by Air Force range safety personnel because two commercial fishing vessels were within the Delta’s launch danger area. The ACE spacecraft will study low-energy particles of solar origin and high-energy galactic particles on its one-million-mile journey. The collecting power of instruments aboard ACE is 10 to 1,000 times greater than anything previously flown to collect similar data by NASA. Study of these energetic particles may contribute to our understanding of the formation and evolution of the solar system. ACE has a two-year minimum mission lifetime and a goal of five years of service. ACE was built for NASA by the Johns Hopkins Applied Physics Laboratory and is managed by the Explorer Project Office at NASA's Goddard Space Flight Center. The lead scientific institution is the California Institute of Technology (Caltech) in Pasadena, Calif KSC-97PC1290

A Boeing Delta II expendable launch vehicle lifts off with NASA’s Adva...

A Boeing Delta II expendable launch vehicle lifts off with NASA’s Advanced Composition Explorer (ACE) observatory at 10:39 a.m. EDT, on Aug. 25, 1997, from Launch Complex 17A, Cape Canaveral Air Station. This i... More

A Boeing Delta II expendable launch vehicle lifts off with NASA’s Advanced Composition Explorer (ACE) observatory at 10:39 a.m. EDT, on Aug. 25, 1997, from Launch Complex 17A, Cape Canaveral Air Station. This is the second Delta launch under the Boeing name and the first from Cape Canaveral. Launch was scrubbed one day by Air Force range safety personnel because two commercial fishing vessels were within the Delta’s launch danger area. The ACE spacecraft will study low-energy particles of solar origin and high-energy galactic particles on its one-million-mile journey. The collecting power of instruments aboard ACE is 10 to 1,000 times greater than anything previously flown to collect similar data by NASA. Study of these energetic particles may contribute to our understanding of the formation and evolution of the solar system. ACE has a two-year minimum mission lifetime and a goal of five years of service. ACE was built for NASA by the Johns Hopkins Applied Physics Laboratory and is managed by the Explorer Project Office at NASA's Goddard Space Flight Center. The lead scientific institution is the California Institute of Technology (Caltech) in Pasadena, Calif KSC-97PC1292

A Boeing Delta II expendable launch vehicle lifts off with NASA’s Adva...

A Boeing Delta II expendable launch vehicle lifts off with NASA’s Advanced Composition Explorer (ACE) observatory at 10:39 a.m. EDT, on Aug. 25, 1997, from Launch Complex 17A, Cape Canaveral Air Station. This i... More

Technicians at Launch Complex 40, Cape Canaveral Air Station (CCAS), connect the crane to the top of the Cassini spacecraft in preparation for the lift to the top of its Titan IV/Centaur launch vehicle. Cassini is an international mission conducted by the National Aeronautics and Space Administration (NASA), the European Space Agency (ESA), and the Italian Space Agency (ASI). The two-story-tall spacecraft, scheduled for launch on Oct. 6, is destined to arrive at Saturn in July 2004, where it will orbit and study Saturn, its rings, moons and magnetic environment in detail over a four-year period. The Cassini mission is managed for NASA's Office of Space Science by the Jet Propulsion Laboratory, a division of the California Institute of Technology KSC-97PC1306

Technicians at Launch Complex 40, Cape Canaveral Air Station (CCAS), c...

Technicians at Launch Complex 40, Cape Canaveral Air Station (CCAS), connect the crane to the top of the Cassini spacecraft in preparation for the lift to the top of its Titan IV/Centaur launch vehicle. Cassini... More

The Cassini spacecraft is lowered to the top of its Titan IV/Centaur launch vehicle at Launch Complex 40, Cape Canaveral Air Station (CCAS). Cassini is an international mission conducted by the National Aeronautics and Space Administration (NASA), the European Space Agency (ESA), and the Italian Space Agency (ASI). The two-story-tall spacecraft, scheduled for launch on Oct. 6, is destined to arrive at Saturn in July 2004, where it will orbit and study Saturn, its rings, moons and magnetic environment in detail over a four-year period. The Cassini mission is managed for NASA's Office of Space Science by the Jet Propulsion Laboratory, a division of the California Institute of Technology KSC-97PC1307

The Cassini spacecraft is lowered to the top of its Titan IV/Centaur l...

The Cassini spacecraft is lowered to the top of its Titan IV/Centaur launch vehicle at Launch Complex 40, Cape Canaveral Air Station (CCAS). Cassini is an international mission conducted by the National Aeronau... More

Technicians at Launch Complex 40, Cape Canaveral Air Station (CCAS), connect the crane to the top of the Cassini spacecraft in preparation for the lift to the top of its Titan IV/Centaur launch vehicle. Cassini is an international mission conducted by the National Aeronautics and Space Administration (NASA), the European Space Agency (ESA), and the Italian Space Agency (ASI). The two-story-tall spacecraft, scheduled for launch on Oct. 6, is destined to arrive at Saturn in July 2004, where it will orbit and study Saturn, its rings, moons and magnetic environment in detail over a four-year period. The Cassini mission is managed for NASA's Office of Space Science by the Jet Propulsion Laboratory, a division of the California Institute of Technology KSC-97PC1305

Technicians at Launch Complex 40, Cape Canaveral Air Station (CCAS), c...

Technicians at Launch Complex 40, Cape Canaveral Air Station (CCAS), connect the crane to the top of the Cassini spacecraft in preparation for the lift to the top of its Titan IV/Centaur launch vehicle. Cassini... More

The Cassini spacecraft, covered by an environmentally controlled protective enclosure, is lifted at Launch Complex 40, Cape Canaveral Air Station (CCAS), in preparation to mate it to the top of its Titan IV/Centaur launch vehicle. Cassini is an international mission conducted by the National Aeronautics and Space Administration (NASA), the European Space Agency (ESA), and the Italian Space Agency (ASI). The two-story-tall spacecraft, scheduled for launch on Oct. 13, is destined to arrive at Saturn in July 2004, where it will orbit and study Saturn, its rings, moons and magnetic environment in detail over a four-year period. The Cassini mission is managed for NASA's Office of Space Science by the Jet Propulsion Laboratory, a division of the California Institute of Technology KSC-11401f24

The Cassini spacecraft, covered by an environmentally controlled prote...

The Cassini spacecraft, covered by an environmentally controlled protective enclosure, is lifted at Launch Complex 40, Cape Canaveral Air Station (CCAS), in preparation to mate it to the top of its Titan IV/Cen... More

KENNEDY SPACE CENTER, FLA. -- At Launch Complex 40 on Cape Canaveral Air Station, workers are installing three Radioisotope Thermoelectric Generators (RTGs) on the Cassini spacecraft. RTGs are lightweight, compact spacecraft electrical power systems that have flown successfully on 23 previous U.S. missions over the past 37 years. These generators produce power by converting heat into electrical energy; the heat is provided by the natural radioactive decay of plutonium-238 dioxide, a non-weapons-grade material. RTGs enable spacecraft to operate at significant distances from the Sun where solar power systems would not be feasible. Cassini will travel two billion miles to reach Saturn and another 1.1 billion miles while in orbit around Saturn. Cassini is undergoing final preparations for liftoff on a Titan IVB/Centaur launch vehicle, with the launch window opening at 4:55 a.m. EDT, Oct. 13 KSC-97PC1536

KENNEDY SPACE CENTER, FLA. -- At Launch Complex 40 on Cape Canaveral A...

KENNEDY SPACE CENTER, FLA. -- At Launch Complex 40 on Cape Canaveral Air Station, workers are installing three Radioisotope Thermoelectric Generators (RTGs) on the Cassini spacecraft. RTGs are lightweight, comp... More

At Launch Complex 40 on Cape Canaveral Air Station, workers are installing three Radioisotope Thermoelectric Generators (RTGs) on the Cassini spacecraft. RTGs are lightweight, compact spacecraft electrical power systems that have flown successfully on 23 previous U.S. missions over the past 37 years. These generators produce power by converting heat into electrical energy; the heat is provided by the natural radioactive decay of plutonium-238 dioxide, a non-weapons-grade material. RTGs enable spacecraft to operate at significant distances from the Sun where solar power systems would not be feasible. Cassini will travel two billion miles to reach Saturn and another 1.1 billion miles while in orbit around Saturn. Cassini is undergoing final preparations for liftoff on a Titan IVB/Centaur launch vehicle, with the launch window opening at 4:55 a.m. EDT, Oct. 13 KSC-97PC1535

At Launch Complex 40 on Cape Canaveral Air Station, workers are instal...

At Launch Complex 40 on Cape Canaveral Air Station, workers are installing three Radioisotope Thermoelectric Generators (RTGs) on the Cassini spacecraft. RTGs are lightweight, compact spacecraft electrical powe... More

At Launch Complex 40 on Cape Canaveral Air Station, one of three Radioisotope Thermoelectric Generators (RTGs) is being installed on the Cassini spacecraft. RTGs are lightweight, compact spacecraft electrical power systems that have flown successfully on 23 previous U.S. missions over the past 37 years. These generators produce power by converting heat into electrical energy; the heat is provided by the natural radioactive decay of plutonium-238 dioxide, a non-weapons-grade material. RTGs enable spacecraft to operate at significant distances from the Sun where solar power systems would not be feasible. Cassini will travel two billion miles to reach Saturn and another 1.1 billion miles while in orbit around Saturn. Cassini is undergoing final preparations for liftoff on a Titan IVB/Centaur launch vehicle, with the launch window opening at 4:55 a.m. EDT, Oct. 13 KSC-97PC1534

At Launch Complex 40 on Cape Canaveral Air Station, one of three Radio...

At Launch Complex 40 on Cape Canaveral Air Station, one of three Radioisotope Thermoelectric Generators (RTGs) is being installed on the Cassini spacecraft. RTGs are lightweight, compact spacecraft electrical p... More

At Launch Complex 40 on Cape Canaveral Air Station, workers are installing three Radioisotope Thermoelectric Generators (RTGs) on the Cassini spacecraft. RTGs are lightweight, compact spacecraft electrical power systems that have flown successfully on 23 previous U.S. missions over the past 37 years. These generators produce power by converting heat into electrical energy; the heat is provided by the natural radioactive decay of plutonium-238 dioxide, a non-weapons-grade material. RTGs enable spacecraft to operate at significant distances from the Sun where solar power systems would not be feasible. Cassini will travel two billion miles to reach Saturn and another 1.1 billion miles while in orbit around Saturn. Cassini is undergoing final preparations for liftoff on a Titan IVB/Centaur launch vehicle, with the launch window opening at 4:55 a.m. EDT, Oct. 13 KSC-97PC1538

At Launch Complex 40 on Cape Canaveral Air Station, workers are instal...

At Launch Complex 40 on Cape Canaveral Air Station, workers are installing three Radioisotope Thermoelectric Generators (RTGs) on the Cassini spacecraft. RTGs are lightweight, compact spacecraft electrical powe... More

KENNEDY SPACE CENTER, FLA. -- At Launch Complex 40 on Cape Canaveral Air Station, workers are installing three Radioisotope Thermoelectric Generators (RTGs) on the Cassini spacecraft. RTGs are lightweight, compact spacecraft electrical power systems that have flown successfully on 23 previous U.S. missions over the past 37 years. These generators produce power by converting heat into electrical energy; the heat is provided by the natural radioactive decay of plutonium-238 dioxide, a non-weapons-grade material. RTGs enable spacecraft to operate at significant distances from the Sun where solar power systems would not be feasible. Cassini will travel two billion miles to reach Saturn and another 1.1 billion miles while in orbit around Saturn. Cassini is undergoing final preparations for liftoff on a Titan IVB/Centaur launch vehicle, with the launch window opening at 4:55 a.m. EDT, Oct. 13 KSC-97PC1532

KENNEDY SPACE CENTER, FLA. -- At Launch Complex 40 on Cape Canaveral A...

KENNEDY SPACE CENTER, FLA. -- At Launch Complex 40 on Cape Canaveral Air Station, workers are installing three Radioisotope Thermoelectric Generators (RTGs) on the Cassini spacecraft. RTGs are lightweight, comp... More

At Launch Complex 40 on Cape Canaveral Air Station, workers are installing three Radioisotope Thermoelectric Generators (RTGs) on the Cassini spacecraft. RTGs are lightweight, compact spacecraft electrical power systems that have flown successfully on 23 previous U.S. missions over the past 37 years. These generators produce power by converting heat into electrical energy; the heat is provided by the natural radioactive decay of plutonium-238 dioxide, a non-weapons-grade material. RTGs enable spacecraft to operate at significant distances from the Sun where solar power systems would not be feasible. Cassini will travel two billion miles to reach Saturn and another 1.1 billion miles while in orbit around Saturn. Cassini is undergoing final preparations for liftoff on a Titan IVB/Centaur launch vehicle, with the launch window opening at 4:55 a.m. EDT, Oct. 13 KSC-97PC1533

At Launch Complex 40 on Cape Canaveral Air Station, workers are instal...

At Launch Complex 40 on Cape Canaveral Air Station, workers are installing three Radioisotope Thermoelectric Generators (RTGs) on the Cassini spacecraft. RTGs are lightweight, compact spacecraft electrical powe... More

At Launch Complex 40 on Cape Canaveral Air Station, workers are installing three Radioisotope Thermoelectric Generators (RTGs) on the Cassini spacecraft. RTGs are lightweight, compact spacecraft electrical power systems that have flown successfully on 23 previous U.S. missions over the past 37 years. These generators produce power by converting heat into electrical energy; the heat is provided by the natural radioactive decay of plutonium-238 dioxide, a non-weapons-grade material. RTGs enable spacecraft to operate at significant distances from the Sun where solar power systems would not be feasible. Cassini will travel two billion miles to reach Saturn and another 1.1 billion miles while in orbit around Saturn. Cassini is undergoing final preparations for liftoff on a Titan IVB/Centaur launch vehicle, with the launch window opening at 4:55 a.m. EDT, Oct. 13 KSC-97PC1537

At Launch Complex 40 on Cape Canaveral Air Station, workers are instal...

At Launch Complex 40 on Cape Canaveral Air Station, workers are installing three Radioisotope Thermoelectric Generators (RTGs) on the Cassini spacecraft. RTGs are lightweight, compact spacecraft electrical powe... More

At Launch Complex 40 on Cape Canaveral Air Station, the Mobile Service Tower has been retracted away from the Titan IVB/Centaur carrying the Cassini spacecraft, marking a major milestone in the launch countdown sequence. Retraction of the structure began about an hour later than scheduled due to minor problems with ground support equipment. The launch vehicle, Cassini spacecraft and attached Centaur stage encased in a payload fairing, altogether stand about 183 feet tall; mounted at the base of the launch vehicle are two upgraded solid rocket motors. Liftoff of Cassini on the journey to Saturn and its moon Titan is slated to occur during a window opening at 4:55 a.m. EDT, Oct. 13, and extending through 7:15 a.m KSC-97PC1540

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

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

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

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

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

At Launch Complex 40 on Cape Canaveral Air Station, the Mobile Service Tower has been retracted away from the Titan IVB/Centaur carrying the Cassini spacecraft and its attached Huygens probe. This is the second launch attempt for the Saturn-bound mission; a first try Oct. 13 was scrubbed primarily due to concerns about upper level wind conditions. Liftoff Oct. 15 is set to occur during a launch window opening at 4:43 a.m. EDT and extending until 7:03 a.m. Clearly visible in this view are the 66-foot-tall, 17-foot-wide payload fairing atop the vehicle, in which Cassini and the attached Centaur stage are encased, the two-stage liquid propellant core vehicle, and the twin 112-foot long solid rocket motor upgrades (SRMUs) straddling the core vehicle. It is the SRMUs which ignite first to begin the launch sequence KSC-97PC1542

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

At Launch Complex 40 on Cape Canaveral Air Station, the Mobile Service Tower has been retracted away from the Titan IVB/Centaur carrying the Cassini spacecraft and its attached Huygens probe. This is the second... More

At Launch Complex 40 on Cape Canaveral Air Station, the Mobile Service Tower is being rolled away from the Titan IVB/Centaur launch vehicle carrying the Cassini spacecraft, completing a major countdown milestone. This is the second launch attempt for the Saturn-bound mission; a first try Oct. 13 was scrubbed primarily due to concerns about upper level wind conditions. Liftoff Oct. 15 is set to occur during a launch window opening at 4:43 a.m. EDT and extending until 7:03 a.m KSC-97PC1541

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

At Launch Complex 40 on Cape Canaveral Air Station, the Mobile Service Tower is being rolled away from the Titan IVB/Centaur launch vehicle carrying the Cassini spacecraft, completing a major countdown mileston... More

NASA Space Science. NASA public domain image colelction.

NASA Space Science. NASA public domain image colelction.

At Launch Complex 40 at Cape Canaveral Air Station, the Mobile Service Tower is being rolled away from the Titan IVB/Centaur launch vehicle carrying the Cassini spacecraft, completing a major countdown mileston... More

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

KSC-cassini - NASA satellite images

KSC-cassini - NASA satellite images

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

Cassini Orbiter and Huygens Probe aboard the Titan IV

Cassini Orbiter and Huygens Probe aboard the Titan IV

This image from 1997 is of the Titan IVB/Centaur carrying NASA Cassini spacecraft at Launch Complex 40 on Cape Canaveral Air Station, the Mobile Service Tower has been retracted away. NASA/JPL/KSC

The third stage of the Lockheed Martin Athena launch vehicle arrives at Launch Complex 46 at Cape Canaveral Air Station before it is mated to the second stage. The protective covering for safe transportation is removed before the third stage is lifted on the launch pad. Athena is scheduled to carry the Lunar Prospector spacecraft for an 18-month mission that will orbit the Earth’s moon to collect data from the lunar surface. Scientific experiments to be conducted by the Prospector include locating water ice that may exist near the lunar poles, gathering data to understand the evolution of the lunar highland crust and the lunar magnetic field, finding radon outgassing events, and describing the lunar gravity field by means of Doppler tracking. The launch is now scheduled for early-January 1998 KSC-97PC1588

The third stage of the Lockheed Martin Athena launch vehicle arrives a...

The third stage of the Lockheed Martin Athena launch vehicle arrives at Launch Complex 46 at Cape Canaveral Air Station before it is mated to the second stage. The protective covering for safe transportation is... More

The third stage of the Lockheed Martin Athena launch vehicle arrives at Launch Complex 46 at Cape Canaveral Air Station before it is mated to the second stage. The protective covering for safe transportation is removed before the third stage is lifted on the launch pad. Athena is scheduled to carry the Lunar Prospector spacecraft for an 18-month mission that will orbit the Earth’s moon to collect data from the lunar surface. Scientific experiments to be conducted by the Prospector include locating water ice that may exist near the lunar poles, gathering data to understand the evolution of the lunar highland crust and the lunar magnetic field, finding radon outgassing events, and describing the lunar gravity field by means of Doppler tracking. The launch is now scheduled for early-January 1998 KSC-97PC1589

The third stage of the Lockheed Martin Athena launch vehicle arrives a...

The third stage of the Lockheed Martin Athena launch vehicle arrives at Launch Complex 46 at Cape Canaveral Air Station before it is mated to the second stage. The protective covering for safe transportation is... More

The third stage of the Lockheed Martin Athena launch vehicle is placed atop the vehicle’s second stage at Launch Complex 46 at Cape Canaveral Air Station. Athena is scheduled to carry the Lunar Prospector spacecraft for an 18-month mission that will orbit the Earth’s moon to collect data from the lunar surface. Scientific experiments to be conducted by the Prospector include locating water ice that may exist near the lunar poles, gathering data to understand the evolution of the lunar highland crust and the lunar magnetic field, finding radon outgassing events, and describing the lunar gravity field by means of Doppler tracking. The launch is now scheduled for early-January 1998 KSC-97PC1591

The third stage of the Lockheed Martin Athena launch vehicle is placed...

The third stage of the Lockheed Martin Athena launch vehicle is placed atop the vehicle’s second stage at Launch Complex 46 at Cape Canaveral Air Station. Athena is scheduled to carry the Lunar Prospector space... More

The third stage of the Lockheed Martin Athena launch vehicle is lifted at Launch Complex 46 at Cape Canaveral Air Station before mating to the second stage already on the pad. Athena is scheduled to carry the Lunar Prospector spacecraft for an 18-month mission that will orbit the Earth’s moon to collect data from the lunar surface. Scientific experiments to be conducted by the Prospector include locating water ice that may exist near the lunar poles, gathering data to understand the evolution of the lunar highland crust and the lunar magnetic field, finding radon outgassing events, and describing the lunar gravity field by means of Doppler tracking. The launch is now scheduled for early-January 1998 KSC-97PC1590

The third stage of the Lockheed Martin Athena launch vehicle is lifted...

The third stage of the Lockheed Martin Athena launch vehicle is lifted at Launch Complex 46 at Cape Canaveral Air Station before mating to the second stage already on the pad. Athena is scheduled to carry the L... More

United States Senator Bob Graham of Florida announces important new federal legislation designed to support the nation's continued space industry development. The announcement was made at Launch Complex 46 at the Cape Canaveral Air Station, the dual-use Navy facility recently modified for commercial launches by the State of Florida. In the background, from left to right, are Hugh Brown, Chairman, Spaceport Florida Authority; Charles Johnson, Athena Program Manager, Lockheed Martin Astronautics; and Col. Ron Larivee, Vice Commander, 45th Space Wing KSC-97PC1763

United States Senator Bob Graham of Florida announces important new fe...

United States Senator Bob Graham of Florida announces important new federal legislation designed to support the nation's continued space industry development. The announcement was made at Launch Complex 46 at t... More

The access tower around the Athena II rocket for the Lunar Prospector spacecraft, to be launched for NASA by Lockheed Martin, was rolled back today at Launch Complex 46 at Cape Canaveral Air Station for final prelaunch preparations. The small robotic spacecraft is designed to provide the first global maps of the Moon's surface compositional elements and its gravitational and magnetic fields. The launch of Lunar Prospector is currently scheduled for Jan. 5, 1998 at 8:31 p.m KSC-97PC1800

The access tower around the Athena II rocket for the Lunar Prospector ...

The access tower around the Athena II rocket for the Lunar Prospector spacecraft, to be launched for NASA by Lockheed Martin, was rolled back today at Launch Complex 46 at Cape Canaveral Air Station for final p... More

The access tower around the Athena II rocket for the Lunar Prospector spacecraft, to be launched for NASA by Lockheed Martin, was rolled back today at Launch Complex 46 at Cape Canaveral Air Station for final prelaunch preparations. The small robotic spacecraft is designed to provide the first global maps of the Moon's surface compositional elements and its gravitational and magnetic fields. The launch of Lunar Prospector is currently scheduled for Jan. 5, 1998 at 8:31 p.m KSC-97PC1801

The access tower around the Athena II rocket for the Lunar Prospector ...

The access tower around the Athena II rocket for the Lunar Prospector spacecraft, to be launched for NASA by Lockheed Martin, was rolled back today at Launch Complex 46 at Cape Canaveral Air Station for final p... More

Delta II rocket with the Mars Polar Lander

Delta II rocket with the Mars Polar Lander

Description: KENNEDY SPACE CENTER, FLA. -- Looking like a Roman candle, the exhaust from the Boeing Delta II rocket with the Mars Polar Lander aboard lights up the clouds as it hurtles skyward. The rocket was l... More

Lunar Prospector - NASA Ames Research Center

Lunar Prospector - NASA Ames Research Center

Description: KENNEDY SPACE CENTER, FLA. - NASA's Lunar Prospector spacecraft launched successfully on its way to the Moon from Launch Complex 46 (LC46) at Cape Canaveral Air Station on January 6 at 9:38 p.m. ES... More

KENNEDY SPACE CENTER, FLA. - NASA's Lunar Prospector spacecraft launched successfully on its way to the Moon from Launch Complex 46 (LC46) at Cape Canaveral Air Station on Jan. 6 at 9:38 p.m. EST. It was the inaugural launch of Lockheed Martin's Athena II launch vehicle and the first launch from LC46, operated by Spaceport Florida Authority. Lunar Prospector, built for the NASA Ames Research Center by Lockheed Martin, is a spin-stabilized spacecraft designed to provide NASA with the first global maps of the Moon's surface and its gravitational magnetic fields, as well as look for the possible presence of ice near the lunar poles. It will orbit the Moon at an altitude of approximately 63 miles during a one-year mission.

KENNEDY SPACE CENTER, FLA. - NASA's Lunar Prospector spacecraft launc...

KENNEDY SPACE CENTER, FLA. - NASA's Lunar Prospector spacecraft launched successfully on its way to the Moon from Launch Complex 46 (LC46) at Cape Canaveral Air Station on Jan. 6 at 9:38 p.m. EST. It was the ... More

NASA’s Lunar Prospector spacecraft launched successfully on its way to the moon from Launch Complex 46 (LC46) at Cape Canaveral Air Station on Jan. 6 at 9:28 p.m. EST. It was the inaugural launch of Lockheed Martin's Athena II launch vehicle and the first launch from LC46, operated by Spaceport Florida Authority. Lunar Prospector, built for the NASA Ames Research Center by Lockheed Martin, is a spin-stabilized spacecraft designed to provide NASA with the first global maps of the moon’s surface and its gravitational magnetic fields, as well as look for the possible presence of ice near the lunar poles. It will orbit the Moon at an altitude of approximately 63 miles during a one-year mission KSC-98pc106

NASA’s Lunar Prospector spacecraft launched successfully on its way to...

NASA’s Lunar Prospector spacecraft launched successfully on its way to the moon from Launch Complex 46 (LC46) at Cape Canaveral Air Station on Jan. 6 at 9:28 p.m. EST. It was the inaugural launch of Lockheed Ma... More

NASA’s Lunar Prospector spacecraft launched successfully on its way to the moon from Launch Complex 46 (LC46) at Cape Canaveral Air Station on Jan. 6 at 9:28 p.m. EST. It was the inaugural launch of Lockheed Martin's Athena II launch vehicle and the first launch from LC46, operated by Spaceport Florida Authority. Lunar Prospector, built for the NASA Ames Research Center by Lockheed Martin, is a spin-stabilized spacecraft designed to provide NASA with the first global maps of the moon’s surface and its gravitational magnetic fields, as well as look for the possible presence of ice near the lunar poles. It will orbit the Moon at an altitude of approximately 63 miles during a one-year mission KSC-98pc109

NASA’s Lunar Prospector spacecraft launched successfully on its way to...

NASA’s Lunar Prospector spacecraft launched successfully on its way to the moon from Launch Complex 46 (LC46) at Cape Canaveral Air Station on Jan. 6 at 9:28 p.m. EST. It was the inaugural launch of Lockheed Ma... More

NASA’s Lunar Prospector spacecraft launched successfully on its way to the moon from Launch Complex 46 (LC46) at Cape Canaveral Air Station on Jan. 6 at 9:28 p.m. EST. It was the inaugural launch of Lockheed Martin's Athena II launch vehicle and the first launch from LC46, operated by Spaceport Florida Authority. Lunar Prospector, built for the NASA Ames Research Center by Lockheed Martin, is a spin-stabilized spacecraft designed to provide NASA with the first global maps of the moon’s surface and its gravitational magnetic fields, as well as look for the possible presence of ice near the lunar poles. It will orbit the Moon at an altitude of approximately 63 miles during a one-year mission KSC-98pc105

NASA’s Lunar Prospector spacecraft launched successfully on its way to...

NASA’s Lunar Prospector spacecraft launched successfully on its way to the moon from Launch Complex 46 (LC46) at Cape Canaveral Air Station on Jan. 6 at 9:28 p.m. EST. It was the inaugural launch of Lockheed Ma... More

NASA’s Lunar Prospector spacecraft launched successfully on its way to the moon from Launch Complex 46 (LC46) at Cape Canaveral Air Station on Jan. 6 at 9:28 p.m. EST. It was the inaugural launch of Lockheed Martin's Athena II launch vehicle and the first launch from LC46, operated by Spaceport Florida Authority. Lunar Prospector, built for the NASA Ames Research Center by Lockheed Martin, is a spin-stabilized spacecraft designed to provide NASA with the first global maps of the moon’s surface and its gravitational magnetic fields, as well as look for the possible presence of ice near the lunar poles. It will orbit the Moon at an altitude of approximately 63 miles during a one-year mission KSC-98pc108

NASA’s Lunar Prospector spacecraft launched successfully on its way to...

NASA’s Lunar Prospector spacecraft launched successfully on its way to the moon from Launch Complex 46 (LC46) at Cape Canaveral Air Station on Jan. 6 at 9:28 p.m. EST. It was the inaugural launch of Lockheed Ma... More

NASA’s Lunar Prospector spacecraft launched successfully on its way to the moon from Launch Complex 46 (LC46) at Cape Canaveral Air Station on Jan. 6 at 9:28 p.m. EST. It was the inaugural launch of Lockheed Martin's Athena II launch vehicle and the first launch from LC46, operated by Spaceport Florida Authority. Lunar Prospector, built for the NASA Ames Research Center by Lockheed Martin, is a spin-stabilized spacecraft designed to provide NASA with the first global maps of the moon’s surface and its gravitational magnetic fields, as well as look for the possible presence of ice near the lunar poles. It will orbit the Moon at an altitude of approximately 63 miles during a one-year mission KSC-98pc110

NASA’s Lunar Prospector spacecraft launched successfully on its way to...

NASA’s Lunar Prospector spacecraft launched successfully on its way to the moon from Launch Complex 46 (LC46) at Cape Canaveral Air Station on Jan. 6 at 9:28 p.m. EST. It was the inaugural launch of Lockheed Ma... More

Previous

of 5

Next