J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html





J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html





J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html












J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html





J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html





J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html










J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html





J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html





J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html









J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html





J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html





J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html






J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html












J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html





J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html





J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html












J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html





J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html





J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html










J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html





J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html





J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html









J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html





J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html





J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html






J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html











J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html





J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html





J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html












J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html





J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html





J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html










J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html





J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html





J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html









J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html





J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html





J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html






J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html











J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html





J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html





J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html










J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html





J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html





J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html









J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html





J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html





J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html






J




J-2X : A direct descendant of the Apollo-era J-2 engine, the J-2X


"ENGINE STAND – SSC
Workers at the Stennis Space Center completed structural steel construction on the facility's new A-3 Test Stand. Approximately four million pounds of fabricated steel were used in erecting the 260-foot tall structure. When it’s complete with its on-stand fuel tanks, the new stand will allow engineers to test engines at simulated altitudes of up to 100,000 feet. This new A-3 test stand will be used to demonstrate the J-2X engine now in development. A direct descendant of the Apollo-era J-2 engine, the J-2X will power the upper stages of the Ares rockets that’ll propel astronauts to the International Space Station and the moon."
NASA TV's This Week @NASA, April 17
http://www.nasa.gov/multimedia/podcasting/twan_04_17_09.html