SPACE1's Moon Landing will be nothing like the Apollo Moon landings of yesteryear that used dangerous mechanical and electromechanical systems. The risky nature of going down to the surface of the Moon standing inside a cramped Lunar Lander, an overloaded failed computer, running out of fuel at the last second, forcing a manual detour to find a smooth landing site, and ultimately narrowly escaping a crash, are all archaic historical things of the past.
Zoom ahead into the future by 47 years! SPACE1 is incorporating the highest possible safety technology with new advanced methods, along with the most expensive precision electrodynamic rocket and derivation modules.
The mission is expected to take place in only one day, trip there, landing, and trip back home. The journey will use the powerful Electrodynamic Rocket for the highest possible speeds there and back again.
A human will be chosen to land and walk on the Moon's surface using the highest technology Augment packs and methods. The eyes of the Astronaut will be supplanted with the highest precision new state of the art space helmet and vision module manufactured to the highest and most critical specs.
Lunar navigation will be super critical and conducted by a high technology computer and software to exactly match the Moon's orbit and engage the Electrodynamic Rocket motor accordingly. The core of the rocket will be electrodynamic calibrated to the Moon and the lunar surface all throughout the flight.
SPACE1 is working on camcorders to record the mission in a presentable way for global distribution by SPACE1 Global News Agency. The last flight to the Moon was 47 years ago, December 11th, 1972, by Apollo 17. In all of the Moon missions, two people went down to the surface, while one remained in orbit overhead. In the SPACE1 Moon landing mission, one very efficient person will pilot the rocket to the Moon and go down to the surface, and return safely to the Earth.