Because it’s never
Quick, Safe, Easy, Affordable!
MISSION TO MARS
OUR NEW RADICAL LAUNCH SYSTEM :
FASTER
CHEAPER
EASIER SAFER
HOW: THE DIFFERENCE
Others have had similar plans that do not work.
There are many reasons why their systems were not successful:
01 : They did not incorporate all of the necessary elements
02 : Most did not use a high altitude for the launch site
03 : They did not use a long vacuum tube
04 : Air chambers were not created at the end of the tube as
05 : part of their design An ideal site was not found

VACUUM
LAUNCH TUBE
The pumps are next in importance. We are needing very high-volume pumps for each section of the tube. There is to be more than one per section so that if there is a problem with one, others can complete the job of removing the air.
The Saturn Space Launch System will be
capable of accomplishing many things!
THE POD
The POD consists of a second-stage and a third-stage rocket with a capsule located in the front, just like on a normal rocket. These will be placed in a cradle which is on a sled that is pushed by 2 rocket sleds. The sled will fall away once the pod has left the tube, but the smaller rocket sled is to continue pushing the pod to a very high altitude before it also falls away and parachutes back to Earth just the same as the other sleds.
All of this is to eliminate the great expense incurred by having to use the huge first-stage rocket.

HOW: CAPABILIITIES
Our motive is to make the project a low-cost green project.
We are not inventing anything that is a new technology, but instead, we are using all proven technologies dating back to the ’50s ’60s, and ’70s. A few are a bit newer.
MAGLEV SYSTEMS and
Hyperloop systems
The pumps are next in importance. We are needing very high-volume pumps for each section of the tube. There is to be more than one per section so that if there is a problem with one, others can complete the job of removing the air.
HOW: THE DIFFERENCE
Others have had similar plans that do not work.
There are many reasons why their systems were not successful:
01 : They did not incorporate all of the necessary elements
02 : Most did not use a high altitude for the launch site
03 : They did not use a long vacuum tube
04 : Air chambers were not created at the end of the tube as
05 : part of their design An ideal site was not found

Rocket Sleds
The rocket sled version will entail using a maglev track for propelling the 2 rocket sleds and the pod sled down the track until it reaches about 700 mph. After reaching this velocity, the first rocket sled ignites its rocket engines and propels the sleds down the track until it reaches about 3,500 mph or more.