View: https://www.youtube.com/watch?v=wqriel3CMd8
Before I attempt to get this to go strait up in the air I had to determine exactly
what section of the positive only power wire was tensing/pulling and causing the propulsion.
I attached the bare part of the positive only power wire to the front side of
the cylinder cap that releases charges on the back end as mentioned in previous videos.
Then I taped down that wire to front and back support stick for the cylinder AKA what you
would call the drive.
Next I taped down any excess supply wire at the back end to a separate stick to completely
isolate the above mentioned portion of wire you saw circled in red at the beginning of the video
to prove that the excess supply wire was not responsible for propulsion.
I knew if I was able to achieve any movement in this scenario that it was the completely isolated
wire that was attached only to the stick/drive responsible for propulsion.
The great news is that it was only that attached portion to the stick/drive segment responsible for
the propulsion and it shows it is working isolated from the rest of the supply wire as you
can see in this test video.
Now that I know this information it is time to now attempt to see if this is producing enough
force to get something off the ground also.
From previous test I know it will produce constant acceleration in one direction using only electrcity
in the vacuum space.
Now let's see if this cannot only be a constant acceleration space drive but can replace rockets to get
humans off the Earth directly also.
One propulsion system responsible for all of it.
Bold attempt and statement I know but go big or go home.
Even if it does not end up being a single propulsion system for all of it
From all the test it is looking like you can still use a rocket to get you into space and this drive I have developed
to get you to the planets and stars using constant acceleration in space with the only fuel being required being electricity alone.
If not 1 G constant a respectable portion of it.