GET ON THE MOON
building by sandwitching.
basic factors of liftability of artificial lite weight surfaces from Earth out of the atmosphere and to the moon where they are anchored by bolts and fastened onto the lunar surface. After this the basic contents inside the balloon are extended or set into function by basic needs for living on the moon.
article by Henryk Szubinski
Just like shovelling dirt at home on our planet to keep the bases of buildings on firm ground, the use of space shovel with enough velocity could shovel into the lunar surface with half the work done for later human usage.
Basically starting the galactic STRIPPING EFFECT on planets with dirt on them could have the types 1,2,3 in relations to creating new vulcanoes, and orbital sky mines that burn the stuff being stripped off into the higher orbits as well as the extra gravity use for plasma formations by pressure.
The type 2 could use the dirt strippings and displace them into points in space to create new stars by the extra gravity created. And the type 3 galactic could basically displace and funnel the stars with their own effects.
The type 2 could use the dirt strippings and displace them into points in space to create new stars by the extra gravity created. And the type 3 galactic could basically displace and funnel the stars with their own effects.
the basics of the rotational orbital value needed for the effect of stripping to start is by using the V squared so that V root 360 degrees = square of the n
as 18,97 V degrees x n squared (0,00018) =0,0034 of the dirt where the related rotation ratio of 1 degree : 1 Kg x gravity special value
18,97 Kg , angle : 0,00018 Kg new gravity.
this new gravity is the basic radius out from the core or the surface of the planet so when planets with radius 1000 km will have 1000 r x 0,00018
=0,18 Kg at that position in relation to the core gravity.
Basically space ships could work this way by being at some extra radius in orbit as 2000 km, then the shoveling effect makes it =0,36 which is again in the right sector for relations to Earth gravity and angles of 360. Meaning the planets with shoveling at 2000 r meters have x 1000 the rotational of the 360 degrees.So the return to state of rest is making the planet or star rotate.When this Work starts to gein zero gravity or type 1 inertia, the effect is basically increasing the effected pull by the spaceship doing the shoveling. So the basic pull on the new dirt spirals will increase in velocity by about x 1000 . Meaning that it could reach the closest star system Centauri at 4,3/1000=0.00043 light years . That' s 8,76 hours in light speed. The basic spiral could then be controlled at some length where it becomes easy , like the strings that make waves, being ahead of the wave and controlling it's new vector input = the extra slack needed after it has done this + t extra time. So to mine planets by connecting the stuff on planets with their stars could pull any planet connected into the next star or be stringed to enough planets to combine them into one new star. This would pull any planetary strip vectors anywhere one controls them to be in at some + t .
As such the input makes new FORCE and will displace the spaceship doing the work even faster depending on the light distance seperating stars . So that to get to the nearest star system , that's x 4,3 of the x 1000 = 4300. Or 2.03 hours of light speed. Nicely folded into the 2nd star system.
Basically this symmetry could be used in the stages of burn needed for the spaceship to make it there, and the weight ratios of the gravity change could be the anti gravity that lifts it.
as 18,97 V degrees x n squared (0,00018) =0,0034 of the dirt where the related rotation ratio of 1 degree : 1 Kg x gravity special value
18,97 Kg , angle : 0,00018 Kg new gravity.
this new gravity is the basic radius out from the core or the surface of the planet so when planets with radius 1000 km will have 1000 r x 0,00018
=0,18 Kg at that position in relation to the core gravity.
Basically space ships could work this way by being at some extra radius in orbit as 2000 km, then the shoveling effect makes it =0,36 which is again in the right sector for relations to Earth gravity and angles of 360. Meaning the planets with shoveling at 2000 r meters have x 1000 the rotational of the 360 degrees.So the return to state of rest is making the planet or star rotate.When this Work starts to gein zero gravity or type 1 inertia, the effect is basically increasing the effected pull by the spaceship doing the shoveling. So the basic pull on the new dirt spirals will increase in velocity by about x 1000 . Meaning that it could reach the closest star system Centauri at 4,3/1000=0.00043 light years . That' s 8,76 hours in light speed. The basic spiral could then be controlled at some length where it becomes easy , like the strings that make waves, being ahead of the wave and controlling it's new vector input = the extra slack needed after it has done this + t extra time. So to mine planets by connecting the stuff on planets with their stars could pull any planet connected into the next star or be stringed to enough planets to combine them into one new star. This would pull any planetary strip vectors anywhere one controls them to be in at some + t .
As such the input makes new FORCE and will displace the spaceship doing the work even faster depending on the light distance seperating stars . So that to get to the nearest star system , that's x 4,3 of the x 1000 = 4300. Or 2.03 hours of light speed. Nicely folded into the 2nd star system.
Basically this symmetry could be used in the stages of burn needed for the spaceship to make it there, and the weight ratios of the gravity change could be the anti gravity that lifts it.