The trajectory of any object attracted by the velocity of the sun will displace along the planetary orbits and gain the rotational momentum of them so that the opposite end of this momentum may be the creation of the "special orbit" as it first appeared in the solar system with the first objects that were accelerated in this way.
Because the orbits of "gravity assist" are not stable, meaning that they are continuously changing their orbits, they must have a beginning of this instability and an ending in the instability. Because of this, the way of them creates the "totally unpredictability of their position in any star system" meaning the way in and out of them= warp drive "applicability".
They exist on the edge of "periodicity" of the types of planets like earth , mercury, venus, mars ,jupiter and every other stable orbit, in that their instability edges on the stable orbit but also on the other side of this stability in terms of the edge of the solar system or any star system. So they are "edgy " and their edges = the greater curvature that defines the elliptic.
So they are named momentum warp drives.
Because the orbits of "gravity assist" are not stable, meaning that they are continuously changing their orbits, they must have a beginning of this instability and an ending in the instability. Because of this, the way of them creates the "totally unpredictability of their position in any star system" meaning the way in and out of them= warp drive "applicability".
They exist on the edge of "periodicity" of the types of planets like earth , mercury, venus, mars ,jupiter and every other stable orbit, in that their instability edges on the stable orbit but also on the other side of this stability in terms of the edge of the solar system or any star system. So they are "edgy " and their edges = the greater curvature that defines the elliptic.
So they are named momentum warp drives.
antennae galaxies show the way that the outermost parameter of a galaxy maybe displaced into the zone of elliptic orbits and so the galaxies involved will start to rotate at unpredictable orbits as they enter the, " momentum warp" between them.
image credit:
spacetelescope.org
image credit:
spacetelescope.org
galaxy image credit:
spacetelescope.org.
While the ellipses may share the same space, they will create the extra volume of stars in motion to define the width of the elliptic tubules and as such creates the rotation of elliptic force.
spacetelescope.org.
While the ellipses may share the same space, they will create the extra volume of stars in motion to define the width of the elliptic tubules and as such creates the rotation of elliptic force.