Delta configuration: Using Gravity for Interstellar Travel.

When all three of these amplifiers are being used for travel, they're in the Delta configuration.

Referring to this illustration of space/time distortion below, lets assume the red ball A, can generate a strong gravitational field and lens that gravitational field or wave in this case.  Lensing a strong wave is sufficient to shoot a vector in any direction and therefore distort space-time in its path.  But to define a point in space-time and bring that point to the gravity source, essentially compressing the space-time between   A and B, then the Red ball would need at least 2 or 3 separately generated gravity wave vectors.  This is due to the need to triangulate the three synchronized lensed beams of gravity to a distant point where they intersect.  One example of a triangulation program that uses separate but synchronized vectors exists in the 3D motion capture industry which we use to do feature film effects.  Another example is seen in sound based programs that can detect the exact point of origin of a sniper's position simply by listening to the gunshot from three to six different microphones. When we generate and intense gravitational field, we can distort the space/time and in turn the distance between the point where we are and the 'point' where we want to be. We can then position ourselves at the point where we want to be,  a very small move at this stage, and then stop generating the gravitational field...allowing space/time to return to it's natural form.   We would now be at that new point, still millions of miles from where we started an instant ago.

With the effects of gravity from so many sources in space, its safe to assume light wouldn't travel in a straight line naturally. So to shoot too far in the distance could be disastrously off the target by millions of miles.  These crafts travel in zig-zag patterns or "small chunks" to maintain a sense of its position in space.  Only the most sophisticated navigation system could keep track of these jump points.  Remember, our star charts are only valuable from our point of view. One powerful jump into space and all those star charts would be void.  Distance from earth to the star as a cross reference would not be enough because that would be to assume that light is really traveling in a straight line, unaffected by gravitational forces.

 We know that the shortest distance between two points is a straight line, so in our universe we've always assumed that the fastest way from point A to point B was to travel in a straight line between the two points at the speed of light. -1 When you're distorting  space/time and you have the ability of generating an intense gravitational field, then the fastest way from point A to point B is to distort, or warp, or bend the space/time between points A and B, bringing points A and B closer together. The more intense the gravitational field, the greater the distortion of space/time and the shorter the distance between points A and B. -2 Space/time is an 'entity' and one of it's properties is that it can be distorted or bent by a gravitational field. The gravitational field we use to bend or warp space-time propagates at 7.46hz at a one micron bandwidth. The amplitude of this wave and simultaneous triangular lensing are the main variables used to distort space-time. -3 We know that gravity bends or distorts space/time and light by virtue of the fact that we're able to see stars which we know should be blocked from our view by the sun. Once the space/time of the destination point has been warped or bent towards the source, the craft generating the source makes the small move into that space/time. -4 The great benefit of generating an intense gravitational field is that you can not only turn it on, you can turn it off. When the gravity amplifiers are "shut-off", this results in the craft now "existing" in the target space/time location. In this manner, we can travel great distances with little linear movement and this is how space/time distortion translates into reduced distance. -5 That's how it's possible to cross the vast expanses of space required for interstellar travel without exceeding the speed of light and without traveling in a linear mode. And, up until this point in time, great mass such as a star, planet, or moon was the only source of a discernable gravitational field that we were aware of. -6 Just as the gravitational field around great mass, such as a planet, distorts space and time, any gravitational field, whether naturally occurring or generated, distorts space and time in a similar manner. -7 Download MESHWARP.MPG

 We know that gravity bends or distorts space/time and light by virtue of the fact that we're able to see stars which we know should be blocked from our view by the sun. We've used radio and optical telescopes to map stars and other celestial bodies during the course of our yearly orbit around the sun, so we know where these celestial bodies should be. When the sun is between us and a star, many times we can still see the star as though it were in a different position.

THE NEXT QUESTION IS "HOW DO YOU GENERATE A GRAVITATIONAL FIELD?"

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