The Source Field Investigations

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The Source Field Investigations Page 30

by Wilcock, David


  Simply put, all the energy that makes space in our reality is the same energy that powers time in the parallel reality. And all the energy that makes space in the parallel reality is the energy that powers time in our reality. Although this seems totally impossible to visualize at first, the reason why it works is that this flowing exchange between space and time is constantly happening within every single atom and molecule of our visible Universe. That means both of these realities are stable locations we can visit—and they are totally interconnected with each other. Neither of these two realities can exist separately. They are intimately and totally dependent upon each other for their own survival. It is utterly impossible to separate them. We can watch atoms and molecules winking into and out of this parallel reality all the time—but up until now we have had no idea what we’re really seeing. This also means the space we see is actually an illusion and every point is ultimately the center of the universe.

  A Parallel Reality—in Time

  Again, theoretically this means everything you see around you has an energetic duplicate—not just your own body. In this parallel reality, your room would still look like your room. More precisely, your room would at least be the most obvious area you would see, because your room would be the closest point in time to the moment you entered into this parallel reality. You might also see dimmer, ghostlike images where your house didn’t exist yet—because there was another building there. Or there was no building at all—just an open field. Under the right circumstances, you may even be able to see back into prehistoric times, where there were dinosaurs around. Or perhaps you see glorious hints of a crystal city that might be there in the future. Nonetheless, these would be like shadows or phantoms in most cases—and may be far too weak to even be visible.

  Another strange outcome of this theory is that simply walking around in this parallel reality will have an effect much like fast-forwarding or rewinding a videotape, in terms of what you actually see. How can you know whether you will walk into the future or stroll into the past? You have to stretch your imagination even more to get the answer, but this does seem to be how the Universe really works.

  If you stay perfectly still when you go into this parallel reality, you won’t travel in time. It’s only when you start moving around that you either go into the future or the past. Let’s be clear that even though you could walk around and explore things, no one here in our reality would be able to see you. Larson said that from our normal perspective on earth, you would be stuck in space. From a quantum physics perspective, you would appear to have turned into a wave. If anyone could see you at all, you might look like the typical description of a ghost. Even though you are free to move around in this parallel universe, and you certainly can, all you’re actually doing is moving around in time. “Only motion in time can take place in the time region.”14 That means moving from one location to another in this parallel reality is actually time travel.

  Time Travel Explained

  However, saying you are totally stuck in space isn’t strictly correct either. The evidence we will investigate in later chapters tells us that if you pop in at one point, walk to another location and pop back out, you will indeed teleport between those two locations here on earth. Even better, if you walked far enough in the parallel reality, you would have noticeably time-traveled when you return. This is called a time slip, and we will review solid evidence that vortexes naturally appear on earth that can cause this to happen. Such vortex experiences are often misrepresented as “UFO abductions” with “missing time.” Skeptics have thrown a wealth of scientific data in the garbage because they just can’t stretch their imagination far enough to recognize the truth. As we will see, even a decent walk in time-space won’t typically buy you more than five days of travel through time—at least under typical circumstances. The distance you travel over there by walking doesn’t really add up to a whole lot of time.

  How do you know which way you’re going, in time, if all you’re doing is walking around? Here’s the secret: If you go ahead of where the earth was when you got there, you will go into the future. If you go behind where the earth was, you will go into the past. The trick, of course, is that the earth is rotating on its axis and revolving around the Sun. The Sun in turn is revolving around the galaxy, and the galaxy is drifting toward the Virgo cluster. Thankfully, the laws of the Universe don’t leave us stranded out in our absolute position in space when we move into time-space. Even as we move forward and backward in time, we stay with the earth. The earth rotates from west to east—so that means if you head east, you will start seeing the future, and if you head west, you will start seeing the past. (If you want to get really technical about it, you could say that you will see more of the future, or more of the past, since time is all spread out.)

  Gravity is also pushing you down, and that’s powering time as well. The flow of gravity is the flow of time—just like gravity is the flow that makes matter. Therefore, if you go up in time-space, you will move into the past—before the moment of time gravity had pushed you into when you started. If you go down, you will move into the future—after the moment of time gravity had pushed you into. The amount of time you shift through in these cases may not be very much, but in certain circumstances the effects can be measured precisely.

  The National Airlines 727 “Time Slip”

  A plane obviously heads down on the way into an airport. What if it then hits a relatively small vortex into time-space? In 1974, Charles Berlitz wrote a tantalizing three-paragraph summary of an event just like this in his classic book The Bermuda Triangle. In this account, Berlitz says the plane was approaching from the northeast, meaning it would be traveling southwest—but as we will see, Martin Caidin interviewed many more eyewitnesses and said the plane was coming in west of Miami International, meaning it was traveling east—making it even more likely to be heading into the future if it did hit such a vortex.

  An incident involving time lapse occurred at the Miami airport about five years ago, which has never been satisfactorily explained. It concerned a National Airlines 727 passenger plane which, on approach to landing from the northeast, and being tracked on radar by the Air Control Center, suddenly disappeared from the radar screen for about ten minutes and then reappeared. The plane landed without incident, and the pilot and crew evinced some surprise over the expressed concern of the ground crew since, as far as the crew was concerned, nothing unusual had happened. By way of an explanation, one of the Air Control staff said to one of the pilots, “Man, for ten minutes you just did not exist.” It was at this point that the crew checked their watches and the various time indicators in the plane, and discovered that they were uniformly ten minutes slow according to real time. This was especially remarkable, as the plane had made a routine time check twenty minutes before the incident, and at that time there was no time discrepancy.15

  There seems to be much missing from this story, if it is really true. You have an entire plane full of people who spontaneously popped ten minutes into the future. If they were at 8:50 P.M. when they went in, they were still at 8:50 P.M. when they came back out—even though everyone else’s watch now said 9:00 P.M.. Thankfully, a pilot and researcher named Martin Caidin did a much more thorough investigation of this incident, and reported his results in his 1991 book Ghosts of the Air. Caidin didn’t just read books about it.

  I spoke to some of the people involved. Airline captains, friends of mine who aided in research, officials of the Federal Aviation Administration, a literal host of investigators, all pooled their information to bring it together before I put this down on paper.16

  Caidin writes that the 727 was coming in for a landing at Miami with all their equipment working just fine. The pilots followed the air traffic controllers’ instructions and turned the plane when they were asked to—heading in on the invisible corridors they were assigned. Then, without warning, their blip on the radar disappeared. Of course, this could be caused by electrical failures, radar glitches, or a
crew member switching off the transponder system—but it also meant the 727 could have crashed into “the swampy ground far to the west of Miami International.”

  Now, by necessity, there was a real panic.

  Immediately the alarms sounded. The reactions are automatic. The word goes out from Miami Approach and Departure, and the tower, for all aircraft in that sector to “look for a Seven Two Seven that’s gone off the scope.” Pilots strain to see any signs; a reflection of sunlight from metal, a flashing strobe, bright flames, rising smoke—anything.

  Nothing. She was gone.

  Miami Approach hit the alarm signals to the coast guard and other rescue forces. Choppers bolted from the ground and raced to the last-known position of the National 727.

  Nothing.

  Then, precisely ten minutes after the radar blip vanished from the set scopes in Miami Approach, the blip reappeared before the astonished eyes of the people now crowded around that radar position.

  Reappearance was strange enough. But this was ten minutes after the 727 had disappeared, and now it had reappeared in exactly the same position it held in flight when it vanished—both on radar and in flight. [It may have moved slightly, but only enough to cause a ten-minute time slip.]

  The 727 pilot continued talking with Miami Approach, and then Miami Tower, in an absolutely calm voice. Nothing unusual could be discerned from his tone or his words. The still-astounded radar operator worked the 727 in closer, and then handed off the airliner to the tower for final landing instructions. The 727 slid in, flaps extended and gear down, and made an absolutely normal landing.

  The airliner was directed to park in an area separate from the terminal gate. When it stopped and the doors opened, federal investigators and officials of National couldn’t get into that jetliner fast enough. The crew regarded with some astonishment of their own this unexpected and unexplained flurry of activity and barrage of questions. Then they were told what had happened. “You disappeared from the scope on your descent. For ten minutes there was no radar picture of you people. When you came back on the scope, your position was exactly where it had been. Not only that, but several airliners flew through the space you had occupied in those ten minutes. What happened up there?”

  The crew—and the passengers who were questioned—were in a different situation. Something incredible had happened to them, and they didn’t know the first thing about it. “Nothing happened,” the captain insisted. “Nothing out of the ordinary, that is. We were on approach, and we came in, and we got tower, and we landed. Period.”

  “No break in communications?”

  “None.”17

  Caidin goes on to say that one of the flight crew checked his watch, compared it with everyone else’s in the flight crew, and then checked it against all the other clocks throughout the aircraft. Every one of their own clocks told the same time—but they were all ten minutes behind.

  The Bermuda Triangle was a classic book I read at the beginning of my quest, but it took me years to understand and explain what actually happened. Since this is a very technical discussion, I deliberately have not presented all the evidence for how Larson solved the mysteries of quantum mechanics and astrophysics. If you really want to roll up your sleeves and get the specifics, there is a tremendous amount of written material available to read, and it’s all been posted for free online. My colleague Dr. Bruce Peret, who runs the RS Theory Web site,18 his associate Dr. K. Nehru and others in the International Society for Unified Science are actively developing the model past the point Larson started with. Eric Julien independently rediscovered some of the same concepts, as well as others that are not in Larson’s model, in The Science of Extraterrestrials, which is also very technical and has gained the appreciation of respected Russian scientists.19

  Mass Decreases as We Reach the Speed of Light

  Here’s the burning question that immediately pops into my mind: “If time-space really exists, then how do we get there?” Once we have that answer, we may very well be able to dematerialize, teleport and travel in time—which would certainly make for a very interesting and fun-filled Golden Age. The first big clue I found for how we could directly enter into time-space came from Dr. Vladimir Ginzburg.

  In his books and technical papers, Ginzburg reveals another mistake Einstein made in the Theory of Relativity. (In my opinion, Einstein did a great job—we just need to fix up a few things.) As you may already know, conventional relativity theory says nothing can travel faster than the speed of light. Einstein’s equations suggested that as you approach the speed of light, you gain mass. You can never actually reach the speed of light, because theoretically at the speed of light you are now as massive as the entire Universe. Ginzburg, however, made a revolutionary discovery: You could turn that same relativity equation upside down. In the process, everything still works—you don’t violate any laws of physics, but there is one major difference: As you approach the speed of light, you lose mass instead of gaining it. This means that once you reach light speed, you have no mass left—at least not in space-time. This simple change to one Einstein equation has absolutely stunning implications for human civilization.

  Here’s how Ginzburg explains it on his Web site.

  You may not be prepared to abandon immediately the century-old relativistic equations. But once you are ready to do so, you will discover many amazing things: Only when a particle is at rest, it may be considered as pure matter. As soon as the particle begins to move, its gravitational mass and electrical charge will start to decrease . . . so a part of [that] matter will be converted into a field. When the particle velocity V becomes equal to the ultimate spiral field velocity C [the speed of light], its gravitational mass and electric charge become equal to zero. At this point, matter will be completely converted into a “pure” field.20

  Now we’re onto something. If we can push the whirling movement inside an atom past the speed of light, then we’ve just popped that atom over into time-space. It wasn’t until very recently that I realized there was an even more important concept hiding behind this: The motion inside the atom is already going at the speed of light, or very close to it—so it doesn’t take much to finish the job. Right then, years and years of weird little scientific facts I had been collecting in my mind all came together—and I had one of the finest Eureka moments of my entire life.

  Just a Little Push

  Physical matter is always right on the edge between these two realities. All we need to do is give it a little push to get it over the boundary—and flip it into time-space. This is how our buckyballs were able to turn into a wave just by slamming against a wall. Protons, neutrons, electrons and atoms in the quantum realm are flip-flopping all the time. You can’t necessarily see the atoms disappear out of a solid object when they flip into waves, but once I realized this is what they were doing, it became clear that others had observed and measured it happening.

  For example, Dr. Nikolai Kozyrev found that simply smashing an object against a hard surface would cause its weight to decrease. In one case, he smashed a ball bearing against a lead plate, and weighed it before and after the collision. In another case, he dropped a piece of lead against a stone basement floor. Some of the atoms popped over into time-space just from being bumped—and the objects weighed less. Even better, “These experiments showed that the weight defect does not disappear immediately after a collision, but decreases gradually—with relaxation times of about 15-20 minutes.”21 That means that the missing weight slowly comes back as those atoms quiet back down. They don’t immediately return to light or sub-light speeds—there is a fifteen to twenty-minute delay involved. This again suggests we are dealing with a fluidlike flow between our two “parallel realities” of space-time and time-space.

  Smashing the objects with violence wasn’t necessary either. In another experiment, Kozyrev found that simply shaking a weight up and down thirty times by hand was enough to cause its weight to go down.22 The strangest part of all was that the weight did not all
come back in a nice, smooth curve—it came back in sudden little quantized jumps over time. Each time the weight suddenly changed, its newest increase in mass was proportional to the others. Each weight change was also proportional to the total amount of mass that disappeared in the first place.

  If this is confusing, the easiest way I can explain it is by using a hypothetical example. If you smash a weight and it loses a hundred milligrams, let’s say, it might initially gain back ten milligrams. Then you wait . . . but nothing happens. Then, suddenly, it gets ten milligrams heavier. Then nothing happens for a while. Then ten more milligrams appear. This keeps on happening over the course of fifteen to twenty minutes. According to Kozyrev, “We succeeded in obtaining fivefold and even tenfold effects.” He also found out that this so-called effect quantization actually “takes place in almost all the experiments.”23 So again, we are looking at a basic property of physical matter. As the atoms pop back in from time-space, they don’t do so in a nice, smooth, even fashion—it’s as if there were layers within each atom. Each layer only pops in once it has slowed back down enough to cross over the light-speed boundary. That means individual atoms could be both in and out of our reality at the same time, depending on which layer you’re looking at. This will make much more sense once we discuss the layers of geometry you will find within each atom—but that comes later.

 

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