Time Travel By Remote Viewing (RV).

This What I Found on Time Travel by Remote Viewing.

What is Remote Viewing?

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Remote viewing is a structured, teachable discipline that enlists the unconscious mind to gain direct knowledge about inaccessible targets – about people, places, things, or events in the past, present, or future. A Remote Viewing session begins with a “cue” or question that defines the data you are seeking. These cues may consist of anything from the World’s next catastrophic event to locating your lost car keys.


Remote Viewing was developed by the CIA and the United States military by studying how the human mind obtains data on an unconscious level. Through years of top secret scientific study, a protocol was developed that forces the mind to follow this unconscious process of data collection. This newly discovered skill, Remote Viewing; quickly produced high levels of accuracy far greater than the program originally expected; therefore, was utilized for real-life military operations.

Though commonly defined as a “psychic” or “Psi” ability by many individuals; Remote Viewing is rather, a scientifically developed skill that is able to consistently obtain accuracy rates of 80% on data during an RV session. This is the first skill that truly unlocks the unconscious mind to consistently obtain accurate, reliable information about anything one would like to know.

The individual responsible for refining Remote Viewing to what it is today is none other than Major Ed Dames; the most elite instructor in the RV industry. Major Dames is the only training instructor that provides the most effective and groundbreaking Remote Viewing program in the world!

The new, built from the ground up, “Learn RV” course incorporates 17 years of evolved, post military operational knowledge. The training set utilizes the natural DVD menu system to provide a structured, comfortably paced training environment, with an effective mix of training targets, lectures, and feedback.

The history behind Remote Viewing

Remote Viewing techniques were pioneered by a group of scientists working with several highly gifted psychics, as part of a U.S. government-sponsored research program. Throughout 20 years of research and development, they developed a training methodology that enabled virtually anyone to be taught this powerful mind skill for information collection.

In the mid-1970’s at the Stanford Research Institute, a team of scientists and psychics developed a protocol that allowed test subjects to describe distant locations. This protocol, dubbed "remote viewing," proved more reliable than earlier attempts to simply pick random numbers or guess selected cards. In fact, it turned out to be accurate enough to support sensitive intelligence operations.

Equally remarkable, researchers found that these new and powerful mind skills could be taught to virtually anyone. A training model was developed and then refined by a military remote viewing unit. In 1995, this program came to light—and made headlines—when the CIA acknowledged its the existence of a clandestine program known as "Stargate." Under this program Military Intelligence personnel had undergone training to become psychic spies.

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Remote Viewing is now declassified to the public.

How does Remote Viewing work?

The Remote Viewing protocol is what gradually trains the unconscious mind to provide information regarding a target in a specific sequence of data. As you write down the data obtained, you become more connected with the target thereby gradually providing increasingly detailed information. This information is then translated into sketches and drawings.

In remote viewing theory, everything in the universe exists as a pattern of information within the collective unconscious, or what is sometimes referred to as the "Matrix." Remote viewing simply allows you to tap into this phenomenon and to transfer a particular pattern to your conscious awareness.
Like much of modern quantum physics, this explanation challenges our common-sense notions of cause and effect. But the bottom line is that trained remote viewers hit their "targets" with at least 80-90% accuracy.

It should be noted that within the Remote Viewing community, "viewing" is considered a metaphor instead of a literal description; what actually happens would more accurately be called "perceiving." Indeed, remote viewers must learn to bypass their rational thoughts in order to allow their unconscious to work. And though it makes use of the unconscious, Remote Viewing is the rigorous, repeatable, scientific collection of information.
Predicted Examples:
Hurricane Irene Predicted by Remote Viewing
Japan Disaster Predicted by Remote Viewing
Unprecedented Solar Flare Predicted!
Remote Viewers Foresaw Economic Downfall

Source: http://www.remoteviewingproducts.com/whatis.cfm

Time travel: a conversation between a scientist and a literature professor

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Literature professor Simon John James and physicist Richard Bower were both involved in the curating the exhibition, Time Machine - the past, the future and how stories take us there. Their conversations quickly revealed to them the many, wildly various, meanings of “time travel”. Here, they discuss how time travelling in literary and scientific terms might, one day, coincide.

Simon John James: Richard, what does the term “time travel” mean for a physical scientist?

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Richard Bower: Time travel is the basis of modern physics, and, for anyone that looks up at the night sky, an everyday experience. When we view the stars and planets, we see them, not as they are now, but as they were in the past. For the planets this time delay is only a few minutes, but for most of the stars in the night sky, thousands of years. For galaxies, faint smudges of light made up of very distant collections of stars, the delay can be millions or billions of years. By observing the faintest galaxies with the world’s latest telescopes, we can look back through time and watch the whole history of the universe unfold.

But this is not the most satisfying kind of time travel. It allows us only to gaze into the past as remote observers. One of the key challenges for modern physics is to determine whether it is possible to influence the past.

One of the key concepts of Einstein’s Theory of Relativity is that objects exist in a long line in 4D spacetime, a unification of time and space. Although all observers agree on the length of the world line that connects two events, they may have different views about whether the events occur simultaneously, or at the same location but at different times, or a mixture of both. For example, while I sit at my desk to eat lunch, then work a little and get up to go home several hours later, a (very) fast-moving observer will see me whizz by eating lunch and immediately getting up to go home. In Einstein’s theory, time and space are mixed together: we cannot think of them separately. It therefore makes best sense to think of myself as always moving along that 4D world-line, travelling into the future at the speed of light.

But is it possible to cheat the safeguards of Einstein’s theory and to travel backwards through time? At face value the answer is no, but then again, the science of earlier generations would have said it was impossible for mankind to fly. Perhaps all scientists need is inspiration and a cunning idea.

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The Time Machine by HG Wells. Artwork by Mike Mahle, courtesy of Rock Paper Books

SJJ: Well, you can find a lot of inspiration and cunning ideas in fantastic fiction, of course. Perhaps the most famous time travel text is The Time Machine (1895) by HG Wells, which was the first to imagine humans travelling in time through the use of technology. Other of his imaginations have been realized  – he imagined and wrote about the technology of powered flight before science made it possible in real life, for example. Wells’s innovative idea led to modern time travel stories such as Back to the Future or Doctor Who.

But many different kinds of stories travel in time: Aristotle observed that a good story has a beginning, a middle and an end – but they do not have to be in that order. Even a text as ancient as Homer’s Iliad does not begin with the judgement of Paris, but with Achilles sulking in his tent in the ninth year of the Trojan War, and the story unfolds from there. Whodunnits usually don’t tend to begin with the murder, but with the discovery of the body, and the plot is reconstructed by the detective as the story moves both forwards and backwards. This is the temporal freedom of narrative time.

RB: What’s freeing in the literary device is for practical time travel the central obstacle. Although Einstein’s theories allow us to stretch and shrink time, the causal ordering of events remains constant. While, in your example, the life of the murder victim might experience their life flashing before their eyes in their dying seconds, the experience of their life will always precede the moment of death.

But in The Terminator, to take one example, the future human civilisation finds a way to loop the protagonist’s world line so that he travels back in time to intercept the cyborg and avert Sarah Connor’s death. In the inner regions of a spinning black hole, Space and time are mixed so that this is tantalizingly close to possible, but I’ve never knowingly met anyone that made their way back from the future this way. Perhaps the looped world line cuts off the old future and pops out a new future, creating parallel worlds that exist at the same time.

From the conventional point of view, there’s rather a lot wrong with the idea of looping back in time. But modern interpretations of quantum mechanics suggest that the world may actually consist of many parallel futures, constantly splitting off from one another. All of these futures exist simultaneously, but we are only conscious of one of them. From this viewpoint, there isn’t so much to fear from Time Travel. The looped world line simply creates another layer of possible futures.

SJJ: I’m fascinated by time travel’s flexibility as metaphor for talking about many different kinds of academic research. History, archaeology would be obvious examples, but in a recent project I’ve been really inspired by work in the psychology of autobiographical memory. Narrative is not just a property of literary and other kinds of texts: it has been argued that the human sense of self is constructed from our narrating of our own experiences within the passing of time: that memory and planning for the future are a kind of “mental time travel” which allows us to constitute identity.

Here my literary example is Charles Dickens’s A Christmas Carol. Scrooge travels back to memories of his past selves, and by so doing is encouraged to change his ways for the better in the future. We could think of the despised, neglected miser of the vision of Christmas Yet to Come, and the beloved happy Scrooge of the novel’s ending as those inhabiting two different “parallel worlds”, perhaps?

RB: It’s certainly fascinating how literary ideas challenge scientific understanding – perhaps both of those parallel futures might be proved equally real yet.

Source: http://www.projecttimetravels.com/time-travel-a-conversation-between-a-scientist-and-a-literature-professor/ 

Time Traveling: Theories, Paradoxes & Possibilities

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Time travel — moving between different points in time — has been a popular topic for science fiction for decades. Franchises ranging from "Doctor Who" to "Star Trek" to "Back to the Future" have seen humans get in a vehicle of some sort and arrive in the past or future, ready to take on new adventures.

The reality, however, is more muddled. Not all scientists believe that time travel is possible. Some even say that an attempt would be fatal to any human who chooses to undertake it.

Understanding time

What is time? While most people think of time as a constant, physicist Albert Einstein showed that time is an illusion; it is relative — it can vary for different observers depending on your speed through space. To Einstein, time is the "fourth dimension." Space is described as a three-dimensional arena, which provides a traveler with coordinates — such as length, width and height —showing location. Time provides another coordinate — direction — although conventionally, it only moves forward. (Conversely, a new theory asserts that time is "real").

Einstein's theory of special relativity says that time slows down or speeds up depending on how fast you move relative to something else. Approaching the speed of light, a person inside a spaceship would age much slower than his twin at home. Also, under Einstein's theory of general relativity, gravity can bend time.

Picture a four-dimensional fabric called space-time. When anything that has mass sits on that piece of fabric, it causes a dimple or a bending of space-time. The bending of space-time causes objects to move on a curved path and that curvature of space is what we know as gravity.

Both the general and special relativity theories have been proven with GPS satellite technology that has very accurate timepieces on board. The effects of gravity, as well as the satellites' increased speed above the Earth relative to observers on the ground, make the unadjusted clocks gain 38 microseconds a day. (Engineers make calibrations to account for the difference.)
In a sense, this effect, called time dilation, means astronauts are time travelers, as they return to Earth very, very slightly younger than their identical twins that remain on the planet.
Through the wormhole
General relativity also provides scenarios that could allow travelers to go back in time, according to NASA. The equations, however, might be difficult to physically achieve.
One possibility could be to go faster than light, which travels at 186,282 miles per second (299,792 kilometers per second) in a vacuum. Einstein's equations, though, show that an object at the speed of light would have both infinite mass and a length of 0 . This appears to be physically impossible, although some scientists have extended his equations and said it might be done.
A linked possibility, NASA stated, would be to create "wormholes" between points in space-time. While Einstein's equations provide for them, they would collapse very quickly and would only be suitable for very small particles. Also, scientists haven't actually observed these wormholes yet. Also, the technology needed to create a wormhole is far beyond anything we have today.
Alternate time travel theories
While Einstein's theories appear to make time travel difficult, some groups have proposed alternate solutions to jump back and forth in time.
Infinite cylinder
Astronomer Frank Tipler proposed a mechanism (sometimes known as a Tipler Cylinder) where one would take matter that is 10 times the sun's mass, then roll it into very long but very dense cylinder.
After spinning this up a few billion revolutions per minute, a spaceship nearby — following a very precise spiral around this cylinder — could get itself on a "closed, time-like curve", according to the Anderson Institute. There are limitations with this method, however, including the fact that the cylinder needs to be infinitely long for this to work.

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An artist's impressi on of a black hole like the one weighed in this work, sitting in the core of a disk galaxy. The black-hole in NGC4526 weighs 450,000,000 times more than our own Sun.

Credit: NASA/JPL-Caltech

Black holes
Another possibility would be to move a ship rapidly around a black hole, or to artificially create that condition with a huge, rotating structure.
"Around and around they'd go, experiencing just half the time of everyone far away from the black hole. The ship and its crew would be traveling through time," physicist Stephen Hawking wrote in the daily mail.
"Imagine they circled the black hole for five of their years. Ten years would pass elsewhere. When they got home, everyone on Earth would have aged five years more than they had."
However, he added, the crew would need to travel around the speed of light for this to work. Physicist Amos Iron at the Technion-Israel Institute of Technology in Haifa, Israel pointed out another limitation if one used a machine: it might fall apart before being able to rotate that quickly.
Cosmic strings
Another theory for potential time travelers involves something called cosmic strings — narrow tubes of energy stretched across the entire length of the ever-expanding universe. These thin regions, left over from the early cosmos, are predicted to contain huge amounts of mass and therefore could warp the space-time around them.
Cosmic strings are either infinite or they’re in loops, with no ends, scientists say. The approach of two such strings parallel to each other would bend space-time so vigorously and in such a particular configuration that might make time travel possible, in theory.
Time machines
It is generally understood that traveling forward or back in time would require a device — a time machine — to take you there. Time machine research often involves bending space-time so far that time lines turn back on themselves to form a loop, technically known as a "closed time-like curve."

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To accomplish this, time machines often are thought to need an exotic form of matter with so-called "negative energy density." Such exotic matter has bizarre properties, including moving in the opposite direction of normal matter when pushed. Such matter could 
theoretically exist, but if it did, it might be present only in quantities too small for the construction of a time machine.
However, time-travel research  suggests time machines are possible without exotic matter. The work begins with a doughnut-shaped hole enveloped within a sphere of normal matter. Inside this doughnut-shaped vacuum, space-time could get bent upon itself using focused gravitational fields to form a closed time-like curve. To go back in time, a traveler would race around inside the doughnut, going further back into the past with each lap. This theory has a number of obstacles, however. The gravitational fields required to make such a closed time-like curve would have to be very strong, and manipulating them would have to be very precise. [Related: Warp speed. Scotty? Star Trek's FTL Drive May Actually Work]

- See more at: https://www.space.com/21675-time-travel.html#sthash.WjDGoHqO.dpuf

Time travel may be theoretically possible, but it is beyond our current technological capabilities.

Credit: Argus Shutterstock

Content Source: Space.com ContributorBy Elizabeth HowellJune 21, 2013 03:07pm ET, 

Time Travel

Time travel is the concept of movement (such as by a human) between certain points in time, analogous to movement between different points in space, typically using a hypothetical device known as a time machine, in the form of a vehicle or of a portal connecting distant points in time. 
Time travel is a recognized concept in philosophy and fiction, but traveling to an arbitrary point in time has a very limited support in theoretical physics, and usually only connected with quantum mechanics  or wormholes, also known as Einstein-Rosen bridges. 
In a more narrow sense, one-way time travel into the future via time dilation is a well-understood phenomenon within the frameworks of special relativity and  general relativity, but advancing a large amount of time is not feasible with current technology. The concept was touched upon in various earlier works of fiction, but was popularized by H. G. Wells' 1895 novel The Time Machine, which moved the concept of time travel into the public imagination, and it remains a popular subject in science fiction.

Forward time travel

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Some ancient myths depict a character skipping forward in time. In Hindu mythology, the Mahabharata mentions the story of King Raicata Kakudomi, who travels to heaven to meet the creator Brahma and is surprised to learn when he returns to Earth that many ages have passed.

The Buddhist Pali Canon mentions the relativity of time. The Payasi Sutta tells of one of the Budha's chief disciples, Kumara Kasapa, who explains to the skeptic Payasi that, "In the Heaven of the Thirty Three Devas, time passes at a different pace, and people live much longer. "In the period of our century; one hundred years, only a single day; twenty four hours would have passed for them."

The Japanese tale of "Urishima Taro", first described in the Nihongi (720) tells of a young fisherman named Urashima Taro who visits an undersea palace. After three days, he returns home to his village and finds himself 300 years in the future, where he has been forgotten, his house is in ruins, and his family has died.

Early science-fiction stories feature characters who sleep for years and awaken in a changed society. Among them L'An 2440, rêve s'il en fût jamais (1770) by Louis Sebastien Mercier, Rip Van Winkle (1819) by Washington Irving, Looking BAckward (1888) by Edward Bellamy, and When THE Sleeper Awakes (1899) by H.G. Wells. Prolonged sleep, like the more familiar Time machine, is used as a means of time travel in these stories.

Backward time travel

Like forward time travel, backward time travel has an uncertain origin. Samuel Madden's Memoirs of The Twentieth Century (1733) is a series of letters from British ambassadors in 1997 and 1998 to diplomats in the past, conveying the political and religious conditions of the future.^:95–96Because the narrator receives these letters from his guardian Angel, Paul Alkon suggests in his book Origins of Futuristic Fiction that "the first time-traveler in English literature is a guardian angel."^:85 Madden does not explain how the angel obtains these documents, but Alkon asserts that Madden "deserves recognition as the first to toy with the rich idea of time-travel in the form of an artifact sent backward from the future to be discovered in the present."^:95–96

In 1836 Alexander Veltman published Predki Kalimerosa: Aleksandr Filippovich Makedonskii (The Forebears of Kalimeros: Alexander, son of Philip of Macedon), which has been called the first original Russian science fiction novel and the first novel to use time travel. The narrator rides to ancient Greece on a Hippogriff, meets Aristotle, and goes on a voyage with Alexander The Great before returning to the 19th century.

In the science fiction anthology Far Boundaries (1951), editor August Derleth claims that an early short story about time travel is "Missing One's Coach: An Anachronism", written for the Dublin Literary Magazine by anonymous  author in 1838.^:3 While the narrator waits under a tree for a coach to take him out of Newcastle, he is transported back in time over a thousand years. He encounters the Venerable Bede in a monastery and explains to him the developments of the coming centuries. However, the story never makes it clear whether these events are real or a dream.

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Charles Dickens A Christmas Carol (1843) has early depictions of time travel in both directions, as the protagonist, Ebeneezer Scrooge, is transported to Christmases past and future. Other stories employ the same template, where a character naturally goes to sleep, and upon waking up finds itself in a different time.

A clearer example of backward time travel is found in the popular 1861 book Paris avant les hommes (Paris before Men) by the French botanist and geologist Pierre Boitard, published posthumously. In this story, the protagonist is transported to the prehistoric past by the magic of a "lame demon" (a French pun on Boitard's name), where he encounters a Plesiosaur and an apelike ancestor and is able to interact with ancient creatures.

Edward Everette Hale's "Hands Off" (1881) tells the story of an unnamed being, possibly the soul of a person who has recently died, who interferes with ancient Egyptian history by preventing Josph's enslavement. This may have been the first story to feature an alternate History created as a result of time travel.

Time machines

Enrique Gaspar Rimbau's El Anacronópete (1887) may have been the first story to feature a vessel engineered to travel through time. Andrew Sawyer has commented that the story "does seem to be the first literary description of a time machine noted so far", adding that "Edward Page Mitchell's story 'The Clock That Went Backward' (1881) is usually described as the first time-machine story, but I'm not sure that a clock quite counts." H. G. Wells's The Time MAchine (1895) popularized the concept of time travel by mechanical means

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One of the first stories to feature time travel by means of a machine is "The clock that Went backward" by Edward Page Mitchel, which appeared in the New York Sun in 1881. However, the mechanism borders on fantasy. An unusual clock, when wound, runs backwards and transports people nearby back in time. The author does not explain the origin or properties of the clock.

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