Time Machines: (Time Trave)l: Fact or Fiction?
Here's a doosy or is it doosie? for ya. Cited info also if you must. Just dont hold me by the neck and responsible this,
Thread had been dead for 3 months!
Ever since H. G. Wells wrote his classic novel The Time Machine, there has been a continuing fascination with time travel. This dream of time travel has invaded every part of society, from the mass media to the micro media. With recent advancements in science and technology, scientists have been able to theoretically prove that it is possible to travel through time.
In 1905 Albert Einstein published his theory of relativity. His theory predicted that time slows down as you approach high speeds. (Brian) This is some times called time dilation. (Encarta) As objects approach the speed of light, time slows to "a snails pace," at the speed of light time stops, and if the object could travel faster than the speed of light time would travel backwards. This is the key point in building a time machine. If a person were able to travel faster than the speed of light they would travel back in time. This example of a time machine is sometimes called the twins paradox. (Time Travel)
The twins paradox is a very simple way to explain how Einstein's theory works. There are two twins identical in every conceivable way. They were born at the same exact moment and they look exactly alike. One twin
boards a large spaceship and is sent hurdling off into space almost at the speed of light, while the other twin remains on earth. Time for the twin on the spaceship has almost stopped, while time for the earth bound twin has remained at its constant rate. When the twin on the spaceship returns home after some time, he finds that his brother is as old as their grandfather. Time slowed down for the spaceship twin, which kept him from aging. (Time Travel Research Center)
Until the creation of atomic clocks Einstein's theory was just the ramblings of a nerd. In the nineteen sixties two scientists named Keating and Hafele proved Einstein's theory. They synchronized two atomic clocks and flew one around the world. Using Einstein's equations they predicted the amount of time that the clocks would disagree with each other. They connected both of the clocks to a computer and found that Einstein was correct. The clocks disagreed with each other by nine nanoseconds, just as Einstein had predicted. This helped prove that time machines are a reality. (Time Travel)
Now, some opponents of time travel say that it is impossible to logically send a person at the speed of light without killing them because of
the "G" forces involved. When a person accelerates they experience a force pushing you back, this is called "G" force. To accelerate to the speed of light
in a short amount of time would crush the person. The only other option is to accelerate the person very slowly over a long period of time. This does not work because by the time the person reached the speed of light you would not need a time machine because they would already be in the future. In other words, it would just take too long.
This is where wormholes come into play. A wormhole is a special kind of gateway through the universe. Most of us know wormholes from "Star Trek" and other science fiction creations. The easiest way to understand a wormhole is by thinking of the universe as a flat sheet of paper. Normally, a person would have to travel laterally across the paper. If the paper were curved in a "c" shape, one could travel from the top of the "c" to the bottom part via the space in between with a wormhole. A wormhole is a way to get from one point in space to another point in space without having to travel the normal distance. (Gribbon)
There are three main ways to warp time in a wormhole. First, the object can go into the wormhole and come out the wormhole at the same
time. So, there is no true warp of time. Second, the object can appear out of the wormhole even before the object enters the other end. In this case the wormhole "speeds up" time, and the object goes into the past. This is what happens when an object goes faster than the speed of light. Finally, the object sent into the wormhole exits the wormhole only after some time delay. In this case the wormhole slows time down, and the object goes into the future. This happens as an object approaches the speed of light. (Time Travel) So to create a time machine, a person would have to accelerate one end of a wormhole close to the speed of light.
However, there are a couple of minor glitches in the wormhole theory. First, where is there a readily available wormhole? Well, a scientist named John Wheeler believes in a substance called quantum foam. Way down past the subatomic level there is believed to be a certain kind of smooth froth of wormholes. The only other option is the wormhole predicted by Einstein's equations, but that wormhole only exists for a second, then it disappears. Second, if we were able to get one of these little micro-wormholes we would need a way to keep it open. (Time Travel)
Einstein also said that in the universe there must be a kind of "negative energy." He stated that you would need this so-called "negative
energy" to keep the wormhole open. John Wheeler and his associates have found that it is possible to make this energy in the lab, by squeezing electrons out of a vacuum. But, they can only make this energy in very small amounts. Einstein's equations said that you would need at least a Jupiter size amount of this energy to sustain a one-meter wide wormhole. (Time Travel) So we would need to find someway of storing this energy for later use.
In Conclusion, it is possible to build a time machine. The field of science is expanding every day. Scientists only have to find some way of storing this "negative energy," and to send one end of the wormhole close to the speed of light. Time machines are a reality and it is possible to make one. One thousand years from now if human kind still exists, we will look of our past understanding of the universe as we knew, and laugh at it. Just like we do of our knowledge merely hundreds of years ago.
Works Cited
Brian. Brian's Views on Time Travel and Interdimensional Voyages. 16
March 2001. <
www.iit.edu/~bosabri/time.html>.
Encarta Encyclopedia Standard 2001. Computer Software.
Microsoft, 2000
"Time Travel" Narr. Stacey Keach. Nova. PBS. WGBH, Boston. 12 Oct.
1999.
Gribbon, John. EverythingYou Always Wanted To Know Time Travel. 20
Nov. 1996. <
www.biols.susx.ac.uk/home/John_Gribbin/Time_Travel.html>
Time Travel Research Center. Smithtown, NY. 14 June 2001.
<
www.time-travel.com/physics.htm>.
...and Christopher Priest's An Infinite Summer, while you're at it...(and, maybe, I'll throw in Priest's Indoctrinaire, to really mess with your minds 
)
