How to Build a Time Machine: The Real Science of Time Travel [NOOK Book]


A pop science look at time travel technology, from Einstein to Ronald Mallett to present day experiments. Forget fiction: time travel is real.

In How to Build a Time Machine, Brian Clegg provides an understanding of what time is and how it can be manipulated. He explores the fascinating world of physics and the remarkable possibilities of real time travel that emerge from quantum entanglement, superluminal speeds, neutron star cylinders and ...

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How to Build a Time Machine: The Real Science of Time Travel

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A pop science look at time travel technology, from Einstein to Ronald Mallett to present day experiments. Forget fiction: time travel is real.

In How to Build a Time Machine, Brian Clegg provides an understanding of what time is and how it can be manipulated. He explores the fascinating world of physics and the remarkable possibilities of real time travel that emerge from quantum entanglement, superluminal speeds, neutron star cylinders and wormholes in space. With the fascinating paradoxes of time travel echoing in our minds will we realize that travel into the future might never be possible? Or will we realize there is no limit on what can be achieved, and take on this ultimate challenge? Only time will tell.

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Editorial Reviews

From the Publisher
"In ‘How to Build a Time Machine’ we start each chapter with an affirmation; ‘Yes, time travel is possible …’.  There’s clarification, ‘ifs’, often detailed historic references; consequences; and then the practicalities – at which point you might have the feeling that it’s not possible after all.  But then there’s the ‘Or is it?’, and one cannot but take the bait and turn the page (loop). To name but a few, what does the following have to do with time-travel?: near-light speed travel; an infinitely long cylinder built from dust - or a less ambitious one (!) built from Neutron stars; Wormholes; Paradoxes; Black/White Holes; Antimatter;  Dark Energy…?  If you’re like me when presented with such a list - appetite whet to the point of drooling - this is a book written with you in mind!  One last and very important point: Clegg is both a writer and a Physicist; and it’s as a writer – one who is able to communicate physics to the non-specialist – and that makes this book so very enjoyable.  The hard stuff is there; between the lines; but we’re not asked to deal with it – Clegg leads us through, in his own imitable style! There are just two equations: Einstein’s E=MC2 (of course!), and Maxwell’s – the latter because they’re so “beautifully spare and simple looking”. Perfect."  - Dr. Peet Morris of Oxford University
Library Journal
With an eye to making science interesting and understandable, Clegg (Inflight Science: A Guide to the World from Your Airplane Window; Before the Big Bang: The Prehistory of the Universe) continues to craft accessible works out of difficult topics, in this case the nature of time. No, readers will not find step-by-step instructions for creating their own TARDIS, but via Clegg's fantastic overview of the history of our study of the science and nature of time, they can better appreciate the obstacles to sending humans back and forth through a chronology. These problems notwithstanding, Clegg reminds us of how much humans have accomplished in the science so far and of the many things once thought unimaginable that are now part of everyday life. VERDICT An engaging read, highly recommended for the armchair physicist of the Michio Kaku school of popular science. Clegg excels at making science accessible.—Rachel M. Minkin, Michigan State Univ. Libs., Lansing
Kirkus Reviews

Not quite a how-to, but a survey of the science behind time travel--if anyone ever invents it.

British pop-science writer Clegg (Inflight Science: A Guide to the World From Your Airplane Window, 2011, etc.) notes that time travel is not just a trope of science fiction any more. Increasingly, serious physicists accept that travel to the future and back, or to the past and back, is theoretically possible. The laws of physics provide a few interesting options, and examining them provides an opportunity to look at some interesting corners of modern science. Einstein's theories of special and general relativity describe how motion and gravity affect objects and people. Movement at high speeds, or in powerful gravity fields, changes the rate at which time flows. GPS systems have to adjust for discrepancies between clocks in orbit and those on the ground. These effects can slow time down so travelers can visit distant futures without living through all the years between. Of course, there are problems with these theories: Gravitational fields strong enough to slow time also create tidal forces that can rip matter apart. Other theoretically feasible methods of time travel require building structures such as cylinders of infinite length--hardly a practical option. Clegg also dissects schemes such as going into the past and playing the stock market armed with foreknowledge of what will rise or fall. He covers most of the themes advanced by science fiction, plus some of the more adventurous scientific minds, generally avoiding math or tricky technical details.

A solid overview of some of the quirkier corners of physics, with an entertaining connection to pop culture.

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Product Details

  • ISBN-13: 9781429990097
  • Publisher: St. Martin's Press
  • Publication date: 12/6/2011
  • Sold by: Macmillan
  • Format: eBook
  • Pages: 320
  • Sales rank: 749,297
  • File size: 359 KB

Meet the Author

BRIAN CLEGG holds a physics degree from Cambridge and has written regular columns, features, and reviews for numerous magazines. He lives in Wiltshire, England, with his wife and two children.

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Read an Excerpt


“Clearly,” the Time Traveler proceeded, “any real body must have extension in four directions: it must have Length, Breadth, Thickness and—Duration.… There are really four dimensions, three which we call the three planes of Space and, a fourth, Time. There is, however, a tendency to draw an unreal distinction between the former three dimensions and the latter.”
—Herbert George Wells (1866–1946), The Time Machine (1895)

Everyone can travel in time. Our adventures in this mysterious dimension are limited, but they exist. As far as forward travel goes, we are all on a conveyor belt through time, rolling into an uncertain future at a rate of one second per second. Inexorably we glide into the future, converting it into the present just as the moment that was once the present becomes the past.
We can also all travel backward in time, but this experience is quite different from our stately forward motion, uninterrupted except by death. Our travels backward are through the medium of memory, and lack that smooth steady progress of our forward motion. Instead, we jump around from time to time with startling rapidity. One moment we might be at a point in our childhood, which for some could be seventy, eighty, ninety years away. The next thing we know our memories are focused on events from ten minutes ago. There is no constraint to the speed at which memory can jump around in time.
You might argue, “That’s just memory; it’s not time travel.” After all, memories aren’t real. You aren’t actually there. But consider just how much your memories define who and what you are. Without them, you aren’t the same human being—this is what is so distressing about the onset of neural diseases where an individual loses his or her memories. The journey back in time produced by a memory may not involve being physically transported, but it is much more real to us than many objective “realities.” A strong memory will far outweigh a news report from the other side of the world. The news may reflect something that is happening at that moment in time, but for the observer it could have relatively little significance.
There are even tourist destinations in the segments of time that have been relegated to history, points in our personal past that are hugely popular destinations for a whole host of mental time travelers. Most adults can remember where they were and what they were doing on September 11, 2001. These so-called flashbulb memories can be distorted like any other recollection. Yet this does not take away the fact that they are specific points in the time stream that many individuals can pinpoint and identify.
For those of us who are older, another date is a frequent destination, a date that is doubly significant for my personal interest in time travel. That date is November 22, 1963. Many people can remember what they were doing on that day when they heard the news that President John F. Kennedy had been assassinated. One of the effects of the terrible news was a disruption of TV schedules. And this was to have an impact on a show that was broadcast in the UK for the first time on the next day, Saturday, November 23, 1963.
The TV show was a new family drama called Doctor Who. Because so few people were watching TV in the aftermath of the Kennedy assassination, that first episode was repeated the following Saturday before the second episode was shown. It was Doctor Who that brought the concept of time travel to many British viewers, and later would be seen around the world. It proved an enduring concept, and after a break of a number of years, the show is again being made more than forty years later.
Although it wasn’t long after that I came across the H. G. Wells novel The Time Machine, it was Doctor Who that first got me thinking about what it would mean to travel in time. The show rarely explored the paradoxes and peculiarities of time, but early on it did indulge in visits to periods in Earth’s history, past and future. Before long, the writers would focus more on travel to distant planets and alien life, but it was always possible to use time as part of the story line. To be honest, I always felt a lot more affection for Doctor Who than for the sometimes labored political allegory of Wells.
However, we can’t dismiss that “glittering metal framework,” as the time machine is first described in the 1895 novel—it is hugely significant. Although traveling in time was not a new idea even then, fictional time travel before that book had relied on dreams or magic to transport the time traveler. In Mark Twain’s A Connecticut Yankee in King Arthur’s Court, for example, the central character, Hank Morgan, travels back to medieval England as a result of being hit on the head, and returns to the future after Merlin puts him into a magical sleep. (If your only experience of this story is the movie, read the novel—it’s a much darker and more thoughtful book than the on-screen version suggests.)
In books like Mark Twain’s, time travel was fantasy, largely a mystical experience. But Wells transformed it into science fiction (even though that term was yet to be invented), a fictional concept of practical, solid achievement, opening up speculation about how time travel might be achieved and what the implications of traveling back to the Crucifixion, or visiting the far distant future of humanity, might be. Wells set us on the path of something more concrete, the product of the new, all-powerful science and technology that were transforming the real world—Wells brought us the time machine.
The idea behind his book was to become a standard of science fiction. Along with a number of other conventions—faster-than-light space travel, for instance—the concept of time travel would be used as the hook for a thousand stories. I absorbed a huge amount of science fiction as a teenager. It had, without doubt, a major role in my growing interest in real science. The possibilities for mind-bending storylines were endless.
Take Robert E. Heinlein’s classic short story “—All You Zombies—” (often confused with “By His Bootstraps,” which is also a time travel story). In this story, a time traveler returns to the past, where he unwittingly makes love to his own mother, fathering the child that will eventually be him. Later the mother, who turns out to have a genetic condition giving her both female and male sex organs, undergoes a sex-change operation. The now male mother is transformed into the time traveler himself. He has become a living paradox, a loop in time creating itself with no beginning and no end.
This sort of delightful paradox made time travel a gift to fiction writers, but the capability of freely moving around in time as if it were a true fourth dimension was assumed to be a fictional convention. It was the same kind of useful but unreal assumption as the ability to travel faster than light through some sort of “jump” or “warp” that has been common for many years in science fiction. But there was a surprise lurking behind that assumption.
There is no physical law that prevents time travel.
Reading those time travel stories involved a suspension of disbelief—but that was all that happened. No one really believed it was possible to build a time machine. It was fantasy rather than predictive science fiction. Time travel seemed so incredible that it would never be made real. Yet nothing in physics says we can’t build such a machine.
Since 1895, when Wells published his book, science has moved on with frightening speed. And that progress has included the theories that makes time travel possible in principle. As we will see, turning these theories into practice has huge problems attached, which is why we haven’t turned out time machines like automobiles off a production line. Yet look at the way technology sometimes moves forward. Consider how much of the technology that features in your everyday life was uncommon fifty years ago and unthinkable a hundred years ago. If we allow enough time, we may see time travel becoming real.
Unless we can use some sneaky possibilities of constructing small-scale time machines, the difficulties facing anyone wanting to make time travel possible mostly involve travel across huge distances or manipulating vast objects. These are difficulties that should, in theory, be possible to overcome as technology develops. It would seem that unless our current theories are incorrect, building a working time machine is only a matter of … time.
There are aspects of time travel that Wells got very wrong. His machine seemed somehow to work its way through time on mechanical principles involving an interaction between crystal structures and the time flow. Like many time machines in fiction, Wells’s device proved remarkably easy to control. Little more was involved than setting the controls for a particular year and throwing a switch to head off to the past or future. Yet real time machines would almost all depend on an indirect means of time travel where such simple interaction with the timeline would not be possible.
Wells’s machine also had an unusual symmetry when compared with a typical concept based on real science. In the time machine, it was as easy to travel into the future as it was into the past, and travel in either direction involved the same action, just like with travel in space. Most of The Time Machine is concerned with visits to the distant future, but the traveler returns in exactly the same way. However, some real time devices are likely to work in only one direction—and those that can be used either way will still need a different approach to select direction (usually traveling in one spatial direction to move forward and another to move backward).
In the Wells time machine, the traveler sits still and time shifts around him. This seems reasonable because that’s how we experience movement in time on our day-to-day, second-by-second basis. However, most of the real mechanisms for time travel will involve moving spatially as well, reflecting the way that time and space are inextricably linked in the four-dimensional matrix of space-time. It is very unlikely that there will be a mechanism for time travel that doesn’t involve motion.
We shouldn’t be too dismissive of Wells, though. He does get one thing right with impressive accuracy. His protagonist explains that the time machine works by making use of time as a fourth dimension. This was a new concept back then, one that Wells addressed in fiction before it became a serious concept in science. Now, however, the notion of treating time as a dimension in an overall framework of space-time has become central to our understanding not just of time travel but of the universe as a whole.
Science would catch up with fiction when physical theory was transformed just a few years after The Time Machine came out, in the early years of the twentieth century. Our view of reality was about to be given a profound shock by a man who took this fictional concept of time as a fourth dimension very seriously indeed.

Copyright © 2011 by Brian Clegg

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