Beyond Star Trek: Physics from Alien Invasions to the End of Time is the fourth non-fiction book by the American theoretical physicist Lawrence M. Krauss. The book was initially published on November 7, 1997 by Basic Books and since then has appeared in five foreign editions.[1] In his previous work, The Physics of Star Trek, Lawrence Krauss explained a number of ideas and concepts featured in the series; they may or may not exist in our universe. In this book, Krauss goes farther to discuss the realities of physics when it is applied to components from other sci-fi story lines.

Beyond Star Trek: Physics from Alien Invasions to the End of Time
Hardcover edition
AuthorLawrence M. Krauss
LanguageEnglish
SubjectPhysics, cosmology
GenreNon-fiction
PublishedNovember 7, 1997
PublisherBasic Books
Publication placeUnited States
Media typePrint, e-book
Pages208 pp.
ISBN978-0465006373
Preceded byThe Physics of Star Trek 
Followed byQuintessence 

Review

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A reviewer of Kirkus Reviews wrote "The author...scored a bestseller with his previous book, The Physics of Star Trek (1995). Now he expands his scope to address other sci-fi hits, ranging from the film 2001: A Space Odyssey to TV's The X-Files. He also scrutinizes such newsworthy events as the chess match between world champion Garry Kasparov and an IBM computer. Krauss begins by examining the alien attack on Earth that was portrayed in the movie Independence Day. He uses basic Newtonian physics to show that the gravitational effects of the huge arriving alien ships would have caused floods and earthquakes sufficient to destroy our civilization before the invaders had even fired a shot. Next, the author assesses the supposed flight characteristics of UFOs, depicted as stopping on a dime and making sudden sharp turns at utterly unbelievable speeds. Krauss calculates that these maneuvers would create inertial G-forces greater than a close-range nuclear explosion; neither the pilots nor any conceivable construction material could withstand them. Another chapter examines the cost of mounting an interstellar expedition, a journey that would require many decades to complete and cost more than the moon. Later chapters apply the principle of general relativity to star travel, explore computer consciousness, and forecast the end of the world. "The book concludes by affirming the author's belief that the universe is a place of boundless potential--and that we must fathom it."[2]

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