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Sep 19, 1964 — —· 61 yrs

UNITED KINGDOM AUTHOR · HISTORY · CRYPTOGRAPHY

Simon Singh

Also known as: SIMON SINGH, Singh Simon

8
BOOKS
4.0
AVG RATING (73)
9
READERS

Simon Lehna Singh, MBE is a British popular science author, theoretical and particle physicist. --Wikipedia

Wellington, United Kingdom
Wikipedia

On the morning of Saturday, October 15, 1586, Queen Mary entered the crowded courtroom at Fotheringhay Castle.

— from The Code Book, 1999

Most acclaimed

#1

The Code Book

1999

4.1 (43)

In his first book since the bestselling Fermat's Enigma, Simon Singh offers the first sweeping history of encryption, tracing its evolution and revealing the dramatic effects codes have had on wars, nations, and individual lives. From Mary, Queen of Scots, trapped by her own code, to the Navajo Code Talkers who helped the Allies win World War II, to the incredible (and incredibly simple) logisitical breakthrough that made Internet commerce secure, The Code Book tells the story of the most powerful intellectual weapon ever known: secrecy. Throughout the text are clear technical and mathematical explanations, and portraits of the remarkable personalities who wrote and broke the world's most difficult codes. Accessible, compelling, and remarkably far-reaching, this book will forever alter your view of history and what drives it. It will also make you wonder how private that e-mail you just sent really is.

#2

Fermat's Last Theorem

1997

4.0 (24)

In 1995, a Princeton-based mathematician showed up at a scientific conference and dropped a bombshell. He had succeeded in deciphering one of mathematics' great secrets, one that thousands had puzzled over for the last three-and-a-half centuries: he had proven Fermat's Last Theorem in a 200-page paper, one that took seven years to write (and another year to fine tune). Fermat's Last Theorem is the previously untold story of the people, the history, and the cultures that lie behind this scientific triumph. Written by a seventeenth-century French scholar, the deceptively simple-sounding theorem states that while the square of a whole number can be broken down into two other squares of whole numbers - for example, five squared (25) equals four squared (16) plus three squared (nine) - the same cannot be done with cubes or any higher powers. After Fermat's death, many spent lifetimes trying to prove the theorem. The theorem has ancient roots. Around 2000 B.C., the Babylonians sought a way to break down a squared number into a sum of two squares. In the sixth century B.C., the Greek mathematician Pythagoras incorporated this concept into his own famous theorem, paving the way for Fermat. Centuries after Fermat, in 1955, two Japanese mathematicians made a far-reaching, almost fantastic conjecture about a possible relation between two disparate branches of mathematics. It was their work that enabled Princeton researcher Andrew Wiles, forty years later, to piece together the logic necessary to prove Fermat's Last Theorem. Fermat's Last Theorem combines philosophy and hard science with investigative journalism to make for a real-life detective story of the intellect.

#3

Trick or Treatment?

2008

4.0 (1)

Provides an examination and judgement of more than thirty of the most treatments in alternative medicine, such as acupuncture, homeopathy, aromatherapy, reflexology, chiropractic and herbal medicine.

Books

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