Number Theory in Science and Communication with applications in cryptography, physics, digital information, computing and self-similarity (Fifth edition)

Number Theory in Science and Communication with applications in cryptography, physics, digital information, computing and self-similarity (Fifth edition)

1) The division of the circle into equal parts (a classical Greek preoccupation) and the implications of this ancient art for modern fast computation and random number generation. 2) The Chinese remainder theorem (another classic, albeit far Eastern) and how it allows us to do coin tossing over the...

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Main Author: Schroeder, Manfred R.
Format: Book
Language:English
Published: Springer 2017
Subjects:
Number theory; Zahlentheorie
Astronomy
512.7
Online Access:http://repository.vnu.edu.vn/handle/VNU_123/32477
http://doi.org/10.1007/978-3-540-85298-8
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Institution: Vietnam National University, Hanoi
Language: English
id oai:112.137.131.14:VNU_123-32477
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spelling oai:112.137.131.14:VNU_123-324772020-06-23T08:55:45Z Number Theory in Science and Communication with applications in cryptography, physics, digital information, computing and self-similarity (Fifth edition) Schroeder, Manfred R. Number theory; Zahlentheorie Astronomy 512.7 1) The division of the circle into equal parts (a classical Greek preoccupation) and the implications of this ancient art for modern fast computation and random number generation. 2) The Chinese remainder theorem (another classic, albeit far Eastern) and how it allows us to do coin tossing over the telephone (and many things besides). 3) The design of concert hall ceilings to scatter sound into broad lateral patterns for improved acoustic quality (and wide-scatter diffraction gratings in general). 4) The precision measurement of delays of radar echoes from Venus and Mercury to confirm the general relativistic slowing of electromagnetic waves in gravitational fields (the “fourth” – and last to be confirmed – effect predicted by Einstein’s theory of general relativity). 5) Error-correcting codes (giving us distortion-free pictures of Jupiter and Saturn and their satellites). 6) “Public-key” encryption and deciphering of secret messages. These methods also have important implications for computer security. 7) The creation of artistic graphic designs based on prime numbers. 8) How to win at certain parlor games by putting the Fibonacci number systems to work. 9) The relations between Fibonacci numbers and the regular pentagon, the Golden ratio, continued fractions, efficient approximations, electrical networks, the “squared” square, and so on – almost ad infinitum. 2017-04-24T06:07:12Z 2017-04-24T06:07:12Z 2009 Book 978-3-540-85297-1 http://repository.vnu.edu.vn/handle/VNU_123/32477 http://doi.org/10.1007/978-3-540-85298-8 en © Springer-Verlag Berlin Heidelberg 2009, 2006, 1997, 1986, 1984 431p. application/pdf Springer
institution Vietnam National University, Hanoi
building VNU Library & Information Center
country Vietnam
collection VNU Digital Repository
language English
topic Number theory; Zahlentheorie
Astronomy
512.7
spellingShingle Number theory; Zahlentheorie
Astronomy
512.7
Schroeder, Manfred R.
Number Theory in Science and Communication with applications in cryptography, physics, digital information, computing and self-similarity (Fifth edition)
description 1) The division of the circle into equal parts (a classical Greek preoccupation) and the implications of this ancient art for modern fast computation and random number generation. 2) The Chinese remainder theorem (another classic, albeit far Eastern) and how it allows us to do coin tossing over the telephone (and many things besides). 3) The design of concert hall ceilings to scatter sound into broad lateral patterns for improved acoustic quality (and wide-scatter diffraction gratings in general). 4) The precision measurement of delays of radar echoes from Venus and Mercury to confirm the general relativistic slowing of electromagnetic waves in gravitational fields (the “fourth” – and last to be confirmed – effect predicted by Einstein’s theory of general relativity). 5) Error-correcting codes (giving us distortion-free pictures of Jupiter and Saturn and their satellites). 6) “Public-key” encryption and deciphering of secret messages. These methods also have important implications for computer security. 7) The creation of artistic graphic designs based on prime numbers. 8) How to win at certain parlor games by putting the Fibonacci number systems to work. 9) The relations between Fibonacci numbers and the regular pentagon, the Golden ratio, continued fractions, efficient approximations, electrical networks, the “squared” square, and so on – almost ad infinitum.
format Book
author Schroeder, Manfred R.
author_facet Schroeder, Manfred R.
author_sort Schroeder, Manfred R.
title Number Theory in Science and Communication with applications in cryptography, physics, digital information, computing and self-similarity (Fifth edition)
title_short Number Theory in Science and Communication with applications in cryptography, physics, digital information, computing and self-similarity (Fifth edition)
title_full Number Theory in Science and Communication with applications in cryptography, physics, digital information, computing and self-similarity (Fifth edition)
title_fullStr Number Theory in Science and Communication with applications in cryptography, physics, digital information, computing and self-similarity (Fifth edition)
title_full_unstemmed Number Theory in Science and Communication with applications in cryptography, physics, digital information, computing and self-similarity (Fifth edition)
title_sort number theory in science and communication with applications in cryptography, physics, digital information, computing and self-similarity (fifth edition)
publisher Springer
publishDate 2017
url http://repository.vnu.edu.vn/handle/VNU_123/32477
http://doi.org/10.1007/978-3-540-85298-8
_version_ 1680963831975641088

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