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The number e, the base of the natural logarithm, has been know to exist for many years. The constant e was discovered by the Swiss mathematician Jacob Bernoulli while studying compound interest. It is named e to honor Leonard Euler. The first references to the constant were published in 1618 in the table of an appendix of a work on logarithms by John Napier. John Napier did not actually define the constant, but he used it. The discovery of the constant itself is credited to Jacob Bernoulli in 1683, who attempted to find the value of the following expression (which is equal to e): limit as n approaches infinity of (1+1/n)^n.
The number e, the base of the natural logarithm, has been know to exist for many years. The constant e was discovered by the Swiss mathematician Jacob Bernoulli while studying compound interest. It is named e to honor Leonard Euler. The first references to the constant were published in 1618 in the table of an appendix of a work on logarithms by John Napier. John Napier did not actually define the constant, but he used it. The discovery of the constant itself is credited to Jacob Bernoulli in 1683, who attempted to find the value of the following expression (which is equal to e): limit as n approaches infinity of (1+1/n)^n.
The number e, the base of the natural logarithm, has been know to exist for many years. The constant e was discovered by the Swiss mathematician Jacob Bernoulli while studying compound interest. It is named e to honor Leonard Euler. The first references to the constant were published in 1618 in the table of an appendix of a work on logarithms by John Napier. John Napier did not actually define the constant, but he used it. The discovery of the constant itself is credited to Jacob Bernoulli in 1683, who attempted to find the value of the following expression (which is equal to e): limit as n approaches infinity of (1+1/n)^n.
The number e, called sometimes Euler's number, is a mathematical constant that is the base of natural logarithm. The number e can be calculated as is the limit of (1 + 1/n)n as n approaches infinity Here we present that number printed, in his first two million digits, in a single volume.
A great gift for anyone interested in maths, this book contains: 1.000.000 digits of the Euler's number (e), A total of 446 pages, Each page contains 42 rows, each divided into 5 columns of 10 digits, High quality printing, Standard format (6 x 9 in)
This book contains 1 million digits of pi on 371 pages (Decimal Places from 1 to 1,000,000) and is the perfect gift for everyone who loves math, especially on Pi day and for birthdays!ESTIMATED NUMBERS PER PAGE: 2714NUMBER OF PAGES: 371 pagesPAPER / TRIM SIZE: 6" x 9" (15,24cm x 22,86 cm)PAPER COLOR: White paperCOVER: Softcover paperback - glossy finishBOOK BINDING: Perfect bound
The science of Physics is based on observations that lead to the formulation of mathematical relationships between measured quantities. Some would consider Physics an exact science. Its discoveries and laws are basic to understanding in all areas of science and technology. Four Physics foibles 1) Kurt Godel proved that there are unknowables in our mathematics. 2) Werner Heisenberg showed that there are uncertainties in our measurements. 3) Entropy says that we can only predict the probabilities of events. 4)Chaos Theory deals with things that are effectively impossible to predict like turbulence and long term weather forecasting. The word foible as defined by Webster: An odd feature or mild failing in a person's character a weakness. In fencing, the weaker part of a sword blade. It is the acceptance of these foibles in Physics that has led to broader understanding. In the process of examining these 'weaknesses' in science, many creative and practical solutions have been discovered. There are a number of original computer programs throughout the book. No other person, living or dead - other than the author - has edited or examined the programs. No effort has been made to optimize any of these programs. The author has relied on the computer's results to serve as his default editor. Computer programs are included that take you through puzzles and paradoxes, distribute molecules, follow ameba populations, prove and disprove Murphy's Law, flip coins, and play lottery and casino games. Many have asked about the book. Some with a technical background - and some not - have questioned: What do dice, poker, lotto, and heads-or-tails have to do with Physics? The mathematical study of games of chance is as old as mathematics itself. The connection between games of chance and Nature's laws can be rigorously refined in the field of Statistical Mathematics. If you can analyze multiple coin flips, you can view molecular distribution. If you can understand the results of a game of Roulette, you can understand Radioactive decay. Also included are polls, number systems, wave packets, the search for Pi and the elusive Random, Internet quotes, and more. And in the the process of reading, stop and listen to the words of the science gurus displayed in cartoons throughout.
This book contains the first one million digits of the square root of 2. Each page contains 45 rows, each divided into 5 columns of 10 digits, for a total of 446 pages! This is a great gift for friends or relatives who are passionate about math! Dimensions: 6.14 x 9.21 inches (15.6 x 23.39 cm). Other books in this series include: "One Million Digits of Pi", "One Million Digits of Zeta 3", "One Million Digits of e (Euler's Number)", "One Million Digits of the Golden Ratio (phi)".
Pi, the ratio of the circumference of a circle to its diameter, has been know to exist for thousands of years. Since Pi is irrational, it goes on forever. This book gives the first million digits of pi.
A great gift for friends or relatives who are passionate about math, this book features: The first 1.000.000 digits of Pi, A total of 446 pages, Each page contains 42 rows, each divided into 5 columns of 10 digits, High quality printing, Standard format (6 x 9 in) Other books in this series include: "One Million Digits of e (Euler's Number)", "One Million Digits of Zeta 3", "One Million Digits of the Square Root of 2", "One Million Digits of the Golden Ratio (phi)".