The Natural Logarithmic Base It is not known who first determined We see in this limit the outcome of a fierce tug-of-war. On one side, the exponent explodes to infinity. On the other side, 1+x rushes toward the multiplicative identity 1. It's interesting that the additive equivalent of the above limit is trivial. A geometric characterization of e is as follows: e is the unique positive root x ...
pauillac.inria.fr/algo/bsolve/constant/e/e.html
This website aims to show that there are many constants in mathematics other than just e and pi!
www.mathcad.com/library/constants/index.htm
Highly detailed information about the base of the natural logarithm, or e.
mathworld.wolfram.com/e.html
The constant e and its computation e = 2.71828182845904523536028747135266249775724709369995... (Click here for a Postscript version of this page.) eip+1=0 , all analysis lies here - Felix Klein (1849-1925). Gentlemen, we have not the slightest idea what this equation means, but we may be sure that it means something very important (to his students about the formula i-i = ep. - Benjamin Peirce ...
numbers.computation.free.fr/Constants/E/e.html
Welcome to the e Home Page You are visitor number to Euler's Number home page as of 10/17/95. For some fun try these links: e to 100, 000 decimal places. Top ln(e^10) reasons why e is better than pi. e to 2, 000, 000+ decimal places. Join 15 the digit club or view who has already joined. Fun facts and intersting things about e. Back to my home page. ...
Detailed explanation of the number known as e, and links to associated resources.
www.maa.org/mathland/mathtrek_11_9_98.html