Redirected from Base of natural logarithm
The constant <math>e</math> (occasionally called Napier's constant in honor of the Scottish mathematician John Napier who introduced logarithms) is the base of the natural logarithm. It is approximately equal to
It is equal to exp(1) where exp is the exponential function and therefore it is the limit
and can also be written as the infinite series
+ {1 \over 2!} + {1 \over 3!} + {1 \over 4!} + \cdots</math>
Here <math>n!</math> stands for the factorial of <math>n</math>.
The number e is relevant because one can show that the exponential function exp(x) can be written as <math>e^x</math>; the exponential function is important because it is, up to multiplication by a scalar, the unique function which is its own derivative and is hence commonly used to model growth or decay processes.
The number e is known to be irrational and even transcendental. It was the first number to be proved transcendental without having been specifically constructed by Charles Hermite[?] in 1873. It is conjectured to be normal. It features (along with a few other fundamental constants) in Euler's identity:
which was described by Richard Feynman as "The most remarkable formula in mathematics"!
The infinite continued fraction expansion of <math>e</math> contains an interesting pattern as follows:
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