The exponential function is a miracle

The Maclaurin series for the exponential function converges for every
complex number !!x!!: $$1 – x + frac{x^2}{2} – frac{x^3}{6}
+ frac{x^4}{24} – ldots = e^{-x} $$

Say that !!x!! is any reasonably large number, such as 5. Then
!!e^{-x}!! is close to zero, But the terms of the series are not
close to zero. For !!x=5!! we have: $$
– 5
+ 12.5
– 20.83
+ 26.04
– 26.04
+ 21.7
– 15.5
+ 9.69
– 5.38 + ldots approx {Large 0}$$

Somehow all these largish random numbers manage to cancel out almost
completely. And the larger we make !!x!!, the more of these largish
random numbers there are, the larger they are, and yet the more
exactly they cancel out. For even as small an argument as !!x=20!!,
the series begins with 52 terms that vary between 1 and forty-three
million, and these somehow cancel out almost entirely. The
sum of these 52 numbers is !!-0.4!!.

In this graph, the red lines are the various partial sums (!!1-x,
1-x+frac{x^2}2, !! etc.) and the blue line is the total sum

{focus_keyword} The Universe of Discourse : The exponential function is a miracle exp

As you can see, each red line is a very bad approximation
to the blue one, except within a rather narrow region.
And yet somehow, it all works out in the end.

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