The Existence of the Exponential Function

From Drorbn
Revision as of 09:14, 15 January 2007 by Drorbn (talk | contribs)
Jump to navigationJump to search

Introduction

The purpose of this paperlet is to use some homological algebra in order to prove the existence of a power series (with coefficients in ) which satisfies the non-linear equation

[Main]

as well as the initial condition

[Init]
(higher order terms).

Alternative proofs of the existence of are of course available, including the explicit formula . Thus the value of this paperlet is not in the result it proves but rather in the story it tells: that there is a technique to solve functional equations such as [Main] using homology. There are plenty of other examples for the use of that technique, in which the equation replacing [Main] isn't as easy. Thus the exponential function seems to be the easiest illustration of a general principle and as such it is worthy of documenting.

Thus below we will pretend not to know the exponential function and/or its relationship with the differential equation .

The Scheme

We aim to construct and solve [Main] inductively, degree by degree. Equation [Init] gives in degrees 0 and 1, and the given formula for indeed solves [Main] in degrees 0 and 1. So booting the induction is no problem. Now assume we've found a degree 7 polynomial which solves [Main] up to and including degree 7, but at this stage of the construction, it may well fail to solve [Main] in degree 8. Thus modulo degrees 9 and up, we have

[M]
,

where is the "mistake for ", a certain homogeneous polynomial of degree 8 in the variables and .

Our hope is to "fix" the mistake by replacing with , where is a degree 8 "correction", a homogeneous polynomial of degree 8 in (well, in this simple case, just a multiple of ).

So we substitute into (a version of [Main]), expand, and consider only the low degree terms - those below and including degree 8. The terms containing no 's make a copy of the left hand side of [M]. The terms linear in

Computing the Homology