# Famous Theorems of Mathematics

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Mathematics deals with proofs. Whatever statement, remark, result etc. one uses in mathematics it is considered meaningless until is accompanied by a rigorous mathematical proof. This book is intended to contain the proofs (or sketches of proofs) of many famous theorems in mathematics in no particular order. It should be used both as a learning resource, a good practice for acquiring the skill for writing your own proofs is to study the existing ones, and for general references.

It is not however intended as a companion to any other wikibook or wikipedia articles but can complement them by providing them with links to the proofs of the theorems they contain.

One note here. There are usually many ways to solve a problem. Many times the proof used comes down to the primary definitions of terms involved. We will follow the definition given by the first major contributor.

## Table of contents

#### High school

#### Undergraduate

- e is irrational
- π is irrational
- Fermat's little theorem
- Fermat's theorem on sums of two squares
- Sum of the reciprocals of the primes diverges
- Bertrand's postulate
- Law of large numbers
- Spectral Theorem
- L'Hôpital's rule
- Four color theorem
- e
^{πi}+1=0

#### Postgraduate

- Fermat's last theorem
- Brouwer fixed-point theorem
- Jordan Curve Theorem
- Prime number theorem
- Riemann hypothesis

## Old table of contents

This section contains the table of content of the book as according to its original intentions. The material here should be either incorporated in the existing book or discarded. |

Proofs and definitions will be arranged according to the fields of mathematics:

## Further Reading

- Mathematical Proof - about the theory and techniques of proving mathematical theorems

## Resources

### Manual of style

- Proof style - Style guide for proofs.