Proof of the Fermat’s Last Theorem - viXra
www.vixra.org › pdf › 1501According to the Fermat's Last Theorem (FLT) it cannot be true when a, b, c and n are positive integers and n>2 Lemma-1. When n is a prime number the coefficients at all middle terms of the expanded by binomial theorem are divided by n. Proof. This is well known (see Pascal’s Triangle). Lemma-2 The sum with - integers and coprime with
An Overview of the Proof of Fermat’s Last Theorem
math.bu.edu › people › ghsAn Overview of the Proof of Fermat’s Last Theorem Glenn Stevens The principal aim of this article is to sketch the proof of the following famous assertion. Fermat’s Last Theorem. For n > 2, we have FLT(n) : an +bn = cn a,b,c 2 Z =) abc = 0. Many special cases of Fermat’s Last Theorem were proved from the 17th through the 19th centuries.
Proof of the Fermat’s Last Theorem - viXra
https://www.vixra.org/pdf/1501.0252v4.pdfProof of the Fermat’s Last Theorem Michael Pogorsky mpogorsky@yahoo.com Abstract This is one of the versions of proof of the Theorem developed by means of general algebra and based on polynomials ; ; and their modifications. The polynomials are deduced as required for a, b, c to satisfy equation . The equation also requires existence of