Presentation is loading. Please wait.

Presentation is loading. Please wait.

A GENERALIZATION OF FERMAT’S LAST THEOREM BY ALHAJI ALKALI* AND G. U. GARBA DEPARTMENT OF MATHEMATICS AHMADU BELLO UNIVERSITY, ZARIA A PAPER PRESENTED.

Published byEsmond McDowell Modified over 8 years ago

Similar presentations

Presentation on theme: "A GENERALIZATION OF FERMAT’S LAST THEOREM BY ALHAJI ALKALI* AND G. U. GARBA DEPARTMENT OF MATHEMATICS AHMADU BELLO UNIVERSITY, ZARIA A PAPER PRESENTED."— Presentation transcript:

1 A GENERALIZATION OF FERMAT’S LAST THEOREM BY ALHAJI ALKALI* AND G. U. GARBA DEPARTMENT OF MATHEMATICS AHMADU BELLO UNIVERSITY, ZARIA A PAPER PRESENTED AT THE 45TH ANNUAL CONFERENCE OF MATHEMATICAL ASSOCIATION OF NIGERIA (MAN), VENUE: FEDERAL COLLEGE OF EDUCATION (TECHNICAL) GUSAU ZAMFARA STATE. 25TH – 29TH AUGUST, 2008. * Correspondence author: alkali_4real@yahoo.comalkali_4real@yahoo.com

2 ABSTRACT The Fermat last theorem states that there is no integer triple such that for In this paper we attempt to extend this result to integer quadruples. It is shown that is true for, and general formula for generating them is obtained.

3 INTRODUCTION Pierre Fermat (1601-1665) wrote a hand written comment by the side while reading Dedekind book of Pythagoras triple that there is no integer triple, for which for. This was only known some years after Fermat death. There is uncertainty as to whether Fermat had the proof of this result. This result known as Fermat’s last theorem remain unsolved for about 500years until 1995 when Andrew Wiles in a 110-page paper was able to provide a proof of this long standing conjecture, see [2].

4 for any natural number if there exit integer quadruple for which general rule for obtaining all integer quadruple for which Also to investigate whether there is integer quadruple for which for where is a natural number

5 Preliminary results Proposition2.1 If is an integer quadruple, then any multiple of this is also an integer quadruple, that is for any integer n is also an integer quadruple Proposition 2.2 For any quadruple if and are both odd integers, then and can not both be even. Proposition 2.3 For any quadruple if and are odd then must be odd Proposition 2.4 For any quadruple if and are even then must be even..

6 THEOREM 3.1 For any integers and, if we choose, and, then. will satisfies then equation Proof: Since

7 CONCLUTION This investigation was also extended to integer quadruple for which, and values are obtained that satisfy this relationship. We are now in the process of obtaining interesting results in line with this paper. However we are unable to obtain integer quadruple for which. It seen to us that there are no such integer quadruples for which for, thus extending the Fermat’s last theorem on integer triples to integer quadruples.

8 REFERENCE: 1.John Stillwell (2002) Mathematics and its history. Springer-Verlag, New York. 2.Wiles. A.(1995). Modular elliptic curves and Fermat’s last theorem,Ann. Of Math (2). 141(3). 443-551

Download ppt "A GENERALIZATION OF FERMAT’S LAST THEOREM BY ALHAJI ALKALI* AND G. U. GARBA DEPARTMENT OF MATHEMATICS AHMADU BELLO UNIVERSITY, ZARIA A PAPER PRESENTED."

Similar presentations

Fermat’s Last Theorem Dr. S. Lawrence ©2005.

Fermat’s Last Theorem Dr. S. Lawrence ©2005.
Mathematical Induction

Mathematical Induction
Introduction to Proofs

Introduction to Proofs
Proving Fermat’s last theorem FLT and lessons on the nature and practice of mathematics.

Proving Fermat’s last theorem FLT and lessons on the nature and practice of mathematics.
Fermat’s Last Theorem Jonathan Rigby. Fermat’s last theorem x n +y n =z n Fermats proof by infinite descent x 4+ +y 4 =z 4.

Fermat’s Last Theorem Jonathan Rigby. Fermat’s last theorem x n +y n =z n Fermats proof by infinite descent x 4+ +y 4 =z 4.
Boyce/DiPrima 9th ed, Ch 2.8: The Existence and Uniqueness Theorem Elementary Differential Equations and Boundary Value Problems, 9th edition, by William.

Boyce/DiPrima 9th ed, Ch 2.8: The Existence and Uniqueness Theorem Elementary Differential Equations and Boundary Value Problems, 9th edition, by William.
Copyright © Cengage Learning. All rights reserved. CHAPTER 5 SEQUENCES, MATHEMATICAL INDUCTION, AND RECURSION SEQUENCES, MATHEMATICAL INDUCTION, AND RECURSION.

Copyright © Cengage Learning. All rights reserved. CHAPTER 5 SEQUENCES, MATHEMATICAL INDUCTION, AND RECURSION SEQUENCES, MATHEMATICAL INDUCTION, AND RECURSION.
Agrawal-Kayal-Saxena Presented by: Xiaosi Zhou

Agrawal-Kayal-Saxena Presented by: Xiaosi Zhou
The Pythagorean theorem

The Pythagorean theorem
Discrete Methods in Mathematical Informatics Lecture 1: What is Elliptic Curve? 9 th October 2012 Vorapong Suppakitpaisarn

Discrete Methods in Mathematical Informatics Lecture 1: What is Elliptic Curve? 9 th October 2012 Vorapong Suppakitpaisarn
22C:19 Discrete Structures Logic and Proof Spring 2014 Sukumar Ghosh.

22C:19 Discrete Structures Logic and Proof Spring 2014 Sukumar Ghosh.
More Number Theory Proofs Rosen 1.5, 3.1. Prove or Disprove If m and n are even integers, then mn is divisible by 4. The sum of two odd integers is odd.

More Number Theory Proofs Rosen 1.5, 3.1. Prove or Disprove If m and n are even integers, then mn is divisible by 4. The sum of two odd integers is odd.
1 The RSA Algorithm Supplementary Notes Prepared by Raymond Wong Presented by Raymond Wong.

1 The RSA Algorithm Supplementary Notes Prepared by Raymond Wong Presented by Raymond Wong.
Lesson Plan Lesson Plan for grades 9-12 Erica Papa.

Lesson Plan Lesson Plan for grades 9-12 Erica Papa.
MULTIPLE INTEGRALS 16. 2 MULTIPLE INTEGRALS Recall that it is usually difficult to evaluate single integrals directly from the definition of an integral.

MULTIPLE INTEGRALS MULTIPLE INTEGRALS Recall that it is usually difficult to evaluate single integrals directly from the definition of an integral.
CSE115/ENGR160 Discrete Mathematics 02/07/12

CSE115/ENGR160 Discrete Mathematics 02/07/12
So far we have learned about:

So far we have learned about:
Number Theory: Fermat’s Last Theorem Fermat’s last conjecture/Wiles’ Theorem: For n>2 the equation x n +y n =z n has no solutions in terms of non-zero.

Number Theory: Fermat’s Last Theorem Fermat’s last conjecture/Wiles’ Theorem: For n>2 the equation x n +y n =z n has no solutions in terms of non-zero.
Plane Sections of Real and Complex Tori Sonoma State - February 2006 or Why the Graph of is a Torus Based on a presentation by David Sklar and Bruce Cohen.

Plane Sections of Real and Complex Tori Sonoma State - February 2006 or Why the Graph of is a Torus Based on a presentation by David Sklar and Bruce Cohen.
Discrete Structures Chapter 5: Sequences, Mathematical Induction, and Recursion 5.2 Mathematical Induction I [Mathematical induction is] the standard proof.

Discrete Structures Chapter 5: Sequences, Mathematical Induction, and Recursion 5.2 Mathematical Induction I [Mathematical induction is] the standard proof.

Similar presentations

Ads by Google