Beal conjecture: Difference between revisions
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Consider the equation: | Consider the equation: | ||
<math> | <math>\! a^m + b^n = c^k</math>. | ||
The '''Beal conjecture''' (also called '''Beal's conjecture''') states the following equivalent things: | The '''Beal conjecture''' (also called '''Beal's conjecture''') states the following equivalent things: | ||
# This equation has no solutions for <math> | # This equation has no solutions for <math>a,b,c</math> pairwise relatively prime positive integers, and <math>m,n,k</math> all natural numbers greater than <math>2</math>. | ||
# This equation has no solutions for <math> | # This equation has no solutions for <math>a,b,c</math> pairwise relatively prime integers (all nonzero) and <math>m,n,k</math> all natural numbers greater than <math>2</math>. | ||
==Related facts== | ==Related facts== | ||
===Stronger facts and conjectures== | |||
===Weaker facts and conjectures=== | ===Weaker facts and conjectures=== | ||
* [[Fermat's last theorem]]: This is the special case <math> | * [[Fermat's last theorem]]: This is the special case <math>m = n = k</math>. This was conjectured by Fermat and proved by Wiles, building on work by several mathematicians in between. | ||
===Other related facts=== | ===Other related facts=== | ||
* [[Euler's false attempted generalization of Fermat's last theorem]] | * [[Euler's false attempted generalization of Fermat's last theorem]] | ||
* [[Fermat-Catalan conjecture]]: With somewhat weaker hypotheses on the exponents, it claims that there are only finitely many solutions. | |||
===Failure of slight modifications of the conjecture=== | ===Failure of slight modifications of the conjecture=== | ||
Revision as of 17:53, 13 August 2010
History
This conjecture was made by Andrew Beal, a mathematics hobbyist, while investigating Fermat's last theorem.
Statement
Consider the equation:
.
The Beal conjecture (also called Beal's conjecture) states the following equivalent things:
- This equation has no solutions for pairwise relatively prime positive integers, and all natural numbers greater than .
- This equation has no solutions for pairwise relatively prime integers (all nonzero) and all natural numbers greater than .
Related facts
=Stronger facts and conjectures
Weaker facts and conjectures
- Fermat's last theorem: This is the special case . This was conjectured by Fermat and proved by Wiles, building on work by several mathematicians in between.
- Euler's false attempted generalization of Fermat's last theorem
- Fermat-Catalan conjecture: With somewhat weaker hypotheses on the exponents, it claims that there are only finitely many solutions.
Failure of slight modifications of the conjecture
- Beal conjecture fails over Gaussian integers
- Beal conjecture fails if condition of relative primality is dropped: In fact, there are easy-to-parametrize families of solutions.