# Fermat's last theorem/Related Articles

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*See also changes related to Fermat's last theorem, or pages that link to Fermat's last theorem or to this page or whose text contains "Fermat's last theorem".*

## Parent topics

- Mathematics [r]: The study of quantities, structures, their relations, and changes thereof.
^{[e]} - Algebra [r]: A branch of mathematics concerning the study of structure, relation and quantity.
^{[e]} - Number theory [r]: The study of integers and relations between them.
^{[e]} - Theorem [r]:
*Add brief definition or description* - Pierre de Fermat [r]:
*Add brief definition or description* - Taniyama-Shimura Conjecture [r]:
*Add brief definition or description*

## Subtopics

- Pythagorean theorem [r]: In a right triangle, the squared length of the side opposite the right angle is equal to the sum of the squared lengths of the two other sides.
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- Andrew Wiles [r]:
*Add brief definition or description* - Gerhard Frey [r]:
*Add brief definition or description*

- Arithmetica (book) [r]:
*Add brief definition or description* - Algebraic number [r]: A complex number that is a root of a polynomial with rational coefficients.
^{[e]} - Diophantine equation [r]: Equation in which the unknowns are required to be integers.
^{[e]} - Ernst Eduard Kummer [r]: (29 January 1810 - 14 May 1893) German mathematician who codified some of the relations between different hypergeometric series, proved Fermat's last theorem for a considerable class of prime exponents, and found the Kummer surface.
^{[e]} - Goldbach's conjecture [r]: Unestablished conjecture that every even number except the number 2 is the sum of two primes.
^{[e]} - Integer [r]: The positive natural numbers (1, 2, 3, …), their negatives (−1, −2, −3, ...) and the number zero.
^{[e]} - Unique factorization [r]: Every positive integer can be expressed as a product of prime numbers in essentially only one way.
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