Prime factorization: Difference between revisions
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By the [[Fundamental Theorem of Arithmetic]], every positive integer has a unique prime factorization. What is a prime factorization? It is a representation of a number in terms of powers of primes (it is of the form <math>{p_1}^{e_1}\cdot</math><math>{p_2}^{e_2}\cdot{p_3}^{e_3}\cdots{p_k}^{e_k} = n</math>, where ''n'' is any natural number). | By the [[Fundamental Theorem of Arithmetic]], every positive integer has a unique prime factorization. What is a prime factorization? It is a representation of a number in terms of powers of primes (it is of the form <math>{p_1}^{e_1}\cdot</math><math>{p_2}^{e_2}\cdot{p_3}^{e_3}\cdots{p_k}^{e_k} = n</math>, where ''n'' is any natural number). | ||
Prime factorizations are important in many ways, for instance to simplify [[fractions]]. | Prime factorizations are important in many ways, for instance, to simplify [[fractions]]. | ||
===Example Problem=== | ===Example Problem=== | ||
Revision as of 16:24, 19 June 2006
By the Fundamental Theorem of Arithmetic, every positive integer has a unique prime factorization. What is a prime factorization? It is a representation of a number in terms of powers of primes (it is of the form 
, where n is any natural number).
Prime factorizations are important in many ways, for instance, to simplify fractions.
