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[http://en.wikipedia.org/wiki/Integer_factorization]

Prime decomposition[edit]

This image demonstrates the prime decomposition of 864. A shorthand way of writing the resulting prime factors is $2^{5}\times 3^{3}$

By the fundamental theorem of arithmetic, every positive integer has a unique prime factorization. (A special case for 1 is not needed using an appropriate notion of the empty product.) However, the fundamental theorem of arithmetic gives no insight into how to obtain an integer's prime factorization; it only guarantees its existence.

Given a general algorithm for integer factorization, one can factor any integer down to its constituent prime factors by repeated application of this algorithm. However, this is not the case with a special-purpose factorization algorithm, since it may not apply to the smaller factors that occur during decomposition, or may execute very slowly on these values. For example, if N is the number (2⁵²¹ − 1) × (2⁶⁰⁷ − 1), then trial division will quickly factor 10N as 2 × 5 × N, but will not quickly factor N into its factors.

When a prime factorization has the same prime factor (f) appearing x number of times in a prime factorization, the factors can be written as f^x. There are several methods to performing a prime factorization. The "factor tree" method is one of the methods used to find a prime factorization. It represents the prime factors of a positive integer in a "family tree" layout or diagram.^[1]

External Link(s)[edit]

Prime Factorization Instructional Video

Reference(s)[edit]

^ "What is a Factor Tree?". Factor Tree. Retrieved 28 May 2013. {{cite web}}: |first= has generic name (help); |first= missing |last= (help)

[1] "What is a Factor Tree?". Factor Tree. Retrieved 28 May 2013. {{cite web}}: |first= has generic name (help); |first= missing |last= (help)

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