Difference between revisions of "Greatest common divisor"
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The GCD of two numbers can also be found using the equation <math>GCD(x, y) \cdot LCM(x, y) = x \cdot y</math>, where <math>LCM(x,y)</math> is the [[least common multiple]] of <math>x</math> and <math>y</math>. | The GCD of two numbers can also be found using the equation <math>GCD(x, y) \cdot LCM(x, y) = x \cdot y</math>, where <math>LCM(x,y)</math> is the [[least common multiple]] of <math>x</math> and <math>y</math>. | ||
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[[Category:Number theory]] | [[Category:Number theory]] |
Revision as of 01:18, 21 April 2008
The greatest common divisor (GCD, or GCF (greatest common factor)) of two or more integers is the largest integer that is a divisor of all the given numbers.
The GCD is sometimes called the greatest common factor (GCF).
A very useful property of the GCD is that it can be represented as a sum of the given numbers with integer coefficients. From here it immediately follows that the greatest common divisor of several numbers is divisible by any other common divisor of these numbers.
Contents
Finding the GCD
Using prime factorization
Once the prime factorizations of the given numbers have been found, the greatest common divisor is the product of all common factors of the numbers.
Example:
and . The common factors are 2 and , so .
Euclidean algorithm
The Euclidean algorithm is much faster and can be used to give the GCD of any two numbers without knowing their prime factorizations. To find the greatest common divisor of more than two numbers, one can use the recursive formula .
Using least common multiple
The GCD of two numbers can also be found using the equation , where is the least common multiple of and .