Difference between revisions of "User:Temperal/The Problem Solver's Resource6"
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Occasionally, if two equivalent expressions are both modulated by the same number, the entire equation will be followed by the modulo. | Occasionally, if two equivalent expressions are both modulated by the same number, the entire equation will be followed by the modulo. | ||
− | <math>(a_1, a_2,...a_n)</math> refers to the greatest common factor of <math>a_1, a_2, ...a_n</math>. | + | <math>(a_1, a_2,...a_n)</math> refers to the greatest common factor of <math>a_1, a_2, ...a_n</math> and <math>[a_1, a_2, ...a_n]</math> refers to the lowest common multiple of <math>a_1, a_2,...a_n</math>. |
==Properties== | ==Properties== |
Revision as of 19:04, 10 January 2009
Introduction | Other Tips and Tricks | Methods of Proof | You are currently viewing page 6. |
Number Theory
This section covers number theory, especially modulos (moduli?).
Definitions
- if is the remainder when is divided by to give an integral amount.
- (or divides ) if for some integer .
Special Notation
Occasionally, if two equivalent expressions are both modulated by the same number, the entire equation will be followed by the modulo.
refers to the greatest common factor of and refers to the lowest common multiple of .
Properties
For any number there will be only one congruent number modulo between and .
If and , then .
Fermat's Little Theorem
For a prime and a number such that , .
Wilson's Theorem
For a prime , .
Fermat-Euler Identitity
If , then , where is the number of relatively prime numbers lower than .
Gauss's Theorem
If and , then .
Errata
All quadratic residues are or and , , or .