Difference between revisions of "Farey sequence"
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A Farey sequence of any order contains all terms in a Farey sequence of lower order. More specifically, <math>F_n</math> contains all the terms in <math>F_{n-1}</math>. Also, <math>F_n</math> contains an extra term for every number less than <math>n</math> relatively prime to <math>n</math>. Thus, we can write | A Farey sequence of any order contains all terms in a Farey sequence of lower order. More specifically, <math>F_n</math> contains all the terms in <math>F_{n-1}</math>. Also, <math>F_n</math> contains an extra term for every number less than <math>n</math> relatively prime to <math>n</math>. Thus, we can write | ||
<math>#(F_n)=#(F_{n-1})+\phi{n}</math> | <math>#(F_n)=#(F_{n-1})+\phi{n}</math> | ||
{{stub}} | {{stub}} |
Revision as of 14:38, 31 August 2008
A Farey sequence of order is the sequence of all completely reduced fractions between 0 and 1 where, when in lowest terms, each fraction has a denominator less than or equal to . Each fraction starts with 0, denoted by the fraction 0/1, and ends in 1, denoted by the fraction 1/1.
Examples
Farey sequences of orders 1-4 are:
Where denotes a Farey sequence of order .
Properties
Sequence length
A Farey sequence of any order contains all terms in a Farey sequence of lower order. More specifically, contains all the terms in . Also, contains an extra term for every number less than relatively prime to . Thus, we can write
$#(F_n)=#(F_{n-1})+\phi{n}$ (Error compiling LaTeX. Unknown error_msg) This article is a stub. Help us out by expanding it.