Difference between revisions of "Divisor"
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− | + | A [[natural number]] <math>{d}</math> is called a '''divisor''' of a natural number <math>{n}</math> if there is a natural number <math>{k}</math> such that <math>n=kd</math> or, in other words, if <math>\frac nd</math> is also a natural number (i.e <math>d</math> divides <math>n</math>). See [[Divisibility]] for more information. | |
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− | === | + | == Notation== |
− | If <math>n= | + | A common notation to indicate a number is a divisor of another is <math>n|k</math>. This means that <math>n</math> divides <math>k</math>. |
− | + | ||
− | * If <math> | + | |
− | * <math> | + | See the main article on [[counting divisors]]. If <math>n=p_{1}^{\alpha_{1}} \cdot p_{2}^{\alpha_{2}}\cdot\dots\cdot p_m^{\alpha_m}</math> is the [[prime factorization]] of <math>{n}</math>, then the number <math>d(n)</math> of different divisors of <math>n</math> is given by the formula <math>d(n)=(\alpha_{1} + 1)\cdot(\alpha_{2} + 1)\cdot\dots\cdot(\alpha_{m} + 1)</math>. It is often useful to know that this expression grows slower than any positive power of <math>{n}</math> as <math>n\to\infty</math>. |
− | + | We also know that the product of the divisors of any integer <math>n</math> is <cmath>n^{\frac{t(n)}{2}}.</cmath> | |
− | + | Another useful idea is that <math>d(n)</math> is [[odd integer | odd]] if and only if <math>{n}</math> is a [[perfect square]]. | |
+ | |||
+ | ==Useful formulas== | ||
+ | * If <math>{m}</math> and <math>{n}</math> are [[relatively prime]], then <math>d(mn)=d(m)d(n)</math> | ||
+ | * <math>{\sum_{n=1}^N d(n)=\left\lfloor\frac N1\right\rfloor+\left\lfloor\frac N2\right\rfloor+\dots+\left\lfloor\frac NN\right\rfloor= N\ln N+O(N)}</math> |
Latest revision as of 18:50, 29 August 2023
A natural number is called a divisor of a natural number if there is a natural number such that or, in other words, if is also a natural number (i.e divides ). See Divisibility for more information.
Notation
A common notation to indicate a number is a divisor of another is . This means that divides .
See the main article on counting divisors. If is the prime factorization of , then the number of different divisors of is given by the formula . It is often useful to know that this expression grows slower than any positive power of as .
We also know that the product of the divisors of any integer is
Another useful idea is that is odd if and only if is a perfect square.
Useful formulas
- If and are relatively prime, then