divisor: Number theoretic functions
In RobinHankin/elliptic: Weierstrass and Jacobi Elliptic Functions
divisor R Documentation
Number theoretic functions
Description
Various useful number theoretic functions
Usage
divisor(n,k=1)
primes(n)
factorize(n)
mobius(n)
totient(n)
liouville(n)
Arguments
n,k
Integers
Details
Functions primes() and factorize() cut-and-pasted from
Bill Venables's con.design package, version 0.0-3. Function
primes(n) returns a vector of all primes not exceeding
n; function factorize(n) returns an integer vector of
nondecreasing primes whose product is n.
The others are multiplicative functions, defined in Hardy and
Wright:
Function divisor(), also written
\sigma_k(n), is the divisor function defined on
p239. This gives the sum of the k^{\rm th} powers of all
the divisors of n. Setting k=0 corresponds to
d(n), which gives the number of divisors of n.
Function mobius() is the Moebius function (p234), giving zero
if n has a repeated prime factor, and (-1)^q where
n=p_1p_2\ldots p_q otherwise.
Function totient() is Euler's totient function (p52), giving
the number of integers smaller than n and relatively prime to
it.
Function liouville() gives the Liouville function.
Note
The divisor function crops up in g2.fun() and g3.fun().
Note that this function is not called sigma() to
avoid conflicts with Weierstrass's \sigma function (which
ought to take priority in this context).
Author(s)
Robin K. S. Hankin and Bill Venables (primes() and
factorize())
References
G. H. Hardy and E. M. Wright, 1985. An
introduction to the theory of numbers (fifth edition).
Oxford University Press.
Examples
mobius(1)
mobius(2)
divisor(140)
divisor(140,3)
plot(divisor(1:100,k=1),type="s",xlab="n",ylab="divisor(n,1)")
plot(cumsum(liouville(1:1000)),type="l",main="does the function ever exceed zero?")
RobinHankin/elliptic documentation built on Feb. 21, 2024, 6:28 a.m.
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| divisor | R Documentation |
Number theoretic functions
Description
Various useful number theoretic functions
Usage
divisor(n,k=1)
primes(n)
factorize(n)
mobius(n)
totient(n)
liouville(n)
Arguments
n,k |
Integers |
Details
Functions primes() and factorize() cut-and-pasted from
Bill Venables's con.design package, version 0.0-3. Function
primes(n) returns a vector of all primes not exceeding
n; function factorize(n) returns an integer vector of
nondecreasing primes whose product is n.
The others are multiplicative functions, defined in Hardy and Wright:
Function divisor(), also written
\sigma_k(n), is the divisor function defined on
p239. This gives the sum of the k^{\rm th} powers of all
the divisors of n. Setting k=0 corresponds to
d(n), which gives the number of divisors of n.
Function mobius() is the Moebius function (p234), giving zero
if n has a repeated prime factor, and (-1)^q where
n=p_1p_2\ldots p_q otherwise.
Function totient() is Euler's totient function (p52), giving
the number of integers smaller than n and relatively prime to
it.
Function liouville() gives the Liouville function.
Note
The divisor function crops up in g2.fun() and g3.fun().
Note that this function is not called sigma() to
avoid conflicts with Weierstrass's \sigma function (which
ought to take priority in this context).
Author(s)
Robin K. S. Hankin and Bill Venables (primes() and
factorize())
References
G. H. Hardy and E. M. Wright, 1985. An introduction to the theory of numbers (fifth edition). Oxford University Press.
Examples
mobius(1)
mobius(2)
divisor(140)
divisor(140,3)
plot(divisor(1:100,k=1),type="s",xlab="n",ylab="divisor(n,1)")
plot(cumsum(liouville(1:1000)),type="l",main="does the function ever exceed zero?")
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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