Difference between revisions of "Manuals/calci/RIEMANNZETA"

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<div style="font-size:30px">'''RIEMANNZETA'''</div><br/>
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<div style="font-size:30px">'''RIEMANNZETA(s)'''</div><br/>
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*<math>s</math> is the value from <math>0</math> to <math>infinity</math>.
 +
 
 +
==Description==
 +
*This function gives the result for the function of Riemann-Zeta function.
 +
*It is also known as Euler-Riemann Zeta function.
 +
*This function is useful in number theory for the investigating properties of prime numbers.
 +
*It is denoted by <math>\zeta(s)</math>.
 +
*This function is defined as the infinite series <math>\zeta(s)=1+2^{-s}+3^{-s}+.....</math>.
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*When the value of s=1,then this series is called the harmonic series.
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*When it is increase without any bound or limit, then its sum is infinite.
 +
*When the value of s is larger than 1,the  the series converges to a finite number as successive terms are added.
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*The riemann zeta function is defined for Complex numbers also.
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*So  <math>\zeta(s)</math> is a function of a complex variable <math>s = \sigma + it</math>,where <math>\sigma</math> and t are real numbers.i is the imaginary unit.
 +
*It is also  a function of a complex variable s that analytically continues the sum of the infinite series , which converges when the real part of s is greater than 1.
 +
*It is defined by :<math>\zeta(s)=\sum_{n=1}^\infty n^{-s}= \frac{1}{1^s}+\frac{1}{2^s}+\frac{1}{3^s}+.....</math> where <math>\sigma</math> =Real part of s>1.
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*We can define this by integral also:<math>\zeta(s)=\frac{1}{\Gamma(s)} \int\limits_{0}^{\infty}\frac{x^{s-1}}{e^{x-1}}\,dx </math>
 +
*Riemann zeta function is a meromorphic function on the whole complex s-plane, which is holomorphic everywhere except for a simple pole at s = 1 with residue 1.
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*For  special values:
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*(i)Any positive integer 2n.
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:<math>\zeta(2n)=\frac{(-1)^{n+1}B_{2n}(2\pi)^{2n}}{2(2n)!}</math> where <math>B_{2n}</math> is a Bernoulli number.
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*(ii)For negative integers:
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:<math>\zeta(-n)=\frac{-B_{n+1}}{n+1}</math>
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*For n ≥ 1,so in particular ζ vanishes at the negative even integers because Bm = 0 for all odd m other than 1.
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*For odd positive integers, no such simple expression is known.
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**When s=1,then ζ (1) is Harmonic series.
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**when s=2, then ζ (2) derivation is Basel problem.
 +
**when s=3, then ζ (3) derivation is Apery's constant.
 +
**When s=4, then ζ (4) derivation is Planck's law.
 +
 
 +
==Examples==
 +
#=RIEMANNZETA(0)= -1/2
 +
#=RIEMANNZETA(4) = π^4/90
 +
#=RIEMANNZETA(-25)= -657931/12.
 +
 
 +
==Related Videos==
 +
 
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{{#ev:youtube|ZlYfEqdlhk0|280|center|Zeta Function}}
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 +
==See Also==
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*[[Manuals/calci/LEVENESTEST| LEVENESTEST]]
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*[[Manuals/calci/MOODSMEDIANTEST| MOODSMEDIANTEST]]
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*[[Manuals/calci/FRIEDMANTEST| FRIEDMANTEST]]
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*[[Manuals/calci/KSTESTNORMAL| KSTESTNORMAL]]
 +
 
 +
==References==
 +
*[http://en.wikipedia.org/wiki/Riemann_zeta_function Riemann Zeta Function]

Latest revision as of 14:22, 18 July 2015

RIEMANNZETA(s)


  • is the value from to .

Description

  • This function gives the result for the function of Riemann-Zeta function.
  • It is also known as Euler-Riemann Zeta function.
  • This function is useful in number theory for the investigating properties of prime numbers.
  • It is denoted by .
  • This function is defined as the infinite series .
  • When the value of s=1,then this series is called the harmonic series.
  • When it is increase without any bound or limit, then its sum is infinite.
  • When the value of s is larger than 1,the the series converges to a finite number as successive terms are added.
  • The riemann zeta function is defined for Complex numbers also.
  • So is a function of a complex variable ,where and t are real numbers.i is the imaginary unit.
  • It is also a function of a complex variable s that analytically continues the sum of the infinite series , which converges when the real part of s is greater than 1.
  • It is defined by : where =Real part of s>1.
  • We can define this by integral also:
  • Riemann zeta function is a meromorphic function on the whole complex s-plane, which is holomorphic everywhere except for a simple pole at s = 1 with residue 1.
  • For special values:
  • (i)Any positive integer 2n.
where is a Bernoulli number.
  • (ii)For negative integers:
  • For n ≥ 1,so in particular ζ vanishes at the negative even integers because Bm = 0 for all odd m other than 1.
  • For odd positive integers, no such simple expression is known.
    • When s=1,then ζ (1) is Harmonic series.
    • when s=2, then ζ (2) derivation is Basel problem.
    • when s=3, then ζ (3) derivation is Apery's constant.
    • When s=4, then ζ (4) derivation is Planck's law.

Examples

  1. =RIEMANNZETA(0)= -1/2
  2. =RIEMANNZETA(4) = π^4/90
  3. =RIEMANNZETA(-25)= -657931/12.

Related Videos

Zeta Function

See Also

References