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Difference between revisions of "Harmonic number"

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====References====
 
====References====
 
* Guy, Richard K. "Almost Perfect, Quasi-Perfect, Pseudoperfect, Harmonic, Weird, Multiperfect and Hyperperfect Numbers". Unsolved Problems in Number Theory (2nd ed.). New York: Springer-Verlag (1994). pp. 16, 45–53  
 
* Guy, Richard K. "Almost Perfect, Quasi-Perfect, Pseudoperfect, Harmonic, Weird, Multiperfect and Hyperperfect Numbers". Unsolved Problems in Number Theory (2nd ed.). New York: Springer-Verlag (1994). pp. 16, 45–53  
* Milovanović, Gradimir V., Rassias, Michael Th.  (edd.) ''Analytic Number Theory, Approximation Theory, and Special Functions: In Honor of Hari M. Srivastava'' Springer (2014) ISBN 149390258X
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* Milovanović, Gradimir V., Rassias, Michael Th.  (edd.) ''Analytic Number Theory, Approximation Theory, and Special Functions: In Honor of Hari M. Srivastava'' Springer (2014) {{ISBN|149390258X}}
 
* Sándor, József; Mitrinović, Dragoslav S.; Crstici, Borislav, edd. Handbook of number theory I. Dordrecht: Springer-Verlag (2006).  {{ISBN|1-4020-4215-9}}.  {{ZBL|1151.11300}}  
 
* Sándor, József; Mitrinović, Dragoslav S.; Crstici, Borislav, edd. Handbook of number theory I. Dordrecht: Springer-Verlag (2006).  {{ISBN|1-4020-4215-9}}.  {{ZBL|1151.11300}}  
 
* Sándor, Jozsef; Crstici, Borislav, edd. Handbook of number theory II. Dordrecht: Kluwer Academic (2004). {{ISBN|1-4020-2546-7}}.  {{ZBL|1079.11001}}
 
* Sándor, Jozsef; Crstici, Borislav, edd. Handbook of number theory II. Dordrecht: Kluwer Academic (2004). {{ISBN|1-4020-2546-7}}.  {{ZBL|1079.11001}}
 
* Wagstaff, Samuel S.  ''The Joy of Factoring'' Student mathematical library '''68''' American Mathematical Society (2013) {{ISBN|1470410486}}
 
* Wagstaff, Samuel S.  ''The Joy of Factoring'' Student mathematical library '''68''' American Mathematical Society (2013) {{ISBN|1470410486}}

Latest revision as of 14:19, 12 November 2023


Commonly, a partial sum of the harmonic series $$ H_n = \sum_{k=1}^n \frac{1}{k} \ . $$ A generalised harmonic number is a partial num of the zeta function $$ H_n^{(s)} = \sum_{k=1}^n \frac{1}{k^s} \ . $$

However, Pomerance has defined a harmonic number to be a natural number $n$ for which the harmonic mean of the divisors of $n$ is an integer; equivalently $\sigma(n)$ divides $n.d(n)$ where $\sigma(n)$ is the sum of the divisors of $n$ and $d(n)$ is the number of divisors: these are also called Øre numbers. The first seven such numbers are $$ 1,\ 6,\ 28,\ 140,\ 270,\ 496,\ 672 \ . $$ An even perfect number is a harmonic number.

References

  • Guy, Richard K. "Almost Perfect, Quasi-Perfect, Pseudoperfect, Harmonic, Weird, Multiperfect and Hyperperfect Numbers". Unsolved Problems in Number Theory (2nd ed.). New York: Springer-Verlag (1994). pp. 16, 45–53
  • Milovanović, Gradimir V., Rassias, Michael Th. (edd.) Analytic Number Theory, Approximation Theory, and Special Functions: In Honor of Hari M. Srivastava Springer (2014) ISBN 149390258X
  • Sándor, József; Mitrinović, Dragoslav S.; Crstici, Borislav, edd. Handbook of number theory I. Dordrecht: Springer-Verlag (2006). ISBN 1-4020-4215-9. Zbl 1151.11300
  • Sándor, Jozsef; Crstici, Borislav, edd. Handbook of number theory II. Dordrecht: Kluwer Academic (2004). ISBN 1-4020-2546-7. Zbl 1079.11001
  • Wagstaff, Samuel S. The Joy of Factoring Student mathematical library 68 American Mathematical Society (2013) ISBN 1470410486
How to Cite This Entry:
Harmonic number. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Harmonic_number&oldid=54401