Is there a closed form for the harmonic series?

avocadogirl
Messages
52
Reaction score
0
Taking from Euler's offering that:

\Sigma1/n= ln(n) + \gamma

could you say that there is a closed form of the harmonic series?

Does Euler's offering qualify?
 
Physics news on Phys.org
Your = is not the usual =, but the asymptomic =. As such it is not a closed form in the usual sense. To talk of a closed form one needs to define which functions and operations are to be acceptable and as in this case in what sense two forms are to be equal. The harmonic series in usually not considered to have a closes form as it can not be written in terms of the usual function with the usual =.
 
Could you please explain a little more about this asymptotic equivalence?

Would it be more accurate to include the summation of a "Kth" Bernoulli number, divided by the product of "K" and (n raised to the power of "K"), as K goes from one to infinity?

But, including this summation would not constitute closed form, correct?
 
avocadogirl said:
Taking from Euler's offering that:

\Sigma1/n= ln(n) + \gamma]
No, Euler never said any such thing. The equation you write is obviously false. On the left, you have a sum with n varying over some unstated domain so the sum itself does NOT depend on n, but the right hand side does.

could you say that there is a closed form of the harmonic series?

Does Euler's offering qualify?
 
avocadogirl said:
Could you please explain a little more about this asymptotic equivalence?

Would it be more accurate to include the summation of a "Kth" Bernoulli number, divided by the product of "K" and (n raised to the power of "K"), as K goes from one to infinity?

But, including this summation would not constitute closed form, correct?

H(n)= ln(n) + Euler–Mascheroni
where Hn is the nth harmonic number
would better be written
H(n)~ln(n) + Euler–Mascheroni
to avoid confusion
interpeted as
limit [-H(n)+ ln(n) + Euler–Mascheroni]=0

That is to say that while the two sides are never equal the get closer the large n gets

and no a integral or a sum (finite or infinite) would not be considered a closed form for harmonic numbers
 
Thank you! That clarifies.
 

Similar threads

B Understanding about Sequences and Series
Replies
3
Views
2K
A Existence of a limit implies that a function can be harmonic extended
Replies
1
Views
2K
B I'm trying to find a general formula for a harmonic(ish) series
Replies
8
Views
2K
I Closed Form for Complex Gamma Function
Replies
1
Views
2K
MHB Using Standard Taylor Series to build other Taylor Series
Replies
2
Views
2K
Insights Investigating Some Euler Sums
Replies
0
Views
2K
B Difficulty with understanding whether 1/n converges or diverges
Replies
11
Views
4K
MHB Series Convergence/Divergence (II)
Replies
3
Views
2K
A Summing over continuum and uncountable numerocities
Replies
1
Views
3K
Compact summary of Fourier series equations
Replies
11
Views
2K

Hot Threads

Recent Insights

Back
Top