Finite-Sum Function

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Atom
Atom el 29 de En. de 2012
Comentada: Radu Trimbitas el 30 de En. de 2019
Hello All,
I would like to create a function S_N, that would return the Nth term of a series. Here's what I have so far:
1 function S_N = S(N)
2 k = 1:N
3 A_k = 1./(k.^(3/2)+k.^(1/2))
4 S_N = cumsum(A_k)
5 end
MatLab politely replies:
>> S_N
Error using S_N (line 2)
Not enough input arguments.
I'm not sure what else MatLab wants. I would think this is a pretty simple fix for this uber program. (I can do it perfectly on my TI89 :D)
Much Thanks, Jim

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Respuesta aceptada

Andrew Newell
Andrew Newell el 30 de En. de 2012
S_N is the output, but the function name is S. Use, e.g.,
S(10)
(you'll need to input a number).

Más respuestas (2)

Jan
Jan el 30 de En. de 2012
You've defined S_N such that it needs one input argument. So call it like:
S_N(3)
Atom
Atom el 30 de En. de 2012
Much thanks;
At the bottom is my final code for anyone else that would want to know. (Of course! I have to give him a number). By the way, the infinite sum is referred to as "Theodorus' constant". It seems pretty hard to approx. Here are the first fifty digits:
1:86002 50792 21190 30718 06959 15717 14332 46665 24121 52345...
function S_N = S(N)
k = 1:N;
A_k = 1./(k.^(3/2)+k.^(1/2));
S_N = sum(A_k)
end
  2 comentarios
Andrew Newell
Andrew Newell el 30 de En. de 2012
I did a quick search on Theodorus constant, and all the sources said it is the square root of 3, or 1.73205 ...
Radu Trimbitas
Radu Trimbitas el 30 de En. de 2019
There are two Theodorus constant, square root of 3 and sum of the series sum_{n=1}^{\infty} \frac{1}{k^{3/2}+k^{1/2}} ....

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