Symbolic Sum to find a general expression for arbitrary n terms and arbitrary variable definitions

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Hello, I have a need to add some terms defined using an index for the index running from 1 to and arbitrary number n.
I have equations similar to (actual equations are too long but the problem is the same):
where is an arbitrary number associated with
Goal:
I wish to find the average of these terms running from
I know I can use symsum for accomplishing this task.
syms x m
e = x + p_{m} % I want to know how to define this p_{m}
symsum(e, m, 1, n)
But I have the following question:
Question:
1) How do I define arbitrary symbolic variables 's for each equation. So that when I get the final sum of all the symbolic variables from 1 to n it will contain .
Please provide example code.
  2 Comments
atharva aalok
atharva aalok on 24 Sep 2022
Edited: atharva aalok on 24 Sep 2022
Ok I got some lead. I got how to create a symbolic variable with an arbitrary name.
syms x n
syms(sprintf('p%s', n)) % Create symbolic variable with name p_{n}
whos
Name Size Bytes Class Attributes cmdout 1x33 66 char n 1x1 8 sym pn 1x1 8 sym x 1x1 8 sym
Now the only problem left is to run symsum() and to create a new variable and use it in the sum everytime.
That is to make the declaration in the same statement where I use the variable

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Answers (1)

Walter Roberson
Walter Roberson on 24 Sep 2022
You cannot do that in MATLAB for symbolic limits.
For specific limit, n being a given positive integer, then you would not use symsum for this purpose. Instead,
n = a positive integer
syms a [1 n]
syms x [1 n]
y = sum(a.*x)
That is, you create vectors or arrays in which each entry is a scalar symbol. You then do vectorized operations, producing a vector or array of definite terms. You then sum() the definite terms.
symsum is not primarily for creating a sum of definite terms: symsum is primarily for trying to find closed formulas for indefinite or infinite summations.
Under no circumstances can you use a symbolic variable as an array index.
  4 Comments
Walter Roberson
Walter Roberson on 24 Sep 2022
So what would be passed to the sprintf is not going to be the "current" value of k for a series of values 1 to n: what is going to be passed to sprintf is the unresolved symbol k. So the sprintf would be invoked once to create literal 'pk' which gets you symbol pk and x + pk would get passed to symsum where that pk has no more connection to k than x does.
symsum will then internally subs(EXPRESSION, k, n) and subs(EXPRESSION, k, n+1) and possibly other terms and will work with those to try to come up with a closed formula. The difference would be 0 because x+pk contains no reference to k so symsum will predict the formula (x+pk) * (n-1+1). symsum will not add up the terms one by one.

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