# How to Sum through Vectors elements

I have a variable quantity that contains two vectors. I want to sum these quantity from i = 1 to n, where n = 100. When the program is ran, I can click on the variables in the work space to see the element values of the vectors for each column position. When executing the variable of its position I get the corresponding value, (for e.g., z(1) = 73.2360, z(2) = 63.3701, .... and so on). But what I cannot seem to figure out is how to index thee vectors for the sum to run through the elements of the two vectors. For example in a for loop. I also took a look at `symsum()`, but that needed just generic variables. I am trying to sum epsilon from i = 1 to 100, where z_i and w_i are vectors of interest. I hope the MWE will show more of what I want to accomplish.

MWE:

`````` a = 0.6;
b = sqrt(16-a^2);
c = 6.5;
d = sqrt(225-c^2);
xh = randn(1,100);
yw = randn(1,100);
z = a*xh + b*yw + 68;
w = c*xh + d*yw + 160;

n = 100;                              % # of data entries.
zbar = ((1/n)*sum(z));                   % Height data.
wbar = ((1/n)*sum(w));                   % Weight data.
Zbarv = zbar*ones(1,100);                 % Height data vector.
Wbarv = wbar*ones(1,100);                 % Weight data vector.

sz = sqrt((1/n)*((z-Zbarv)*(transpose(z)-transpose(Zbarv))));
sw = sqrt((1/n)*((w-Wbarv)*(transpose(w)-transpose(Wbarv))));

czw = ((1/n)*(w-Wbarv)*(transpose(z)-transpose(Zbarv)));
rzw = czw/(sz*sw);

b = wbar - ((czw/sz^2)*zbar);             % y-intercept
m = czw/sz^2;                             % Slope
epsilon = (1/(n-1))*sum((w-(m*z+b)).^2);  % Error
``````

The epsilon should be summing this, but should be a sum from `i=[1,100]`. I do not know how to index the values of the `w_i` and `z_i` vectors to for the sum to run through them. I tried making a input variable to them like `z(i)` and `w(i)`but turned out messy.

Any suggestions?

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So you want to calculate the sum of the first i elements for every value of `i` between 1 and 100? –  Eitan T Apr 30 '13 at 9:13

It sounds like you just want:

``````epsilon = (1/(n-1))*sum((w(1:100)-(m*z(1:100)+b)).^2);
``````

Although since you `w` and `z` are just 100 elements long, I think this is the same as what you've done. So I think your code is actually correct as it stands.

For example if `a = [1 2 3]`, then `sum(a)` is `6`, you don't actually have to index `a` to get the sum. So your code is finding the sum of all 100 elements.

You should read up on the Matlab colon operator

The basic idea is that in matlab something like `1:10` is just short hand for `[1 2 3 4 5 6 7 8 9 10]` and you can use that to index a vector. So if we have a vector `v = rand(100,1)` then to get the first 10 elements of `v` it's just `v(1:10)`

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Don't think that's what the OP wants. `x` and `z` already have 100 samples, the colon indexing is superfluous. –  Eitan T Apr 30 '13 at 9:25
@EitanT Yes I agree, I've said as much in the answer. I think the OPs code is correct tbh. –  Dan Apr 30 '13 at 9:26
@Dan: I checked the code too, and I think you are right! But perhaps the OP is looking for kinda cumulative sum? Otherwise the question sounds quite cryptic to me. –  fpe Apr 30 '13 at 9:31
@Dan: Thanks. I just came to a realization that the vectors are already indexed and when doing the sum, it will do the vector arithmetic operations automatically with just `sum`. I feel such a floosy, been thinking about how to do this for so long. I am just used to working in a different environment than matlab. Thank You for the response and verification it is done right `:)` –  night owl Apr 30 '13 at 10:07