I have a 3x3 matrix, A. I also compute a value, *g*, as the maximum eigen value of A. I am trying to change the element A(3,3) = 0 for all values from zero to one in 0.10 increments and then update *g* for each of the values. I'd like all of the other matrix elements to remain the same.

I thought a *for loop* would be the way to do this, but I do not know how to update only one element in a matrix without storing this update as one increasingly larger matrix. If I call the element at A(3,3) = *p* (thereby creating a new matrix Atry) I am able (below) to get all of the values from 0 to 1 that I desired. I do not know how to update Atry to get all of the values of *g* that I desire. The state of the code now will give me the same value of *g* for all iterations, as expected, as I do not know how to to update Atry with the different values of *p* to then compute the values for *g*.

Any suggestions on how to do this or suggestions for jargon or phrases for me to web search would be appreciated.

```
A = [1 1 1; 2 2 2; 3 3 0];
g = max(eig(A));
% This below is what I attempted to achieve my solution
clear all
p(1) = 0;
Atry = [1 1 1; 2 2 2; 3 3 p];
g(1) = max(eig(Atry));
for i=1:100;
p(i+1) = p(i)+ 0.01;
% this makes a one giant matrix, not many
%Atry(:,i+1) = Atry(:,i);
g(i+1) = max(eig(Atry));
end
```