You pseudo-coded a little too strongly for my taste - I have tried to reconstruct what you were trying to do. If I understood correctly, this should do address your question (store intermediate results from the calculation in array Z):

```
L=100
z = zeros(L,10);
for x=1:10
% perform some calculations
eqn1
for y=1:L
% perform some more calculations; it is not clear whether the result of
% this loop over y=1:L yields one value, or L. I am going to assume L values
z(y, x) = eqn2(x, y)
end
value =num2strn eqn2
disp value
end
% now you have the value of each evaluation of the innermost loop available. You can plot it as follows:
figure;
plot( x, z); % multiple plots with a common x parameter; may need to use Z' (transpose)...
title 'this is my plot';
xlabel 'this is the x axis';
ylabel 'this is the y axis';
```

As for the other questions you asked in your comments, you could probably findd inspiration in the following:

```
L = 100;
nx = 20; ny = 99; % I am choosing how many x and y values to test
Z = zeros(ny, nx); % allocate space for the results
x = linspace(0, 10, nx); % x and y don't need to be integers
y = linspace(1, L, ny);
myFlag = 0; % flag can be used for breaking out of both loops
for xi = 1:nx % xi and yi are integers
for yi = 1:ny
% evaluate "some function" of x(xi) and y(yi)
% note that these are not constrained to be integers
Z(yi, xi) = (x(xi)-4).^2 + 3*(y(yi)-5).^2+2;
% the break condition you were asking for
if Z(yi, xi) < 5
fprintf(1, 'Z less than 5 with x=%.1f and y=%.1f\n', x(xi), y(yi));
myFlag = 1; % set flag so we break out of both loops
break
end
end
if myFlag==1, break; end % break out of the outer loop as well
end
```

This may not be what you had in mind - I cannot understand "run the loop untill all the values of z(y,x) <5 and then it should output x". If you run the outer loop to completion (that's the only way you know "all the values of z(y,x)" then your value of x will be the last value it was... This is why I was suggesting running through all values of x and y, collecting the whole matrix Z, and then examining Z for the things you want.

For example, if you wonder if there is a value for X for which all Z < 5, you could do this (if you didn't break out of the `for`

loops):

```
highestZ = max(Z, [], 1); % "take the highest value of Z in the 1 dimension
fprintf(1, 'Z is always < 5 for x = %d\n', x(highestZ<5));
```

etc.

If you can't figure it out from here, I give up...