I'm new to MATLAB, and I'm trying to make sense of some scripts I have. In one, I have an expression for computing short-circuit impedance (within the context of other expressions):

```
Z=tan(2*p*f*d/vp)
```

That's fine and dandy, but when I want to change from tangent to the negative cotangent (for an open-circuit) like this:

```
Z=-1/tan(2*p*f*d/vp)
```

It gives me an error at that line as follows:

```
?? Error using ==> mldivide
Matrix dimensions must agree
```

Now, AFAIK none of the subexpressions in computing Z are matrices. What makes it more confusing is that if I change `1/tan`

with `cot`

then it works (independently of whether I add a `-`

sign in front of it or not):

```
Z=-cot(2*p*f*d/vp)
```

Any ideas? I've done my googling on the `mldivide`

error, but I just don't see how that applies to computing the cotangent as literally the inverse of the tangent.

Am I missing a MATLAB peculiarity here? Thanks.

## -- EDIT --

I think I should have included the entire source code (originally for calculating input impedance for a short-circuit line, and attempted a chance from `tan`

to `-cot`

for an open-circuit line)

```
close all; % close all opened graphs
figure; % open new graph
% define distributed line parameters
L=209.410e-9; % line inductance in H/m
C=119.510e-12; % line capacitance in F/m
vp=1/sqrt(L*C); % phase velocity
Z0=sqrt(L/C); % characteristic line impedance
d=0.1; % line length
N=5000; % number of sampling points
f=1e9+3e9*(0:N)/N; % set frequency range
%Z=tan(2*pi*f*d/vp); % short circuit impedance
Z= -1/tan(2*pi*f*d/vp); % open circuit impedance
plot(f/1e9,abs(Z0*Z));
title('Input impedance of a short-circuit transmission line');
xlabel('Frequency {\itf}, GHz');
ylabel('Input impedance |Z|, {\Omega}');
axis([1 4 0 500]);
% print -deps 'fig2_28.eps' % if uncommented -> saves a copy of plot in EPS format
```