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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):


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


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):


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

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
share|improve this question
Not very easy to get up-votes around here is it?! – David Heffernan Feb 10 '11 at 19:07
The internet is a cruel mistress ;) – luis.espinal Feb 10 '11 at 19:22
Good that you are sorted now. I don't understand Matlab syntax either!!! – David Heffernan Feb 10 '11 at 19:27
up vote 3 down vote accepted

I guess one of p, f, or d is a matrix, so tan(2*p*f*d/vp) will be a matrix as well. 1/matrix won't work because that is defined to be the inverse of a matrix multiplication, where you have restrictions to the dimensions of your matrices.



This is the element-wise division. (I assume that's what you want.)

share|improve this answer
That's what it was (I edited my original question to include the entire source code), it seems that f is a matrix (I'm still grappling with MATLAB syntax.) Using the element-wise division operator as you suggested does the trick. Thank you. – luis.espinal Feb 10 '11 at 19:23

That code works fine so long as p, f, d and vp are all scalar. Therefore, one of your inputs must be non-scalar.

share|improve this answer
Yeah, it was my f input. Thanks! – luis.espinal Feb 10 '11 at 19:24

The / sign is matrix division (i.e. multiplication by the inverse from the right), which needs same-sized arrays. Normally, all works well with scalars, but sometimes, the interpreter will cough so that you have to use ./, i.e. element-wise division, instead.

share|improve this answer
The interpreter will only cough if any of the inputs are non-scalar. – Oliver Charlesworth Feb 10 '11 at 16:52
@Oli Charlesworth: I've had this happen with scalars before (some older version of Matlab, though) for no obvious reasons. Element-wise division fixes it. – Jonas Feb 10 '11 at 17:52
@Oli - it was my f parameter, which apparently is a matrix :/ – luis.espinal Feb 10 '11 at 19:24
>> p = 0.1;
>> f = 0.2;
>> d = 0.01;
>> vp =0.2;
>> Z=-1/tan(2*p*f*d/vp)

Z =


It would seem that you are passing a matrix as Matlab tells you.

share|improve this answer
Indeed, it was my f input that was throwing things off. – luis.espinal Feb 10 '11 at 19:39

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