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I'm trying to create a vector of size 121x101 such that the ith column is made up of V_t*e, where V_t = 1000*10^((i-1)/20) and e is a 121 long column of ones.

Clearly i is to be varied from 1 to 101 million, but how would I apply that to a matrix without only yielding the final value in the results (applying this to every column without repeating commands)?

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1 Answer 1

up vote 2 down vote accepted

From your question, it looks like each row is the same. Thus, you can just calculate one row using REPMAT as

iRow = 1:101;
V_t = 1000*10.^((iRow-1)/20);
V_te = repmat(V_t,121,1);

If you want to have e be 1 in row 1, 2 in row 2, etc, you can use NDGRID to create two arrays of the same size as the output, which contain the values of e and i for every element (i,j) of the output

[ee,ii] = ndgrid(1:121,1:101);
V_te = 1000*10.^((i-1)/20) .* ee;

or you can use BSXFUN to do the expansion of e and i for you

iRow = 1:101;
V_t = 1000*10.^((iRow-1)/20);
V_te = bsxfun(@times,V_t,(1:121)');
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Yeah, each row is the same. That seems to have worked, thanks. For some reason when I tried computing V_t before it did not accept the i (now iRow) variable because it tried calculating a scalar. I thought some kind of piecewise function (.) was necessary, just not where. Thanks again. – alan Mar 2 '11 at 13:23
@alan: You're welcome. If you use arrays in algebraic expressions, it's safest to always use . operators. – Jonas Mar 2 '11 at 13:33

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