how to generate a matrix from another matrix

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Naema
Naema on 20 Jun 2014
Commented: Andrew on 20 Jun 2014
Hi: I am having a matrix called "alpha" with size (1x50) and another matrix called "beta" which is related to alpha through the following relation: beta=0.001/alpha I wanted to get beta as another "1x50" matrix so the number "0.001" contributes to all the values in the matrix "alpha". can any one help me out with this? Naema

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Accepted Answer

Sean de Wolski
Sean de Wolski on 20 Jun 2014
beta = 0.0001./alpha
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Naema
Naema on 20 Jun 2014
so I needed alpha to go from 11 to 3 not from 3 to 11.
Andrew
Andrew on 20 Jun 2014
Naema, what do you mean by inverse? If you want the element wise inverse such as
1/alpha_ij
then you would use
r=log(0.001)./(-(alpha.^(-1));
If you want alpha flipped, as in you defined alpha as linspace(3,11,50) but actually want linspace(11,3,50) then you can use the fliplr function like this:
r=log(0.001)./(-fliplr(alpha))
If you want the matrix inverse of alpha, well that's impossible to actually find (you can do some funny things with pseudo inverses but they're not real inverses).
If none of that is what you are looking for then you need to ask a new question and better define what it is you are looking for.
Andrew

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More Answers (2)

AJ von Alt
AJ von Alt on 20 Jun 2014
You can use rdivide to do this. "rdivide" will expand the scalar "0.001" to match the size of alpha and perform elementwise division.
alpha = 1:50;
beta = 0.001./alpha;
Andrew
Andrew on 20 Jun 2014
Hello Naema. There is a really simple solution to this. All you have to do is use element operations by adding a dot.
For instance:
A=randn(50); %generating a random 50x50 matrix
B=0.001./A; %note the dot before the slash.
The reason you need the dot is because when you use something/(a matrix) in matlab, it assumes that you are trying to solve a linear system. By adding in the dot you tell matlab that instead you want to perform the operation of 0.001/A for each element of A. This notation works for many operations as well.
For instance say you want to multiply all of the elements two matrices together. Then we could do:
A=randn(50);
B=randn(50);
C=A.*B;
Here the result C would be the element multiplication of matrices A and B. That is c_ij=a_ij*b_ij. Note that this is much different than usual matrix multiplication.
There are other operators this applies to as well, such as the exponential operator and the likes. It is very useful!

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