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Please help me write a MATLAB program that constructs a column matrix b, such that

b1 = 3x1 - 3/4y0
b2 = 3x2
bn-2 = 3xn-2
bn-1 = 3xn-1 - 3/4yn

where x and y are variables. Notice that y only appears in the first and last entries of b.

My problem is that I don't know how variables work in MATLAB. I tried

b = 3*x

and it says

??? Undefined function or variable 'x'

So, how do we create variables instead of constants?


share|improve this question
Okay, good luck! Wait, did you have a question? – Jeff Jun 24 '11 at 0:59
Ok, let's rewind a bit. What are you trying to do? What is x, what is y and how do you get x and y? – abcd Jun 24 '11 at 1:16
They are variables, so that if I call b(2) for example, it will return >3x<sub>2</sub>. Is this possible? – Mariska Jun 24 '11 at 1:18
is it possible in MATLAB doing something like y = 1+x, then y^2 will give me >1 + 2x + x^2? All in the terms of x. – Mariska Jun 24 '11 at 1:28
Yes, it is possible (in a limited way). You'll need to use the symbolic toolbox, which is not part of basic MATLAB. Can you check if you have that toolbox? In the mean time, I'll post a simple example on how to use it. – abcd Jun 24 '11 at 1:46
up vote 4 down vote accepted


From your comments above, what you need is MATLAB's symbolic toolbox, which allows you to perform computations in terms of variables (without assigning an explicit value to them). Here's a small example:

syms x %#declare x to be a symbolic variable


x^2 + 2*x + 1

You will need to use expand sometimes to get the full form of the polynomial, because the default behaviour is to keep it in its simplest form, which is (1+x)^2. Here's another example to find the roots of a general quadratic

syms a b c x

ans =

 -(b + (b^2 - 4*a*c)^(1/2))/(2*a)
 -(b - (b^2 - 4*a*c)^(1/2))/(2*a)

I think you meant bn and xn in the last line... Anyway, here's how you do it:


You can also do it in a single line as

b=3*x-3/4*[y(1); zeros(n-2,1); y(end)];

where n is the length of your vector.

share|improve this answer

You never stated your problem...

Anyways just set the first entry of b individually first. Then use a loop to set the next values of b from 2 up to n-2. Then set the last entry of b individually.

On a side note, if x is a vector, you can simply vectorize the loop part.

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