# Matlab numerical integration

I'm trying to integrate x using matlab, and that task is simple by using the following commands:

``````syms x

a=int(x)
``````

The problem is I'm not sure how to implement numerical integration. I want to integrate x using a set amount of intervals using different techniques.

Can anyone help me with the syntax call for numerical integration? The MathWorks site isn't very helpful.

I also do know there is a method called traps, but I'm looking for other methods within matlab, like Riemann sum approximation.

Update

So specifically what I'm looking for is a function that will break x into 8 pieces of area and then add those 8 pieces together. Is there a predefined function other than trapz that does such a thing?

Okay, I think I've come to the conclusion that there is no such thing. You have to make your own.

-

For numerical integration you have a broad number of functions at your disposal:

``````trapz
integral
``````

for uni-dimensional integration.

If, instead, you are interested in multi-dimensional integration techniques, you may think of making use of the following functions

``````dblquad
integral2
integral3
``````

EDIT

In your case, I would proceed this way:

``````x = 0:.1:2;
y = x;
trapz(x,y);
``````

or

``````y = @(x) x;
``````

EDIT 2

Give this a look:

``````clc,clear

s = 0:7;
y = @(x) x;

k = 1;
for ii = 1:numel(s)-1
k = k + 1;
end
sum(f)
``````
-
So to make sure I'm understanding this right, the reason those functions wouldn't work for me previously was because I was using, "syms x" instead of making x a vector of increment length "b" with start at "a" and end at "b." From there, I can call any of the functions you mentioned? Wow! thanks –  Mechy May 20 '13 at 19:42
@Mechy: `syms` is calling the symbolic toolbox, whereas the functions I have named above calculate your integral numerically. –  fpe May 20 '13 at 19:46
can you explain your notation on "y=@(x) x" a little more. What is that doing? Can I specify my interval length or amount of intervals with quad? "y=f(x)" doesn't work either. Matlab doesn't like that. Or are you saying that I compute the values of the function at those locations and then input those into a vector? –  Mechy May 20 '13 at 19:50
I redirect you to: mathworks.com/help/matlab/ref/function_handle.html and mathworks.com/help/matlab/function-handles.html. It`s gonna help you with understanding the function handle. –  fpe May 20 '13 at 19:53
So to make sure I'm understanding this right, "y=@(x)x" takes the array x as an input and then performs an operation on it after the first close parenthesis. for example, y=@(x)x^2 would take the array x and then square each number in it and pass it to y. –  Mechy May 20 '13 at 20:19