From fzero documentation
x = fzero(fun,x0) tries to find a zero of fun near
x0 is a scalar.
fun is a function handle. The value
x returned by fzero is near a point where fun changes sign, or NaN if the search fails. In this case, the search terminates when the search interval is expanded until an Inf, NaN, or complex value is found.
So it can't find all zeros by itself, only one! Which one depends on your inputted
Here's an example of how to find some more zeros, if you know the interval. However it just repeatedly calls
fzero for different points in the interval (and then still can miss a zero if your discretization is to coarse), a more clever technique will obviously be faster:
As you can see in the documentation and the example above, the proper way for calling fzero is with a function handle (
@fun), so in your case:
zero1 = fzero(@f, 0);
From this info you can also see that the actual roots are at
4.84368. So if you call fzero with 0.4, 1.5 and 4.8 you probably get those values out of it (convergence of fzero depends on which algorithm it uses and what function you feed it).