I'm not going to answer your question because I feel that previous people have answered it. What I will do is try to explain the purpose of the FFT.

First, the FFT is a way to compute the convolution between two vectors. That is, suppose x = and y= are 1xn vectors then the convolution of x and y is

\sum_{i=0} ^n {xi y{n-i}}.

You will have to accept the fact that computing that value is EXTREMELY useful in a wide range of applications.

Now consider the following.

Suppose we construct two polynomials

A(z) = x0 + x1*z + x2 *z^2 + .. + xn^z^n
B(z) = y0 + y1*z + y2 *z^2 + .. + yn^z^n

then the multiplication is

AB(z) = A(z)B(z) = \sum_{i=0} ^ n (\sum_{k=0} ^ i xk*y{i-k}) z^i

where the inside sum is clearly a convolution of different size for different values of k.

Now we can clearly compute the coefficients (convolutions) of AB in n^2 time by a brute force method.

However, we can also be much more clever. Consider the fact that any polynomial of degree n can be described uniquely by n+1 points. That is given n+1 points we can construct the unique polynomial of degree n that goes through all n+1 points. Further more consider 2 polynomials in the form of n+1 points. You can compute their product by simply multiplying the n+1 y-values and keeping the x-values to result in their product in point-form. Now given a polynomial in n+1 point-form you can find the unique polynomial that describes it in O(n) time (actually Im not sure about this, it may be O(nlogn) time but certainly not more.)

This is exactly what the FFT does. However, the points that it picks to get the n+1 points to described the polynomials A and B are VERY carefully chosen. Some of the points are indeed complex because it just so happens that you can save time in evaluating a Polynomial by considering such points. That is if you were to choose just real points instead of the carefully chosen points that the FFT uses you would need O(n^2) time to evaluate the n+1 points. If you choose the FFT you only need O(nlogn) time. And thats all there is to the FFT. Oh and there is a unique side effect to the way that the FFT chooses points. Given an n-th degree polynomial, you must choose 2^m points where m is chosen such that 2^m is the smallest power of 2 greater than or equal to n.