The other answers show how to display a spectrogram. I think the question is how to detect a change in fundamental frequency. This is asked so often on Stack Exchange I wrote a blog entry (with code!) about it:
Admittedly, the code is in C, but I think you'll find it easy to port.
In short, you must:
low-pass the input signal so that higher frequency overtones are not mistaken for the fundamental frequency (this may not appear to be an issue in your application, since you are just looking for a change in pitch, but I recommend doing it anyway for reasons that are too complex to go into here).
window the signal, using a proper windowing function. To get the most responsive output, you should overlap the windows, which I don't do in my sample code.
Perform an FFT on the data in each window, and calculate the frequency using the index of maximum absolute peak value.
Keep in mind for your application where you probably want to detect the change in pitch accurately and quickly, the FFT method I describe may not be sufficient. You have two options:
There are techniques for increasing the specificity of the pitch tracking using phase information, not just the absolute peak.
Use a time-domain method based on autocorrelation. Yin is an excellent choice. (google for "yin pitch tracking")