I think it is important here for you to understand what each of these terms means so that you can then write the code that gives you what you want.
Sample rate is the number of samples per second of audio, in your case 11025 (this is sometimes expressed in KHz) this is quite low when compared to something like CD audio which is 44.1KHz so 44100 sample rate and there are higher standards such as 48KHz, 96KHz.
Next you have the number of bits used for each sample, this can typically be 8/16/24/32 bits.
Next you can have an arbitrary number of channels for each sample.
So the code sample already posted shows how to apply each of these numbers together to get your milliseconds to samples which is simply multiplying the number of channels by the sample bits by the sample rate which gives you the data size for a single second of audio, then divide this number by 1000 to give you milliseconds.
This can get quite tricky when you start applying this to video which deals in frames which are either nice numbers like 25/30/50/60 frames a second to the NTSC based ones which are 23.98/29.97/59.94 frames a second in which case you have to do horrible calculations to make sure they align correctly.
Hope this helps.