In general, for any N things, one can calculate the average by adding them together and then dividing by N. Each of them contributes (1/N) to that average.
So when you asked if (1+2+3+4)//4 would work to average all four of 1, 2, 3, and 4, the answer is yes, it does in fact do so.
that's just not a useful fact to us here
because when we're trying to find the next pivot point, we want the pivot to be between the lowest possible thing and the highest possible thing, excluding the things we already ruled out
(the average of all the indexes starting from 0 and going to the entire length of your list just puts you halfway through the list -- it's the same number you'd get if you took the max value and divided by 2, so it gives you only the first pivot and can't be used to find other, later pivots)
(I'm fudging over the difference between integer and float rounding here; can deal with that after the concepts otherwise make sense)
that said, we've got a larger audience and I need to be leaving, so if the above isn't adequate explanation I'll leave it to someone else to try their hand
