I'm reading Introduction to Algorithms book, second edition, the chapter about Medians and Order statistics. And I have a few questions about randomized and non-randomized selection algorithms.

**The problem:**
Given an unordered array of integers, find i'th smallest element in the array

a. The Randomized_Select algorithm is simple. But I cannot understand the math that explains it's work time. Is it possible to explain that without doing deep math, in more intuitive way? As for me, I'd think that it should work for O(nlog n), and in worst case it should be O(n^2), just like quick sort. In avg randomizedPartition returns near middle of the array, and array is divided into two each call, and the next recursion call process only half of the array. The RandomizedPartition costs (p-r+1)<=n, so we have O(n*log n). In the worst case it would choose every time the max element in the array, and divide the array into two parts - (n-1) and (0) each step. That's O(n^2)

The next one (Select algorithm) is more incomprehensible then previous:

b. What it's difference comparing to previous. Is it faster in avg?

c. The algorithm consists of five steps. In first one we divide the array into n/5 parts each one with 5 elements (beside the last one). Then each part is sorted using insertion sort, and we select 3rd element (median) of each. Because we have sorted these elements, we can be sure that previous two <= this pivot element, and the last two are >= then it. Then we need to select avg element among medians. In the book stated that we recursively call Select algorithm for these medians. How we can do that? In select algorithm we are using insertion sort, and if we are swapping two medians, we need to swap all four (or even more if it is more deeper step) elements that are "children" for each median. Or do we create new array that contain only previously selected medians, and are searching medians among them? If yes, how can we fill them in original array, as we changed their order previously.

The other steps are pretty simple and look like in the randomized_partition algorithm.