I am Working through the analysis of deterministic median finding under the assumption that the input is divided into 3 parts rather than 5 and the question is Where does it break down?

the deterministic median finding algorithm:

SELECT(i, n)

Divide the n elements into groups of 5. Find the median of each 5-element group by rote.

Recursively SELECT the median x of the ⎣n/5⎦ group medians to be the pivot.

Partition around the pivot x. Let k = rank(x)

4.if i = k then return x

elseif i < k

then recursively SELECT the ith smallest element in the lower part

else recursively SELECT the (i–k)th smallest element in the upper part

I went through the analysis of the algorithm and I believe that Step 1 and 3 will take O(n) where it just takes just constant time to find the median of 5 elements and Step2 takes T(n/5).so at least 3/10 of elements are ≤ p, and at least 3/10 of the array is ≥ p, therefore,Step 4 will T(7n/10) and will get the recurrence. T(n) ≤ cn + T(n/5) + T(7n/10), but when I divide the elements in goroup of 3, let say the 9 elements and I divided them in group such that:

{1,2,10} {4,11,14}, {15,20,22}

I got the medians 2,11,20 and the p=11.

in general in group of five lets say g = n/5 groups and at least ⌈g/2⌉ of them (those groups whose median is ≤ p) at least three of the five elements are ≤ p. so the total number of elements ≤ p is at least 3⌈g/2⌉ ≥ 3n/10. BUT in group of 3 we can get all the three elements might be LESS than p. and here I think the algorithm will break down !!

Did I get the idea correct???