# Disjoint sets with forest implementation without path compression

Consider a forest implementation of disjoint sets with only the weighted union heuristics (NO PATH COMPRESSION!) with n distinct elements. Define T(n,m) to be the worst case time complexity of executing a sequence of n-1 unions and m finds in any order, where m is any positive integer greater than n.

I defined T(n,m) to be the sequence of doing n-1 unions and then m finds AFTERWARDS because doing the find operation on the biggest tree possible would take the longest. Accordingly, T(n,m) = m*log(n) + n - 1 because each union takes O(1) so n-1 unions is n-1 steps, and each find takes log(n) steps per as the height of the resultant tree after n-1 unions is bounded by log_2 (n).

My problem now is, does the T(n,m) chosen look fine?

Secondly, is T(n,m) Big Omega (m*log(n)) ? My claim is that it is with c = 1 and n >= 2, given that the smallest possible T(n,m) is m*log(2) + 1, which is obviously greater than m*log(2). Seems rather stupid to ask this but it seemed rather too easy for a solution, so I have my suspicions regarding my correctness.