Reccurrence T(n) = T(n^(1/2)) + 1
Here is how you can find the answer without any hints, just by using math.
Start unrolling the recursion: .
The recursion will at some point stop, so we have to find a reasonable stopping point. Trying 0, 1, 2, you can see that 2 looks good, because you can easily solve the equation: .
Solving it, you get .
So the recursion will continue log(log(n))
times and this is your time complexity.
P.S. a little bit harder recurrence was solved here.
hint: assume n = 22m or m = log2log2n, and you know 22m-1 * 22m-1 = 22m so, if you define S(m)=T(n) your S will be:
S(m) = S(m-1)+1 → S(m) = Θ(m) → S(m)=T(n) = Θ(log2log2n)
extend it for the general case.
In recursion like T(n) = T(n/2) + 1, in each iteration, we reduce the height of the tree to half. This leads to Θ(logn). In this case, however, we divide the input number by a power of two (not by two) so it turns out to be Θ(log log n ).