This is the question I'm trying to solve:

The following divide-and-conquer algorithm is proposed for finding the simultaneous maximum and minimum:

If there is one item, it is the maximum and minimum

if there are two items, then compare them and in one comparison you can find the maximum and minimum.

Otherwise, split the input in two halves, divided as evenly as possibly (if N is odd, one of the two halves will have one more element than the other).

- Recursively find the maximum and minimum of each half, and then in two additional comparisons produce the maximum and minimum for the entire problem.

(b) Suppose N is of the form 3 + 2k. What is the exact number of comparisons used by this algorithm?

for this point (b), I tried to find a recurrence equation to solve but it didn't work. I've tried

```
T(n)= T(n/2+1) + T(n/2) + 3
```

where three is the minimum cost when I try 3 inputs. any help?