This problem is tougher than it seems.

As others have alluded to, this is a NP-complete problem, but let's analyse what that means.

Basically, it means you have to look at all possible combinations.

But "look at" doesn't tell you much what you need to do.

Generating all possible combinations is easy. It might produce a huge amount of data, but you shouldn't have much problems understanding the concepts of this part of the problem.

The second problem is the one of judging whether a given possible combination is good, bad, or better than the previous "good" solution.

For this you need more than just "is it a possible solution".

For instance, is the same teacher working 5 days a week for X weeks straight? Even if that is a working solution, it might not be a better solution than alternating between two people so that each teacher does one week each. Oh, you didn't think about that? Remember, this is people you're dealing with, not just a resource allocation problem.

Even if one teacher could work full-time for 16 weeks straight, that might be a sub-optimal solution compared to a solution where you try to alternate between teachers, and this kind of balancing is very hard to build into software.

To summarize, producing a good solution to this problem will be worth a lot, to many many people. Hence, it's not an easy problem to break down and solve. Be prepared to stake out some goals that aren't 100% and calling them "good enough".