QUESTION: How do you determine the molar mass of the unknown, nonelectrolyte compound for each trial?

First, the formula to use is delta T = Kf*m and delta T is 0.35 (not 0.34) Follow that through and you get about 292 for the experimental molar mass. None of the answers match. I think the freezing point of pure water at -0.58 C sounds fishy (it should be zero) BUI thermometers CAN be off by that much, I guess. After all, it's the DIFFEREMCE that counts and that difference is 0.35. I don't see anything wrong with your calculations; it has to be the data. One thing to remember is that this method of determining the molar mass is not and EXACT procedure. It can be off by 50% or so depending upon a lot of things. For non-volatile compounds,however, it is better than that but not error free. I would try decreasing/increasing those those molar mass of the compounds listed by +/- 10% and see if that gets close. For example 10% of 342 for sucrose is 342-34 = about308. So I might go with sucrose, also, especially when we consider that the 1.86 is an average of all compounds + you know there is the possibility of experimental error.