i dont know that we need a control for the BOS for this exp....
i mean maybe if you wanted to make it a hell of alot more complicated you could pour out samples of cyclohexane, cyclohexene and bromine water and keep them all seperate then at the end of the experiment you could compare their colours to the reaction vessles. To be more thourough you could compare the bp's of all liquids using fractional distillation.
The control's should match the data sheet values for their boiling points as they should all still be the same chemical they started as. I dont know if or how well Br vapour will condense so i will advise not to distill the Br water OR the unreacted alkane as Bromine is hazardous to health .. i also dont know which temp it is evolved from br water either.
i would expect the reacted cyclohexene (which is now 1,2dibromocyclohexane) to have a very different BP to the original (and the control) cyclohexene. (use the bp to positively ID the fractions)
If you dont do the UV part of the experiment (which i wouldnt as it doesnt prove the aim) then the bp of the cyclohexane will be the same as the control, supporting the thesis that alkanes are less reactive than alkenes (because in the same situation they dont react). Water and Bromine vapour will come across at some stage depending on what temp they boil off at
If you do the UV part of the experiment then you will have to find out if 1bromocyclohexane has a diff bp to cyclohexane. You may even end up with a stack of multiple substitutions on some molecules and none on others (eg a mix of 1,bromocyclohexane, 1,1dibromocyclohexane, 1,2dibromocyclohexane, etc etc etc) which makes id by bp more difficult.
*gets up on soap box*
The uv part of this experiment to me is bad science - applying uv to one sample to break bonds and allow substitution while not doing it to the other sample is just poor. Even if you apply UV to both, do you re-add bromine (to the now 1,2dibromocyclohexane) to give both the same chance to react under these new conditions ? Also by this point they both are now alkanes and as such the experiment is no longer comparing reactivity of alkenes:alkanes it is simply proving "alkanes can react if you force them to with bond crushing uv energy"
