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Yr 12 Mass spec (1 Viewer)

hs17

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Are we meant to know how to answer this question for the HSC? Like knowing the masses of the different isotopes of bromine?

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Screen Shot 2021-10-15 at 12.17.29 pm.png

Ans:
Screen Shot 2021-10-15 at 12.17.35 pm.png
 

hs17

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Hahah ok tyy! Would we need to know any other substances' isotopes e.g. Cl?
 

CM_Tutor

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The halogens chlorine and bromine come in pairs of isotopes, a mass of two apart. You can guess what they are from the molar mass:
  • chlorine comes as 35Cl and 37Cl, in roughly 3:1 ratio giving M = 35.5 g mol-1
  • bromine comes as 79Br and 81Br, in roughly 1:1 ratio giving M = 79.9 g mol-1
These are the only two that you can be expected to know, but you do need to be able to recognise the effect of other isotopes if present. For example, if you were told that one carbon atom was a 13C, rather than the usual 12C, in a sample of butanone, you would need to recognise that the molecular ion would be [12C313C1H8O]+ * with m/z = 73 rather than the m/z = 72 you'd get for [12C4H8O]+ *.

For a compound like dichloroethane, C2H4Cl2, you'd get molecular ions at:
  • m/z = 98 from [C2H435Cl2]+ *
  • m/z = 100 from [C2H435Cl137Cl1]+ *, and
  • m/z = 102 from [C2H437Cl2]+ *
and in roughly 9:6:1 ratio (which you can calculate from a tree diagram using P(35Cl) = 3/4 and P(37Cl) = 1/4, so you get P(2 x 35Cl) = 9/16,
P(2 x 37Cl) = 1/16, and P(one of each of 35Cl and 35Cl) = 2 x 3/4 x 1/4 = 6/16).
 
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