How would we determine the optical activity in a compound as such:
The biggest difficulty I'm having is determining the R-S configuration as that will determine whether the pair are enantiomers or diastereomers.
My attempt:
We know that the carbon having the tritium atom will always have a higher priority than the carbon having a regular hydrogen (as per CIP rule).
Since $C_1$ has the lowest priority group (hydrogen) at the line and not the dash, and the rotation is clockwise, it has S configuration.
Similarly for $C_2$, since it has hydrogen at the dash, and the rotation is anti-clockwise, it has S configuration.
For it's mirror image,
$C_3$ has hydrogen at the dash and the rotation is clockwise, so it has R configuration.
As for $C_4$, it has hydrogen at the line and not the dash, and rotation is anti-clockwise, so it has R configuration.
Since configuration of both carbon atoms changes in the mirror image, they should be enantiomers, however they are supposedly diastereomers.
Why are the pair of compounds diastereomers and could someone point out where I'm going wrong?
