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In some cases, either the upper or lower value of an asymmetric uncertainty may be zero. For example, if the ratio of successes to trials for a binomial process is high, then the best estimate of the ratio from a given set of trials may be 1, in which case the upper uncertainty is 0.
The present behaviour in siunitx is:
\num{20.01(0:2)} gives the same as \num{20.01(2)}
\num{20.01(2:0)} gives the same as \num{20.01}
It would be nice instead if the 0 could be retained as subscript or superscript:
\num{20.01(0:2)} should give something like $20.01^{+0.00}_{-0.02}$
\num{20.01(2:0)} should give something like $20.01^{+0.02}_{-0.00}$
Thanks!
The text was updated successfully, but these errors were encountered:
In some cases, either the upper or lower value of an asymmetric uncertainty may be zero. For example, if the ratio of successes to trials for a binomial process is high, then the best estimate of the ratio from a given set of trials may be 1, in which case the upper uncertainty is 0.
The present behaviour in
siunitxis:It would be nice instead if the 0 could be retained as subscript or superscript:
Thanks!
The text was updated successfully, but these errors were encountered: