The specific rotation of enantiomerically pure (S)-2-butanol is \( +14^\circ \). The specific rotation of the enantiomeric mixture of 2-butanol obtained from an asymmetric reduction of 2-butanone is found to be \( +7^\circ \).
The percentage of (R)-2-butanol present in the reaction mixture is _________ (in integer).
The specific rotation of enantiomerically pure (S)-2-butanol is \( +14^\circ \). The specific rotation of the enantiomeric mixture of 2-butanol obtained from an asymmetric reduction of 2-butanone is found to be \( +7^\circ \).
The percentage of (R)-2-butanol present in the reaction mixture is _________ (in integer).
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Solution and Explanation
Let the mole fraction of (S)-2-butanol = \( x \)
Then the mole fraction of (R)-2-butanol = \( 1 - x \)
Since (S)-2-butanol has a specific rotation of \( +14^\circ \) and (R)-2-butanol has \( -14^\circ \), the observed specific rotation is:
\[ [\alpha]_{\text{obs}} = x(+14) + (1 - x)(-14) = 14x - 14(1 - x) = 14(2x - 1) \]
Given that \( [\alpha]_{\text{obs}} = +7^\circ \), we solve:
\[ 14(2x - 1) = 7 \Rightarrow 2x - 1 = \frac{1}{2} \Rightarrow x = \frac{3}{4} \]
So, the percentage of (S)-2-butanol is \( 75\% \), and that of (R)-2-butanol is:
\[ 100\% - 75\% = \boxed{25\%} \]
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