For 'invert sugar', the correct statement(s) is(are)

(Given: specific rotations of ($+$)-sucrose, ($+$)-maltose, $L$-($-$)-glucose anc. $+(+)$-fructose in aqueous solution are $+66^{\circ},+140^{\circ},-52^{\circ}$ and $+92^{\circ}$, respectively)

($A$) 'invert sugar' is prepared by acid catalyzed hydrolysis of maltose

($B$) . 'invert sugar' is an equimolar mixture of $D$-($+$)-glucose and $D$-($-$)-fructose

($C$) specific rotation of 'invert sugar' is $-20^{\circ}$

($D$) on reaction with $\mathrm{Br}_2$ water, 'invert sugar' forms saccharic acid as one of the products

Q: For 'invert sugar', the correct statement(s) is(are) (Given: specific rotations of ($+$)-sucrose, ($+$)-maltose, $L$-($-$)-glucose anc. $+(+)$-fructose in aqueous solution are $+66^{\circ},+140^{\circ},-52^{\circ}$ and $+92^{\circ}$, respectively) ($A$) 'invert sugar' is prepared by acid catalyzed hydrolysis of maltose ($B$) . 'invert sugar' is an equimolar mixture of $D$-($+$)-glucose and $D$-($-$)-fructose ($C$) specific rotation of 'invert sugar' is $-20^{\circ}$ ($D$) on reaction with $\mathrm{Br}_2$ water, 'invert sugar' forms saccharic acid as one of the products

c $(B)$ 'Invert sugar' Is an equimolar mixture of $D-(+)$-glucose and $D-(-)$-fructose $(C)$ specific rotation of 'Invert sugar' is $-20^{\circ}$ $\underset{\substack{ C _6 H _{12} O _6-(+)-\text {-lluose } \\+52^{\circ}}}{ C _{12} H _{42} O _{11}}+\underset{\substack{ C _6-(-) \text {-frucose } \\ \text { - } 92^{\circ}}}{ H _{12} O } \xrightarrow{ H ^{+}}$ $\alpha_{\text {invert sugar }}=\frac{+52^{\circ}-92^{\circ}}{2}=-20^{\circ}$

Question

For 'invert sugar', the correct statement(s) is(are)

(Given: specific rotations of ($+$)-sucrose, ($+$)-maltose, $L$-($-$)-glucose anc. $+(+)$-fructose in aqueous solution are $+66^{\circ},+140^{\circ},-52^{\circ}$ and $+92^{\circ}$, respectively)

($A$) 'invert sugar' is prepared by acid catalyzed hydrolysis of maltose

($B$) . 'invert sugar' is an equimolar mixture of $D$-($+$)-glucose and $D$-($-$)-fructose

($C$) specific rotation of 'invert sugar' is $-20^{\circ}$

($D$) on reaction with $\mathrm{Br}_2$ water, 'invert sugar' forms saccharic acid as one of the products

A$B,A$
B$B,D$
C$B,C$
D$B,C,D$

IIT 2016, Advanced

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