Question #32905

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Question #32905

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Answer 1 · 2016-09-24T13:21:52

I can think of at least nine possible structures for tropic acid.

Explanation:

First Impressions

$Tropic acid + HBr \to C_{9} H_{9} O_{2} Br + H_{2} O$ $"Tropic acid + HBr" → "C"_9"H"_9"O"_2"Br" + "H"_2"O"$

∴ The formula of tropic acid must be $C_{9} H_{10} O_{3}$ $"C"_9"H"_10"O"_3$ .

The index of hydrogen deficiency is $IHD = \frac{20-10}{2} = \frac{10}{2} = 5$ $"IHD" ="20-10"/2 = 10/2 =5$ .

Anytime I see $IHD \geq 4$ $"IHD" ≥ 4$ , I think of an aromatic ring. Let's try $C_{6} H_{5}$ $"C"_6"H"_5$ .

There is probably an $OH$ $"OH"$ group (that was replaced by $Br$ $"Br"$ ).

From the name tropic acid and a remaining $IHD$ $"IHD"$ of 1, I would bet there is a $COOH$ $"COOH"$ group.

$C_{6} H_{5} + OH + COOH = C_{7} H_{7} O_{3}$ $"C"_6"H"_5 + "OH" + "COOH" = "C"_7"H"_7"O"_3$ .

That leaves $C_{2} H_{3}$ $"C"_2"H"_3$ ( ${CH}_{2} CH$ $"CH"_2"CH"$ or ${CH}_{3} C$ $"CH"_3"C"$ ) for the rest of the molecule.

Possible Structures

(a) If there is a monosubstituted phenyl

The possible structures are ${PhCH}_{2} CHOHCOOH$ $"PhCH"_2"CHOHCOOH"$ or ${HOCH}_{2} CHPhCOOH$ $"HOCH"_2"CHPhCOOH"$ or ${CH}_{3} C(OH)PhCOOH$ $"CH"_3"C(OH)PhCOOH"$ .

(b) If there is a disubstituted phenyl

If there is a disubstituted phenyl, the possible structures are the ortho, meta, and para isomers of (1-hydroxyethyl)benzoic acid and (2-hydroxyethyl)benzoic acid.

We don’t have enough information to specify the structure of tropic acid.

The reactions

Assume the structure is ${HOCH}_{2} CHPhCOOH$ $"HOCH"_2"CHPhCOOH"$ .

(a) Conversion of alcohol to alkyl bromide

Alkyl Bromide

(b) Dehydrobromination to atropic acid

Atropic Acid

(c) Hydrogenation of alkene to form hydratropic acid

Hydratropic Acid

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Question #32905

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