How would the IR spectrum of your aldol condensation products have differed from

Question

How would the IR spectrum of your aldol condensation products have differed from that of your starting ketone? Provide at least one specific example (i.e. peak X would have moved to higher/lower frequency).

The first photo is of the reactant cyclopentanone.

The second photo is of the reactant 4-Methoxybenzaldehyde.

The third photo is of the product (2E,5E)-2,5-Bis(4-methoxybenzylidene)cyclopentanone.

This is a double aldol reaction and there are 2 equivalents of the aldehyde.

Spem an ne 50 3462 20 022 74 12 02 010 20 15 410 se 53 i 710 BB 2921 35 42 1020 74 502 3D 2004 26 1408 22 969 30 473 3G 2000 79 1313 60 g 74 483 47 1980 04 1278 49 891 Bi 457 1 1287 50 BCK

Explanation / Answer

In IR spectra of cyclopentanone, the carbonyl group at 1700 cm-1, where as in product it will be in1680 cm-1 due to conjugated double bond

In IR spectra of 4-methoxy benzaldehyde carbonyl stretching frequency in 1700 cm-1, this will disappear in product and form new band around 1600 cm-1 is due to C=C

In proton NMR new peak at 7.2 ppm is due to ethelinc hydrogen and methoxy signal will be downfield due to extended pi conjugation

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