Given: Two statements compare CH3−CH=CH−CHO and CH3−CH2−CH2−CHO.
Find: Which statement is true and which is false.
For the conjugated aldehyde CH3−CH=CH−CHO, conjugation between C=C and C=O produces resonance and increases charge separation. The important resonance idea is
O=C−C=C⇌O−−C+−C=C
Greater charge separation generally gives a greater dipole moment. Therefore,
μ(CH3−CH=CH−CHO)>μ(CH3−CH2−CH2−CHO)
So Statement I is true.
Now compare the C1−C2 bond length. In CH3−CH=CH−CHO, the C1−C2 bond has partial double-bond character due to conjugation. A bond with partial double-bond character is shorter than a pure single bond. Hence,
ℓ(C1−C2 in CH3−CH=CH−CHO)<ℓ(C1−C2 in CH3−CH2−CH2−CHO)
So Statement II is false.
Therefore, the correct option is C: Statement I is true but Statement II is false.