Organic Chemistry MCQs | Again 100 Questions | 11-Chemistry
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Organic Chemistry – Some Basic Principles and Techniques MCQs with Answers – Part 3 (Class 11 Chemistry)

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211. Assertion: \( \mathrm{but\text{-}2\text{-}ene} \) can show geometrical isomerism. Reason: In \( \mathrm{but\text{-}2\text{-}ene} \), each double-bonded carbon is attached to one \( \mathrm{H} \) and one \( \mathrm{CH_3} \) group.
ⓐ. Both Assertion and Reason are true, and Reason explains Assertion
ⓑ. Both Assertion and Reason are true, but Reason does not explain Assertion
ⓒ. Assertion is true, but Reason is false
ⓓ. Assertion is false, but Reason is true
212. Read the case below and answer the question.
Two molecules have formula \( \mathrm{C_4H_8} \). Molecule P is \( \mathrm{CH_2=CHCH_2CH_3} \). Molecule Q is \( \mathrm{CH_3CH=CHCH_3} \). A note says that Q may have two spatial forms, while P does not.
What is the best reason for the note?
ⓐ. P has no carbon-carbon double bond
ⓑ. P and Q have different molecular formulas
ⓒ. Q contains oxygen, while P does not
ⓓ. Q only; P has identical alkene H atoms
213. A pair of compounds has the same formula \( \mathrm{C_4H_8} \). Pair I is \( \mathrm{but\text{-}1\text{-}ene} \) and \( \mathrm{but\text{-}2\text{-}ene} \). Pair II is \( \mathrm{cis\text{-}but\text{-}2\text{-}ene} \) and \( \mathrm{trans\text{-}but\text{-}2\text{-}ene} \). The correct comparison is:
ⓐ. Pair I shows geometrical isomerism, while Pair II shows position isomerism
ⓑ. both pairs show only chain isomerism
ⓒ. Pair I shows position isomerism, while Pair II shows geometrical isomerism
ⓓ. both pairs are identical compounds written twice
214. A graph is described with rotation about a carbon-carbon bond on the horizontal axis and preservation of effective sideways overlap on the vertical axis. For a \( \mathrm{C=C} \) bond, the curve would drop sharply on rotation because:
ⓐ. the \( \pi \)-bond requires parallel sideways overlap
ⓑ. the \( \sigma \)-bond disappears at all angles
ⓒ. hydrogen atoms change into carbon atoms during rotation
ⓓ. the molecular formula changes continuously
215. Use the arrangement described below: each carbon of a \( \mathrm{C=C} \) bond has one \( \mathrm{H} \) and one \( \mathrm{Cl} \) attached. In one form, the two \( \mathrm{Cl} \) atoms are on the same side of the double bond; in another, they are on opposite sides. What relationship is described?
ⓐ. chain isomerism
ⓑ. functional group isomerism
ⓒ. geometrical isomerism
ⓓ. tautomerism
216. Optical isomerism is introduced through molecules that contain a chiral carbon. A chiral carbon is usually a carbon atom attached to:
ⓐ. four identical groups
ⓑ. two double bonds
ⓒ. four different groups
ⓓ. only hydrogen atoms
217. The carbon marked by \( * \) in \( \mathrm{CH_3CH^*(OH)COOH} \) is attached to \( \mathrm{H} \), \( \mathrm{OH} \), \( \mathrm{CH_3} \), and \( \mathrm{COOH} \). What is the best conclusion?
ⓐ. it is not chiral because it contains oxygen
ⓑ. four different groups make it chiral
ⓒ. it must be \(sp\)-hybridised because it is marked
ⓓ. it cannot show any spatial arrangement
218. A tetrahedral carbon is attached to \( \mathrm{H} \), \( \mathrm{H} \), \( \mathrm{CH_3} \), and \( \mathrm{Cl} \). The molecule does not have a chiral carbon at that atom because:
ⓐ. chlorine is too heavy to be attached to carbon
ⓑ. tetrahedral carbon can never be chiral
ⓒ. all compounds with hydrogen are achiral
ⓓ. two attached groups are identical
219. Consider the following statements about optical isomerism. Statement I: Optical isomerism is related to non-superimposable mirror-image forms. Statement II: A carbon attached to four different groups is a common source of chirality. Statement III: Optical isomerism is the same as position isomerism of a double bond. Which statements are valid?
ⓐ. II and III only
ⓑ. I and II only
ⓒ. I and III only
ⓓ. I, II, and III
220. Two mirror-image models of a molecule cannot be placed exactly on top of each other in the same orientation. This description is most closely connected with:
ⓐ. chain isomerism
ⓑ. optical isomerism
ⓒ. metamerism
ⓓ. acid-ester functional group isomerism
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