Organic Chemistry – Some Basic Principles And Techniques MCQs With Answers – Part 4 (Class 11 Chemistry)
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Organic Chemistry – Some Basic Principles and Techniques MCQs with Answers – Part 4 (Class 11 Chemistry)

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311. In the fragment \( \mathrm{CH_3-CH_2-Cl} \), the inductive effect of chlorine is best described as:
ⓐ. \( \mathrm{+I} \) effect, electron donation through \( \pi \)-bonds
ⓑ. \( \mathrm{-I} \), electron withdrawal through \( \sigma \)-bonds
ⓒ. resonance effect through a benzene ring
ⓓ. hyperconjugation from a carbocation
312. A group \( \mathrm{-NO_2} \) attached to an organic skeleton strongly withdraws electron density. In electronic-effect language, it is mainly:
ⓐ. an electron-donating \( \mathrm{+I} \) alkyl group
ⓑ. a group with no effect on electron density
ⓒ. a group that always donates electrons through \( \sigma \)-bonds
ⓓ. an electron-withdrawing \( \mathrm{-I} \) group
313. A comparison of substituent effects is shown below.
GroupExpected inductive behaviour
P. \( \mathrm{-CH_3} \)electron-releasing \( \mathrm{+I} \)
Q. \( \mathrm{-Cl} \)electron-withdrawing \( \mathrm{-I} \)
R. \( \mathrm{-NO_2} \)electron-withdrawing \( \mathrm{-I} \)
S. \( \mathrm{-CH_3} \)electron-withdrawing \( \mathrm{-I} \)
Which row contains the unsuitable inductive-effect description?
ⓐ. S
ⓑ. P
ⓒ. Q
ⓓ. R
314. The influence of an inductive effect becomes weaker as the distance from the substituent increases. For the chain \( \mathrm{Cl-CH_2-CH_2-CH_2-COOH} \), which carbon is most directly affected by the \( \mathrm{-I} \) effect of chlorine?
ⓐ. the carbonyl carbon of \( \mathrm{-COOH} \) only
ⓑ. only the farthest carbon from \( \mathrm{Cl} \)
ⓒ. the carbon directly bonded to \( \mathrm{Cl} \)
ⓓ. no carbon, because inductive effects cannot pass through \( \sigma \)-bonds
315. The acid strength order among the following carboxylic acids is best represented as:
ⓐ. \( \mathrm{CH_3COOH} \gt \mathrm{ClCH_2COOH} \gt \mathrm{Cl_2CHCOOH} \gt \mathrm{CCl_3COOH} \)
ⓑ. \( \mathrm{ClCH_2COOH} \gt \mathrm{CH_3COOH} \gt \mathrm{CCl_3COOH} \gt \mathrm{Cl_2CHCOOH} \)
ⓒ. \( \mathrm{CH_3COOH} \gt \mathrm{CCl_3COOH} \gt \mathrm{ClCH_2COOH} \gt \mathrm{Cl_2CHCOOH} \)
ⓓ. \( \mathrm{CCl_3COOH} \gt \mathrm{Cl_2CHCOOH} \gt \mathrm{ClCH_2COOH} \gt \mathrm{CH_3COOH} \)
316. A graph is described with distance of a substituent from the \( \mathrm{-COOH} \) group on the horizontal axis and acid-strength increase due to \( \mathrm{-I} \) effect on the vertical axis. For \( \mathrm{ClCH_2CH_2CH_2COOH} \), \( \mathrm{CH_3CH(Cl)CH_2COOH} \), and \( \mathrm{CH_3CH_2CH(Cl)COOH} \), what trend should the graph show as chlorine moves farther from \( \mathrm{-COOH} \)?
ⓐ. the acid-strength increase becomes smaller
ⓑ. the acid-strength increase becomes larger
ⓒ. the acid-strength increase remains exactly constant
ⓓ. the compound stops being a carboxylic acid
317. Compare the following acids:
AcidPosition of \( \mathrm{Cl} \) relative to \( \mathrm{-COOH} \)
P. \( \mathrm{CH_3CH_2CH(Cl)COOH} \)nearest among the three
Q. \( \mathrm{CH_3CH(Cl)CH_2COOH} \)middle distance
R. \( \mathrm{ClCH_2CH_2CH_2COOH} \)farthest among the three
What is the expected acid strength order?
ⓐ. \( \mathrm{R \gt Q \gt P} \)
ⓑ. \( \mathrm{Q \gt R \gt P} \)
ⓒ. \( \mathrm{P \gt Q \gt R} \)
ⓓ. \( \mathrm{P = Q = R} \)
318. A substituted acid has molar mass data and acid-strength clues as follows: Acid P is \( \mathrm{CH_3COOH} \), Acid Q is \( \mathrm{ClCH_2COOH} \), and Acid R is \( \mathrm{CCl_3COOH} \). Using \( \mathrm{C}=12 \), \( \mathrm{H}=1 \), \( \mathrm{O}=16 \), and \( \mathrm{Cl}=35.5 \), which option correctly combines molar mass and expected acid strength?
ⓐ. \(M_P=60\,\text{g mol}^{-1}\), \(M_Q=95.5\,\text{g mol}^{-1}\), \(M_R=162.5\,\text{g mol}^{-1}\); acid strength \( \mathrm{P \gt Q \gt R} \)
ⓑ. \(M_P=61\,\text{g mol}^{-1}\), \(M_Q=94.5\,\text{g mol}^{-1}\), \(M_R=163.5\,\text{g mol}^{-1}\); acid strength \( \mathrm{Q \gt R \gt P} \)
ⓒ. \(M_P=60\,\text{g mol}^{-1}\), \(M_Q=94.5\,\text{g mol}^{-1}\), \(M_R=163.5\,\text{g mol}^{-1}\); acid strength \( \mathrm{P \gt Q \gt R} \)
ⓓ. \(M_P=60\,\text{g mol}^{-1}\), \(M_Q=94.5\,\text{g mol}^{-1}\), \(M_R=163.5\,\text{g mol}^{-1}\); acid strength \( \mathrm{R \gt Q \gt P} \)
319. The stability order of the simple alkyl carbocations \( \mathrm{(CH_3)_3C^+} \), \( \mathrm{(CH_3)_2CH^+} \), \( \mathrm{CH_3CH_2^+} \), and \( \mathrm{CH_3^+} \) is:
ⓐ. \( \mathrm{CH_3^+ \gt CH_3CH_2^+ \gt (CH_3)_2CH^+ \gt (CH_3)_3C^+} \)
ⓑ. \( \mathrm{(CH_3)_2CH^+ \gt (CH_3)_3C^+ \gt CH_3^+ \gt CH_3CH_2^+} \)
ⓒ. \( \mathrm{(CH_3)_3C^+ \gt (CH_3)_2CH^+ \gt CH_3CH_2^+ \gt CH_3^+} \)
ⓓ. \( \mathrm{CH_3CH_2^+ \gt CH_3^+ \gt (CH_3)_3C^+ \gt (CH_3)_2CH^+} \)
320. A carbon species is negatively charged, and the attached alkyl groups release electron density by \( \mathrm{+I} \) effect. For the simple alkyl carbanions \( \mathrm{CH_3^-} \), \( \mathrm{CH_3CH_2^-} \), \( \mathrm{(CH_3)_2CH^-} \), and \( \mathrm{(CH_3)_3C^-} \), the expected stability order is:
ⓐ. \( \mathrm{(CH_3)_3C^- \gt (CH_3)_2CH^- \gt CH_3CH_2^- \gt CH_3^-} \)
ⓑ. \( \mathrm{CH_3^- \gt CH_3CH_2^- \gt (CH_3)_2CH^- \gt (CH_3)_3C^-} \)
ⓒ. \( \mathrm{CH_3CH_2^- \gt CH_3^- \gt (CH_3)_3C^- \gt (CH_3)_2CH^-} \)
ⓓ. \( \mathrm{(CH_3)_2CH^- \gt CH_3CH_2^- \gt CH_3^- \gt (CH_3)_3C^-} \)
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