Solutions MCQs With Answers – Part 4 (Class 12 Chemistry)
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Solutions MCQs with Answers – Part 4 (Class 12 Chemistry)

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311. A solute has normal molar mass \(60\,g\,mol^{-1}\), but its apparent molar mass from a colligative property is \(30\,g\,mol^{-1}\). The van't Hoff factor is:
ⓐ. \(0.5\)
ⓑ. \(1.0\)
ⓒ. \(2.0\)
ⓓ. \(3.0\)
312. A table about van't Hoff factor is shown below.
RowProcessParticle countExpected \(i\)
PNo association or dissociationUnchanged\(1\)
QDissociationIncreases\(i\gt1\)
RAssociationDecreases\(i\lt1\)
SAssociationIncreases\(i\gt1\)
The row that needs correction is:
ⓐ. P
ⓑ. Q
ⓒ. R
ⓓ. S
313. The boiling point elevation formula corrected using van't Hoff factor is:
ⓐ. \(\Delta T_b=iK_bm\)
ⓑ. \(\Delta T_b=\frac{K_bm}{i}\)
ⓒ. \(\Delta T_b=i+K_b+m\)
ⓓ. \(\Delta T_b=\frac{i}{K_bm}\)
314. The freezing point depression for an electrolyte solution is commonly written as:
ⓐ. \(\Delta T_f=K_bm\)
ⓑ. \(\Delta T_f=iK_fm\)
ⓒ. \(\Delta T_f=\frac{K_f}{im}\)
ⓓ. \(\Delta T_f=iK_bm\)
315. The osmotic pressure equation modified for association or dissociation is:
ⓐ. \(\pi=iCRT\)
ⓑ. \(\pi=\frac{CRT}{i}\)
ⓒ. \(\pi=i+C+R+T\)
ⓓ. \(\pi=\frac{i}{CRT}\)
316. A \(0.10\,mol\,kg^{-1}\) solution of a solute has \(i=2\). If \(K_f=1.86\,K\,kg\,mol^{-1}\), the freezing point depression is:
ⓐ. \(0.186\,K\)
ⓑ. \(0.372\,K\)
ⓒ. \(1.86\,K\)
ⓓ. \(3.72\,K\)
317. For a solute, the calculated normal boiling point elevation is \(0.20\,K\), but the observed elevation is \(0.30\,K\). The van't Hoff factor is:
ⓐ. \(0.50\)
ⓑ. \(0.67\)
ⓒ. \(2.00\)
ⓓ. \(1.50\)
318. Observed boiling-point data for a \(0.50\,mol\,kg^{-1}\) solution give \(\Delta T_b=0.13\,K\) in a solvent with \(K_b=0.52\,K\,kg\,mol^{-1}\). The most suitable conclusion is:
ⓐ. the solute is completely dissociated into two ions
ⓑ. the solute is behaving as a nonelectrolyte with \(i=1\)
ⓒ. the solute is associated with \(i=0.5\)
ⓓ. the solvent constant has no role in the result
319. A solute shows \(i=0.5\) in a solvent. If the normal calculated osmotic pressure is \(4.0\,bar\), the observed osmotic pressure is:
ⓐ. \(0.5\,bar\)
ⓑ. \(2.0\,bar\)
ⓒ. \(4.0\,bar\)
ⓓ. \(8.0\,bar\)
320. Complete dissociation occurs in a \(0.10\,M\) aqueous \(CaCl_2\) solution. At \(300\,K\), using \(R=0.083\,L\,bar\,K^{-1}\,mol^{-1}\), its osmotic pressure is:
ⓐ. \(2.49\,bar\)
ⓑ. \(4.98\,bar\)
ⓒ. \(7.47\,bar\)
ⓓ. \(24.9\,bar\)
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