Aldehydes, Ketones And Carboxylic Acids MCQs With Answers – Part 4 (Class 12 Chemistry)
GKaim: Measure. Improve. Achieve.

Aldehydes, Ketones and Carboxylic Acids MCQs with Answers – Part 4 (Class 12 Chemistry)

Timer: Off
Random: Off

301. A \(17.2\,\mathrm{g}\) sample of a saturated acyclic ketone gives \(12.0\,\mathrm{g}\) of ethanoic acid and \(14.8\,\mathrm{g}\) of propanoic acid on quantitative vigorous oxidation: \[ \mathrm{Ketone+3[O]\longrightarrow CH_3COOH+CH_3CH_2COOH} \] Which pair gives the molecular formula of the ketone and the mass of oxygen represented by \([O]\) that is consumed?
ⓐ. \(\mathrm{C_5H_{10}O}\) and \(9.60\,\mathrm{g}\)
ⓑ. \(\mathrm{C_6H_{12}O}\) and \(12.8\,\mathrm{g}\)
ⓒ. \(\mathrm{C_5H_{10}O}\) and \(4.80\,\mathrm{g}\)
ⓓ. \(\mathrm{C_4H_8O}\) and \(6.40\,\mathrm{g}\)
302. Use the graph description below. Reaction rate is plotted on the vertical axis and oxidising-condition severity on the horizontal axis for an ordinary ketone. The curve remains close to zero under mild conditions and rises sharply only at high temperature and strong oxidant concentration. The best interpretation is:
ⓐ. Carbon-carbon cleavage appears only under vigorous oxidation
ⓑ. Stronger conditions reduce the ketone directly to an alcohol
ⓒ. The ketone is oxidised rapidly even under the mildest conditions
ⓓ. The ketone remains completely unreactive even under vigorous oxidation
303. Under extremely vigorous oxidation, propanone is assumed to follow: \[ \mathrm{CH_3COCH_3+4[O]\longrightarrow CH_3COOH+CO_2+H_2O} \] An \(11.6\,\mathrm{g}\) sample undergoes \(80.0\%\) conversion. Ethanoic acid is recovered in \(75.0\%\) yield. Which pair gives the recovered acid mass and the carbon dioxide volume at \(300\,\mathrm{K}\) and \(1.00\,\mathrm{atm}\)? Use \(R=0.0821\,\mathrm{L\,atm\,mol^{-1}\,K^{-1}}\).
ⓐ. \(9.60\,\mathrm{g}\) and \(3.94\,\mathrm{L}\)
ⓑ. \(7.20\,\mathrm{g}\) and \(3.94\,\mathrm{L}\)
ⓒ. \(7.20\,\mathrm{g}\) and \(2.95\,\mathrm{L}\)
ⓓ. \(9.60\,\mathrm{g}\) and \(4.92\,\mathrm{L}\)
304. Consider the following statements about ketone oxidation. Statement I: Ordinary ketones generally resist mild oxidation. Statement II: Strong oxidation may cleave carbon-carbon bonds and form smaller carboxylic acids. Statement III: Every unsymmetrical ketone always gives one single carboxylic acid as the exclusive product.
ⓐ. Statements I and III only
ⓑ. Statements II and III only
ⓒ. Statements I, II, and III
ⓓ. Statements I and II only
305. A mixture contains ethanal and methanoic acid. Treatment with excess \(\mathrm{NaHCO_3}\) releases \(2.46\,\mathrm{L}\) of carbon dioxide at \(300\,\mathrm{K}\) and \(1.00\,\mathrm{atm}\). A separate identical mixture gives \(64.8\,\mathrm{g}\) of silver with Tollens reagent. Assume that each mole of ethanal or methanoic acid reduces two moles of silver. Which pair gives the original mixture mass and the mole percentage of ethanal? Use \(R=0.0821\,\mathrm{L\,atm\,mol^{-1}\,K^{-1}}\).
ⓐ. \(8.80\,\mathrm{g}\) and \(50.0\%\)
ⓑ. \(18.0\,\mathrm{g}\) and \(33.3\%\)
ⓒ. \(13.4\,\mathrm{g}\) and \(33.3\%\)
ⓓ. \(13.4\,\mathrm{g}\) and \(66.7\%\)
306. Assertion: Methanoic acid can give a positive Tollens test even though it is a carboxylic acid. Reason: Methanoic acid can be oxidised further to carbon dioxide and therefore acts as a reducing agent.
ⓐ. Both Assertion and Reason are true, but Reason does not explain Assertion
ⓑ. Both Assertion and Reason are true, and Reason explains Assertion
ⓒ. Assertion is true, but Reason is false
ⓓ. Assertion is false, but Reason is true
307. Propanal vapour occupies \(4.92\,\mathrm{L}\) at \(300\,\mathrm{K}\) and \(1.00\,\mathrm{atm}\). In a Tollens test, \(80.0\%\) of the propanal reacts. Metallic silver is recovered with \(90.0\%\) efficiency, and propanoic acid after acidification is recovered in \(75.0\%\) yield. Which pair gives the recovered silver mass and recovered acid mass? Use \(R=0.0821\,\mathrm{L\,atm\,mol^{-1}\,K^{-1}}\).
ⓐ. \(34.6\,\mathrm{g}\) and \(11.1\,\mathrm{g}\)
ⓑ. \(31.1\,\mathrm{g}\) and \(11.1\,\mathrm{g}\)
ⓒ. \(31.1\,\mathrm{g}\) and \(8.88\,\mathrm{g}\)
ⓓ. \(27.6\,\mathrm{g}\) and \(8.88\,\mathrm{g}\)
308. The following observations are recorded with Tollens reagent.
RowCompoundExpected observation or product
PEthanalSilver deposition and ethanoate formation
QPropanoneNo silver mirror under ordinary conditions
RBenzaldehydeAlways negative because it is aromatic
SMethanoic acidSilver deposition because further oxidation is possible
Which combination contains all the correct rows?
ⓐ. P, Q, and S
ⓑ. P and R only
ⓒ. Q and R only
ⓓ. P, R, and S
309. A \(250\,\mathrm{mL}\) Tollens-reagent sample contains \(0.800\,\mathrm{mol\,L^{-1}}\) reducible silver(I) complex. It is added to \(8.80\,\mathrm{g}\) of ethanal. Each mole of ethanal reduces two moles of silver(I). The metallic silver is collected with \(90.0\%\) recovery. Which pair gives the collected silver mass and the mass of unreacted ethanal?
ⓐ. \(21.6\,\mathrm{g}\) and \(0\,\mathrm{g}\)
ⓑ. \(19.44\,\mathrm{g}\) and \(2.20\,\mathrm{g}\)
ⓒ. \(17.28\,\mathrm{g}\) and \(4.40\,\mathrm{g}\)
ⓓ. \(19.44\,\mathrm{g}\) and \(4.40\,\mathrm{g}\)
310. A \(2.20\,\mathrm{g}\) ethanal sample is mixed with \(25.0\,\mathrm{mL}\) of Fehling solution containing \(1.20\,\mathrm{mol\,L^{-1}}\) reducible \(\mathrm{Cu^{2+}}\). Use: \[ \mathrm{RCHO+2Cu^{2+}+5OH^-\longrightarrow RCOO^-+Cu_2O+3H_2O} \] If \(\mathrm{Cu_2O}\) is recovered with \(90.0\%\) efficiency, which pair gives the precipitate mass and the mass of unreacted ethanal?
ⓐ. \(2.15\,\mathrm{g}\) and \(0.880\,\mathrm{g}\)
ⓑ. \(1.43\,\mathrm{g}\) and \(1.10\,\mathrm{g}\)
ⓒ. \(1.93\,\mathrm{g}\) and \(1.54\,\mathrm{g}\)
ⓓ. \(3.86\,\mathrm{g}\) and \(0\,\mathrm{g}\)
Subscribe
Notify of
guest
0 Comments
Scroll to Top