Download App

Aldehydes, Ketones and Carboxylic Acid — Chemistry STD 12 Science — Question

Rajasthan BoardEnglish MediumSTD 12 ScienceChemistryAldehydes, Ketones and Carboxylic Acid5 Marks
Question
Write short notes on the following :
(i) Kolbe's electrolytic reaction
(ii) Hell-Volhard-Zelinsky reaction
(iii) Esterification reaction
(iv) Decarboxylation reaction(v) Hunds-Diecker reaction

Answer

Get the step-by-step solution for this question inside the Vidyadip app.

Get the answer in the app

Need a full question paper?

Generate a complete, print-ready paper with questions like this in minutes — across 16+ boards, with answer keys.

Start Generating Free

Explore more

More "5 Marks Questions" from Aldehydes, Ketones and Carboxylic AcidAldehydes, Ketones and Carboxylic Acid — all question typesChemistry STD 12 Science question papersRajasthan Board STD 12 Science question papersRajasthan Board question paper generator

Similar questions

What are the important ores of copper ? How is copper extracted from copper pyrites?
Match the laws given in Column I with expresions given in Column II.
  Column I   Column II
i. Raoult’s law a. $\Delta\text{T}_\text{f}=\text{K}_\text{f}\text{m}$
ii. Henry’s law b. $\pi=\text{CRT}$
iii. Elevation of boiling point c. $\text{p}=\text{x}_1\text{p}^0_1+\text{x}_2\text{p}^0_2$
iv. Depression in freezing point d. $\Delta\text{T}_\text{b}=\text{K}_\text{b}\text{m}$
v. Osmotic pressure e. $\text{p}=\text{K}_\text{H}\cdot\text{x}$
The time required for $10\%$ completion of a first order reaction at $298K$ is equal to that required for its $25\%$ completion at $308K.$ If the value of $ A$ is $4 \times 10^{10}s^{–1}.$ Calculate $k$ at $318K$ and $E_a.$
  1. What may be the possible oxidation states of the transition metals with the following d electronic configurations in the ground state of their atoms:
  1. $3d^34s^2, 3d^54s^2$ and $3d^6 4s^3$. Indicate relative stability of oxidation states in each case.
  2. Write steps involved in the preparation of $(i) Na_2CrO_4$ from chromite ore and $(ii) K_2MnO_4$ from pyrolusite ore.
Explain the methods of preparation of aromatic aldehydes (benzoic aldehyde) from aromatic hydrocarbons.
Write the $S _{ N } 1$ mechanism of unimolecular nucleophilic substitution reaction.
Derive the Nernst equation and explain how $E_{\text {cell }}^{\circ}$ depends on concentration of ions.
The experimental data for decomposition of $\ce{N2O5}$
$[\ce{2N2O5 \rightarrow 4NO2 + O2}]$
in gas phase at $318K$ are given below:
$t/s$ $0$ $400$ $800$ $1200$ $1600$ $2000$ $2400$ $2800$ $3200$
$10^2 \times [\ce{N2O5}]/mol \ L^{-1}$ $1.63$ $1.36$ $1.14$ $0.93$ $0.78$ $0.64$ $0.53$ $0.43$ $0.35$
  1. Plot $[\ce{N2O5}]$ against $t$.
  2. Find the half-life period for the reaction.
  3. Draw a graph between $\log[\ce{N2O5}]$ and $t$.
  4. What is the rate law?
  5. Calculate the rate constant.
  6. Calculate the half$-$life period from $k$ and compare it with $(ii)$.
  1. Define the following terms:
  1. Mole fraction.
  2. Van’t Hoff factor.
  1. $100\ mg$ of a protein is dissolved in enough water to make $10.0\ mL$ of a solution. If this solution has an osmotic pressure of $13.3\ mm\ Hg$ at $25^\circ C,$ what is the molar mass of protein$?$
$(R = 0.0821\ L\ atm\ mol^{–1} K^{–1}$ and $760\ mm\ Hg = 1\ atm.)$
(i). Write the structures of main products when benzene diazonium chloride $\left( C _6 H _5 N_2^{+} Cl ^{-}\right)$ reacts with the following reagents.
a. $HBF _4 / \Delta$
b. $Cu / HBr$
(ii). Write the structures of A, B and C in the following reactions:
a. $C _6 H _5 NO _2 \xrightarrow{ Sn / HCl } A \xrightarrow[\Delta]{ NaNO _2+ HCl } B \xrightarrow{273 K} H$
b. $CH _3 Cl \xrightarrow{ KCN } A \xrightarrow{ LiAlH _4} B \xrightarrow[273 K]{\stackrel{273 K}{ HNO }{ }_2} C$