MCQ
Above reaction is an example of
- AEsterification
- BSaponification
- CHydrolysis
- ✓Trans Esterification
✓
Answer
Correct option: D.
Trans Esterification
d
$(d) $ Ester convert into another ester
$(d) $ Ester convert into another ester
$\therefore$ it is trans esterification.
Need a full question paper?
Generate a complete, print-ready paper with questions like this in minutes — across 16+ boards, with answer keys.
Explore more
Similar questions
Polysaccharides have .............. linkage ?
Transition metals show paramagnetism due to:
Which of the following has the smell of bitter almonds
Action of hydrogen chloride on $\begin{array}{*{20}{c}}
{C{H_3} - C = C{H_2}} \\
|\,\,\, \\
\,\,\,{C{H_3}}
\end{array}$ and on $CH \equiv CH$ will predominantly give the compounds, respectively :-
→{C{H_3} - C = C{H_2}} \\
|\,\,\, \\
\,\,\,{C{H_3}}
\end{array}$ and on $CH \equiv CH$ will predominantly give the compounds, respectively :-
The rate coefficient $(k)$ for a particular reactions is $1.3 \times 10^{-4}\,M^{-1}\, s^{-1}$ at $100\,^oC,$ and $1.3 \times 10^{-3}\,M^{-1}\,s^{-1}$ at $150\,^oC$. What is the energy of activation $(E_A)$ (in $kJ$ ) for this reaction? ( $R =$ molar gas constant $= 8.314\,JK^{-1}\,mol^{-1}$ )
→$o-$xylene when oxidised in presence of ${V_2}{O_5}$ the product is
→In the atmosphere of industrial smog, copper corrodes to form:
The correct order of $S - S$ bond length in following oxyanions is :
→$(I) \,S _{2} O _{4}^{2-}$
$(I I)\, S _{2} O _{5}^{2-}$
$(III) \,S _{2} O _{6}^{2-}$
For a first order reaction $A ( g ) \rightarrow 2 B ( g )+ C ( g )$ at constant volume and $300 K$, the total pressure at the beginning $(t=0)$ and at time $t$ are $P_0$ and $P_t$, respectively. Initially, only $A$ is present with concentration $[ A ]_0$, and $t _{1 / 3}$ is the time required for the partial pressure of A to reach $1 / 3^{\text {rd }}$ of its initial value. The correct option(s) is (are) (Assume that all these gases behave as ideal gases)
→When $0.05\, M$ dimethyl amine is dissolve in $0.1\, M \,NaOH$ solution then the percentage dissociation of dimethyl amine is : $\left( K _{ b }\right)_{\left( CH _{3}\right)_{2} NH }=5 \times 10^{-4}$
→