MCQ
Reduction of alkyl nitrites yields
- ✓Alcohol
- BBase
- CAmine
- DAcid
✓
Answer
Correct option: A.
Alcohol
a
(a) $\mathop {R - O - N = O}\limits_{{\text{Alkyl}}\,\,{\text{nitrite}}} + 6\,[H]\xrightarrow{{{\text{Sn}}/HCl}}\mathop {ROH}\limits_{{\text{Alcohol}}} + N{H_3} + {H_2}O$
(a) $\mathop {R - O - N = O}\limits_{{\text{Alkyl}}\,\,{\text{nitrite}}} + 6\,[H]\xrightarrow{{{\text{Sn}}/HCl}}\mathop {ROH}\limits_{{\text{Alcohol}}} + N{H_3} + {H_2}O$
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
Mark the element which shows only one oxidation state
The coordination number of $Pt$ in ${\left[ {Pt{{\left( {N{H_3}} \right)}_4}C{l_2}} \right]^{ + + }}$ ion is
→Nitrogen dioxide cannot be prepared by heating
lncorrect statement
Nitrating mixture is
The correct sequence of reagents used in the preparation of $4 -$bromo$-2-$nitroethyl benzene from benzene is :
→Match the following:
→| Column $I$ | Column $II$ |
| $(A)$ $\mathrm{CH}_3-\mathrm{CHBr}-\mathrm{CD}_3$ on treatment with alc. $\mathrm{KOH}$ gives $\mathrm{CH}_2=\mathrm{CH}-\mathrm{CD}_3$ as a major product. | $(P)$ $E1$ reaction |
| $(B)$ $\mathrm{Ph}-\mathrm{CHBr}-\mathrm{CH}_3$ reacts faster than $\mathrm{Ph}-\mathrm{CHBr}-\mathrm{CD}_3$. | $(Q)$ $E2$ reaction |
| $(C)$ $\mathrm{Ph}-\mathrm{CH}_2-\mathrm{CH}_2 \mathrm{Br}$ on treatment with $\mathrm{C}_2 \mathrm{H}_5 \mathrm{OD} / \mathrm{C}_2 \mathrm{H}_5 \mathrm{O}^{-}$ gives $\mathrm{Ph}-\mathrm{CD}=\mathrm{CH}_2$ as the major product. | $(R)$ $E1$ cb reaction |
| $(D)$ $\mathrm{PhCH}_2 \mathrm{CH}_2 \mathrm{Br}$ and $\mathrm{PhCD}_2 \mathrm{CH}_2 \mathrm{Br}$ react with same rate. | $(S)$ First order reaction |
The successive Ionisation energies of an element $(A)$ is given as $IE_1 = 20\,ev\,, IE_2 = 45\,ev, IE_3 = 150\,ev, IE_4 = 900\,ev, IE_5 = 1800\, ev$ Formula of halide of $(A)$ is
→In which of the following molecules the central atom does not have $sp^3$ hybridization?
→Ionic conductance of $Ga^{+3}$ ions and $NO_3^-$ ions at infinite dilution are $120\, \Omega^{-1} \,cm^2\, mol^{-1}$ and $50\, \Omega^{-1} \,cm^2 \,mol^{-1}$ respectively. Equivalent conductance of $Ga(NO_3)_3$ at infinite dilution will be ........... ${\Omega ^{ - 1}}{\rm{c}}{{\rm{m}}^2}{\rm{e}}{{\rm{q}}^{ - 1}}$
→