Benzene reacts with in the presence of anhy. to form
1. toluene
2. chlorobenzene
3. benzylchloride
4. xylene
XY. Y is:
1.
2.
3.
4.
What is the end product of the following sequences of operations?
\(\mathrm{CaC}_2 \xrightarrow{\mathrm{H}_2 \mathrm{O}} \mathrm{~A} \xrightarrow[\mathrm{Hg}^{2+}]{\mathrm{Dil} \cdot \mathrm{H}_2 \mathrm{SO}_4} \mathrm{~B} \underset{\mathrm{H}_2}{\stackrel{\mathrm{Ni}}{\rightarrow}} \mathrm{C}\)
1. Methyl alcohol
2. Acetaldehyde
3.
4.
Alkynes can be reduced to alkenes by hydrogenation in presence of:
1. raney Ni
2. anhy.
3. Pd
4. Lindlar's catalyst
is called:
1. Clemmensen reduction
2. Fisher-Spier reduction
3. Birch reduction
4. Arndt-Eistert reduction
The cylindrical shape of an alkyne is due to
1. three sigma bonds
2. three bonds
3. two sigma and one bonds
4. one sigma and two bonds
Octane no. of a fuel can be increased by:
1. isomerism
2. alkylation
3. reforming
4. all of these
The shortest bond distance is found in:
1. Diamond
2. Ethane
3. Benzene
4. Acetylene
Benzene reacts with n-propyl chloride in the presence of anhydrous to give
1. 3-propyl-1-chlorobenzene
2. n-propyl benzene
3. no reaction
4. iso-propyl benzene
The distance between two adjacent cabron atoms is largest in
1. benzene
2. ethene
3. butane
4. ethyne