Qstnid -12-i- <Img Src="/etl/image/esa-cbse-xi/chem-hwh-sb2/c06/1_65f9faa0.jpg" Alt="" Width="93" Height="39" Border="0"> () <Img Src="/etl/image/esa-cbse-xi/chem-hwh-sb2/c06/1_m4081732e.jpg" Alt="" Width="44" Height="58" Border="0"> () <Img Src="/etl/image/esa-cbse-xi/chem-hwh-sb2/c06/1_4238c83d.jpg" Alt="" Width="57" Height="57" Border="0"> () <Img Src="/etl/image/esa-cbse-xi/chem-hwh-sb2/c06/1_m4081732e.jpg" Alt="" Width="44" Height="58" Border="0"> () <Img Src="/etl/image/esa-cbse-xi/chem-hwh-sb2/c06/1_4238c83d.jpg" Alt="" Width="57" Height="57" Border="0"> () <Img Src="/etl/image/esa-cbse-xi/chem-hwh-sb2/c06/1_m4081732e.jpg" Alt="" Width="44" Height="58" Border="0"> () <Img Src="/etl/image/esa-cbse-xi/chem-hwh-sb2/c06/1_4238c83d.jpg" Alt="" Width="57" Height="57" Border="0"> - 06: Hydrocarbons

Home Learn Fast select Course

Show Unit/Chapter Change Unit Change Subject Last Menu

NEET-XI-Chemistry

06: Hydrocarbons

page 3

Qstn# 12-i Prvs-Qstn Next-Qstn

#12-i

()
()
()
()
()
()

Ans :

For the given compound, the number of ``\pi``-electrons is six. But only four ``\pi``-electrons are present within the ring. Also there is no conjugation of``\pi``-electrons within the ring and the compound is not planar in shape. Hence, the given compound is not aromatic in nature.
()

For the given compound, the number of ``\pi``-electrons is four.

By Huckel’s rule,

4n + 2 = 4

4n = 2

For a compound to be aromatic, the value of n must be an integer (n = 0, 1, 2...), which is not true for the given compound. Hence, it is not aromatic in nature.
()

For the given compound, the number of ``\pi``-electrons is eight.

By Huckel’s rule,

4n + 2 = 8

4n = 6

For a compound to be aromatic, the value of n must be an integer (n = 0, 1, 2...). Since the value of n is not an integer, the given compound is not aromatic in nature.
()

For the given compound, the number of ``\pi``-electrons is four.

By Huckel’s rule,

4n + 2 = 4

4n = 2

For a compound to be aromatic, the value of n must be an integer (n = 0, 1, 2...), which is not true for the given compound. Hence, it is not aromatic in nature.
()

For the given compound, the number of ``\pi``-electrons is eight.

By Huckel’s rule,

4n + 2 = 8

4n = 6

For a compound to be aromatic, the value of n must be an integer (n = 0, 1, 2...). Since the value of n is not an integer, the given compound is not aromatic in nature.
()

For the given compound, the number of ``\pi``-electrons is four.

By Huckel’s rule,

4n + 2 = 4

4n = 2

For a compound to be aromatic, the value of n must be an integer (n = 0, 1, 2...), which is not true for the given compound. Hence, it is not aromatic in nature.
()

For the given compound, the number of ``\pi``-electrons is eight.

By Huckel’s rule,

4n + 2 = 8

4n = 6

For a compound to be aromatic, the value of n must be an integer (n = 0, 1, 2...). Since the value of n is not an integer, the given compound is not aromatic in nature.

#12-ii

Ans :

For the given compound, the number of ``\pi``-electrons is four.

By Huckel’s rule,

4n + 2 = 4

4n = 2

For a compound to be aromatic, the value of n must be an integer (n = 0, 1, 2...), which is not true for the given compound. Hence, it is not aromatic in nature.

#12-iii

Ans :

For the given compound, the number of ``\pi``-electrons is eight.

By Huckel’s rule,

4n + 2 = 8

4n = 6

For a compound to be aromatic, the value of n must be an integer (n = 0, 1, 2...). Since the value of n is not an integer, the given compound is not aromatic in nature.