Advertisements
Advertisements
Questions
Draw the structures for Bromopentane*
Draw the structures for the following compound.
Bromopentane
Solution
There are many structural isomers possible for bromopentane. Among them, the structures of three isomers are given:
1)
\[\ce{CH3 - CH2 - CH2 - CH2 - CH2Br}\]
2)
\begin{array}{cc}\\
\ce{H}\phantom{...}\ce{H}\phantom{...}\ce{H}\phantom{...}\ce{H}\phantom{...}\ce{H}\phantom{.}\\
|\phantom{....}|\phantom{....}|\phantom{....}|\phantom{....}|\phantom{.}\\
\phantom{}\ce{H - C - C - C - C - C - Br}\\
|\phantom{....}|\phantom{....}|\phantom{....}|\phantom{....}|\phantom{.}\\
\ce{H}\phantom{...}\ce{H}\phantom{...}\ce{H}\phantom{...}\ce{H}\phantom{...}\ce{H}\phantom{.}\\
\end{array}
3)
\begin{array}{cc}\\
\ce{H}\phantom{...}\ce{H}\phantom{...}\ce{H}\phantom{...}\ce{H}\phantom{...}\ce{H}\phantom{.}\\
|\phantom{....}|\phantom{....}|\phantom{....}|\phantom{....}|\phantom{.}\\
\phantom{}\ce{H - C - C - C - C - C - H}\\
|\phantom{....}|\phantom{....}|\phantom{....}|\phantom{....}|\phantom{.}\\
\ce{H}\phantom{...}\ce{H}\phantom{...}\ce{H}\phantom{...}\ce{Br}\phantom{...}\ce{H}\\
\end{array}
4)
\begin{array}{cc}\\
\ce{H}\phantom{...}\ce{H}\phantom{...}\ce{H}\phantom{...}\ce{H}\phantom{...}\ce{H}\phantom{.}\\
|\phantom{....}|\phantom{....}|\phantom{....}|\phantom{....}|\phantom{.}\\
\phantom{}\ce{H - C - C - C - C - C - H}\\
|\phantom{....}|\phantom{....}|\phantom{....}|\phantom{....}|\phantom{.}\\
\ce{H}\phantom{...}\ce{H}\phantom{...}\ce{Br}\phantom{...}\ce{H}\phantom{...}\ce{H}\\
\end{array}
APPEARS IN
RELATED QUESTIONS
Write the name and general formula of a chain of hydrocarbons in which an addition reaction with hydrogen is possible. State the essential condition for an addition reaction. Stating this condition, write a chemical equation giving the name of the reactant and the product of the reaction.
Draw the structures for Ethanoic acid.
Give reason why the carbon compounds generally have low melting and boiling points.
Fill in the following blank with suitable word:
CnH2n is the general formula of .......... hydrocarbons.
Which of the following is the molecular formula of benzene?
C6H6, C6H10, C6H12, C6H14
The pair of elements which exhibits the property of catenation is:
The hydrocarbon which has alternate single and double bonds arranged in the form of a ring is:
(a) cyclobutane
(b) benzene
(c) butene
(d) hexene
The solid element A exhibits the property of catenation. It is also present in the form of a gas B in the air which is utilised by plants in photosynthesis. An allotrope C of this element is used in glass cutters.
(a) What is element A?
(b) What is the gas B?
(c) Name the allotrope C.
(d) State another use of allotrope C (other than in glass cutters).
(e) Name another allotrope of element A which exists as spherical molecules.
(f) Name a yet another allotrope of element A which conduct electricity.
Write the molecular and structural formula of a cyclic hydrocarbon whose molecule contains 8 atoms of carbon.
Name the functional group which always occurs in the middle of a carbon chain.
