Table of Contents
- Nomenclature of single chain alkanes
- Nomenclature of branched alkanes
- Examples
- Conclusion
1. Nomenclature of single chain alkanes
Common single chain alkanes are shown in Table 1.
Formula |
Number of carbons |
Name |
CH4 |
1 |
Methane |
CH3-CH3 |
2 |
Ethane |
CH3-CH2-CH3 |
3 |
Propane |
CH3-CH2-CH2-CH3 |
4 |
Butane |
CH3-CH2-CH2-CH2-CH3 |
5 |
Pentane |
CH3-CH2-CH2-CH2-CH2-CH3 |
6 |
Hexane |
CH3-CH2-CH2-CH2-CH2-CH2-CH3 |
7 |
Heptane |
CH3-CH2-CH2-CH2-CH2-CH2-CH2-CH3 |
8 |
Octane |
CH3-CH2-CH2-CH2-CH2-CH2-CH2-CH2-CH3 |
9 |
Nonane |
CH3-CH2-CH2-CH2-CH2-CH2-CH2-CH2-CH2-CH3 |
10 |
Decane |
Table
1
2. Nomenclature of Branched alkanes
How
to assign name of branched alkenes then?
For
example
For
this we need to follow few steps;
Step 1: Select the longest chain of carbons and give numbering so that the branched carbon gets least number.
Step 2:
Name the longest carbon chain alkane. It is known as “Parent alkane”.
Here
in the given example, longest carbon chain is of 6 carbons so the parent alkane
is “Hexane”.
Step 3: Next
step is to identify the branched group (also known as a substituent). Here it
is 2 carbons alkane which is Ethane. Now remove the suffix “ane” and replace it
with “yl” (This is for any alkane substituents ; Table 2).
Alkane |
Number
of carbons |
As a
substituent |
Methane |
1 |
methyl |
Ethane |
2 |
ethyl |
Propane |
3 |
propyl |
Butane |
4 |
butyl |
Pentane |
5 |
pentyl |
Hexane |
6 |
hexyl |
Heptane |
7 |
heptyl |
Octane |
8 |
octyl |
Nonane |
9 |
nonyl |
Decane |
10 |
decyl |
Table
2
Coming to the given example, the substituent is “Ethyl” and it is located at carbon number 3
Step 4: Write the substituent along with the carbon number before the parent alkane. Therefore the name of the compound is “3-Ethyl-hexane”.
Now
let’s take another example.
Step 1: Select
the longest chain of carbons
Step 2:
Name the longest carbon chain alkane which is “Hexane”
Step 3:
Next step is identify the branched group. Here it is “Chlorine”. Now remove the suffix “ine”
and replace it with “o”. (This is for any halogen substituents; Table 3)
Halogen |
Formula |
When it is substituent |
Fluorine |
F |
Fluoro |
Chlorine |
Cl |
Chloro |
Bromine |
Br |
Bromo |
Iodine |
I |
Iodo |
Table
3
Coming
to the given example, the substituent is “Chloro”
Step 4: Write
the substituent along with the carbon number before the parent alkane.
Therefore
the name of the compound is “3-chloro-hexane”
Let’s
take another example with more than one substituent.
Here
the parent alkane is “hexane”. But there are two methyl groups
(derived from methane) present at carbon number 2 and 3. At this situation we
need another kind of prefixes along with carbon numbers as shown in the Table 4.
Number
of similar groups |
Prefix |
Two |
di |
Three |
tri |
Four |
tetra |
Five |
penta |
Six |
hexa |
Seven |
hepta |
Eight |
octa |
Nine |
nona |
Ten |
deca |
Table
4
So,
name of the given alkane is “2,3-dimethyl-hexane”
Let’s take one more example,
Now
here there are two substituents are present at C-2 and C-3. Here the “methyl”
and “ethyl” groups should be written in alphabetical order.
Therefore
the name is
“3-ethyl-2-methyl-hexane”.
Let’s take one more example
Here
the substituents are ethyl (at C-3), methyl (at C-2) and bromo (at C-4). Write
the substituents in alphabetical order.
So
name of the alkane is “4-bromo-3-ethyl-2-methyl-hexane”
3. Examples
Some
other examples are given below for practice,
4. Conclusion
Finally to summarize the topic for the nomenclature of alkanes we need to follow five rules.
- Select the longest chain of the carbon and name it as Parent alkane.
- Start the numbering from more branched end.
- Assign the substituents in alphabetical order.
- If similar substituents are present then use the prefixes such as “di”, “tri”, “tetra” etc.
- Write the substituents before parent alkane along with the carbon number on which it is present.
That's all for this topic. If you have any questions please feel free to ask me. Also suggest me if any changes or additions are required. Thank you!
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