00:01
Let me draw the structure first.
00:02
We have the bond line formula here, the bond line structure.
00:08
So that is here we have a double bond containing compound.
00:23
So this is the structure we have.
00:28
So now here in this bond line structure, this one, this one, this one, this one, this one, this one, this one, this one, this one, this one, and this one.
00:48
All these are carbon atoms.
00:50
Okay.
00:51
So now we can also draw the structure like here if i count the carbon atoms.
00:59
So they will be one, two, three, four, five, six, seven.
01:08
So one, two, two.
01:12
2, 3, 4, 5, 6, 7.
01:19
And now we have given to the 5th carbon atom.
01:25
Furthermore, we have 2 carbon atoms attached.
01:31
And between 3rd and 4th carbon, there is a double 1.
01:36
So now we will complete the valencies of the carbon atoms.
01:40
So carbon is tetravalent in nature.
01:43
It can make four bonds at one time so we will complete the valency with the help of hydrogen atoms so here we require three hydrogen atoms here we require two hydrogen atoms here we require one hydrogen atoms here we require one hydrogen atom and here we have a single bond so the valency for this carbon is completed here we require three hydrogen atom here we require three hydrogen atom here we require three hydrogen atom here we require two hydrogen atom and air we require three hydrogen atoms okay so this is the complete structure okay so now iepac naming so that says the rule says that first of all we should choose the longest carbon atom chain possible okay and then that longest carbon atom chain should contain the functional group if there is present any kind of functional group then that functional group must be included in that longest carbon chain okay if you haven't included the functional group then no matter how long your carbon chain is your answer will be wrong okay so now here we have one two three four five six six 7...