An alkane is a hydrocarbon molecule consisting only of carbon and hydrogen atoms, with single bonds between carbon atoms.

How do you define the parent chain in an alkane?

The parent chain is the longest continuous chain of carbon atoms in a hydrocarbon structure.

What are the naming conventions for substituents?

Substituents are named using the prefix and ending 'yl' (e.g., methyl for one carbon, ethyl for two).

How are substituents ordered in the chemical name?

Substituents are named in alphabetical order regardless of their position on the parent chain.

What is a cycloalkane?

A cycloalkane is a type of alkane where the carbon atoms are arranged in a ring structure.

4.1 IUPAC Nomenclature of Alkanes and Cycloalkanes | Organic Chemistry

00:34:45

https://www.youtube.com/watch?v=hcpWpluvXgc

Resumo

TLDRThis lesson focuses on the nomenclature of alkanes in organic chemistry, expounding various aspects such as how to identify the parent chain and substituents. It highlights the process of determining the longest continuous carbon chain and the numerical prefixes associated with different carbon counts. The presenter emphasizes the importance of correct numbering for substituents to ensure accurate naming. Further, it addresses the naming conventions for substituents, including alphabetical ordering when multiple substituents are involved. The video also covers cycloalkanes and their nomenclature, noting the variations when the ring structure interacts with linear chains. Overall, it serves as a comprehensive guide for students learning alkane naming conventions in organic chemistry.

Conclusões

📚 Understanding alkanes is foundational in organic chemistry.
🔗 The longest continuous carbon chain defines the parent chain.
🔢 Number substituents for lowest possible values.
🔤 Substituents are named in alphabetical order despite position.
🔷 Cycloalkanes are indicated with the 'cyclo-' prefix before the name.

Linha do tempo

00:00:00 - 00:05:00
This lesson introduces the nomenclature of alkanes, focusing on naming alkanes, substituents, and bicyclic compounds. The course will also cover 3D conformations, constitutional isomers, Newman projections, and cycloalkanes, particularly the chair confirmation of cyclohexane.
00:05:00 - 00:10:00
Alkanes are described as molecules consisting solely of carbon and hydrogen atoms without any double or triple bonds. The naming convention will focus on the parent chain, defined as the longest continuous carbon chain, which is crucial for determining the structure's name.
00:10:00 - 00:15:00
The lesson outlines the prefixes used in alkane nomenclature based on the number of carbon atoms in the parent chain, from methane (1 carbon) to dodecane (12 carbons), highlighting that 'ane' is the suffix for alkanes and 'yl' is used for substituents.
00:15:00 - 00:20:00
To name alkanes, substituents are named first in the order of their locators, followed by the parent chain. The example of naming '2-methylheptane' emphasizes the importance of assigning the lowest locators to substituents and maintaining correct formatting with hyphens and no spaces.
00:20:00 - 00:25:00
In instances with multiple substituents, they must be named in alphabetical order, regardless of the numerical locators assigned. Examples illustrate how to determine the parent chain and assign locators to both ethyl and methyl groups systematically, ensuring correct nomenclature with hyphens and commas.
00:25:00 - 00:34:45
Cycloalkanes are also introduced, emphasizing the need to name them differently from linear alkanes. Specific rules apply, especially regarding numbering when substituents are present. A key difference is that one substituent typically does not require a number in the name, while multiple substituents do.

Mostrar mais

Mapa mental

Vídeo de perguntas e respostas

What is an alkane?
An alkane is a hydrocarbon molecule consisting only of carbon and hydrogen atoms, with single bonds between carbon atoms.
How do you define the parent chain in an alkane?
The parent chain is the longest continuous chain of carbon atoms in a hydrocarbon structure.
What are the naming conventions for substituents?
Substituents are named using the prefix and ending 'yl' (e.g., methyl for one carbon, ethyl for two).
How are substituents ordered in the chemical name?
Substituents are named in alphabetical order regardless of their position on the parent chain.
What is a cycloalkane?
A cycloalkane is a type of alkane where the carbon atoms are arranged in a ring structure.

Ver mais resumos de vídeos

Obtenha acesso instantâneo a resumos gratuitos de vídeos do YouTube com tecnologia de IA!

Legendas

Rolagem automática:

00:00:01
naming alkanes aka the nomenclature of
00:00:04
alkanes if you want to go with the
00:00:04
formal name
00:00:05
that'll be the topic of this lesson in
00:00:07
my organic chemistry playlist now
00:00:09
this begins an entire chapter on alkanes
00:00:11
in the first half of the chapter
00:00:12
we'll all be involved with naming
00:00:14
alkanes we'll name normal alkanes and
00:00:16
then complex substituents and then
00:00:18
bicyclic compounds as well the latter
00:00:20
half of the chapter will be dealing with
00:00:21
the different three-dimensional
00:00:23
confirmations of alkanes we'll
00:00:24
have a lesson on constitutional isomers
00:00:26
one on what are called newman
00:00:27
projections
00:00:28
and then we'll finish it off with the
00:00:29
confirmations of cycloalkanes
00:00:31
the most important of which is the chair
00:00:33
confirmation of cyclohexane
00:00:35
now if you're new to the channel my name
00:00:36
is chad welcome to chad's prep where my
00:00:38
goal is to make science both
00:00:39
understandable
00:00:40
and even enjoyable now this is my brand
00:00:43
new organic chemistry playlist i'll be
00:00:44
releasing these weekly throughout the
00:00:46
2020-21 school year
00:00:48
so if you don't want to miss one
00:00:49
subscribe the channel click the bell
00:00:50
notifications
00:00:51
you'll be notified every time i post a
00:00:52
new video
00:00:58
so naming alkanes now you might recall a
00:01:01
couple of chapters back we learned a
00:01:02
whole variety of different functional
00:01:04
groups and the alkane was just the first
00:01:06
one in fact
00:01:06
we often looked at it as kind of like
00:01:07
the absence of all the other functional
00:01:09
groups so
00:01:10
uh just a reminder an alkane is a
00:01:12
molecule that has all carbons and
00:01:14
hydrogens nothing else
00:01:15
and it doesn't have any carbon-carbon
00:01:16
double bonds or can be carbon-carbon
00:01:18
triple bonds
00:01:19
those would be alkenes and alkynes
00:01:20
respectively and we built just a
00:01:22
slightly different set of rules and
00:01:23
we'll find out that
00:01:24
all the different functional groups
00:01:25
whether it be alkenes alkynes alcohols
00:01:27
amines ketones aldehydes so on and so
00:01:29
forth
00:01:29
are going to have a little different
00:01:31
spin on how we name those
00:01:33
we'll name them and learn how to name
00:01:34
them throughout the year but for now
00:01:36
we're going to focus just on the alkanes
00:01:38
and all the rules we learn
00:01:40
how to name these here will still apply
00:01:41
to all those other functional groups
00:01:42
just with a little
00:01:43
extra rule here and there for those as
00:01:45
well all right so it turns out we're
00:01:48
going to talk about what's called the
00:01:49
parent chain and the parent chain is
00:01:50
going to be the longest
00:01:51
continuous carbon chain in a structure
00:01:54
so if we look at here i've got a bond
00:01:55
line structure and recall that every
00:01:56
vertex represents a carbon so here we've
00:01:58
got
00:01:58
one two three four five six
00:02:01
and then seven or seven so and then an
00:02:04
eighth carbonyl so and what i mean by
00:02:05
continuous chain then so i kind of
00:02:07
skipped around a little bit at the end
00:02:08
there
00:02:08
is that they've got to be directly
00:02:09
bonded to each other in a kind of a
00:02:10
linear chain so one two
00:02:12
three four five six and from here being
00:02:14
six either i go up here to seven or
00:02:17
down to here to seven but even though
00:02:18
there's eight total carbons in the
00:02:20
structure
00:02:20
the longest continuous chain is going to
00:02:23
be seven
00:02:24
carbons and so if we kind of circle that
00:02:26
longest continuous chain here
00:02:31
and i had the option of either circling
00:02:33
this as part of the longest continuous
00:02:34
chain or this one and it is completely
00:02:36
arbitrary wouldn't make a difference
00:02:38
either way so but we're going to call
00:02:40
that the parent chain
00:02:46
so and then anything that's not part of
00:02:49
the parent chain
00:02:50
so is going to be called a substituent
00:02:57
all right so it turns out the number of
00:03:00
carbons in a in the parent chain or the
00:03:02
number of carbons in a substituent
00:03:04
is going to be indicated by a certain
00:03:07
prefix
00:03:07
now when it's the parent chain of an
00:03:09
alkane use a suffix a n e
00:03:12
but the prefix that comes before that is
00:03:14
going to be a numerical prefix
00:03:15
that describes the number so if we take
00:03:17
a look at you know just a single carbon
00:03:19
alkane as a parent chain it's just
00:03:21
simply ch4 and that's methane so on the
00:03:24
other hand if we have a two carbon chain
00:03:27
so that's just ethane and so meth means
00:03:30
one
00:03:31
f means two and so on and so forth
00:03:33
there's a whole list on your hand out
00:03:34
there and i'll put them up on the board
00:03:35
here so but
00:03:36
probe means three butte means four pence
00:03:39
like a pentagon means five
00:03:40
hex like a hexagon means six hept means
00:03:43
seven
00:03:43
act like an octagon means eight none
00:03:46
means nine
00:03:47
dec like a decade is ten years dec means
00:03:50
ten
00:03:50
undec means uh eleven like un meaning
00:03:53
one and deck meaning ten and ten plus
00:03:55
one is eleven
00:03:56
and then dodec two plus ten means 12.
00:03:59
now some of you guys might not be
00:04:00
responsible for 11 or 12 but most
00:04:02
everybody is going to be on the hook for
00:04:04
at least one through 10 here so
00:04:06
and again if you're the parent chain we
00:04:08
just add a and e and so again
00:04:10
one carbon chain is methane a two carbon
00:04:12
chain is ethane
00:04:14
propane with three carbons butane with
00:04:17
four carbons
00:04:18
pentane with five carbons hexane with
00:04:21
six carbons heptane with seven carbons
00:04:23
octane with eight carbons nonine with
00:04:25
nine carbons
00:04:26
decane with 10 carbons undecane with 11
00:04:29
carbons
00:04:30
dota cane with 12 carbons now obviously
00:04:33
real molecules get bigger than this but
00:04:35
you're only on the hook
00:04:36
for up to 12 maximum for just about any
00:04:38
class i've ever seen
00:04:39
so cool so that's for the parent chain
00:04:42
now that
00:04:43
the parent chain again always ends with
00:04:44
that a and e suffix for an alkane
00:04:47
but if you're a substituent if you're a
00:04:49
branch coming off the parent chain
00:04:51
we actually end it with a yl sound and
00:04:54
so in this case this is just a single
00:04:55
carbon right there
00:04:56
and so instead of calling it a methane
00:04:58
group we call it a methyl group
00:05:01
let's draw that in red
00:05:07
so if you were a substituent with two
00:05:09
carbons it would be an ethyl group
00:05:11
three carbons a propyl group so four
00:05:13
carbons butyl and then onto pentyl hexyl
00:05:16
heptal
00:05:16
octal nonaldecyl undical doticle so on
00:05:19
and so forth that's how that works
00:05:20
now again students often struggle with
00:05:22
these numbers from like five up for the
00:05:24
most part so because five
00:05:25
pent like a pentagon and hex for a
00:05:27
hexagon with six
00:05:28
so on and so forth but the first four
00:05:31
and they're used a lot
00:05:32
are probably fairly new to you so
00:05:35
you got methyl ethyl propyl butyl and i
00:05:38
like to say
00:05:38
meat eat peanut butter so to get that
00:05:41
mnemonic down to get those first four
00:05:43
down so
00:05:44
methyl ethyl propyl butyl me eat peanut
00:05:47
butter
00:05:48
so if that helps great and if it doesn't
00:05:50
well i'm sorry you're going to remember
00:05:51
that forever i apologize
00:05:53
all right so now we kind of know how to
00:05:55
name parent chains with an ane ending
00:05:57
and the substituent with a yl ending
00:05:59
so let's kind of put this together on
00:06:01
this fairly simplistic example
00:06:03
the way this works is we name the
00:06:05
substituents first
00:06:07
and the parent chain last when we name
00:06:09
an alkane
00:06:11
all right so we're going to say methyl
00:06:12
first and then in this case we've got
00:06:14
one two three four five
00:06:16
six seven carbons in that longest chain
00:06:19
and recall that seven the prefix is hept
00:06:21
and so we'll call it as a parent chain
00:06:23
hepdane
00:06:24
and so this is going to be called methyl
00:06:26
heptane
00:06:27
but that's not good enough and the
00:06:28
reason it's not good enough is this
00:06:30
methyl group could have been
00:06:31
technically located just about anywhere
00:06:33
on the chain and so we now have to
00:06:35
actually
00:06:35
number that longest continuous chain
00:06:37
that parent chain
00:06:38
and you want to number it in this case i
00:06:40
could go left to right or right to left
00:06:42
and the way you choose is you want your
00:06:45
substituent to have the lowest
00:06:47
what we call chain locator possible
00:06:49
where it's located on the parent chain
00:06:52
the lowest number possible so notice if
00:06:53
i go left to right it'd be one two three
00:06:55
four
00:06:55
five it would be attached at the sixth
00:06:58
carbon of the parent chain
00:06:59
but if i number this right to left we
00:07:01
can see that it would be
00:07:03
actually attached at the second carbon
00:07:05
of the parent chain
00:07:07
instead and so that's how we're going to
00:07:09
number this thing
00:07:10
and so before you name a substituent you
00:07:12
always give its
00:07:13
chain locator first and so instead of
00:07:16
just saying
00:07:17
methyl heptane we're going to say
00:07:20
2-methyl
00:07:24
and then heptane
00:07:28
now one thing you should note we always
00:07:30
put a hyphen between a chain locator
00:07:33
and the substituent and we don't put a
00:07:35
space or anything in between the
00:07:36
substituents
00:07:37
so and the parent chain now in this
00:07:40
example we only had just one substituent
00:07:42
so but a lot of examples we'll see we're
00:07:43
gonna actually have multiple
00:07:44
substituents and the key is
00:07:45
there's no space there's no hyphen in
00:07:47
between
00:07:48
the letters of the substituents and the
00:07:50
beginning letters of the parent chain
00:07:52
it's just
00:07:52
one big word i like to joke with
00:07:54
students that the goal in organic
00:07:56
chemistry nomenclature is to make the
00:07:57
longest word in the world and we'll see
00:07:58
that there are certain rules that will
00:08:00
ensure that the word we use the name we
00:08:03
give to a compound is as long as it
00:08:04
possibly could be
00:08:06
all right but this one's just simply
00:08:08
2-methyl heptane
00:08:09
but we can make this a little more
00:08:11
challenging so if we look at this one
00:08:13
here
00:08:13
again the first rule is to find the
00:08:15
longest continuous
00:08:17
chain let's get this out of our way here
00:08:19
so longest continuous chain and i can
00:08:21
definitely see that this is going to be
00:08:22
part of the longest continuous chain so
00:08:23
we'll go
00:08:24
one two three four five and the question
00:08:27
is do i go over here or do i go up here
00:08:29
well in this case it'd be six seven or
00:08:31
it would be like six seven or six seven
00:08:33
but i have three different ways to get
00:08:35
seven carbons out of this
00:08:36
and so when there's a tie for how you
00:08:38
can get the longest chain
00:08:40
they break the tie by saying let's make
00:08:42
the longest word in the world
00:08:43
again i like to think about it but they
00:08:44
say break the tie by picking a way that
00:08:47
has more
00:08:47
substituents coming off the parent chain
00:08:50
so for example if i just go
00:08:51
one two three four five
00:08:55
six seven well then the only
00:08:59
substituent would be this branch coming
00:09:01
off the parent chain right there just
00:09:02
one
00:09:03
however if instead of having numbered it
00:09:05
that way
00:09:06
i go like six seven
00:09:09
well now the sudden i'd have a branch
00:09:11
coming off carbon five that's not part
00:09:12
of the parent chain
00:09:13
and a branch coming off carbon six
00:09:16
that's not part of the parent chain i'd
00:09:17
have two substituents
00:09:18
which is going to guarantee we get a
00:09:20
longer word and that's the way they
00:09:22
break the tie
00:09:23
so and in this case i could have made
00:09:25
this guy seven as well it actually is
00:09:27
arbitrary in that case because
00:09:29
whether i have a one carbon substituent
00:09:31
at six on the right hand side or the
00:09:32
left-hand side
00:09:33
i'm still going to get two substituents
00:09:34
off this thing and they're totally
00:09:35
equivalent so it didn't matter in that
00:09:36
case
00:09:37
all right so now we found our longest
00:09:39
parent chain now that's not the actual
00:09:41
way we're gonna number this longest
00:09:43
parent chain though
00:09:44
as we'll see so first thing i'm gonna do
00:09:45
is i'm gonna circle that longest
00:09:48
continuous
00:09:48
chain that parent chain once again
00:09:54
so and then i'll circle the substituents
00:09:55
here as well we've got one here
00:09:57
and we've got one here and so this will
00:09:59
be the first time where we have more
00:10:01
than one substituent
00:10:02
and there'll be another rule associated
00:10:04
with how you name that
00:10:05
all right but first i'm going to do is
00:10:06
number that longest continuous chain
00:10:08
again and in this case if i number
00:10:10
this is number one this end it'd go one
00:10:12
two three
00:10:13
four five six seven and what we'd see is
00:10:16
that my first substituent that i come
00:10:18
across in the numbering system would be
00:10:19
located with a chain locator of five
00:10:22
but if i number it the other way and go
00:10:24
one two three four five
00:10:26
six seven the first substituent i'll
00:10:28
have will be located with chain locator
00:10:30
two
00:10:30
and the lower one is better just like it
00:10:32
was up here and so you look for the
00:10:34
first substituent you come across number
00:10:36
wise and you want to get the lowest
00:10:37
possible number
00:10:38
and so we'll number this starting with
00:10:40
this end as number one so one
00:10:42
two three four five
00:10:45
six seven all right so here's where
00:10:48
things get a little bit tricky so but if
00:10:49
we we take a look at this this is still
00:10:51
a seven
00:10:51
carbon chain that's still going to be
00:10:53
called heptane the very end of our name
00:10:55
the parent chain will be named heptane
00:10:57
but now we've got two substituents we've
00:10:58
got a single carbon substituent
00:11:00
that is still called a
00:11:03
methyl group but then i've got a two
00:11:05
carbon substituent here
00:11:07
and that is called an ethyl group don't
00:11:09
forget me
00:11:10
eat peanut butter one two three four
00:11:13
all right well when you've got multiple
00:11:15
different types of substituents we
00:11:17
actually name them in alphabetical order
00:11:19
so we don't actually name them based on
00:11:20
where
00:11:21
their chain locators are it turns out
00:11:23
they decided the rule was going to be
00:11:24
that you name them in alphabetical order
00:11:26
and ethyl comes before methyl in the
00:11:28
alphabet
00:11:28
and so we'll name ethyl before methyl
00:11:30
and so this is going to be some form of
00:11:32
ethyl
00:11:33
methyl heptane but again before you ever
00:11:35
say ethyl or methyl you've got to give
00:11:37
me those chain locators first
00:11:38
and so ethyl is going to be first here
00:11:40
and it's located to the main chain the
00:11:42
parent chain
00:11:43
from carbon 3 and so we'll start this
00:11:45
off by saying
00:11:46
3-ethyl
00:11:51
all right from there our next
00:11:53
substituent is the methyl group and it's
00:11:54
located uh
00:11:55
at carbon two of the parent chain and
00:11:58
some will say
00:11:58
two methyl
00:12:02
notice the use of hyphens here so our
00:12:04
chain locators are gonna be surrounded
00:12:06
by
00:12:06
hyphens so in every case except when
00:12:09
they're at the very beginning i guess
00:12:10
they'll just have a hyphen afterwards
00:12:11
but if they're in the middle of the word
00:12:12
those chain locators are gonna be
00:12:13
surrounded by hyphens i like to say that
00:12:15
we're gonna separate numbers from
00:12:17
letters with hyphens
00:12:18
is the way it usually works out but it's
00:12:19
really that chain locators need a hyphen
00:12:21
around them unless they're at the
00:12:22
beginning of the
00:12:23
of the name all right so two ethyl three
00:12:26
methyl and then we've just got left
00:12:27
the parent chain all the substituents
00:12:28
are named at this point and that's just
00:12:30
simply again
00:12:31
heptane and again no space here no
00:12:33
hyphen
00:12:34
just one big long ugly word and again
00:12:37
we'd say this is 3-ethyl2-methyl heptane
00:12:41
all right so we're making this more and
00:12:43
more complicated as we go
00:12:45
so in this case we've got to once again
00:12:47
find the longest continuous
00:12:49
chain so and students often struggle
00:12:51
with this early on and so one thing i
00:12:52
recommend is look at your branch points
00:12:54
like this one right here
00:12:56
look at those branch points and say okay
00:12:57
in all the different directions well
00:12:58
obviously
00:12:59
going to the right is going to be part
00:13:00
of this but the question is do i go up
00:13:02
or do go left
00:13:03
well here my longest chain going left
00:13:04
would be one two my longest chain up
00:13:06
would be
00:13:07
either one two or one two and it's
00:13:10
equal again but i can see that i'll have
00:13:12
more substituents if i go
00:13:14
up just like we did in the last example
00:13:16
so that'll be part of our longest
00:13:18
continuous chain
00:13:19
and i'll circle that up until we get to
00:13:22
the next
00:13:22
branch point and at this branch point
00:13:25
here i can go down and go one
00:13:27
two or i can go off to the right here
00:13:29
and go one two or one
00:13:30
two or one two those are all three
00:13:32
equivalent doesn't matter which one but
00:13:34
it's two carbons down it's two carbons
00:13:35
up to the right
00:13:36
and the tiebreaker again is going to be
00:13:38
does one of those get me more
00:13:39
substituents that won't be part of the
00:13:40
parent chain
00:13:41
yeah going off to the right will and so
00:13:43
in this case
00:13:47
so we'll go off to the right and again i
00:13:48
could have circled either this carbon
00:13:50
this one or this one they would all be
00:13:51
equivalent it wouldn't make a difference
00:13:52
i just chose one
00:13:54
at random all right but there's our
00:13:56
longest continuous parent chain and it
00:13:58
is one two
00:13:59
three four five six seven eight carbons
00:14:01
long
00:14:02
and so the parent chain here is gonna be
00:14:04
named octane at the end of the name
00:14:06
so but let's take a look at all those
00:14:08
lovely substituents we got
00:14:10
one here one here one here
00:14:13
one here and one here and all of a
00:14:16
sudden this got a whole lot more fun
00:14:18
so if you look this guy is a methyl
00:14:21
group
00:14:22
these are both methyl groups
00:14:26
so and then this guy right here is an
00:14:28
ethyl group with two carbons
00:14:30
and this one is an ethyl group with two
00:14:33
carbons as well
00:14:34
now when you've got multiples of the
00:14:36
same substituent
00:14:38
you've got to say how many of them you
00:14:39
have so using a numerical prefix now not
00:14:42
the same
00:14:43
numerical prefixes that tell you how
00:14:44
many carbons something has so but now
00:14:46
we're going to have some
00:14:47
lovely numerical prefixes like mono di
00:14:50
tri so on and so forth and we don't use
00:14:52
mono
00:14:52
when there's only one you just leave
00:14:53
that off but the di tri
00:14:55
tetra penta hexa hexahepta so on and so
00:14:58
forth
00:14:59
we will use those so in this case like
00:15:00
we've got three different methyl groups
00:15:02
so we're going to say trimethyl
00:15:03
in the name we've got two different
00:15:05
ethyl groups so we're going to say
00:15:06
diethyl in the name
00:15:08
now what you have to know though is that
00:15:09
when you alphabetize the different types
00:15:11
of substituents here
00:15:13
you don't include that as part of the
00:15:15
alphabet you only alphabetize it either
00:15:17
under ethyl versus methyl
00:15:18
and ethyl's still going to win so we're
00:15:20
going to name the ethyls first
00:15:22
so but when we do we'll say diethyl but
00:15:24
now we got to still number that longest
00:15:26
chain so if we number this from left to
00:15:28
right it would go one
00:15:29
two three four five six seven eight but
00:15:32
i'd see my first substituent would be
00:15:34
chain location number two
00:15:35
but if i go right to left it'd be one
00:15:38
two and one on my first substituents
00:15:39
would
00:15:40
also be located at number two it would
00:15:41
be a tie
00:15:43
so then what do you do to break the tie
00:15:44
well then you go to the next substituent
00:15:46
you come across
00:15:47
and so if i number this this way go one
00:15:48
two and my next substituent would be
00:15:50
this ethyl which would be located at
00:15:52
chain location number three
00:15:54
and so if i go to the other side then
00:15:56
one two
00:15:58
but here i've actually got two
00:15:59
substituents that are attached at carbon
00:16:01
two
00:16:02
and so not only was the first
00:16:03
substituent attached at carbon two
00:16:05
so the second one would also have a
00:16:06
chain locator of two and that's going to
00:16:08
break the tie
00:16:09
as your second substitution is at two
00:16:11
your second substituent from this
00:16:12
direction will be located at three
00:16:14
instead
00:16:15
this is the better way we want to get
00:16:16
those lower numbers for the substituents
00:16:18
when possible and so we'll number this
00:16:21
one right to left so we'll go
00:16:22
one two three four
00:16:25
five six seven and eight
00:16:30
all right so now that we got the chain
00:16:31
locations for everything
00:16:33
so we're gonna name the ethyls first and
00:16:35
i can see they are located at
00:16:36
3 and 6 so on the parent chain so we're
00:16:39
going to say 3
00:16:40
6 diethyl
00:16:47
all right now if you look when you've
00:16:49
got multiple of the same substituent
00:16:52
between your chain locators you're going
00:16:54
to use a comma so
00:16:55
your chain locators get separated by a
00:16:57
comma but all your chain locators get
00:16:59
separated by
00:17:00
the actual substituents using hyphens so
00:17:02
keep that in mind so i like to say that
00:17:05
we separate numbers from numbers with a
00:17:07
comma
00:17:08
and numbers from letters with a hyphen
00:17:10
and that's usually sufficient most of
00:17:11
the time
00:17:12
all right so 36 diethyl but then we've
00:17:15
got three methyls so we're going to say
00:17:16
trimethyl and two of them are located
00:17:18
at chain locator two and one of them is
00:17:20
located at chain locator seven
00:17:23
now the truth is a lot of students
00:17:26
missed this early on
00:17:27
is if two of them are located in the
00:17:29
same chain location you do have to list
00:17:31
it twice
00:17:32
and so this is going to be 227 trimethyl
00:17:39
and then finally our parent chain of
00:17:41
octane
00:17:43
now a lot of students when they start
00:17:45
off they forget one of the twos and they
00:17:46
just say two seven trimethyl
00:17:48
and when i see two seven trimethyl i'm
00:17:50
like well one's at two ones at seven and
00:17:51
i don't know where the third one is
00:17:53
so you have to explicitly state all the
00:17:56
chain locations so if you're gonna say
00:17:57
trimethyl
00:17:58
you better have three chain locators out
00:17:59
front of it even if one of them is being
00:18:01
repeated
00:18:02
to show that there are two of them
00:18:03
attached there
00:18:05
so we have a couple more examples to go
00:18:06
through here and and again the key here
00:18:08
is there's all these special rules for
00:18:10
you know certain situations that always
00:18:11
come up and
00:18:12
i want to make sure we do at least one
00:18:13
example of every special situation that
00:18:15
you might come across
00:18:16
that you've really got these rules down
00:18:18
pat so all right so this top one here
00:18:20
again first rule is
00:18:21
find your longest continuous chain of
00:18:23
carbon atoms and
00:18:24
so here whether i start with either one
00:18:26
of these carbons it's the same length
00:18:28
either way from this branch point so
00:18:29
i'll just choose this one here
00:18:33
and when i get to this branch point
00:18:35
right here i can definitely say i can
00:18:36
get more carbons going off to the right
00:18:37
than going
00:18:38
up so we'll go off to the right and then
00:18:40
from here whether i go down
00:18:41
or whether i go up to the right it's the
00:18:43
same distance either way so it doesn't
00:18:44
really matter which one you choose
00:18:47
in this case that's going to leave us
00:18:48
with three substituents
00:18:50
and in this case all three identical
00:18:52
substituents they are all
00:18:55
methyl groups all right now we gotta
00:18:58
figure out which way to number that
00:18:59
longest chain if we go left to right
00:19:01
the first substituent we'll come across
00:19:02
would be at position two
00:19:04
if we go right to left the first
00:19:06
substituent we'd come across would also
00:19:07
be at position two and it's a tie
00:19:09
and just like in the last example when
00:19:11
there's a tie well then you go to the
00:19:13
next substituent you encounter
00:19:14
and from left to right that next
00:19:15
substituent would be at one two three
00:19:17
four would be at position
00:19:18
five but if i go right to left it would
00:19:20
be at position one two
00:19:21
three and that's going to be the
00:19:23
superior method here of numbering this
00:19:25
so we'll number this
00:19:26
right to left 1 2 3 4
00:19:29
5 6 and 7.
00:19:33
and in this case they're all methyl
00:19:34
groups so we'll just name them all at
00:19:36
the same time we'll say
00:19:37
trimethyl for three identical methyl
00:19:38
groups and give again three chain
00:19:40
locators
00:19:41
to indicate where they're located so two
00:19:43
three and six
00:19:44
so two comma three comma six trimethyl
00:19:52
and then the longest chain seven carbons
00:19:54
is heptane and again one big word
00:20:01
all right so another example that'll
00:20:04
iterate another special case we'll come
00:20:05
across
00:20:06
so in this case longest continuous chain
00:20:08
from this branch point definitely want
00:20:10
to go off to the left here
00:20:11
not up
00:20:15
and then we'll go off to this branch
00:20:16
point and from here whether i go up it's
00:20:18
two carbons long and whether go off to
00:20:20
the right it's two carbons long it
00:20:21
doesn't matter which one we choose
00:20:23
so a lot of people just like to choose
00:20:24
right across the middle but they get in
00:20:26
the habit of going right across the
00:20:28
middle and think they should always go
00:20:29
right across the middle so i'm just
00:20:30
gonna choose the other one this time
00:20:32
just so you know it doesn't have to be
00:20:33
right across the middle left to right or
00:20:35
right to left
00:20:36
so it is the longest continuous chain
00:20:38
whichever way you come up with that
00:20:40
cool and again these have been
00:20:41
equivalent either one would have worked
00:20:42
i just chose the other one so you can
00:20:43
see that
00:20:45
all right so if i number this left to
00:20:47
right the first substituent i'll come
00:20:48
across would be at one two
00:20:50
three but if i number it right to left
00:20:52
the first substitution i'll come across
00:20:54
would be at one two three so there's our
00:20:57
two substituents that are not part of
00:20:58
the parent chain
00:20:59
so it's a tie so then we move on to the
00:21:01
second substituent and if i number left
00:21:03
to right it goes one two three four
00:21:05
and it would be low the second one would
00:21:06
be at five and if i number right to left
00:21:09
it would be at one two three four five
00:21:13
and so whether i go right to left or
00:21:14
left or right it's three and five are
00:21:16
where the substitutions are located no
00:21:17
matter what
00:21:18
and when you have a tie like this well
00:21:21
if they're all identical substituents
00:21:23
great doesn't matter but if they're not
00:21:24
and these are not identical in this case
00:21:26
one's a methyl and one's an
00:21:28
ethyl
00:21:33
well you're going to use the alphabet to
00:21:35
break the tie in that case
00:21:37
not size so we're going to choose the
00:21:39
ethyl to have the lower number in this
00:21:41
case
00:21:41
not because ethyl is bigger than methyl
00:21:43
but becomes it comes earlier in the
00:21:45
alphabet
00:21:46
so a lot of students see us work this
00:21:47
example and they're like okay so we're
00:21:49
numbering this
00:21:49
in such a way to get the ethyl the lower
00:21:51
number to break the tie
00:21:54
and they think oh it's because of size
00:21:56
no again it's due to the alphabet ethyl
00:21:58
comes before methyl in the alphabet
00:22:01
all right so we go to name this we're
00:22:02
still going to name it in alphabetical
00:22:04
order as well so
00:22:05
we're going to start off with the ethyl
00:22:06
then and we start off with 3-ethyl
00:22:13
and then five methyl
00:22:19
cool and then once again our parent
00:22:20
chain being seven carbons long is once
00:22:22
again
00:22:23
heptane and again one big long word no
00:22:26
space
00:22:31
cool three ethyl five methyl heptane
00:22:34
all right so now we're gonna move some
00:22:35
examples of what we call cycloalkanes
00:22:37
and these are
00:22:38
uh alkanes that form ring structures
00:22:41
and so when you've got that ring
00:22:43
structure so typically you're going to
00:22:44
name the
00:22:45
ring as the parent chain in most of the
00:22:47
examples you're going to see
00:22:48
but we'll definitely work an example
00:22:50
where the ring is actually not the
00:22:51
parent chain we'll see what makes the
00:22:52
difference in stuff like this so
00:22:54
but in these three examples we're going
00:22:55
to name the ring as the parent chain
00:22:57
and when your ring has six carbons in it
00:22:59
like this one does right here
00:23:00
instead of calling it hexane you put a
00:23:02
cyclo prefix on it and you call it
00:23:04
cyclohexane
00:23:06
let's write that out over here
00:23:11
so one of the more common mistakes
00:23:13
students make is when they're naming
00:23:15
cycloalkanes is they forget to say cyclo
00:23:18
at the beginning
00:23:19
so they just revert back to hexane like
00:23:21
they would with a linear chain so
00:23:23
so keep in mind get that cyclo prefix on
00:23:25
there when you're naming the parent
00:23:26
chain as a cyclo for a cycle alkane
00:23:30
all right now the first example we're
00:23:31
going to do here is going to have
00:23:33
a single substituent so and this is the
00:23:36
first time where i've actually included
00:23:37
a halogen as a substituent
00:23:39
now you only ever name halogens as
00:23:42
substituents
00:23:42
so and you just simply instead of saying
00:23:44
like chlorine bromine iodine fluorine
00:23:46
you put an o on the end for the ine so
00:23:49
it would be fluorochlorobromoiodo
00:23:52
as a substituent so just like you'd name
00:23:55
a methyl ethyl propyl butyl pentyl so on
00:23:57
and so forth
00:23:58
you give the chain locator first and
00:23:59
then you're just going to say fluoro or
00:24:01
chloro
00:24:01
or bromo or iodo so and again always
00:24:04
named as a substituent
00:24:06
not as part of the parent chain all
00:24:08
right now one other thing that's going
00:24:09
to be a little strange about
00:24:10
cycloalkanes
00:24:12
is there's no end of the chain now when
00:24:14
we've numbered the longest chains in the
00:24:16
past we always started at one end or
00:24:17
another end or something like this and
00:24:19
that was where carbon 1 is going to be
00:24:20
but on a ring there's no end and so the
00:24:23
key here is you get to choose
00:24:25
or at least have to figure out where
00:24:27
carbon number one is going to be
00:24:29
well in the case where there's just a
00:24:31
single substituent on your cycle okay
00:24:33
and we call we call this a
00:24:34
mono-substituted cycle okay then
00:24:37
your goal is to make sure that the
00:24:38
substituent gets to be at the lowest
00:24:40
possible number
00:24:41
well that happens if you make his
00:24:43
location
00:24:44
number one and so that's where it's
00:24:46
always going to be for a single
00:24:47
substituent
00:24:48
wherever your substituent is that's
00:24:49
where number one has to be and whether
00:24:51
you go one
00:24:51
two three four five six around clockwise
00:24:53
or one two three four five six around
00:24:55
counterclockwise it's the same thing
00:24:57
either way
00:24:58
now with only a single substituent then
00:25:00
because it has to by definition and how
00:25:02
we number things
00:25:03
be located with a chain locator of
00:25:05
number one we actually leave the one
00:25:07
out of the name and so instead of saying
00:25:09
one chlorocyclohexane
00:25:12
with just a single substituent you just
00:25:13
say chlorocyclohexane instead
00:25:16
and that's what we'll do here
00:25:20
and it's one big word and again if you
00:25:22
say one chlorocyclohexane
00:25:24
it is technically wrong so leave that
00:25:27
one off
00:25:28
and again a lot of students get confused
00:25:29
here so they're like well chad hey
00:25:31
so if i've got something like this
00:25:37
and i number my longest chain one two
00:25:39
three
00:25:40
four five six and they say chad so then
00:25:43
this would just be chlorohexane right
00:25:46
no no no this is one chlorohexane
00:25:49
because when it's on a linear chain that
00:25:50
chlorine could be located
00:25:52
attached to carbon two instead or
00:25:53
attached to carbon three instead
00:25:55
and on a linear chain you have to give
00:25:56
me the chain locator because i don't
00:25:58
know where it is otherwise
00:25:59
it's only on a ring with only one
00:26:02
substituent
00:26:03
that it has to be located at one by
00:26:04
default and notice it doesn't mean that
00:26:06
the top's one
00:26:07
i could have you know put the chlorine
00:26:09
over here
00:26:10
and then we would have just defined that
00:26:13
to be carbon one instead
00:26:15
so it's only for our cycloalkanes with
00:26:17
one substituent that it's by default
00:26:19
gonna be have to locate it at position
00:26:20
one
00:26:21
not true for our linear system so don't
00:26:24
get that wrong common mistake students
00:26:25
make at this stage
00:26:27
all right now if you've got a
00:26:28
disubstituted cyclohexane in this case
00:26:31
so well then your goal is to get the
00:26:33
lowest possible numbers but if you
00:26:34
notice you could number this let's say
00:26:36
we'll put the where the chlorine is at
00:26:37
number one and that would put where the
00:26:39
methyl group here is
00:26:40
at number two and our substitution would
00:26:43
be located at positions one and two
00:26:44
but we could just as well have put the
00:26:47
methyl group at number one
00:26:48
and the chlorine at number two and so
00:26:51
whether i number
00:26:52
it this way clockwise or this way
00:26:54
counterclockwise
00:26:55
my two substituents are located at
00:26:57
exactly the same numbers
00:26:59
the same chain locators one and two
00:27:01
either way and so we have a tie and if
00:27:03
you recall
00:27:04
the tiebreaker is the alphabet and so
00:27:07
once again this is our
00:27:08
chloro substituent this is our
00:27:13
methyl substituent and chloro comes
00:27:15
first in the alphabet
00:27:16
and so we'll do it clockwise here with
00:27:18
the chloro being at number one and the
00:27:20
methyl being at number
00:27:22
two so and when you've got more than one
00:27:24
substituent now you'll include all your
00:27:25
chain locators
00:27:26
it's only with just a single substituent
00:27:28
that you only uh that you'll leave out
00:27:30
this
00:27:30
the chain locator because it has to be
00:27:32
at one but here you've got to let me
00:27:33
know where they're at
00:27:34
and so in this case we'll name this
00:27:35
still in alphabetical order so we'll do
00:27:37
one chloro
00:27:38
and then the 2-methyl
00:27:49
so and then again big mistake students
00:27:50
make is they'll just say hexane
00:27:52
and forget that they need to say
00:27:53
cyclohexane for the ring
00:27:59
cool so one chloro2 methyl cyclohexane
00:28:02
in this example
00:28:04
now students take what they've gleaned
00:28:05
from a disubstituted cyclohexane and
00:28:07
then that often causes them to make a
00:28:09
mistake when they get to a
00:28:11
tri-substituted cyclohexane and so in
00:28:13
this case they look and say oh let's see
00:28:16
we've got a chloro
00:28:17
we've got a methyl and we've got a bromo
00:28:19
for our substituents well bromo comes
00:28:21
first in the alphabet we'll make him
00:28:22
number one
00:28:23
well again we only ever revert to
00:28:25
relying on the alphabet
00:28:27
to break a tie and we haven't verified
00:28:29
that all the numbers are the same at all
00:28:31
and so notice we could in fact make
00:28:34
bromo number one
00:28:35
and when you do this you always want to
00:28:37
number in such a way clockwise or
00:28:38
counterclockwise
00:28:39
that you encounter the next substituent
00:28:41
with a lower number possible so notice
00:28:43
if i go around clockwise and he's one
00:28:44
it'd be two three
00:28:46
four for the next one where if i start
00:28:48
with him as number one
00:28:49
it would be two three and so we do it
00:28:52
this way and that would be one
00:28:53
three and four for those chain locators
00:28:56
well notice what if i start with the
00:28:58
chlorine is number one
00:29:00
well if i start with him as number one i
00:29:01
definitely want to go clockwise because
00:29:03
then my next chain locator for where
00:29:04
substituent's located would be two
00:29:06
and then three and then the bromo would
00:29:08
be at four
00:29:09
and so notice we'd be comparing one
00:29:12
three and four to
00:29:15
one two and four
00:29:19
and in this case there's no tie with all
00:29:21
the numbers and we don't have to revert
00:29:22
to the alphabet at all
00:29:23
there's a tie at one but two is going to
00:29:26
beat
00:29:27
three and so that's out okay
00:29:30
well we had one other option for where
00:29:32
we could put number one number one
00:29:33
either had to be where one of these
00:29:34
three substitutions is located so
00:29:36
i guess the other one we could have
00:29:37
tried is putting the one where the
00:29:38
methyl group is located
00:29:40
and if we make him number one then we're
00:29:41
definitely going to want to go
00:29:42
counterclockwise
00:29:44
so that the next substituent we see
00:29:45
would be located at two and then three
00:29:47
four and the bromine would be located at
00:29:50
five
00:29:50
in this case instead and so we can see
00:29:52
our substituents would now be at one
00:29:54
two and five and so for the first
00:29:58
position we definitely have a tie at one
00:30:00
for the second substituent we have a tie
00:30:01
at two but for the third substituent
00:30:03
four is going to be five and so the
00:30:06
numbering system we've outlined in blue
00:30:07
here is going to be the right one
00:30:10
so let's go back and take some of these
00:30:12
off
00:30:14
but notice we did not have to revert to
00:30:16
the alphabet and that's a big mistake
00:30:17
students make here is they often revert
00:30:19
to the alphabet
00:30:20
on a tri-substitute like this before
00:30:22
they've ever verified that the numbers
00:30:23
are all the same it's only when
00:30:25
all the substituents have exactly the
00:30:26
same chain locators
00:30:28
that you then revert to the alphabet to
00:30:29
break the tie we never had a tie here
00:30:32
one two and four was going to be the
00:30:33
best possible numbers we could have
00:30:38
all right so now we've got the right
00:30:39
numbering system but when we go to name
00:30:41
this we
00:30:42
still name our substituents in
00:30:43
alphabetical order and so not by number
00:30:46
order and so bromo
00:30:47
is going to come first in the alphabet
00:30:49
then chloro
00:30:50
and then methyl so that's another thing
00:30:52
students screw up is they
00:30:53
you know we didn't use the alphabet to
00:30:55
get the right numbers here but then they
00:30:56
forget that they need to name them
00:30:58
in alphabetical order when they list the
00:30:59
substituents so but that's what we need
00:31:01
to do here so we'll start off with
00:31:03
4-bromo
00:31:06
move on to 1-chloro
00:31:10
so then to 2-methyl
00:31:15
and then our parent chain again is
00:31:16
cyclohexane
00:31:23
so once again four bromo one chloro2
00:31:26
methyl
00:31:27
cyclohexane now i alluded to the fact
00:31:30
that we name one where the
00:31:32
cyclo part of it was not the parent
00:31:34
chain so in the last examples it always
00:31:36
was but in this case it's not going to
00:31:37
be the case because
00:31:39
we have a straight chain here that is
00:31:42
six carbons long
00:31:43
and our ring is only consisting of four
00:31:45
carbons in this case
00:31:47
so and the way it works is if you're you
00:31:49
know typically if one of them is
00:31:50
longer or more complex with more
00:31:52
substitutions coming off that's what
00:31:54
you're gonna make the parent chain
00:31:55
well in this case if i name the straight
00:31:57
chain as the parent chain it's six
00:31:58
carbons long with one
00:32:00
substituent the ring if i name the ring
00:32:02
as the parent chain it's four carbons
00:32:04
long
00:32:04
with one substituent the straight chain
00:32:07
and so i'll pick a longer parent chain
00:32:09
in that case
00:32:10
now a lot of students make the mistake
00:32:11
and they ask me the question or they'll
00:32:12
say well chad i can get a longer chain i
00:32:14
can go
00:32:15
1 2 3 4 5 6 7 8
00:32:18
9 10 and keep numbering through the ring
00:32:20
well the rules say you can't do that
00:32:22
so either your parent chain is the ring
00:32:25
or it's not the ring but you can't
00:32:27
include the knot ring and the ring
00:32:30
combined and some sort of longer parent
00:32:31
chain doesn't work so in this case it's
00:32:33
just the knot ring
00:32:35
and so our parent chain
00:32:40
is this guy and our substituent
00:32:44
are those four carbons right there now
00:32:46
our parent chain is six carbons long so
00:32:48
we'll call it hexane
00:32:49
and we'll number it in such a way that
00:32:50
our substituents located at the lowest
00:32:52
possible number so we're definitely
00:32:53
gonna
00:32:54
number this right to left
00:33:01
cool and as you recall so if this had
00:33:03
just been a parent chain we would call
00:33:04
it cyclobutane
00:33:06
butte means four carbons so but in this
00:33:09
case because
00:33:10
it's a substituent recall that when you
00:33:12
do the parent chain you like methane
00:33:13
ethane propane butane pentane
00:33:15
but if it's the substituent it's methyl
00:33:17
ethyl propyl butyl
00:33:19
pentyl with a yl sound and so this case
00:33:22
and again instead of being cyclobutane
00:33:24
it's going to be a cyclobutyl group and
00:33:26
in this case it's located at position
00:33:28
one
00:33:29
and so when we name this we'll say
00:33:32
one cyclobutyl
00:33:36
and then the parent chain is just
00:33:37
straight up
00:33:40
hexane now i know some of you are
00:33:42
thinking you're like hey chad you got to
00:33:43
give the one
00:33:44
well i do got to give the one it's only
00:33:46
again when it's attached when a
00:33:47
substituent's attached
00:33:48
and it's the only substituent to a ring
00:33:51
well in this case my parent chain is not
00:33:52
even a ring
00:33:53
and again i could have had six carbons
00:33:57
and i could have had this cyclobutane
00:33:59
attached
00:34:01
at carbon two or the cycle butyl group i
00:34:03
really probably say it could have been
00:34:04
at carbon one two
00:34:06
instead and so if i don't say one
00:34:08
cyclobutyl hexane if i just say
00:34:09
cyclobutyl hexane
00:34:10
well then was it located at position one
00:34:12
or position two or position three i
00:34:13
don't
00:34:14
know it definitely has to be stated in
00:34:16
this case so when you have a single
00:34:18
substituent
00:34:19
on a ring parent chain that's when you
00:34:21
don't include the one
00:34:22
so but again in this case we have a
00:34:24
single substituent attached to carbon
00:34:26
one of a straight chain
00:34:27
you definitely got to include the one in
00:34:29
that case
00:34:30
now if you found this lesson helpful
00:34:32
please consider giving me a like and a
00:34:33
share
00:34:34
pretty much the best thing you can do to
00:34:35
support the channel and if you're
00:34:36
looking for the study guides that go
00:34:37
with these lessons or if you're looking
00:34:38
for practice problems on naming alkanes
00:34:40
so please check out my premium course on
00:34:43
chatsprep.com

Etiquetas

alkanes
nomenclature
organic chemistry
parent chain
substituents
cycloalkanes
naming conventions
hydrocarbons
chain locator
functional groups