Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical...

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Saturated hydrocarbons Chapter 12

Transcript of Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical...

Page 1: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Saturated hydrocarbons

Chapter 12

Page 2: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Coming up…

• Ch-12: saturated hydrocarbons (alkanes, cycloalkanes)

• Ch-13: Unsaturated hydrocarbons (alkenes, alkynes, aromatics)

• Ch-14: Alcohols, phenols, ethers

• Ch-15: Aldehydes and ketones

• Ch-16: Carboxylic acids, esters, acid derivatives

• Ch-17: Amines and amides

• Ch-18: Carbohydrates

• Ch-19: Lipids

• Ch-20: Proteins

Page 3: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Organic and inorganic compounds • Organic chemistry concerns the chemistry of

carbon compounds contain C and H, but also maybe other p-block elements.

• At the time of printing (Stoker, 5th edition), there were around 10 million organic compounds catalogued

• Inorganic chemistry concerns the chemistry of the other 117 elements. Around 1.7 million of these are known

A polar,

charged group

Non-polar

hydrocarbon tail

~10 million

~1.7 million

Page 4: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Organic and inorganic compounds

• The reason why there are so many organic compounds is that carbon is very good at forming bonds with other carbon atoms.

• Carbon atoms are commonly found in chain-like arrangements or C-rings (or both within the same molecule).

• Carbon has four valence electrons. In organic compounds, it forms four covalent bonds to obtain an octet.

foursinglebonds

double bond,2 singlebonds

triple bond,single bond

two double bonds

C C C

Page 5: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Hydrocarbons and hydrocarbon derivatives

• Hydrocarbons are compounds that contain only carbon and hydrogen in their formulas.

• Two basic categories of hydrocarbon: – Saturated hydrocarbons: all carbon atoms are

connected together with single bonds

– Unsaturated hydrocarbons: involve one or more multiple (double, triple) C-C bonds

• Hydrocarbon derivatives contain carbon and hydrogen, and one or more other elements (P, N, O, Cl, etc.)

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Hydrocarbons and hydrocarbon derivatives

• Saturated hydrocarbons may be found in two possible formats:

an acyclic, 6-C chain

a cyclic 6-C structure

carbon skeletal structures (these are not complete Lewis structures)

Page 7: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Alkanes: acyclic saturated hydrocarbons

• An alkane is a saturated hydrocarbon that is acyclic (does not possess ring-structure).

• Because all C-C bonds are single bonds (and because the other bonds that carbon needs to get an octet are to H-toms), alkanes have the general formula CnH2n+2 (n = # of C-atoms)

Examples of alkanes: CH4

C2H6

C3H8

Page 8: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Alkanes: acyclic saturated hydrocarbons

• In an alkane, each carbon is tetrahedral (it has four bonds to other atoms. Rem: VSEPR)

CH4 C2H6 C3H8

Page 9: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Alkanes: acyclic saturated hydrocarbons

• Chemical formulas for alkanes are written as CnH2n+2; however, structural formulas give more information.

– Chemical formula reveals the type and number of each element in the compound

– Structural formulas show how each atom in the molecule is connected

expanded structural formula

condensed structural formula

name

CH4

methane

CH3-CH3

ethane

CH3-CH2-CH3

propane

CH4 C2H6 C3H8

molecular formula

Page 10: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Alkanes: acyclic saturated hydrocarbons

• For longer carbon chains, an abbreviated, condensed structural formula is advantageous, as it shows most of the information of the expanded formula without taking up as much space

CH3-CH2-CH2-CH2-CH2-CH2-CH2-CH3 CH3-(CH2)6-CH3

6 –CH2- units between two CH3-groups

An 8-carbon chain (two CH3-groups linked by a 6-carbon chain (6-CH2- units)

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Alkanes: acyclic saturated hydrocarbons

• Sometimes, a simple skeletal structural formula can be used to convey hydrocarbon structure (these are usually not used)

mean the same

thing

Page 12: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Alkane isomerism

• The types of alkanes we’ve considered so far involve “straight chain” types, where the carbon atoms form a continuous series (i.e. no branches).

• When alkanes having four or more carbons are considered, there is more than one structural formula that can be used to describe a given molecular formula.

Page 13: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Alkane isomerism

• The formula C4H10 can be represented by the following condensed structural formulas:

butane(or n-butane) isobutane

These compounds possess the same chemical formula, but differ in the way the atoms are arranged (isomers)

“isotopes” sounds like “isomers” – they don’t mean the same thing. Isotopes are nuclides of the same element that possess different numbers of neutrons (e.g. 12C and 13C).

C4H10

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Alkane isomerism

• The C4H10 shown on the left is called a continuous chain alkane (or an unbranched/”straight-chain” alkane).

• The one on the right is called a “branched-chain” alkane

butane(or n-butane) isobutane

These are called “constitutional isomers” which differ in their atom-to-atom connectivity

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In every case, the two (or more) molecules that are being compared have the same molecular formula, but differ in their structures, somehow.

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Alkane isomerism

• As the number of carbon atoms in the alkane grows, so do the number of possible isomers.

pentane

isopentane neopentane

C5H12

Page 17: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Conformations of alkanes

• The carbon-carbon bonds in alkanes permit rotation of each carbon-group with respect to the others that are chemically bound to it.

all single bonds

C4H10

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Conformations of alkanes

• Conformations are specific, 3-dimensional arrangements of atoms in organic molecules (at some instant) that result from rotation about C-C single bonds.

• Several conformations of a six-carbon chain are shown using the skeletal structures below:

All the same molecule: C6H14

Page 19: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Conformations of alkanes

• Note that the following two skeletal structures describe two different alkanes:

Alkane on the left is a 6-carbon, continuous chain structure. Alkane on the right is a branched structure (a 5-carbon, continuous chain that has a 1-carbon branch)

Page 20: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Conformations of alkanes

• Do the following pairs of condensed structural formulas describe the same alkane?

a)

b)

c)

Page 21: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

IUPAC nomenclature for alkanes

• The names that have been shown for the branched alkanes so far are common names (made as these compounds were identified).

• As the number of organic compounds catalogued grew, a system for naming was developed by the International Union of Pure and Applied Chemistry (IUPAC).

• The basic system used is one that employs a prefix-type name.

Page 22: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

IUPAC nomenclature for alkanes

• Names for continuous chain alkanes (first ten) are shown below. The names use a prefix (e.g. meth-) to designate the number of carbon atoms in the chain.

Meth-

Eth-

Prop-

But-

Pent-

Hex-

Hept-

Oct-

Non-

Dec-

Prefix

Alkanes have ”ane” at the end of their name

(1) (2) (3) (4) (5) (6) (7) (8) (9) (10)

Memorize these prefixes

Page 23: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

IUPAC nomenclature for alkanes

• Branched-chain alkanes can be described as continuous-chain alkanes with branches (substituents).

• The IUPAC system of naming branched-chain alkanes describes the type and location of substituents before the name of the longest, continuous chain of carbon atoms in the alkane.

Substituents are the “branches” in branched-chain alkanes. They are atoms (or groups of atoms for the kind we’ll look at first) that hang off the main carbon chain.

Page 24: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

IUPAC nomenclature for alkanes

• Substituents in branched-chain alkanes are called alkyl groups. An alkyl group is the group of atoms that would be created by removing a hydrogen atom from an alkane. They are named according to the alkane from which they are derived.

methane a "methyl" substituent

propane a "propyl" substituent

To get the substituent name: take the alkane name and replace the “ane” part with “yl”

Page 25: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

IUPAC nomenclature for alkanes

• To name a branched alkane, follow these steps:

1) Identify the longest, continuous carbon chain in the structure. This will be the base of the branched alkane’s name.

a 4-carbon, continuous chain

So far, we know this compound is going to be called some kind of butane

Page 26: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

IUPAC nomenclature for alkanes

2) Number this chain in a way that gives the carbon(s) with the substituent the lowest possible, overall numbering. The methyl substituent is thus located on C-2 (carbon-2)

1 2 3 4

(something something butane)

Page 27: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

IUPAC nomenclature for alkanes

• After locating the alkyl substituent by number, prefix the parent-chain alkane name (the longest, continuous carbon chain) with the number and the name of the substituent:

1 2 3 4

2-Methylbutane

Separate the number from the substituent name with a hyphen, and the last substituent name reads directly into the parent chain alkane name

The “2” in this case is actually redundant, because if a methyl substituent were on any other carbon except carbon #2, the longest chain of carbon atoms would be 5, making the molecule a pentane.

Page 28: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

IUPAC nomenclature for alkanes

• Another example

1) Find the longest, continuous chain of C-atoms 2) Number them in a way that gives all substituents the lowest total numbering 3) Prefix the name of the parent alkane with the number and name of the substituent

Page 29: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

IUPAC nomenclature for alkanes

• One with multiple substituents:

In cases where multiple substituents of the same type are present, prefix the substituent name with di-, tri-, tetra-, etc. to indicate how many of them are present

2,3,4-Trimethylhexane

Page 30: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

IUPAC nomenclature for alkanes

• If more than one kind of substituent is present, the alphabetic order of the substituents take priority over the number of the substituent when numbering the parent chain

3-Ethyl-2-methylhexane (not 2-Methyl-3-ethylhexane)

Separate different substituents with hyphens

3-Ethyl-4,5-dipropyloctane

The prefix part of the propyl substituents are not counted for alphabetical ordering

(come back to this structure later)

Page 31: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

IUPAC nomenclature for alkanes

• IUPAC punctuation rules:

1. Separate numbers from letters with hyphens

2. Separate numbers from other numbers with commas

3. Don’t separate the last substituent name from the parent alkane chain

4-Ethyl-2,3-dimethyl-5-propylnonane

3 1

2

Page 32: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Line-angle structural formulas for alkanes

• Line-angle structural formulas describe carbon-carbon bonds with straight lines (each point in the diagram represents a carbon atom with four bonds to carbon(s) and hydrogen(s) around it)

=

=

It is understood that each C-atom has four bonds; C-H bonds are there, but not shown

Page 33: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Classification of carbon atoms

• The carbon atoms in organic structures are classified as primary, secondary, tertiary, or quaternary, depending on the number of other carbon atoms bound to them. – Primary (1o) C: bounds to one other C-atom

– Secondary (2o) C: bound to two other C-atoms

– Tertiary (3o) C: bound to three other C-atoms

– Quaternary (4o) C: bound to four other C-atoms

1o

2o

3o 4o

Page 34: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Branched-chain alkyl groups

• Sometimes, branched-chain substituents are encountered. These are named according to the parent alkane from which they are derived.

4-Isopropyloctane 4-tert-Butyloctane

Substituent derives from a 3-C alkane (propane) and point of attachment is a secondary C of the substituent

Substituent derives from a 4-C alkane (butane) and point of attachment is a tertiary C of the substituent

could also call this 4-sec-Propyloctane

Page 35: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Branched-chain alkyl groups

…another point: for the purposes of capitalization (at the beginning of the name), tert- and sec-are not capitalized, but iso is

4-Isopropyloctane 4-tert-Butyloctane

Page 36: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Branched-chain alkyl groups

• Given a choice between unbranched substituents and branched substituents, should use unbranched ones for naming

Preferable to call this 3-Ethyl-2-methylhexane

also, not 3-Isopropylhexane

Page 37: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Cycloalkanes

• Cyclic alkanes (cycloalkanes) are alkane chains where the end carbons are linked together (need to kick off 2 H atoms from the formula of the corresponding straight-chain alkane to get the cycloalkane formula).

• The general formula for a cycloalkane is CnH2n

Cyclopropane

Cyclobutane

Cyclopentane

Cyclohexane

Cycloheptane

Cyclooctane

Cyclononane

=

C6H12 C6H12

Page 38: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Cycloalkanes

Page 39: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

IUPAC nomenclature for substituted cycloalkanes

• Naming: If one substituent exists on a cycloalkane, no numbering is needed to denote its location

Ethylcyclohexane

Page 40: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

IUPAC nomenclature for substituted cycloalkanes

• If two substituents are present, the ring is numbered follows alphabetic priority.

• If more than two substituents are present, the ring numbering is assigned in a way that gives the lowest overall substituent numbers (order they are reported in is still alphabetic)

1-Ethyl-2-methylcyclohexane 2-Ethyl-1-methyl-4-propylcyclohexane (not 1-Ethyl-2-methyl-5-propylcyclohexane or 1-Methyl-2-ethyl-4-propylcyclohexane)

always ensure the lowest overall numbering is followed

Page 41: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Isomerism in cycloalkanes

• Constitutional isomers are possible for cycloalkanes having four or more carbons:

C4H8

Cyclobutane Methylcyclopropane

C4H8

These isomers differ in the way the carbon atoms are connected together (constitutional isomers)

Page 42: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Isomerism in cycloalkanes

• As before, as the number of carbons in the (cyclo)alkane grows, so do the number of constitutional isomers.

C5H10

Cyclopentane Methylcyclobutane 1,2-Dimethylcyclopropane Ethylcyclopropane

C5H10 C5H10 C5H10

Page 43: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Isomerism in cycloalkanes

• Another kind of isomerism we haven’t yet encountered, called stereoisomerism, involves molecules that have the same molecular formula, same atom-to-atom connectivity, but differ in the 3-dimensional arrangement of the atoms in space.

• In cycoalkanes, there may exist the possibility of cis-, trans- isomers

CH3-substituents areboth above the C-Cbond of cyclopentane

cis-1,2-Dimethylcyclopentane trans-1,2-Dimethylcyclopentane

One CH3-substituent isabove the C-C bond ofcyclopentane and theother one is below it

Page 44: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Isomerism in cycloalkanes

• There are two distinct molecules. One can’t be converted into the other without breaking bonds first.

• Can have this form of isomerism for any cycloalkane that has more than one substituent.

cis-1-Ethyl-2-methylcyclohexanetrans-1-Ethyl-2-methylcyclohexane

Page 45: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Isomerism in cycloalkanes

• Substituents also don’t need to be on adjacent carbon atoms of the ring (but can’t be on the same carbon atom of the ring)

trans-1-Ethyl-3-methylcyclohexane cis-1-Ethyl-3-methylcyclohexane

Page 46: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Sources of alkanes and cycloalkanes

• The crude petroleum that is obtained at drilling sites is a mixture of hydrocarbons (cyclic and acyclic) that is purified (refined) by taking advantage of the boiling point differences of the various components

Page 47: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Sources of alkanes and cycloalkanes

• Boiling point is observed to increase with increasing chain C-chain length (and ring size for cycloalkanes).

• About a 30o increase per additional C (–CH2- unit) in the chain.

Increasing London forces of attraction

Page 48: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Physical properties of alkanes and cycloalkanes

1. Alkanes and cycloalkanes are water-insoluble

2. Alkanes and cycloalkanes have densities that are less than that of water (0.6 – 0.8 g/mL, as compared to ~1 g/mL for H2O)

3. Boiling points of continuous chain alkanes and cycloalkanes increase with an increase in carbon-chain length or ring size

• Cycloalkanes have higher boiling points than corresponding alkanes because they are more rigid • Branched chain alkanes have lower boiling points because they are more compact and have less surface areas (less interaction with other, similar molecules) than straight-chain forms

Boiling point for alkanes having a given number of C-atoms: cycloalkane > “straight” chain > branched chain

Page 49: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Why is something like this important in life science?

• Cholesterol is used by the body for – building cell membranes

– making bile

– vitamin D

– steroid horomones

• Cholesterol is transported through the bloodstream by

lipoproteins. These shell structures have a water-unfriendly core and a water-friendly exterior

• LDL is a lipoprotein that has mostly cholesterol content.

• HDL has mostly protein content

cholesterol, (mainly a hydrocarbon)

LDL is used to transport cholesterol to sites in the body, through the bloodstream.

http://www.answers.com/topic/lipoprotein

Low-Density Lipoprotein

High-Density Lipoprotein

Page 50: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Why is something like this important in life science?

• If LDL transports cholesterol to a site (e.g. tissue) that doesn’t require cholesterol, the LDL remains in the bloodstream, eventually releasing its contents.

• Cholesterol molecules aren’t water-soluble, so they aggregate, forming insoluble clumps that collect along the arterial walls (atherosclerosis).

• This restricts blood flow and can eventually create a blockage (stroke/heart attack).

Essentials of general, organic, and biochemistry. D. Guinn, R. Brewer, W.H. Freeman, NY, 2010.

Main forces of attraction between cholesterol molecules are London forces, which increase with molecular weight.

Page 51: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Why is something like this important in life science?

• The condition (depending on the stage) can be corrected by:

• diet/exercise

• medication

• angioplasty

Essentials of general, organic, and biochemistry. D. Guinn, R. Brewer, W.H. Freeman, NY, 2010.

Page 52: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Chemical properties of alkanes and cycloalkanes

• Alkanes and cycloalkanes have low chemical reactivities. The C-C bonds and C-H bonds are non-polar, which do not encourage reactions with other species, and the bond strengths are fairly high (strong bonds)

• Two reactions that they are susceptible to are combustion and halogenation

Page 53: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Chemical properties of alkanes and cycloalkanes

• In a combustion reaction, alkanes and cycloalkanes are reacted with O2 to form CO2 in an oxygen-rich environments (or CO or other C-products in less O2-rich environments).

• Some examples of alkane combustion reactions:

CH4 + 2O2 CO2 + 2H2O + heat

2C6H14 + 19O2 12CO2 + 14H2O + heat

Page 54: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Nomenclature and properties of halogenated alkanes

• Halogenated alkanes (or haloalkanes) are hydrocarbons (or their derivates) that possess at least one halogen atoms

• Naming rules

– Halogens are treated just like other (alkyl) substituents when numbering and alphabetic naming are considered

– Substituents are called fluoro-, chloro, bromo-, and iodo- for the purposes of assigning names

2-Chloro-3-methylbutane 3-Bromo-1-chlorobutane

1-Ethyl-2-fluorocyclohexane

Page 55: Chapter 12 - StFX 150/Chapters/Chapter...Alkanes: acyclic saturated hydrocarbons • Chemical formulas for alkanes are written as C n H 2n+2; however, structural formulas give more

Nomenclature and properties of halogenated alkanes

• In terms of chemical reactivity, halogenated alkanes are more reactive than alkanes and cycloalkane analogues, because the C-X bond (X = halogen) makes the bond polar and thus susceptible to reactions that require initial dipole-dipole interactions.