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Chemical Ideas 12 Organic chemistry frameworks. 12.1 Alkanes. Many carbon compounds are found in living organisms, this why their study is named organic chemistry. Carbon is unique About 7 million compounds containing carbon and hydrogen are known to chemists - PowerPoint PPT Presentation
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Chemical Ideas 12Organic chemistry
frameworks
12.1 Alkanes
Many carbon compounds are found in living organisms, this why their study is named organic chemistry
Carbon is unique
About 7 million compounds containing carbon and hydrogen are known to chemists
This is far more than the number of compounds from all the other elements put together
Why carbon?
Electron structure makes it the first member of Gp 4 in the centre of the periodic table – this is responsible for its special properties
Carbon atom has 4 electrons in its outer shell – too many to lose or gain – the ions would have +4 or -4 (too highly charged)
All carbon compounds are covalent rather than ionic
Methane(CH4) C shares 4 electrons with 4 H atoms
Carbon forms strong covalent bonds with itself to form rings and chains this is called catenation
Each C atom can form 4 covalent bonds- chains may be straight or branched and can have other atoms or groups substituted on to them
H
H C H H
Hydrocarbons Only contain carbon and
hydrogen General formula CXHY
Methane –CH4 is an alkane
Ethene C2H4 is an alkene
Benzene C6H6 is an arene
H l
H - C - H l H
Alkanes Saturated hydrocarbons
Contain C and H only
Contain single bonds C-C
Have 4 bonds to every carbon (C) atom
Are non polar
General formula CnH2n+2
Physical properties such as m.pt,b.pt and density change as the number of carbon atoms in the molecule increase
Alkanesshortened
Name # carbons Structural Formula
Methane 1 CH4
Ethane 2 CH3CH3
Propane 3 CH3CH2CH3
Butane 4 CH3CH2CH2CH3
Pentane 5 CH3CH2CH2CH2CH3
Names of all alkanes end in -ane
Alkanesshortened
Name # carbons Structural Formula
Hexane 6 CH3CH2CH2CH2CH2CH3
Heptane 7 CH3CH2CH2CH2CH2CH2CH3
Octane 8 CH3CH2CH2CH2CH2CH2CH2CH3
Nonane 9 CH3 CH2 CH2CH2CH2CH2CH2CH2CH3
Decane 10
CH3CH2CH2CH2CH2CH2CH2CH2CH2CH3
Names of all alkanes end in -ane
A series of compounds which are related in this way are called a homologous series
Finding the formula of alkanes
Molecular formula = m x empirical formula
Where m is 1,2,3,……
For hydrocarbons , composition of mass is easily found by burning a known mass in oxygen, measuring the amounts of CO2 and H2O this is called combustion analysis
Finding the formula of alkanes
Example0.100g of hydrocarbon X on complete combustion gave 0.309g CO2 and H2O 0.142gcalculate the empirical formula of X
Answer1st calc the masses of C and H in 0.100g44g CO2 contains 12g of C mass of C in 0.100g X = (12/44) x 0.309g
= 0.0843g18g H2O contains 2g H mass of H in 0.100g X = (2/18) x 0.142g
= 0.0158g
Finding the formula of alkanes
C HRatio by mass 0.0843 : 0.0158Ratio by moles 0.00703 : 0.0158Simplest by ratio(÷ by smaller) 1 : 2.25Whole number ratio 4 : 9Empirical formula = C4H9
Finding the formula of alkanes
ExampleRelative molecular mass of X was found to be 114 by using a mass spectrometer
AnswerEmpirical formula of X is C4H9
but Mr C4H9 = 57 this is ½ of 114. So the molecular formula of X must be (C4H9)2
= C8H18
Structure of alkanes Full structural formula of
methaneShows all atoms and bonds
Propane
Shortened structural formula for propane
Further shortened to
Structure of alkanes
Alkyl GroupsBranches on carbon chains H
H C CH3 methyl H H H
H C C CH3CH2 ethyl H H
Naming organics – nomenclature Ref. P136 Organic Chemistry Solomons and Fryhle 2002
International Union of Pure and Applied Chemistry – IUPAC – has an internationally agreed and accepted method for giving evey organic molecule a unique name using a method - you are going to be examined on your ability to use this methodology. It is worth spending time learning and practicing this skill. Very useful indeed. The method is fairly easy and stepwise as follows:
Naming organics – nomenclature Ref. P136 Organic Chemistry Solomons and Fryhle 2002
1. Locate the longest continuous chain of carbon atoms; this chain determines the parent name for the alkane – this may not always be obvious since they go around corners!
Naming organics - nomenclature
2. Number the longest chain beginning with the end of the chain nearer the substituent
Naming organics - nomenclature
3. Use the numbers obtained from rule 2 to designate the location of the substituent group
Naming organics - nomenclature
4. When there are more than one group on different parts of the chain – number from the longest chain for example we call this
“4-ethyl-2-methylhexane”
Naming organics - nomenclature
5. When two substituents are on the same carbon atom, use that number twice for example, this is 3-ethyl-3methylhexane
Naming organics - nomenclature
6. When two or more substituents are identical, indicate this by the use of the prefixes di-, tri-, tetra-, and so on. Make sure every substituent has a number. Commas separate numbers from each other. 2,3-dimethylbutane
Naming organics - nomenclature
7. Classification of hydrogen atoms
2-methyl butane has primary (1o), secondary (2o) and tertiary (3o) hydrogens
Naming organics - nomenclature
8. If there is a halide group – p140 – number from the first substituent attached to it regardless of whether it is halo or alkyl. If they are equal distance, then go alphabetically.
Naming alkenes - nomenclature
1. For alkenes, determine the parent by selecting the longest chain that contains the double bond and change the ending of the name from “–ane” to “-ene”
Naming alkenes - nomenclature
2. Number the chain so as to include both carbon atoms of the double bond and begin naming numbering at the end of the chain nearest the location of the double bond
Naming alkenes - nomenclature
3. Number the other substituents as we have already learned.
Naming alcohols – nomenclature (p141)
In what is called IUPAC substitutive nomenclature a name may have as many as 4 features! Locant, prefix, parent compound and one suffix….(continuted)
Naming alcohols – nomenclature
…For the alcohols, you add “-ol” to the suffix, in general, numbering of the chain always begins at the end nearer the group named as a suffix.
Naming alcohols – nomenclature (p141)
1. Select the longest chain again to which the hydroxyl (OH) group is attached. Change the name of the alkane corresponding to this chain by dropping the “e” and adding the suffix “ol”
Naming alcohols – nomenclature (p141)
2. Number the longest continuous chain so as to give the carbon atom bearing the hydroxyl group the lower number.
Naming Summary
1. Count the C’s in the longest
chain
2. Name each attached group
3 Count the longest carbon chain
to give the first attached group
the smallest number
4. Name and locate each group
Naming Branched Alkanes
CH3 methyl branch
CH3CH2CH2CHCH2CH3
6 5 4 3 2 1 Count
3-Methylhexane
on third C CH3 six carbon chain group
Branched alkanes -Isomers
Same molecular formula Same number and types of atoms Different arrangement of atoms
CycloalkanesCyclopropane
CH2
CH2 CH2
Cyclobutane
CH2 CH2
CH2 CH2
•The is a group of alkanes that have a cyclic structure.
•These cycloalkanes contain a carbon chain that is in a ring.
•Each cycloalkane has a formula that is 2C less than the corresponding alkane.
•For example, propane is C3H8 whereas cyclopropane ic C3H6. Butane is C4H10 and cyclobutane is C4H10.
•The names of the cyclic structures use the prefix cyclo in from of the alkane name for the carbon chain
More Cycloalkanes
Cyclopentane CH2
CH2 CH2
CH2 CH2
Cyclohexane
CH2
CH2 CH2
CH2 CH2
CH2
Shapes of alkanes
represents a bond inthe plane of the paper
represents a bond ina direction behindthe plane of the paper
represents a bond ina direction in front ofthe plane of the paper
Pairs of electrons in the bonds repel each other so in all covalent compounds the bonds are as far away from each other as possible. The bond angle for H-C-H is 109
Shapes of alkanes
a simpler way of drawingethane which shows theshape less accurately
Ethane
Each carbon atom is at the centre at of a tetrahedral arrangement
Shapes of alkanesHydrocarbon chains are not really straight but a zig-zag of carbon atoms. All bond angles are 109◦
Reaction of alkanes
Oxidation are v. unreactive unaffected by acids and alkalis and oxidising agents
When they do react it is usually in the gas phase and energy needs to be supplied to get the reaction started
Reaction of alkanes
Combustion
alkane + O2 CO2 + H2O + heat
C6H14 + 9 1/2 O2 6CO2 + 7H2O + heat
If air supply is limited combustion in incomplete and products include CO and C (soot) along with partially oxidised hydrocarbons
Action of heat on alkanes When alkanes fractions are heated under different conditions,3 different
reactions can occur, isomerisation, reforming and cracking