Lecture #4-Alkenes and Alkynes, Structure and...

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CH2210

Unsaturated Hydrocarbons

Chemical Formulas and Unsaturation

C C C C C

H H H H H

H C C C C C H

H H H H H

H C C C C

H H H H

CnH2n+2

C C C C C

H C C C C C H

H H H H H

Hydrocarbons

SaturatedHydrocarbons

UnsaturatedHydrocarbons

AlkanesCnH2n+2

CycloalkanesCnH2n

(one ring)

AlkenesCnH2n

(one C=C)

AlkynesCnH2n-2

(one C C)

BenzeneC6H6

CnH2n-6

Review of Carbon Bonding Patterns

Classes of “Unsaturated” Hydrocarbons

120º120º 180º

N o t e : B o t h o f t h e s e representations picture the two components of the double bond as being identical. This is not the case.

Lewis Representation of Ethene

C Cπ bond

𝜎 bond

Structure of the Carbon-Carbon Double Bond

The carbon-carbon double bond is constructed from two sp2 hybridized carbon atoms.

Covalent Bonding in Ethene

The two carbons and all four hydrogens all lie within the same plane. The bond angles are all 120º.

Nomenclature of Alkenes

1. Select the longest carbon chain containing the double bond as the parent chain. Replace the “-ane” ending with “-ene.

2. Number the parent chain beginning at end closest to the double bond beginning with the first carbon in the chain.

3. Locate and name the substituents in alphabetical order.

4. Compounds with two double bonds are called dienes.

5. Cyclic compounds are named as cycloalkenes. Carbons in the double bond are always numbered first. Then the ring is numbered in the direction so as to give the lowest numbers to substituents.

Isomerism in Alkenes

H2C CH CH2CH2 CH3

H3C CH CH CH2 CH3

H3C CH2 CH CH CH3

Positional Isomerism

1-pentene

2-pentene

????also

2-pentene

Geometric Isomerism (a form of stereoisomerism)

Alkenes-Nomenclature

2-hexene 2-methyl-3-hexene

2,3-dimethyl-1-pentene

Alkenes-Nomenclature Practice

2,3-dimethyl-2-hexene

Alkenes-Nomenclature

4-methylcyclohexene

Name as a cyclohexene

2,5-dimethyl-2-heptene 3,3-dimethylcyclopentene

Alkene Nomenclature

H3C CH2 CH2 C CH2 CH3

H3C CH CH CH CH CH

CH2 CH3

CH2CH3

1-pentene2-ethyl-

3-octenetrimethyl-2,5,6-

cyclohexene-chloro- -ethyl- -methyl5 3 1

Geometric Isomerism (a form of stereoisomerism)

Exists for the following cases:

A≠B and E≠D

A result of lack of free rotation around the double bond

Isomerism in Alkenes Cis/trans isomers have different physical properties

Cis/trans isomers are not possible for some alkenes.

cis-4-methyl-2-hexene

trans-5,6-dimethyl-3-heptene

H3CCH2

H3CCH3

H3CCH2

H3C HCH3*

2a) cis-1-chloro-1-butene

b) trans-3-hexene

c) trans-4,4-dimethyl-2-pentene

d) cis-1,3-dichlorocyclohexane

Cl C CC C

Cl CH2 CH3

CH2 CH3

Alkynes

Alkynes Structure of the Triple Bond

N o t e : B o t h o f t h e s e representations picture the three components of the t r i p l e b o n d a s b e i n g identical. This is not the case.

C C H H C CH H

Summary of Hydrocarbon Bonding

Nomenclature of Alkynes

1. Select the longest carbon chain containing the triple bond as the parent chain. Replace the “-ane” ending with “-yne.

2. Number the parent chain beginning at end closest to the triple bond beginning with the first carbon in the chain.

3. Locate and name the substituents in alphabetical order.

Alkynes-Nomenclature Practice

4,4-dimethyl-1-hexyne 2,7-dimethyl-4-octyne

H CH3* *

Alkynes-Nomenclature Practice

C C CH

CH3Excess Br2 in the dark

2,2-dichloro-5-methyl-3-hexyne

HC C CH2 CH2 C

CH3Excess HBr in the dark

5,5-dimethyl-1-hexyne

Properties of Alkenes and Alkynes

Chemical Properties

Undergo combustion as do alkanes .

Alkenes and Alkynes-reactive at the multiple bond.

Physical Properties

Nonpolar and insoluble in water as are alkanes.

Nonpolar, therefore Boiling points depend on size and shape.

Alkenes may display cis-trans isomerism.

Supplement on Hybridization

in Ethene

Carbon: ground-state electron configuration

Carbon: excited-state electron configuration

Carbon:

sp2-hybridized electron configuration

}hybridization

excitation

yThe sp2 Hybridization Scheme for Carbon

Hybrid Orbitals - Bonding in Methane

Recall that the four orbitals associated with the bonding in an alkane or cycloalkane are the result of “sp3 hybridizaton.”

(s + p + p + p)

Hybrid Orbitals - Alkenes

Carbon:

sp2-hybridized electron configuration

hybridization

excitation

The four orbitals associated with the

bonding in alkenes or cycloalkenes are the result

of “sp2 hybridizaton.”

Covalent Bonding in Ethene

C2H4, ethene, is formed from two sp2 hybridized carbon atoms and four hydrogen atoms:

Lateral overlap of the unhybridized p orbitals, above and below the triangular planes, results in a π bond of the double bond.

in Ethyne

Carbon: sp2-hybridized electron configuration

1shybridization

excitation

yThe sp Hybridization Scheme for Carbon

The four orbitals associated with the bonding in alkynes or

cycloalkynes are the result of “sp hybridizaton.” sp carbon

sp carbon sp carbon

Alkynes-Structure of the Triple Bond

in Ethene

7 sigma bonds

Ethane, CH3CH3The sp3 hybrid orbitals of

two carbons overlap

The remaining sp3 hybrid orbitals overlap with hydrogen s orbitals

5 sigma bonds

Ethene, CH2CH2The sp2 hybrid orbitals of

two carbons overlap

The remaining sp2 hybrid orbitals overlap with hydrogen s orbitals

Ethene, CH2CH2

The remaining unhybridized p

orbitals overlap to form a ∏ bond.

5 sigma bonds and 1 ∏ bond

3 sigma bonds

Ethyne, CHCHThe sp hybrid orbitals of

two carbons overlap

The remaining sp hybrid orbitals overlap with hydrogen s orbitals

Ethyne, CHCH

The remaining unhybridized p

orbitals overlap to form 2 ∏ bonds.

3 sigma bonds and 2 ∏ bonds

Alkynes-Structure of the Triple Bond

Bonding in HCCHH C C H

Lecture #4-Alkenes and Alkynes, Structure and...

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