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4) If a substituent is present, identify its position by number. The double bond takes precedence over alkyl groups and halogens when the chain is numbered.

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Presentation on theme: "4) If a substituent is present, identify its position by number. The double bond takes precedence over alkyl groups and halogens when the chain is numbered."— Presentation transcript:

1 4) If a substituent is present, identify its position by number. The double bond takes precedence over alkyl groups and halogens when the chain is numbered. The compound shown above is 4-bromo-3-methyl-1-butene. H2CH2CH2CH2C CHCHCH 2 Br CH 3 Alkene Nomenclature

2 4) If a substituent is present, identify its position by number. Hydroxyl groups take precedence over the double bond when the chain is numbered. The compound shown above is 2-methyl-3-buten-1-ol. H2CH2CH2CH2C CHCHCH 2 OH CH 3 Alkene Nomenclature

3 methylenevinylallylisopropenyl CH H2CH2CH2CH2C H2CH2CH2CH2C CHCH 2 H2CH2CH2CH2C CCH 3 H2CH2CH2CH2C Alkenyl Groups

4 5.12 Structure and Bonding in Alkenes

5 bond angles: H-C-H = 117° H-C-C = 121° bond distances: C—H = 110 pm C=C = 134 pm planar Structure of Ethylene

6      Framework of  bonds Each carbon is sp 2 hybridized Bonding in Ethylene

7 Each carbon has a half-filled p orbital Bonding in Ethylene

8 Side-by-side overlap of half- filled p orbitals gives a  bond Bonding in Ethylene

9 5.3 Isomerism in Alkenes

10 Isomers are different compounds that have the same molecular formula. Isomers

11 Isomers Constitutional isomers Stereoisomers

12 Isomers Constitutional isomers Stereoisomers different connectivity same connectivity; different arrangement of atoms in space

13 Isomers Constitutional isomers Stereoisomers consider the isomeric alkenes of molecular formula C 4 H 8

14 2-Methylpropene 1-Butene cis-2-Butene trans-2-Butene C CHH H CH 2 CH 3 H3CH3CH3CH3C C C CH 3 HH H C C H3CH3CH3CH3CH C C H H H3CH3CH3CH3C H3CH3CH3CH3C

15 2-Methylpropene 1-Butene cis-2-Butene C CHH H CH 2 CH 3 H CH 3 C C H3CH3CH3CH3CH C C H H H3CH3CH3CH3C H3CH3CH3CH3C Constitutional isomers

16 2-Methylpropene 1-Butene trans-2-Butene C CHH H CH 2 CH 3 H3CH3CH3CH3C C C CH 3 HH C C H H H3CH3CH3CH3C H3CH3CH3CH3C Constitutional isomers

17 cis-2-Butene trans-2-Butene H3CH3CH3CH3C C C CH 3 HH H C C H3CH3CH3CH3CH Stereoisomers

18 trans (identical or analogous substituents on opposite sides) Stereochemical Notation cis (identical or analogous substitutents on same side)

19 trans cis Interconversion of stereoisomeric alkenes does not normally occur. Requires that  component of double bond be broken. Figure 5.2

20 trans cis

21 5.4 Naming Steroisomeric Alkenes by the E-Z Notational System

22 Stereochemical Notation cis and trans are useful when substituents are identical or analogous (oleic acid has a cis double bond) cis and trans are ambiguous when analogies are not obvious C C CH 3 (CH 2 ) 6 CH 2 CH 2 (CH 2 ) 6 CO 2 H H H Oleic acid

23 Example What is needed: 1) systematic body of rules for ranking substituents 2) new set of stereochemical symbols other than cis and trans C C H FClBr

24 C C E :higher ranked substituents on opposite sides Z :higher ranked substituents on same side higher lower The E-Z Notational System

25 C C E :higher ranked substituents on opposite sides Z :higher ranked substituents on same side higher lower The E-Z Notational System

26 C C E :higher ranked substituents on opposite sides Z :higher ranked substituents on same side Entgegen higher higherlower lower The E-Z Notational System

27 C C C C E :higher ranked substituents on opposite sides Z :higher ranked substituents on same side EntgegenZusammen higher higherlower lower lower higher lower higher The E-Z Notational System

28 C C C C Answer: They are ranked in order of decreasing atomic number. EntgegenZusammen higher higherlower lower lower higher lower higher Question: How are substituents ranked? The E-Z Notational System

29 The Cahn-Ingold-Prelog (CIP) System The system that we use was devised by R. S. Cahn Sir Christopher Ingold Vladimir Prelog Their rules for ranking groups were devised in connection with a different kind of stereochemistry—one that we will discuss in Chapter 7—but have been adapted to alkene stereochemistry.

30 (1)Higher atomic number outranks lower atomic number Br > FCl > H higher lower Br F Cl Hhigherlower C C Table 5.1 CIP Rules

31 (1)Higher atomic number outranks lower atomic number Br > FCl > H (Z )-1-Bromo-2-chloro-1-fluoroethene higher lower Br F Cl Hhigherlower C C Table 5.1 CIP Rules

32 (2) When two atoms are identical, compare the atoms attached to them on the basis of their atomic numbers. Precedence is established at the first point of difference. —CH 2 CH 3 outranks —CH 3 —C(C,H,H) Table 5.1 CIP Rules —C(H,H,H)

33 (3) Work outward from the point of attachment, comparing all the atoms attached to a particular atom before proceeding further along the chain. —CH(CH 3 ) 2 outranks —CH 2 CH 2 OH —C(C,C,H) —C(C,H,H) Table 5.1 CIP Rules

34 (4) Evaluate substituents one by one. Don't add atomic numbers within groups. —CH 2 OH outranks —C(CH 3 ) 3 —C(O,H,H) —C(C,C,C) Table 5.1 CIP Rules

35 (5)An atom that is multiply bonded to another atom is considered to be replicated as a substituent on that atom. —CH=O outranks —CH 2 OH —C(O,O,H) —C(O,H,H) Table 5.1 CIP Rules

36 A table of commonly encountered substituents ranked according to precedence is given on the inside back cover of the text. Table 5.1 CIP Rules


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