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Physical properties of alkanes mostly `even Steven’ Boiling point vs #C in unbranched chain alkanes (C n H 2 n+2 ) Melting point vs #C in unbranched chain.

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Presentation on theme: "Physical properties of alkanes mostly `even Steven’ Boiling point vs #C in unbranched chain alkanes (C n H 2 n+2 ) Melting point vs #C in unbranched chain."— Presentation transcript:

1 Physical properties of alkanes mostly `even Steven’ Boiling point vs #C in unbranched chain alkanes (C n H 2 n+2 ) Melting point vs #C in unbranched chain alkanes (C n H 2 n+2 )

2 Alkane physical properties (continued) Straight chain boils higher than equivalent branched chain with same #C (`packing’ matters) Example:n pentane 36 o C > isopentane 28 o C > neopentane o 10 C More spherical means less sticky Lower bp, less sticky

3 bp ( o C) 362810 INTUITION: MORE SPHERICALLY SHAPED ISOMERS ARE LESS STICKY. VISUAL INTUITION ON BP TREND

4 Alkane physical properties (continued Density variations reflect local molecular effects until chains get past 3 Carbons.

5 A brief look at rotational isomers (pp 80-85) An isomeric set = isomers share the same formula: e.g. C 5 H 12 Structural isomers  Structurally distinct  Physically/chemically different  Different names bp ( o C) 362810 Rotational isomers Structurally similar Structurally similar Physically/chemically similar (but not =) Physically/chemically similar (but not =) Same name Same name bpdecreasing Sum of all its rotational isomers (helps explain bp range)

6 EXTENSION OF INTUITIVE MODEL OF BOILING POINT (BP) VS STRUCTURE FOR ROTATIONAL ISOMERIC FORMS BPdecreasing DOES BP TREND MAKE SENSE ? yes

7 Ethane’s rotational conformers ` sawhorse’ 3D projections of ethane conformers

8 Newman projection equivalents (p. 81)

9 Potential energy vs. dihedral angle for ethane (see also: Fig. 3.7)

10 One `staggered’ version of butane

11 Other staggered versions of butane

12 Like the staggered forms, there are several kinds of eclipsed conformations Eclipsed versions of butane

13 4 distinct kinds of butane conformers (pp. 82-3) same

14 Potential energy vs. torsion angle for butane (see also: Fig 3.9 p. 84 )

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