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20.6 Stereoisomerism

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20.6.1 Describe stereoisomers as compounds with the same structural formula but with different arrangements of atoms in space. 20.6.2 Describe and explain geometrical ... – PowerPoint PPT presentation

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Title: 20.6 Stereoisomerism


1
20.6 Stereoisomerism
  • 20.6.1 Describe stereoisomers as compounds with
    the same structural formula but with different
    arrangements of atoms in space.
  • 20.6.2 Describe and explain geometrical
    isomerism in non-cyclic alkenes.
  • 20.6.3 Describe and explain geometrical
    isomerism in C3 and C4 cycloalkanes.
  • 20.6.4 Explain the difference in the physical
    and chemical properties of geometrical isomers.
  • 20.6.5 Describe and explain optical isomerism in
    simple organic molecules.
  • 20.6.6 Outline the use of a polarimeter in
    distinguishing between optical isomers.
  • 20.6.7 Compare the physical and chemical
    properties of enantiomers.

2
Structural Isomer
  • Discussed in SL material.
  • Have same chemical formula (same amount of
    atoms), but totally different structures (and
    therefore names)
  • Ex C4H10
  • Has 2 different structural isomers
  • Butane CH3CH2CH2CH3
  • Methyl propane CH3CH(CH3)CH3
  • Can have different branches, position of
    functional groups, or completely different
    functional groups.

3
Stereoisomer
  • Molecules have atoms attached together in same
    order
  • Different spatial arrangement (3-D)
  • Two types required with IB
  • Geometric
  • Optical
  • On exam draw full structural diagrams to show
    stereoisomers properly.

4
Geometric Isomer
  • Restricted rotation about the bond
  • Cyclic structure (ie. Benzene)
  • Double bond (ie. Alkenes)
  • The atoms become fixed in place.
  • Using models can be helpful in understanding
    geometric isomers.

5
Not an isomer...
6
This is an isomer
7
Geometric isomer Cis-
  • same groups on same side of the double bond or
    ring.

8
Geometric isomers Trans-
  • same groups on opposite sides of double bond or
    ring.

9
This is not an isomer
10
Physical properties
  • Cis
  • Trans
  • Polar molecules
  • Dipole-dipole interactions van der Waals
    forces between its molecules
  • Higher B.P
  • Lower M. P due to lack of symmetry. Not packed
    so closely together.
  • Non polar molecules
  • Only van der Waals forces between its molecules
  • Lower B. P
  • Pack together more closely because of their
    symmetry
  • Higher M. P.

11
Chemical Properties
Usually very similiar. One exception you need to
know. Cis and trans-butenedioic acid
  • Cis-
  • Trans-
  • Cis-butenedioic acid heated reacts to form
    butenedioic anhydride H2O
  • Trans- butenedioic acid heated sublimes, but does
    not chemically react.

12
Cyclic molecules
  • Cycloalkanes contain a ring of carbons, single
    bonded.
  • Bond angles are different than regular single
    bonds
  • Cyclopropane (60 o triangle)
  • Cyclobutane (90 o square)
  • Can have cis- and trans- isomers because of lack
    of movement about the bond.

13
Draw on board
  • Cis-1,2-dimethylcyclopropane
  • Trans-1,2-dimethylcyclopropane
  • Cis-1,3-dichlorocyclobutane
  • Trans-1,3-dichlorocyclobutane

14
Optical Isomers
  • It occurs when substances have the same molecular
    and structural formulae, but one cannot be
    superimposed on the other.
  • They are mirror images of each other

15
  • The molecule on the left will not turn into the
    molecule on the right unless you break and make
    some bonds!
  • Molecules like this are said to be chiral and the
    different forms are called enantiomers.

16
Optical isomers
  • occur when there is an asymmetric carbon atom.
  • An asymmetric carbon atom is one which is bonded
    to four different groups (may be complex (ex
    C2H5) or simple (ex Cl))
  • http//cwx.prenhall.com/petrucci/medialib/media_po
    rtfolio/text_images/083_Chirality.MOV

17
  • Optical isomers can rotate the plane of
    polarisation of plane-polarised light
  • one enantiomer rotates the polarised light
    clockwise (to the right) and is the ()
    enantiomer
  • the other rotates the polarised light
    anticlockwise (to the left) and is called the ()
    enantiomer.
  • A mixture containing equal amounts of both
    enantiomers is not optically active (it will not
    rotate the plane of polarisation).
  • It is called a racemic mixture or racemate.

18
(No Transcript)
19
Properties of optical isomers
  • Enantiomers have identical physical and chemical
    properties with two exceptions
  • Optical activity
  • Reactivity with other chiral molecules

20
Optical activity
  • http//cwx.prenhall.com/petrucci/medialib/media_po
    rtfolio/text_images/084_OpticalActivity.MOV
  • Plane polarized light If light is passed
    through a polarizer, only a single wavelength of
    light may pass through. (all other waves are
    blocked out)
  • A solution of enantiomers changes the rotation of
    light being passed through a polarizer.
  • They are optically active molecules

21
Rotation of light
  • The extent and direction of rotation can be
    deduced.
  • Concentration of solutions, wavelength of light
    used and sample path length is kept constant.
  • Different enantiomers (at same conc.) rotate
    plane-polarized light in equal but opposite
    directions.
  • Remember racemic mixtures dont rotate any light.

22
Reactivity
  • When a racemic mixture is reacted with a single
    enantiomer of another chiral compound, the two
    components () and (-) enantiomers react to
    produce different products.
  • The products have different chemical and physical
    properties.
  • Ex 1960s drug thalidomide one enantiomer
    reaction was used to relieve symptoms of morning
    sickness, the other caused severe fetus
    malformations

23
Sources
  • http//www.chemguide.co.uk/basicorg/isomerism/geom
    etric.html
  • http//www.chemguide.co.uk/organicprops/alkanes/ba
    ckground.html
  • http//www.creative-chemistry.org.uk/molecules/opt
    ical.htm
  • Play with this
  • http//www.wellesley.edu/Chemistry/Flick/chem341/o
    pticalisomers.html
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