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Covalent Bonds

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Covalent Bonds & Molecular Forces Ch.6 (6-4) Intermolecular Forces Attraction b/w molecules W/out these forces all covalent substances would be gases Weaker than ... – PowerPoint PPT presentation

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Title: Covalent Bonds


1
Covalent Bonds Molecular Forces
  • Ch.6

2
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3
(6-1) Covalent Bond
  • e- are shared b/w 2 atoms
  • Single bond 1 shared pair
  • Double bond 2 shared pairs
  • Triple bond 3 shared pairs
  • http//facweb.eths.k12.il.us/weinerj/PPT_Presentat
    ions/covalent_bonding.ppt

4
Molecular Orbital
  • Region where an e- pair is most likely to exist
  • Formed by overlapping atomic orbitals

5
Bond Length
  • Avg. dist. b/w 2 bonded atoms
  • Occur at min. PE

6
Bond E
  • E required to break a bond b/w 2 atoms separate
    them
  • Stronger bonds are shorter
  • Single long weak
  • Triple short strong

7
Electronegativity
  • Tendency of an atom to attract bonding e- to
    itself
  • Inc. across a period, dec. down a group

8
Electron Density
  • The more EN atom, has a higher electron density
    than the less EN atom
  • Pulls more e- to it

9
Bonding
  • Nonpolar covalent bonding e- shared equally
  • EN difference 0 to 0.5
  • Polar covalent bonding e- are localized on the
    more EN atom
  • EN dif. 0.6 to 2.1
  • Ionic e- transferred, not shared
  • EN dif. larger than 2.1
  • http//facweb.eths.k12.il.us/weinerj/PPT_Presentat
    ions/Bonding_part_III_polar.ppt

10
Dipole
  • Molecule in which 1 end has a partial charge
    the other end has a partial - charge

11
Dipole Moment (EN dif.)
  • Determines polarity of a bond molecule
  • Larger d.m. ? higher polarity ? stronger bond

12
(6-2) Valence Electrons
  • e- in the outer-most E level of an atom, where it
    can participate in bonding

13
Lewis Structure
  • Lewis structure represents the valence e- in a
    molecule

14
Lewis Dot Structure
  • Place 1 e- on each side of atom before pairing
    any e-

15
Unshared Pair
  • (Lone pair) pair of valence e- not involved in
    bonding

16
Rules for Drawing Lewis Structures
  • H halogens bond to only 1 other atom
  • Atom w/ the lowest EN is often the central atom

17
Lewis Structure Practice
  • Draw CH3I
  • Count valence e-
  • C (1 atom)(4 e-) 4 e-
  • H (3 atoms)(1 e-) 3 e-
  • I (1 atom)(7 e-) 7 e-
  • 14 e-

18
Lewis Structure Practice
  • Arrange atoms form single bonds
  • H
  • H C I
  • H
  • 3. Complete the octets verify of e-
  • H
  • H C I
  • H

19
Multiple Bonds
  • C, N, O commonly form double bonds
  • N C can form triple bonds

20
Lewis Structure Practice
  • Draw SO3
  • Count valence e-
  • (1 x 6 e-) (3 x 6 e-) 24 val. e-
  • Arrange atoms form single bonds

21
Lewis Structure Practice
  • Complete octets
  • Already used 24, no remaining pairs for the
    central atom

22
Lewis Structure Practice
  • 5. Try double bonds, then triple bonds if
    necessary

23
Resonance Structure
  • Multiple Lewis structures possible for 1 molecule
  • Intermediate structure
  • Ex O3

24
Polyatomic Ion Structure
  • Account for charge in the total of val.e-
  • Negative add e-
  • Positive subtract e-
  • Put structure in brackets write charge on the
    top right

25
Polyatomic Ion Practice
  • Draw NO3-
  • Count valence e-
  • (1 x 5 e- ) (3 x 6 e-) 1 24 e-
  • Connect atoms
  • Add octet to atoms bonded to central atom

26
Polyatomic Ion Practice
  • Place leftover e- on central atom
  • Already used 24
  • If no octet, try double bond
  • 6. Check for resonance structures

27
Octet Rule Exceptions
  • H never has more than 2 val. e-
  • B Al may have 6 val. e-
  • Ionic bonds only non-metals have octet

28
Metal Practice (Ionic Cmpds)
  • Draw the Lewis structure for BaBr2
  • (1 x 2 e-) (2 x 7 e-) 16 e-
  • Br Ba Br

29
Naming Covalent Cmpds
  • 1st element named is least EN
  • Add prefix if more than 1 atom
  • Table 6-5, p.212
  • 2nd element is most EN
  • Add prefix suffix -ide
  • Ex CO2 carbon dioxide

30
Covalent Naming Practice
  • SCl4
  • Sulfur tetrachloride
  • P4O6
  • Tetraphosphorus hexoxide
  • N2O4
  • Dinitrogen tetroxide
  • Drop vowel on prefix if root begins w/ vowel

31
(6-3) VSEPR
  • Valence shell e- pair repulsion theory predicts
    molecule shape based on the repulsion b/w e-
    clouds
  • e- pairs position themselves as far apart as
    possible

32
Molecular Shapes
  • Linear
  • Bent
  • Trigonal planar
  • Tetrahedral
  • Trigonal pyramidal

33
Shape Affects Properties
  • Generally, greater polarity ? higher bp
  • Harder to break
  • Molecular dipole
  • Ex H2O
  • Ex CO2

34
(6-4) Intermolecular Forces
  • Attraction b/w molecules
  • W/out these forces all covalent substances would
    be gases
  • Weaker than ionic forces

35
Dipole Force
  • Force b/w - ends of polar molecules
  • Hydrogen bond strong dipole attraction in which
    a H atom is bonded to a strongly EN atom
  • N, O, F (halogens)

36
London Forces
  • (Dispersion forces) attraction b/w atoms
    molecules caused by formation of instantaneous
    dipoles
  • Weakest forces
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