1 chapter 8 “covalent bonding” chemistry pioneer high school mr. david norton
TRANSCRIPT
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Chapter 8
“Covalent Bonding”
Chemistry
Pioneer High School
Mr. David Norton
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Section 8.1Molecular Compounds
OBJECTIVES:
–Distinguish between the melting points and boiling points of molecular compounds and ionic compounds.
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Section 8.1Molecular Compounds
OBJECTIVES:
–Describe the information provided by a molecular formula.
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BondsBonds• Forces that hold groups of atoms Forces that hold groups of atoms
together and make them function together and make them function as a unit:as a unit:
1)1) Ionic bondsIonic bonds – transfer of – transfer of electrons (gained or lost)electrons (gained or lost)
2)2)Covalent bondsCovalent bonds – sharing of – sharing of electrons. The resulting electrons. The resulting particle is called a particle is called a “molecule”.“molecule”.
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MoleculesMolecules Many elements found in nature
are in the form of molecules: a neutral group of atoms joined
together by covalent bonds. For example, air contains oxygen For example, air contains oxygen
molecules, consisting of two molecules, consisting of two oxygen atoms joined covalentlyoxygen atoms joined covalently
Called a “Called a “diatomic moleculediatomic molecule””
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How does H2 form?
The nuclei repel each other, since they both have a positive charge, and like charges repel.
++
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How does H2 form?
++
But, the nuclei are attracted to the electrons
They share the electrons, and this is called a “covalent bond”, and involves only NONMETALS!
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Covalent bondsNonmetals hold on to their valence
electrons. They can’t give away electrons to bond. Still want noble gas configuration. Get it by sharing valence electrons with
each other = covalent bonding By sharing, both atoms get to count the
electrons toward a noble gas configuration.
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Covalent bonding Fluorine has seven valence
electrons
F
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Covalent bonding Fluorine has seven valence
electrons A second atom also has seven
F F
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Covalent bonding Fluorine has seven valence
electrons A second atom also has seven By sharing electrons…
F F
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Covalent bonding Fluorine has seven valence
electrons A second atom also has seven By sharing electrons…
F F
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Covalent bonding Fluorine has seven valence
electrons A second atom also has seven By sharing electrons…
F F
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Covalent bonding Fluorine has seven valence
electrons A second atom also has seven By sharing electrons…
F F
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Covalent bonding Fluorine has seven valence
electrons A second atom also has seven By sharing electrons…
F F
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Covalent bonding Fluorine has seven valence electrons A second atom also has seven By sharing electrons…
…both end with full orbitals
F F
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Covalent bonding Fluorine has seven valence electrons A second atom also has seven By sharing electrons… …both end with full orbitals
F F8 Valence electrons
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Covalent bonding Fluorine has seven valence electrons A second atom also has seven By sharing electrons… …both end with full orbitals
F F8 Valence electrons
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Molecular CompoundsCompounds that are bonded
covalently (like water and carbon dioxide) are called molecular compounds
Molecular compounds tend to have relatively lower melting and boiling points than ionic compounds.
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Molecular Compounds Thus, molecular compounds tend to
be gases or liquids at room temperature
–Ionic compounds were solids A molecular compound consists of a
molecular formula:
–Shows how many atoms of each element a molecule contains
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Molecular Compounds The formula for water is written as
H2O–The subscript 2 behind hydrogen
means there are 2 atoms of hydrogen; if there is only one atom, the subscript 1 is omitted
Molecular formulas do not tell any information about the structure (the arrangement of the various atoms).
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- Page 215
These are some of the different ways to represent ammonia:
1. The molecular formula shows how many atoms of each element are present
2. The structural formula ALSO shows the arrangement of these atoms!
3. The ball and stick model is the BEST, because it shows a 3-dimensional arrangement.
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Section 8.2The Nature of Covalent Bonding
OBJECTIVES:
–Describe how electrons are shared to form covalent bonds, and identify exceptions to the octet rule.
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Section 8.2The Nature of Covalent Bonding
OBJECTIVES:
–Demonstrate how electron dot structures represent shared electrons.
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Section 8.2The Nature of Covalent Bonding
OBJECTIVES:
–Describe how atoms form double or triple covalent bonds.
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Section 8.2The Nature of Covalent Bonding
OBJECTIVES:
–Distinguish between a covalent bond and a coordinate covalent bond, and describe how the strength of a covalent bond is related to its bond dissociation energy.
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Section 8.2The Nature of Covalent Bonding
OBJECTIVES:
–Describe how oxygen atoms are bonded in ozone.
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A Single Covalent Bond is... A sharing of two valence electrons. Only nonmetals and hydrogen. Different from an ionic bond
because they actually form molecules.
Two specific atoms are joined. In an ionic solid, you can’t tell which
atom the electrons moved from or to
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Sodium Chloride Crystal LatticeSodium Chloride Crystal Lattice
•Ionic compounds Ionic compounds organize in a organize in a characteristic characteristic crystal lattice of crystal lattice of alternating alternating positive and positive and negative ions.negative ions.
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How to show the formation… It’s like a jigsaw puzzle. You put the pieces together to end up
with the right formula. Carbon is a special example - can it
really share 4 electrons: 1s22s22p2?
– Yes, due to electron promotion! Another example: lets show how water is
formed with covalent bonds, by using an electron dot diagram
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Water
H
O
Each hydrogen has 1 valence electron
Each hydrogen wants 1 more
The oxygen has 6 valence electrons
The oxygen wants 2 more
They share to make each other complete
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Water Put the pieces together The first hydrogen is happy The oxygen still wants one more
H O
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Water A second hydrogen attaches Every atom has full energy levels
H OH
Note the two “unshared” pairs of electrons
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Multiple Bonds Sometimes atoms share more than
one pair of valence electrons. A double bond is when atoms share
two pairs of electrons (4 total) A triple bond is when atoms share
three pairs of electrons (6 total) Table 8.1, p.222 - Know these 7
elements as diatomic:
Br2 I2 N2 Cl2 H2 O2 F2 What’s the deal with the oxygen dot diagram?
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Dot diagram for Carbon dioxide CO2 - Carbon is central
atom ( more metallic ) Carbon has 4 valence
electrons Wants 4 more Oxygen has 6 valence
electrons Wants 2 more
O
C
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Carbon dioxide Attaching 1 oxygen leaves the
oxygen 1 short, and the carbon 3 short
OC
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Carbon dioxide Attaching the second oxygen
leaves both oxygen 1 short, and the carbon 2 short
OCO
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Carbon dioxide The only solution is to share more
OCO
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Carbon dioxide The only solution is to share more
OCO
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Carbon dioxide The only solution is to share more
OCO
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Carbon dioxide The only solution is to share more
OCO
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Carbon dioxide The only solution is to share more
OCO
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Carbon dioxide The only solution is to share more
OCO
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Carbon dioxide The only solution is to share more Requires two double bonds Each atom can count all the
electrons in the bond
OCO
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Carbon dioxide The only solution is to share more Requires two double bonds Each atom can count all the electrons in
the bond
OCO8 valence electrons
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Carbon dioxide The only solution is to share more Requires two double bonds Each atom can count all the electrons in
the bond
OCO8 valence electrons
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Carbon dioxide The only solution is to share more Requires two double bonds Each atom can count all the electrons in
the bond
OCO
8 valence electrons
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How to draw them? Use the handout guidelines: Add up all the valence electrons. Count up the total number of electrons
to make all atoms happy. Subtract; then Divide by 2 Tells you how many bonds to draw Fill in the rest of the valence electrons
to fill atoms up.
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Example NH3, which is ammonia N – central atom; has 5
valence electrons, wants 8 H - has 1 (x3) valence
electrons, wants 2 (x3) NH3 has 5+3 = 8
NH3 wants 8+6 = 14 (14-8)/2= 3 bonds 4 atoms with 3 bonds
N
H
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N HHH
Examples Draw in the bonds; start with singles All 8 electrons are accounted for Everything is full – done with this one.
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Example: HCN HCN: C is central atom N - has 5 valence electrons, wants 8 C - has 4 valence electrons, wants 8 H - has 1 valence electron, wants 2 HCN has 5+4+1 = 10
HCN wants 8+8+2 = 18
(18-10)/2= 4 bonds 3 atoms with 4 bonds – this will require
multiple bonds - not to H however
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HCN Put single bond between each atom Need to add 2 more bonds Must go between C and N (Hydrogen is full)
NH C
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HCN Put in single bonds Needs 2 more bonds Must go between C and N, not the H Uses 8 electrons – need 2 more to
equal the 10 it has
NH C
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HCN Put in single bonds Need 2 more bonds Must go between C and N Uses 8 electrons - 2 more to add Must go on the N to fill its octet
NH C
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Another way of indicating bonds
Often use a line to indicate a bond Called a structural formula Each line is 2 valence electrons
H HO = H HO
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Other Structural Examples
H C N
C OH
H
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A Coordinate Covalent Bond... When one atom donates both
electrons in a covalent bond. Carbon monoxide (CO) is a good
example:
OCBoth the carbon and oxygen give another single electron to share
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Coordinate Covalent Bond When one atom donates both
electrons in a covalent bond. Carbon monoxide (CO) is a good
example:
OC
Oxygen gives both of these electrons, since it has no more singles to share.
This carbon electron moves to make a pair with the other single.
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Coordinate Covalent Bond When one atom donates both
electrons in a covalent bond. Carbon monoxide (CO)
OCC O
The coordinate covalent bond is shown with an arrow as:
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Coordinate covalent bondMost polyatomic cations and
anions contain covalent and coordinate covalent bonds
Table 8.2, p.224Sample Problem 8.2, p.225 The ammonium ion can be
shown as another example
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Bond Dissociation Energies...
The total energy required to break the bond between 2 covalently bonded atoms
High dissociation energy usually means the chemical is relatively
unreactive, because it takes a lot of energy to break it down.
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Resonance is... When more than one valid dot
diagram is possible. Consider the two ways to draw ozone
(O3) Which one is it? Does it go back and
forth? It is a hybrid of both, like a mule; and
shown by a double-headed arrow found in double bond structures
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Resonance in OzoneResonance in Ozone
Neither structure is correct, it is actually a hybrid of the two. To show it, draw all varieties possible, and join them with a double-headed arrow.
Note the different location of the double bond
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ResonanceResonanceOccurs when more than one valid Lewis structure can be written for a particular molecule (due to position of double bond)
•These are resonance structures of benzene.•The actual structure is an average (or hybrid) of these structures.
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Resonance in a carbonate ion:
Resonance in an acetate ion:
Polyatomic ions – note the different positions of the double bond.
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Exceptions to Octet rule For some molecules, it is
impossible to satisfy the octet rule–usually when there is an odd
number of valence electrons–NO2 has 17 valence electrons,
because the N has 5, and each O contributes 6
It is impossible to satisfy octet rule, yet the stable molecule does exist
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Exceptions to Octet rule• Another exception: Boron
• Page 228 shows boron trifluoride, and note that one of the fluorides might be able to make a coordinate covalent bond to fulfill the boron
• But fluorine has the highest electronegativity of any element, so this coordinate bond does not form
• Top page 229 examples exist because they are in period 3 or beyond
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Section 8.3Bonding Theories
OBJECTIVES:
–Describe the relationship between atomic and molecular orbitals.
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Section 8.3Bonding Theories
OBJECTIVES:
–Describe how VSEPR theory helps predict the shapes of molecules.
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Molecular Orbitals are... The model for covalent bonding
assumes the orbitals are those of the individual atoms = atomic orbital
Orbitals that apply to the overall molecule, due to atomic orbital overlap are the molecular orbitals–A bonding orbital is a molecular
orbital that can be occupied by two electrons of a covalent bond
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Molecular Orbitals Sigma bond- when two atomic
orbitals combine to form the molecular orbital that is symmetrical along the axis connecting the nuclei
Pi bond- the bonding electrons are likely to be found above and below the bond axis (weaker than sigma)
Note pictures on the next slide
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- Pages 230 and 231
Sigma bond is symmetrical along the axis between the two nuclei.
Pi bond is above and below the bond axis, and is weaker than sigma
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VSEPR: stands for...Valence Shell Electron Pair Repulsion Predicts the three dimensional shape of
molecules. The name tells you the theory:
–Valence shell = outside electrons.–Electron Pair repulsion - electron
pairs try to get as far away as possible from each other.
Can determine the angles of bonds.
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VSEPR Based on the number of pairs of
valence electrons both bonded and unbonded.
Unbonded pair also called lone pair. CH4 - draw the structural formula Has 4 + 4(1) = 8 wants 8 + 4(2) = 16 (16-8)/2 = 4 bonds
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VSEPR for methane: Single bonds fill
all atoms. There are 4
pairs of electrons pushing away.
The furthest they can get away is 109.5º
C HH
H
H
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4 atoms bonded Basic shape is
tetrahedral. A pyramid with a
triangular base. Same shape for
everything with 4 pairs. CH H
H
H 109.5º
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Other angles, pages 232 - 233Ammonia (NH3) = 107o
Water (H2O) = 105o
Carbon dioxide (CO2) = 180o
Note the shapes of these that are pictured on the next slide
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- Page 232
Methane has an angle of 109.5o, called tetrahedral
Ammonia has an angle of 107o, called pyramidal
Note the unshared pair that is repulsion for other electrons.
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Section 8.4Polar Bonds and Molecules
OBJECTIVES:
–Describe how electronegativity values determine the distribution of charge in a polar molecule.
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Section 8.4Polar Bonds and Molecules
OBJECTIVES:
–Describe what happens to polar molecules when they are placed between oppositely charged metal plates.
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Section 8.4Polar Bonds and Molecules
OBJECTIVES:
–Evaluate the strength of intermolecular attractions compared with the strength of ionic and covalent bonds.
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Section 8.4Polar Bonds and Molecules
OBJECTIVES:
–Identify the reason why network solids have high melting points.
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Bond Polarity Covalent bonding means shared
electrons–but, do they share equally?
Electrons are pulled, as in a tug-of-war, between the atoms nuclei–In equal sharing (such as
diatomic molecules), the bond that results is called a nonpolar covalent bond
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Bond Polarity When two different atoms bond
covalently, there is an unequal sharing
–the more electronegative atom will have a stronger attraction, and will acquire a slightly negative charge
–called a polar covalent bond, or simply polar bond.
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ElectronegativityElectronegativity
The ability of an The ability of an atom in a molecule atom in a molecule to attract shared to attract shared electrons to itself.electrons to itself.
Linus Pauling1901 - 1994
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Table of Electronegativities
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Bond Polarity Refer to Table 6.2, page 177 Consider HCl
H = electronegativity of 2.1
Cl = electronegativity of 3.0
–the bond is polar
–the chlorine acquires a slight negative charge, and the hydrogen a slight positive charge
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Bond Polarity Only partial charges, much less
than a true 1+ or 1- as in ionic bond Written as:
HCl the positive and minus signs (with
the lower case delta: ) denote partial charges.
and
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Bond Polarity Can also be shown:
–the arrow points to the more electronegative atom.
Table 8.3, p.238 shows how the electronegativity can also indicate the type of bond that tends to form
H Cl
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Polar molecules Sample Problem 8.3, p.239 A polar bond tends to make the
entire molecule “polar”
–areas of “difference” HCl has polar bonds, thus is a polar
molecule.
–A molecule that has two poles is called dipole, like HCl
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Polar molecules The effect of polar bonds on the
polarity of the entire molecule depends on the molecule shape
–carbon dioxide has two polar bonds, and is linear = nonpolar molecule!
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Polar molecules The effect of polar bonds on the
polarity of the entire molecule depends on the molecule shape– water has two polar bonds and a bent
shape; the highly electronegative oxygen pulls the e- away from H = very polar!
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Polar moleculesWhen polar molecules are placed
between oppositely charged plates, they tend to become oriented with respect to the positive and negative plates.
Figure 8.24, page 239
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Attractions between molecules They are what make solid and liquid
molecular compounds possible. The weakest are called van der Waal’s
forces - there are two kinds:1. Dispersion forces
weakest of all, caused by motion of e-
increases as # e- increaseshalogens start as gases; bromine is liquid; iodine is solid – all in Group 7A
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2. Dipole interactions Occurs when polar molecules are
attracted to each other. 2. Dipole interaction happens in
water
–Figure 8.25, page 240
–positive region of one molecule attracts the negative region of another molecule.
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2. Dipole interactions Occur when polar molecules are
attracted to each other. Slightly stronger than dispersion forces. Opposites attract, but not completely
hooked like in ionic solids.
H F
H F
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2. Dipole Interactions
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3. Hydrogen bonding? …is the attractive force caused by
hydrogen bonded to N, O, F, or Cl N, O, F, and Cl are very
electronegative, so this is a very strong dipole.
The hydrogen partially share with the lone pair in the molecule next to it.
This is the strongest of the intermolecular forces.
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3. Hydrogen bonding defined: When a hydrogen atom is: a) covalently
bonded to a highly electronegative atom, AND b) is also weakly bonded to an unshared electron pair of a nearby highly electronegative atom.–The hydrogen is left very electron
deficient, thus it shares with something nearby
–Hydrogen is also the ONLY element with no shielding for its nucleus when involved in a covalent bond!
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Hydrogen Bonding
HH
O+ -
+
H HO+-
+
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Hydrogen bonding
HH
O H HO
HH
O
H
H
OH
HO
H
HO HH
O
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Attractions and properties Why are some chemicals gases,
some liquids, some solids?
–Depends on the type of bonding!
–Table 8.4, page 244 Network solids – solids in which
all the atoms are covalently bonded to each other
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Attractions and properties Figure 8.28, page 243 melts at very high temperatures, or
not at all
–Diamond does not really melt, but vaporizes to a gas at 3500 oC and beyond
–SiC, used in grinding, has a melting point of about 2700 oC
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Covalent Network CompoundsCovalent Network CompoundsSome covalently bonded substances DO NOT form discrete molecules.
Diamond, a network of covalently bonded carbon atoms
Graphite, a network of covalently bonded carbon atoms
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