1. How many valence electrons do atoms want to obtain?
Bell Ringer
How many valence electrons do atoms want to obtain?

2. Chemical Bonding
A bond is the electrostatic force of attraction between two particles (atoms, ions or molecules)

3. They are formed/broken during Chemical Reactions
Why/How Bonds Formed?
They are formed/broken during Chemical Reactions
Formed = release energy
Broken = absorb energy

4. Valence Electrons - want to achieve happiness
Why form a bond?
Valence Electrons - want to achieve happiness
“Octet Rule” - want a full valence shell = HAPPY!

5. Ionic Covalent Metallic Atoms Involved - metal and nonmetal
Types of Bonds
Atoms Involved
Ionic
Covalent
Metallic
- metal and nonmetal
- nonmetal + nonmetal
- metal + metal

6. Naming Compounds
                                    
Jump Jump

7. H+1 + O-2  H2O Find the correct formula for a compound!!
Kriss-Kross will
make you...
Find the correct formula for a compound!!
Use the oxidation #’s
Put the positive one first
H O-2
 H2O

8. +2 -1  CaBr2 Ca + Br +2 -2 +2 -1 Mg + (OH)  Mg(OH)2 Sr + O  Sr2O2
Criss-Cross practice
 CaBr2
Ca Br
Mg + (OH)
 Mg(OH)2
 Sr2O2
 SrO
Sr O

9. +1 -2  Na2Se Na + Se +3 -3 +3 -1  Fe(HCO3)3 Al + PO4  Al(PO4)
Criss-Cross practice
 Na2Se
Na Se
 Fe(HCO3)3
Fe (III) + (HCO3)
Al PO4
 Al(PO4)
 Al3(PO4)3

10. Naming Ionic Compounds
Remember: A bond between a metal and a non-metal atom
The metal keeps its name, and the non-metal ends in -ide
KBr 
CaCl2 
Potassium Bromide
Calcium Chloride

11. Wings – Bonding Video

12. What are the formulas for the compounds between:
Bell Ringer
What are the formulas for the compounds between:
Oxygen and Phosphorus
Iodine and Barium

13. Speed
Bonding

14. HON – 17 H2 N2 O2 F2 Cl2 Br2 I2 Diatomic Molecules
Diatomic Molecules 3
HON – 17
As pure elements, these seven elements form molecules containing two atoms H2 N2 O2 F2
Cl2
Br2 I2

15. HON – 17 Diatomic Molecules
Diatomic Molecules 3
HON – 17
As pure elements, these seven elements form molecules containing two atoms
Transition Elements

16. Free atoms have more energy than bonded atoms
Bonding
Atoms combine to form compounds
By bonding atoms together, their properties change
I. Bonding
H2O O2 H2
A.Chemical Bond
This is the attractive force between atoms or ions
Results from the rearrangement of valence electrons
B. Energy Changes
As a chemical bond forms, atoms are brought to a lower energy state
 Exothermic
Free atoms have more energy than bonded atoms

17. Making Bonds Exothermic Breaking Bonds Endothermic Bonding Free atoms
Potential
Energy H H
Energy
Energy H H
Bonded atoms H2 H2
Making Bonds
Exothermic
Breaking Bonds
Endothermic
Chemical Energy
Energy released as a bond is formed
Energy used to break chemical bonds
Chemical energy is considered potential (stored) energy.

18. energy energy Strong Bond C. Stability
Two atoms drop to lower energy states when they bond.
They are now more stable
More energy released during bond formation, more stable the bond
More energy released during bond formation
Stronger Bond
Need more energy to break these bonds apart
energy
energy
Releases lots of energy
energy
Releases little energy.
energy
To break it, add lots
of energy
To break it, add little
energy
Weak Bond
Strong Bond

19. Bonding Bonds between Atoms
As we said before, atoms can bond together by moving their valence electrons around
Actually, atoms can either lose, gain or share electrons. This gives us several types of bonds e- e- e- e- e-
Bonds between Atoms - +
Ionic Bond
Atoms transfer electrons
Creates ions
Forming ions
An ion is formed when atoms lose or gain electrons
Ion =
Charged atom due to a loss or gain of electrons

20. Naming Ionic Compounds
Binary Ionic Compounds
- change the end of the non-metal to -ide
MgI2 
Magnesium Iodide
K2O 
Potassium Oxide
CoBr2 
Cobalt (II) Bromide
CoBr3 
Cobalt (III) Bromide

21. Naming Ionic Compounds
When you have more than two elements, refer to Ref. Table E.
NaOH 
Sodium Hydroxide
(NH4)(NO2)
Ammonium Nitrite
KMnO4 
Potassium Permanganate
Ni2(CrO4)3 
Nickel (II) chromate

22. Bell Ringer
What would the oxidation number be for Iron in the following compounds:
Fe2O3
FeS

23. What bond type?
You must look at the types of atoms and their electronegativity differences.
Ionic -
bond between a metal and a non-metal
Electronegativity difference should be = to or > than 2.0
This means that one atom can pull an e- from another atom
Big Dog vs Little Dog
Results in the formation of ions
Mn + F 
1.6 -
4.0
= 2.4
K + O 
0.8 -
3.4
= 2.6

24. = What bond type? Higher ionic character Metal + nonmetal Ionic bond
Further apart on the Periodic table
Greater difference in electronegativity =
Higher ionic character
Higher ionic character
High ionic character

25. Writing Formulas Lab

26. What are the formulas for the following compounds: Sodium thiocyanate
Bell Ringer
What are the formulas for the following compounds:
Sodium thiocyanate
Ammonium oxide

27. Compound Naming Race

28. Writing Formulas Lab

29. What type of bonds are in the following compounds?
Bell Ringer
What type of bonds are in the following compounds?
Calcium Bromide
Sulfur Oxide

30. What bond type?
You must look at the types of atoms and their electronegativity differences.
Covalent -
bond between two non-metals
Electronegativity difference should be less than 2.0
This means that one atom is not able to pull an e- away
Two of the same sized dogs
DOES NOT FORM IONS!!! C + Cl 
2.6 -
3.2
= 0.6 
2.7 -
2.7
= 0.0 I + I

31. What bond type? Covalent - bond between two non-metals Specific Types
Polar Covalent
- the unequal sharing of e-
Electronegativity differences of 0.5 – 1.9 -
Fe2O3 
1.8
3.4
= 1.6
Results in partial charges on the atom
Non-Polar Covalent
- the equal sharing of e-
Electronegativity differences of 0.0 – 0.4
Usually only in diatomic molecules O2 
3.4 -
3.4
= 0.0

32. What bond type? Nonmetal + nonmetal Covalent bond
Small difference in electronegativity
Ternary substance
- compound containing polyatomic ion
Polyatomic ion is covalently bonded together
Bond between polyatomic ion and atom is ionic
MgSO4
Results in a compound having both IONIC and COVALENT bonds
covalent
Ionic

33. = sea of electrons What bond type? Alloy - Metal + Metal Metallic bond
Electrons are free to move all over, not bound to one nucleus
Alloy -
Different metal atoms mixed together
Brass –
copper and zinc
Bronze –
copper and tin
Gold –
Gold, silver, copper

34. Lewis Structures of Ions
and Ionic Compounds
Ionic compounds can also be drawn as Lewis structures.
Positive ion  Cation
Since all the valence electrons are removed, no valence electrons are shown. +
The charge is written above Na
Negative ion  Anion
The added valence electrons indicate a full valence shell. - Cl
Brackets are added and the charge is written on the outside

35. Ionic compounds
Write the positive ion next to the negative ion, and include their charges Cl - Na +

36. H2O H H O O H H Covalent compounds
First write element symbols and then draw their valance electrons.
H2O H H O
Now move the atoms to pair up any unpaired electrons O H H

37. Electron Dots in Compounds:
Give the formula and dot diagram for the compound formed from the following compound:
CO2
EN difference ?

38. Fluorine and Magnesium
Electron Dots in Compounds:
Give the formula and dot diagram for the compound formed from the following elements:
Fluorine and Magnesium
EN difference ?

39. Electron Dots in Compounds:
Give the formula and dot diagram for the compound formed from the following elements:
Strontium and Bromine
EN difference ?

40. Electron Dots in Compounds:
Give the formula and dot diagram for the compound formed from the following elements:
NH3
EN difference ?

41. Sodium hydroxide Electron Dots in Compounds:
Give the dot diagram for the compound:
Sodium hydroxide

42. Phosphorus and Chlorine
Bell Ringer
Give the formula and dot diagram for the compound formed from the following elements.
Phosphorus and Chlorine δ+ δ- Cl Cl Cl P Cl Cl Cl

43. Inter-state vs Intra-state

44. What are they? Hydrogen Bonding
The attractive force between the hydrogen attached to a highly electronegative atom of one molecule and a highly electronegative atom (N, O, F only) of a different molecule.
Only found in polar covalent compounds
Individually a very weak bond

45. Unique properties of water
Hydrogen Bonding
Unique properties of water
Very High M.P. and B.P.
Less dense as a solid
High Heat of Vaporization
Sweating, climate moderation
High Surface Tension
Fewer molecules to be attracted to therefore a stronger attraction

46. Hydrogen bonding is the strongest of the intermolecular bonds
Hydrogen bonding is the strongest of the intermolecular bonds!!!! (click for video)

47. Bubble Lab

48. Strontium and Iodine Sr I I Bell Ringer
Give the formula and dot diagram for the compound formed from the following elements:
Strontium and Iodine -1 +2 Sr I I

49. BUBBLES Hydrogen Bonding The Jesus lizard – the Basilisk lizard
scroll down to view movie

50. Naming Covalent Compounds
Rules are similar to ionic compounds, just need to add prefixes for the number of atoms
mono- 1 2 3 4 5 6 7 8 9 10
hexa-
di-
hepta-
tri-
octa-
tetra-
nona-
penta-
deca-

51. Naming Covalent Compounds
Try the following:
CO2
CCl4
Carbon dioxide
Carbon tetrachloride
Dinitrogen monoxide
Diphosphorus pentoxide
N2O
P2O5

52. Naming Covalent Molecules wkst 1

53. Physical Properties of CF4 and NH3 at STP
Bell Ringer
Physical Properties of CF4 and NH3 at STP
Compound
MP (ºC)
BP (ºC)
Solubility in 20ºC
CF4
-183.6
-127.8
Insoluble
NH3
-77.7
-33.3
Soluble
State evidence that indicates that NH3 has stronger intermolecular forces of attraction than CF4.
Draw the lewis dot diagram for CF4. Is it a polar or non-polar molecule

54. Molecular Polarity Molecules - are only covalently bonded
Polarity of molecules -
- completely dependent on the shape of the molecule
- molecules are only polar if they have polar covalent bonds
- if you can draw one straight line and all the (+) are on one side and all the (-) are on the other side, the molecule is polar
Dipole
Molecule which has a + side and a - side
A molecule is either polar or non-polar with respect to charge

55. Molecular Polarity Assigning + and - to atoms
The atom with the higher electronegativity gets the -
The atom with the lower electronegativity gets the +
Asymmetrical charge distribution
Negative(-) end and Positive(+) end
- results in the formation of a Polar molecule
Symmetrical charge distribution
Equal distribution of charge
- results in the formation of a Nonpolar molecule
Examples - N - + -
H--Cl
H H H
O == C== O
nonpolar
polar
polar

56. Molecular Polarity wkst

57. Explain, in terms of electrons, why the bonding in NaCl is ionic?
Bell Ringer
Explain, in terms of electrons, why the bonding in NaCl is ionic?

58. Name that Bond!

59. Like Dissolves Like Polar Molecules - Non-polar molecules -
Dissolve in polar solvents
Non-polar molecules -
Dissolve in non-polar solvents
Ionic substances -
Dissolve in polar solvents

60. Some terms to know... Dissociation - Electrolyte -
The process where ionic compounds split (separate) into their respective ions
Electrolyte -
A substance containing free ions that makes the substance electrically conductive

61. Bell Ringer
Draw the Dot Diagrams for the following compounds and determine if they are polar or non-polar, and name them:
H2O
CH4

62. You might have to share with another group to get 4.
Molecular Models Lab
Connectors
# Needed
Spheres
Sticks 6
Black 2
Red
Springs 4
Yellow
You might have to share with another group to get 4.
Green 1
Blue

63. III. VSEPR Class Shape Model Example AX Linear HCl AX2 CO2 AX3
Trigonal Planar
BH3
AX4
Tetrahedral
CH4
: AX3
Pyramidal
NH3 ..
:AX2
BENT
H2O

64. What are the names of the following compounds: CoI3 MgSO4
Bell Ringer
What are the names of the following compounds:
CoI3
MgSO4

65. When does something conduct electricity?
A substance will conduct electricity IF it has freely moving charged particles
Particles can be ions, electrons, etc. as long as they can move
Metal
Conducts electricity in solid or liquid form
Freely moving electrons allows the electricity to flow.
Ionic substance
Does NOT conduct in solid form
Ions are locked in place
Has charges, but not free moving
Liquid
When melted, can conduct electricity
Ions are mobile enough to move past each other + - - - + + - + - - + +

66. When does something conduct electricity?
Solution
In solution, ions separate
Dissociate
Ions are free to move, conducts electricity
Covalent
Solid
Doesn’t conduct electricity
No charged particles
Liquid
Doesn’t conduct electricity
No charged particles
Some types of covalent molecules can be broken down to make ions
Solution
Ionization
Conducts some electricity, because only a few of the molecules in the sample are broken down

67. Forces Between Molecules (IMF)’s
Used to determine a substances properties – only found in covalently bonded substances
Relatively weak compared to ionic, metallic, and even covalent bonds
Examples
Dispersion forces – for your college education
Dipole-Dipole forces – again something for college
Hydrogen bonding – we’ve done these
Molecule-ion attractions – we’ll look at these

68. Intermolecular Forces
Molecule-Ion Attractions – the attraction between the ions and molecules of water in a solution
A Good Animation

69. AKA – Molecular Substances
Bonds: Review
Ionic
Covalent
Hard
Good Conductors
Not as solids
High MP & BP
Dissolve in Polar Substances - water
AKA – Molecular Substances
Generally soft
Poor Conductors
No charged particles
Low MP & BP

70. + + H H H O H O H H + + H H H N H N H Specific Covalents
Coordinate Covalent Bond
- one atom donates BOTH electrons that are shared + + H
Hydronium ion H H O H O H H + + H H H N H
Ammonium ion N H

72. Intermolecular Forces
2. Dispersion Forces – weak IMF between non-polar molecules
- formation of temporary polarity
Bigger molecule = Stronger force
He, Ne Ar or Kr

73. Dissolving Video Molecular Forces
We know how atoms are held together as molecules
How are molecules held together when they are liquid and solids?
Dipole Interaction + -
O -- H
Polar bond
Has a + side and a - side + -
Look at the whole H2O molecule 
H O H
Dissolving Video +
We can divide this molecule into a + side and a - side
This is called a
POLAR molecule
Or a DIPOLE

74. Molecular Polarity handout

75. Lab Check in

76. Bonding Packet

77. Some Common Geometries See also polarity Note Sheet
Linear
Trigonal Planar
Tetrahedral
See also polarity Note Sheet

78. Structure Determination by VSEPR
Water, H2O
The electron pair geometry is TETRAHEDRAL
2 bond pairs
2 lone pairs
The molecular geometry is BENT.

79. Intermolecular Forces
Affect on Boiling Points
Stronger force = Higher Boiling Point

80. Bell Ringer
Give the name of a substance that can NOT conduct electricity in the solid phase but can as a liquid. Explain why.

82. Name the following compounds:
Bell Ringer
Name the following compounds:
PCl3
K2C2O4

83. Conductivity Lab

84. Covalent Compounds Covalent bonds are classified as single, double,
or triple bonds depending on the number of electrons shared between the two nuclei.

86. Intermolecular Forces
Intermolecular forces are attractive forces between molecules.
Intramolecular forces hold atoms together in a molecule.
Intermolecular vs Intramolecular
41 kJ to vaporize 1 mole of water (inter)
930 kJ to break all O-H bonds in 1 mole of water (intra)
“Measure” of intermolecular force
boiling point
melting point
DHvap
DHfus
DHsub
Generally, intermolecular forces are much weaker than intramolecular forces.
11.2

87. What are the names of the following compounds: KCH3COO BaCr2O7
Bell Ringer
What are the names of the following compounds:
KCH3COO
BaCr2O7

88. 11.2

89. Types of Intermolecular Forces
3. Dipole-Dipole Forces
Attractive forces between polar molecules
Orientation of Polar Molecules in a Solid
11.2

90. Covalent Bonds

91. FLORIDA STATE

92. Draw the electron dot diagram for the following :
Bell Ringer
Draw the electron dot diagram for the following :
Magnesium
Iodide ion

93. 1. Barium Sulfite 2. SrS 3. Cesium Selenide 4. KClO3
Quiz
1. Barium Sulfite
2. SrS
3. Cesium Selenide
4. KClO3
5. Calcium Sulfide

94. 6. BaCrO4 7. Strontium Fluoride 8. NaNO3 9. Cs(ClO2)
Quiz
6. BaCrO4
7. Strontium Fluoride
8. NaNO3
9. Cs(ClO2)
10. Magnesium Oxalate

95. What types of chemical bonds exist?
Bell Ringer
What types of chemical bonds exist?

96. 1. Barium Sulfate 2. CaO 3. Potassium Oxide 4. Na2CO3
Quiz
1. Barium Sulfate
2. CaO
3. Potassium Oxide
4. Na2CO3
5. Magnesium Oxide

97. 6. SrCrO4 7. Barium Chloride 8. NaNO3 9. MgSO4 10. Beryllium Sulfite
Quiz
6. SrCrO4
7. Barium Chloride
8. NaNO3
9. MgSO4
10. Beryllium Sulfite

98. Are you positive you lost the cat?
Sodium Atom
Chlorine Atom
+11
-11
-10
+17
-17
-18 +1
Total charge
Total charge -1
a negative ion
Atom is considered
a positive ion
neutral
Atom is considered
neutral
Called an Anion
Called a Cation
In an ionic bond, one electron from sodium is transferred to chlorine
Cation
Positive ion due to the loss of electrons
meow.
Anion
Negative ion due to the gain of electrons
Are you positive you lost the cat?

99. Examples - Determine the type of ion shown and explain how it was made from a neutral atom.
Ion Type of Ion How it was made K+
Ca+2
O-2
Br-
cation
Lost 1 electron
cation
Lost 2 electrons
anion
Gained 2 electrons
anion
Gained 1 electron

100. Draw the electron dot formula for neutral atoms of Na and F+ - Na F
All atoms want a full octet in their valence shell. This is a stable configuration.
When ionic bonding occurs,the one valence electron in Na is transferred to F 1 + 8
Notice how both atoms have a full octet? 2 Na
F has gained an electron to get a total of 8.
Na uses its full shell underneath as a full valence
The attraction between the + and - ion causes the bond
Review
Ionic bonds
1. Electrons are transferred
2. Ions are created Cation lost e-, anion gained e-
3. Very strong bond. Has high melting and boiling points, and a very rigid structure
4. Creates ionic substances

101. Hydrogen and helium do not need 8 electrons, only 2
Covalent Bonds
a. Electrons in bonds
- No transfer of electrons
- Electrons are shared between valence shell of atoms
- Weaker bonds than ionic
In covalent bonding, atoms get a full octet by sharing electrons between their valence shells
Special Case
Hydrogen and helium do not need 8 electrons, only 2
So the molecule H2 looks like H H
H H

102. Covalent Bonds The octet rule The shared electron pair
In covalent bonding, atoms still want to achieve a noble gas configuration
The octet rule
But rather than losing or gaining electrons, atoms now share an electron pair.
The shared electron pair
is called a bonding pair

103. Molecules Look at the parts of H2O O H H O H H H---O | H Not H--O--H
This indicates that H2O looks like
H---O | H
Not H--O--H
Or H--H--O
Review
In a covalent bond, electrons are shared between valence shells
There is NO transfer of electrons, so no ions are formed
Their bonds are weaker, have lower melting and boiling points
If atoms are covalently bonded, they make
Molecules