Title: Covalent Bonding
1Covalent Bonding
2- Sections 8.1, 8.2, 9.3, and 8.4
- Sections 6.1 16.1, 6.5 and 16.3
3Remember
- Ionic bonds form between
- An ionic bond happens when one atom and the
other atom
4Remember
- The definition of ionic bond is
- The chemical formula of an ionic compound
represents a
5Covalent Bonds
- The four sentences above represent four of the
most essential differences between covalent and
ionic compounds. - These differences are so important that
6Essay Question!
- Define ionic bond and covalent bond. Outline and
define, in detail, four major differences between
ionic compounds and molecular (covalent)
compounds.
7Molecular Compounds
- Formed by covalent bonds
- Ionic compounds are generally crystalline solids
at room temperature. - Molecular compounds (CO2 and water, for example,
have VERY different properties.)
8Molecular Compounds
- Molecular compounds are formed through covalent
bonds. - Covalent bonds are created when atoms SHARE
electrons, instead of gaining and losing them.
9Vocabulary
- Molecule group of atoms joined by covalent bonds
- Diatomic molecules molecules consisting of two
atoms - Molecular formula shows how many atoms of each
element a molecule contains
10Think About It
- Chlorine is a diatomic element, meaning that it
exists in its atomic state as two bonded atoms. - Draw two chlorine atoms.
- Is the bond between these two atoms ionic or
covalent? How do you know?
11Properties of Molecular Compounds
- Covalent bonds usually occur between
- Often are gases or liquids at room temperature
- Images will show atoms stuck to one another
12Properties of Molecular Compounds
- In general, melting and boiling points of
molecular compounds are lower than ionic compounds
13Molecular Formulas
- Molecular formula of a molecular compound shows
how many atoms of each element are in ONE
MOLECULE of the compound. - (Contrast this with the chemical formula of ionic
compounds, which show only the ratio of elements
in the compound.)
14Molecular Formulas
- Example
- IONIC Calcium chloride CaCl2
- Means that in the compound there are two chloride
ions for every one calcium ion - COVALENT Carbon dioxide CO2
- Means that each carbon dioxide molecule consists
of one carbon atom bonded to two oxygen atoms
15Molecular Compounds
- Molecular compounds can be significantly larger
than ionic compounds. - Benzoic Acid C7H6O2
- 2,4-Dichlorophenoxyacetic acid C8H6Cl2O3
16Molecular Compounds
- Formulas not always in lowest terms
- Example Ethane C2H6
- Formulas do not give molecules structure. (It
must be inferred.)
17Structural Diagrams
- Molecular Formula
- Structural Formula
- Ball-and-stick model
- Space Filling Model
- Perspective drawing
18Forming Covalent Bonds
19Octet Rule
- In covalent bonds, atoms share electrons so that
they fill their valence levels - Usually 8 (but only 2 for hydrogen)
20Single Covalent Bonds
- Atoms held together by sharing one pair of
electrons are said to form a SINGLE COVALENT BOND - Each atom donates one electron to the bond
21Single Covalent Bonds
Cl
Cl
Cl
Cl
22Single Covalent Bonds
Cl
Cl
Cl
Cl
23Single Covalent Bonds
Single Bond
Cl
Cl
Cl
Cl
Lone Pairs
24Covalent Bonds
- Electrons that do not take part in the bond are
called lone pairs or unshared pairs
25Covalent Bonds
There are exceptions!
- Different elements can form different numbers of
bonds - Group 7A elements need one more electron, and can
form one bond - Group 6A elements need two more electrons and can
form two bonds - Group 5A three bonds
- Group 4A four bonds
Hydrogen, too!
26Working With Covalent Bonds
- Draw the electron dot structures.
- Determine arrangement.
- Replace shared pairs of electrons with a line.
(Leave lone pairs.)
27Draw Structural Formulas
28Draw Structural Formulas
29Draw Structural Formulas
Usually, the atom that can form MORE bonds will
be in the center of the molecule!
30Draw Structural Formulas, Part 2
Usually, the atom that can form MORE bonds will
be in the center of the molecule!
31Double and Triple Bonds
32Double Covalent Bonds
- Atoms attain noble gas configuration by sharing
two pairs of electrons (four) - Bond length is shorter
33Double Covalent Bonds
- Oxygen has 6 valence electrons
- O (Group 6A) can form two bonds
O
O
34Double Covalent Bonds
- Oxygen has 6 valence electrons
- O (Group 6A) can form two bonds
O
O
35Double Covalent Bonds
- OCTET RULE NOT FULFILLED!
O
O
36Double Covalent Bonds
- OCTET RULE NOT FULFILLED!
O
O
37Double Covalent Bonds
O
O
38Other molecules with double covalent bonds are
- CO2
- Ethene, C2H4
- Carbonyl, COH2
39Double Covalent Bonds
- When counting number of valence electrons, double
bonds count as 4 shared electrons. - Hydrogen will not form double covalent bonds why?
40Triple Covalent Bonds
- Atoms attain noble gas configuration by sharing
three pairs of electrons (six) - Bond length is even shorter
41Triple Covalent Bonds
- Nitrogen has 5 valence electrons
- N (Group 5A) can form three bonds
N
N
42Triple Covalent Bonds
- Nitrogen has 5 valence electrons
- N (Group 5A) can form three bonds
N
N
43Triple Covalent Bonds
- OCTET RULE NOT FULFILLED!
N
N
44Triple Covalent Bonds
- OCTET RULE NOT FULFILLED!
N
N
45Triple Covalent Bonds
- OCTET RULE NOT FULFILLED!
N
N
46Triple Covalent Bonds
- OCTET RULE NOT FULFILLED!
N
N
47Triple Covalent Bonds
N
N
48Other molecules with triple covalent bonds are
- Acetylene, C2H2
- Hydrogen Cyanide, HCN
- Propyne, C3H4
49Triple Covalent Bonds
- When counting number of valence electrons, triple
bonds count as 6 shared electrons.
50Diatomic Elements
51Diatomic Elements
- Diatomic elements exist in their atomic forms as
binary molecular compounds, since covalent bonds
form between the atoms - i.e. a molecule of oxygen gas is O2, not O
52Diatomic Elements
53Exceptions To The Octet Rule
54Exceptions
- Compounds cannot satisfy the Octet Rule for all
atoms if the total number of valence electrons is
odd. - NO2 total number of valence electrons is 17
O
O
N
55More Exceptions
- Nonmetals in the third period and beyond can form
more than 4 bonds, since they have empty d
orbitals where they can promote or store
extra s or p electrons. - Ex. Phosphorus can form 5 bonds.
56Naming Binary Molecular Compounds
57Naming Molecular Compounds
- CO and CO2 are very different compounds
- How can we distinguish them in their names?
58Naming Molecular Compounds
- Confirm that the compound is molecular, not
ionic. - Name the elements in the order listed in the
formula. - Add prefixes to identify the numbers of each atom
in the compound.
59Prefixes Used
Mono- 1
Di- 2
Tri- 3
Tetra- 4
Penta- 5
Hexa- 6
Hepta- 7
Octa- 8
Nona- 9
Deca- 10
60Naming Molecular Compounds
- Omit the prefix mono- on the first element in
the name. - Add -ide as a suffix at the end of the second
elements name.
61Examples
- N2O
- Nitrogen oxygen
- Dinitrogen monoxygen
- DINITROGEN MONOXIDE
62Practice Write the Molecular Formula
- Nitrogen trichloride
- Carbon tetrabromide
- Diphosphorus trisulfide
63Practice Write the Name
64Polar Bonds and Molecules
65Electronegativity
- A measure of how well an atom attracts electrons
- Measured in Paulings
- In a molecule, some atoms more forcefully attract
electrons than others
66Electronegativity
- Decreases from top to bottom
- Increases from left to right
67Polar Bonds
- Polar bond covalent bond in which electrons are
shared UNEQUALLY - Difference in electronegativity values controls
whether bond is nonpolar, polar, or ionic
68Polar Bonds
- Differences
- 0.0-0.6 ? nonpolar covalent
- 0.7-1.7 ? polar covalent
- 1.8 ? ionic
69(No Transcript)
70Polar Bonds
- Greek letter Delta (d) represents the partial
charge acquired by atoms in a polar bond - H2O
- HF
- CO2
71Intermolecular Attractions
- Polar molecules attracted to one another (called
dipole interactions) - Hydrogen bonds are attractions that occur between
hydrogen and unshared electrons on another
molecule
72Test Review
73Test Review
- Covalent bonds definitions
- Molecular vs. ionic compounds
- Writing structural formulas
- Writing molecular formulas (from name or from
structure) - Writing compound names
- Information on Polar Bonds