Upload
donald-doyle
View
217
Download
0
Embed Size (px)
Citation preview
Section 12.1
Characteristics of Chemical Bonds
1. To learn about ionic and covalent bonds and explain how they are formed
2. To learn about the polar covalent bond
3. To understand the nature of bonds and their relationship to electronegativity
4. To understand bond polarity and how it is related to molecular polarity
Objectives
Section 12.1
Characteristics of Chemical Bonds
A. Types of Chemical Bonds
• Bond – force that holds groups of atoms together and makes them function as a unit
• Bond energy – energy required to break a chemical bond
Section 12.1
Characteristics of Chemical Bonds
A. Types of Chemical Bonds
• Ionic compound results when a metal reacts with a nonmetal
Ionic Bonding
(a) (b)
Section 12.1
Characteristics of Chemical Bonds
A. Types of Chemical Bonds
• A covalent bond results when electrons are shared by nuclei
Covalent Bonding
Section 12.1
Characteristics of Chemical Bonds
A. Types of Chemical Bonds
• A polar covalent bond results when electrons are shared unequally by nuclei
Covalent Bonding
– One atom attracts the electrons more than the other atom
Section 12.1
Characteristics of Chemical Bonds
B. Electronegativity
• Electronegativity – the relative ability of an atom in a molecule to attract shared electrons to itself – Increases from left to right across a period – Decreases down a group of representative elements
Section 12.1
Characteristics of Chemical Bonds
B. Electronegativity
• The polarity of a bond depends on the difference between the electronegativity values of the atoms forming the bond
Section 12.1
Characteristics of Chemical Bonds
B. Electronegativity
Section 12.1
Characteristics of Chemical Bonds
C. Bond Polarity and Dipole Moments
• A dipole moment results when a polar molecule has a center for positive charge separate from a center for negative charge
Section 12.1
Characteristics of Chemical Bonds
C. Bond Polarity and Dipole Moments
• Water molecule dipole moment
Section 12.1
Characteristics of Chemical Bonds
C. Bond Polarity and Dipole Moments
• The polarity of water affects its properties
– Causes water to remain liquid at higher temperature
– Permits ionic compounds to dissolve in it
Section 12.2
Characteristics of Ions and Ionic Compounds
1. To learn about stable electron configurations
2. To learn to predict the formulas of ionic compounds
3. To learn about the structures of ionic compounds
4. To understand factors governing ionic size
Objectives
Section 12.2
Characteristics of Ions and Ionic Compounds
A. Stable Electron Configurations and Charges on Ions
Section 12.2
Characteristics of Ions and Ionic Compounds
A. Stable Electron Configurations and Charges on Ions
Section 12.2
Characteristics of Ions and Ionic Compounds
A. Stable Electron Configurations and Charges on Ions
• Atoms in stable compounds usually have a noble gas electron configuration
– Metals lose electrons to reach noble gas configuration – Nonmetals gain electrons to reach noble gas
configuration
Section 12.2
Characteristics of Ions and Ionic Compounds
A. Stable Electron Configurations and Charges on Ions
• Chemical compounds are always electrically neutral
Predicting Formulas of Ionic compounds
Section 12.2
Characteristics of Ions and Ionic Compounds
B. Ionic bonding and Structures of Ionic Compounds
• Ions are packed together to maximize the attractions between ions
Structures of Ionic Compounds
Section 12.2
Characteristics of Ions and Ionic Compounds
B. Ionic bonding and Structures of Ionic Compounds
• Cations are always smaller than the parent atom
Structures of Ionic Compounds
• Anions are always larger than the parent atom
Section 12.2
Characteristics of Ions and Ionic Compounds
B. Ionic bonding and Structures of Ionic Compounds
• Polyatomic ions work in the same way as simple ions– The covalent bonds hold the polyatomic ion together so it
behaves as a unit
Ionic Compounds Containing Polyatomic Ions
Section 12.3
Lewis Structures
1. To learn to write Lewis structures
2. To learn to write Lewis structures for molecules with multiple bonds
Objectives
Section 12.3
Lewis Structures
A. Writing Lewis Structures
• In writing Lewis structures we include only the valence electrons
• Most important requirement– Atoms achieve noble gas electron configuration (octet
rule, duet rule)
Section 12.3
Lewis Structures
A. Writing Lewis Structures
• Bonding pairs are shared between 2 atoms
• Unshared pairs (lone pairs) are not shared and not involved in bonding
Section 12.3
Lewis Structures
A. Writing Lewis Structures
Section 12.3
Lewis Structures
B. Lewis Structures of Molecules with Multiple Bonds
• Single bond – covalent bond in which 1 pair of electrons is shared by 2 atoms
• Double bond – covalent bond in which 2 pairs of electrons are shared by 2 atoms
• Triple bond – covalent bond in which 3 pairs of electrons are shared by 2 atoms
Section 12.3
Lewis Structures
B. Lewis Structures of Molecules with Multiple Bonds
– A molecule shows resonance when more than one Lewis structure can be drawn for the molecule
Section 12.3
Lewis Structures
B. Lewis Structures of Molecules with Multiple Bonds
– Boron – incomplete octet
Some Exceptions to the Octet Rule
– Molecules containing odd numbers of electrons – NO and NO2
Section 12.4
Structure of Molecules
1. To understand molecular structure and bond angles
2. To learn to predict molecular geometry from the number of electron pairs
3. To learn to apply the VSEPR model to molecules with double bonds
Objectives
Section 12.4
Structure of Molecules
A. Molecular Structure
• Three dimensional arrangement of the atoms in a molecule – Water - bent
Section 12.4
Structure of Molecules
A. Molecular Structure
• Linear structure – atoms in a line
– Carbon dioxide
Section 12.4
Structure of Molecules
A. Molecular Structure
• Trigonal planar – atoms in a triangle
– BF3
Section 12.4
Structure of Molecules
A. Molecular Structure
• Tetrahedral structure
– methane
Section 12.4
Structure of Molecules
B. The VSEPR Model
• Valence shell electron pair repulsion (VSEPR) model – Molecular structure is determined by minimizing
repulsions between electron pairs
Section 12.4
Structure of Molecules
B. The VSEPR Model
– 180o - linear
Two Pairs of Electrons
• BeCl2
Section 12.4
Structure of Molecules
B. The VSEPR Model
– 120o – trigonal planar
Three Pairs of Electrons
• BF3
Section 12.4
Structure of Molecules
B. The VSEPR Model
– 120o – tetrahedral
Four Pairs of Electrons
• CH4
Section 12.4
Structure of Molecules
B. The VSEPR Model
Section 12.4
Structure of Molecules
B. The VSEPR Model
Section 12.4
Structure of Molecules
C. Molecules with Double Bonds
When using VSEPR model to predict molecular geometry of a molecule
• a double bond is counted the same as a single electron pair