The document summarizes key concepts from Chemistry 107 Exam 3 including: - Definitions of ionic bonds, covalent bonds, hydrogen bonds, and electronegativity. Polar and nonpolar bonds are also explained. - Descriptions of London dispersion forces, dipole-dipole forces, and hydrogen bonding as types of intermolecular forces. Examples of substances and the intermolecular forces that must be overcome to convert them from liquid to gas are provided. - A reminder to memorize the VSEPR chart and examples of drawing Lewis structures for different compounds and determining their shapes. - Descriptions of the electron cloud for conductors, insulators, and semiconductors.

1. Chemistry 107 Exam 3
Charles Bergen, Eleanor Cockerell, and Kirsten
Smirl

2. Chemical Bonds
● Define an Ionic Bond:
○ a bond in which the one or more electrons are transferred from one species to another.
● Define a Covalent Bond:
○ attractive force resulting from the sharing of electrons between a pair of atoms.
● Hydrogen Bond
○ a hydrogen atom bonded to F, N, or O
○ Strongest bond
● Define Electronegativity:
○ The tendency of an atom in a molecule to attract the shared electrons in a covalent bond.
● Explain the difference between polar and nonpolar.

3. Chemical Bonding-Intermolecular Forces
•London Dispersion forces:
• attractive forces between molecules resulting from the interaction of induced
dipoles
•Dipole-Dipole forces:
• Attractive interaction between two polar molecules
•Hydrogen bonding:
•strong dipole-dipole interaction between a hydrogen atom bonded to F, N, or O and
a lone pair of electrons on another highly electronegative atoms such as F, N, and O

4. Examples
•What type of intermolecular forces must be overcome to convert each of the following from a
liquid to a gas?
•CO2
•NH3
•CHCl3
•CCl4

5. Chemical Bonding- Shapes of Molecules
Memorize the VSEPR Chart!

6. Lewis Structures
Draw the lewis structures for each of the given compounds.
Provide the shapes of each of the following.
NH3 PCl5 H2O H2SO4
● Exceptions to the octet rule
○ Any element of and beyond the 3 period meaning in the 3rd row or below
on the periodic table of elements are able to have more than 8 electrons
in the valence shell
■ Ex. Phosphorus and Sulfur are the usual suspects to be found on
exams

7. Semiconductors
● What is the electron cloud?
● What does the electron cloud look like for:
○ Conductors
○ Insulators
○ Semiconductors

8. First Law of Thermodynamics
● Conservation of Energy
● Energy is not created or destroyed - only transformed

9. Is this too hard? I don’t think so
A pure gold ring and pure silver ring have a total mass of 17.0 g. The two rings are
heated to 65.4 °C and dropped into 12.4 mL of water at 22.3 °C. When equilibrium
is reached, the temperature of the water is 24.7 °C. What is the mass of the gold
ring?
Solution:
1) Set up the following equation:
(mass gold) (Δt gold) (Cp gold) + (mass silver) (Δt silver) (Cp silver) = (mass water) (Δt water) (Cp water)
2) Insert appropriate values:
(x) (40.7 °C) (0.129 J g-1 °C-1) + (17.0 g - x) (40.7 °C) (0.237 J g-1 °C-1) = (12.4 g) (2.4 °C) (4.184 J g-1 °C-1)
x = 8.98 g

10. Second Law of Thermodynamics
● Entropy never decreases in a natural setting
Which substance has the higher entropy?
a. Dry ice (solid CO2) at -78 degrees Celsius or CO2 (g) at 0 degrees
Celsius
b. Liquid water at 25 degrees Celsius or liquid water at 50 degrees Celsius
c. One mole of N2 (g) at 1 bar pressure or one mole of N2 (g) at 10 bar
pressure (both at 298K)

11. Exothermic vs Endothermic
● What is Exothermic?
○ It is the loss of energy or energy is leaving the system.
Ex. A campfire heating up marshmallows. The fire is exothermic as its
losing energy in the form of fire.
● What is Endothermic?
○ It is the gain of energy or energy is entering the system
Ex. The marshmallow being heated up by the campfire. The
marshmallow is gaining energy in the form of heat from the campfire