Sections 3, 4, 5, 6 (to page 459)
types of intermolecular attractive forces;
ion-dipole, dispersion, dipole-dipole and hydrogen bonding forces;
polarizability;
surface tension, capillarity,viscosity, and the unique properties of water;
types of solid;
molecular/atomic, ionic, metallic and extended covalent;
calculations using unit cell type, atomic radius, edge length, and density;
cubic structures and cubic unit cells;
simple cubic, body-centered cubic and face-centered cubic unit cells;
do not do/use Sample Problem 12.4 on page 452. This problem takes a different approach to using density, atomic radius and cell type to do calculations. That is not the approach we used in class. Checkout PS4 problems to see the approach we have discussed.
Sections 1 - 5 (you do not have to do any calculations with osmotic pressure)
attractive forces in solutions and solubility;
solution process, energy changes in terms of enthalpy, entropy and free energy;
expressing concentration in terms of weight percent, mol fraction, molarity and molality;
colligative properties
vapor pressure lowering, freezing point depression, boiling point elevationand osmotice pressure
Sections 1 - 3
predicting spontaneous change based on your chemical experience;
predicting the sign of S for a chemical reaction/change;understanding the concept of dissorder as it relates to physical state, temperature, solutions and molecular complexity;
relating Gorxn to spontaneity of a chemical reaction;
calculating Gorxn for a chemical reaction using Gorxn = Horxn +T Sorxn;
Alkenes, alkynes, alcohol, carboxylic acid, amines
Sections 1 - 3
predicting spontaneous change based on your chemical experience;
calculating Horxn for a chemical reaction;
predicting the sign of S for a chemical reaction/change;understanding the concept of dissorder as it relates to physical state, temperature, solutions and molecular complexity;
the relationship between Suniverse and spontaneity;
calculating Sorxn for a chemical reaction;
relating Gorxn to spontaneity of a chemical reaction;
calculating Gorxn for a chemical reaction;
Combustion reactions
Double replacement (precipitation reactions)
Neutralization reactions
Formation reactions
Reactions we covered in class
Reactions from laboratory
Reactions from our Problem Sets
Sections 1 and 2
knowledge of the physical states and phase changes;
enthalpy, entropy and free energy of phase changes;
heat of vaporization, heat of fusion, specific heat as they are used to calculate heat absorbed or released in a heating curve or a cooling curve;
measuring vapor pressure
vapor pressure, phase equilibrium, determination of phase or phases that exist at a given pressure of a vapor;
temperature dependence of vapor pressure - the Clausius-Clapeyron equation.
Page 605 - 615, 629
alkane nomenclature and structural isomerism;
physical properties, Lewis structures;
haloalkanes;
Sample Problem 15.2 parts a and b
Alkanes