FINAL EXAM STUDY GUIDE
| Topic |
Text Reference |
| CHAPTER 9 |
| - Know characteristics of electromagnetic waves, and the relationship of wavelength and frequency |
| - Know the order of electromagnetic radiation in the spectrum (Fig. 9.4) |
| - Know the Bohr model of the atom and the formation of atomic spectra |
| - Know the s, p, d, and f sublevels and the number and location of each |
| - Write complete electron configuration for any atom in the first 3 periods |
| - Draw orbital diagrams for atoms and determine the number of unpaired electrons |
| - Use the periodic table and write abbreviated electron configuration for any atom in the first 6 periods |
| - Understand the relationship of period and group numbers to the valence electrons in an atom |
| - Identify the location of orbitals on the periodic table |
|
| 9.2 |
| 9.3 |
| 9.4 |
| 9.6 |
| 9.6 |
| 9.6 |
| 9.6 |
| 9.7 |
| 9.7 |
|
| CHAPTER 10 |
| - Write Lewis structures for main-group elements or ions |
| - Write Lewis structures for ionic compounds |
| - Use Lewis model to predict formula for an ionic compound |
| - Write Lewis structures for covalent molecules |
| - Write Lewis structures for polyatomic ions |
| - Write resonance structures for molecules that have more than one Lewis structure |
| - Predict electron geometry and molecular geometry of molecules using VSEPR model |
| - Know the concept of electronegativity and its relationship to bond polarity |
| - Rank polarity of bonds based on the difference in electronegativities of the atoms |
| - Draw vector diagrams showing dipole moment in a bond |
| - Classify bonds as ionic, non-polar covalent, and polar covalent |
| - Predict polarity of molecules based on their shapes and polarity of their bonds |
|
| 10.2 |
| 10.3 |
| 10.3 |
| 10.4, 10.5 |
| 10.5 |
| 10.6 |
| 10.7 |
| 10.8 |
| 10.8 |
| 10.8 |
| 10.8 |
| 10.8 |
|
| CHAPTER 11 |
| - Know the factors affecting the behavior of gases |
| - Know the postulates of the Kinetic Molecular Theory |
| - Know the methods and instruments for measurement of pressure |
| - Convert between different units of pressure |
| - Use Boyle's Law to solve for pressure or volume of a gas from given data |
| - Use Charles's Law to solve for volume or temperature of a gas from given data |
| - Determine volume, temp., or pressure of a gas using the Combined Gas Law |
|
| Notes |
| 11.2 |
| 11.3 |
| 11.3 |
| 11.4 |
| 11.5 |
| 11.6 |
|
| Topic |
Text Reference |
| CHAPTER 11 (cont'd) |
|
| - Use Avogadro's Law to solve problems based on volume and moles of a gas |
11.7 |
| - Use the Ideal Gas Law to determine pressure or volume of a gas |
11.8 |
| - Determine molar mass of a gas using Ideal Gas Law and its mass |
11.8 |
| - Use Dalton's Law to calculate total pressure of a gas mixture from the partial pressures |
11.9 |
| - Determine partial pressure of a gas mixture from its total pressure and composition |
11.9 |
| - Determine properties of a gas under STP conditions |
11.10 |
| - Use molar volume of a gas at STP as a conversion factor to solve problems |
11.10 |
| CHAPTER 13 |
|
| - Calculate molarity of a solution based on given data |
13.6 |
| - Use molarity as a conversion factor to solve for volume of solution or amount of solute |
13.6 |
| - Calculate concentration of ions in solution based on molarity of solution and number of ions/formula unit |
13.6 |
| - Solve dilution problems from given data |
13.7 |
| - Solve stoichiometry problems involving solutions from volume and concentration data |
13.8 |
| - Solve titration problems involving acids and bases to determine concentration of |
13.9 |
SUMMARY OF EQUATIONS
The equations listed below will be provided for your use on the test.