Final Exam Dates: Seniors: 5 th
and 6 th
periods Wednesday, June 12
4 th
period Thursday, June 13
Non-Seniors: 3 rd period Wednesday, June 19
4 th
, 5 th
, and 6 th
periods Thursday June 20
Final exam grade is out of 100 points, but will be entered into the grade two times
Students should be able to:
From first semester:
--Write formula from names and names from formula for all ionic and molecular compounds
--Determine the type of intramolecular bonds present in compounds
Chapter 10
--Find Molecular mass of compounds
--Find percent mass of compounds
--Convert from and to grams, moles and atoms
--Find empirical formula
--Find Molecular formula
--Find empirical formula of hydrated compounds
--Name hydrated compounds
--Use experimental data to find empirical formula, charge on ions, identify unknown metals, and find percent of water in a hydrate
Chapter 9
--Write formula for any named compound, and correctly name any compound from given formula
--Write and balance a molecular equation
--Write and balance a complete ionic equation
--Write and balance a net ionic equation
--Identify common reaction types
--Predict the products of common reaction types
--Use an activity series to decide if single replacement reactions will occur
Chapter 11
--Identify a limiting and excess reactant
--Be able to calculate the amount of an excess reactant remaining after a reaction is complete
--Be able to convert from
Liters to grams and vice-versa using density
Liters to moles and vice-versa for a gas at STP or a solution of known concentration
# of particles to moles and vice-versa grams to moles and vice-versa
Moles of compound X to moles of compound Y
--Use percent yield equation to calculate theoretical yield, actual yield, or percent yield
--Use experimental data to calculate percent yield

Chapter 8
--Draw correct Lewis Dot structures for molecules
--Identify the electron geometry, the hybridization, and the molecular geometries of all central atoms in a molecule
--Draw a structural formula of a molecule show correct geometric orientation and labeling correct bond angles. Including molecules with several central atoms, and molecules with more than 8 elctrons on the central atom.
--Explain the difference between intermolecular and intramolecular bonds.
--Identify the intermolecular and the intramolecular bonds present in molecules.
--Sketch a representation of different types of intermolecular bonds
--Compare boiling points, melting points, vapor pressures, and heats of fusion and of vaporization based upon intermolecular bonding
--Predict solubility based on intermolecular bonding
Supplemental Practice problems…just do what you feel you need to be prepared. Up to 50 extra credit homework points. (Not a required assignment):
Pages 979-983:
Chapter 7: 1-5
Chapter 8: 1,2, 4-9
Chapter 9: 1-23
Chapter 10: 1-34
Chapter 11: 1-15