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Ch 1: Matter, Measurement, & Problem Solving, Ch 2: Atomic Theory & Periodic Table,Ch 3: Nomenclature (Sec 3.1-3.7 & 3.12)
Math in Chem Review (Appendix 1-4)
Dimensional Analysis RefresherDry Ice Lab
Crash course in Lab Safety Lab Equipment Review #2 ID of an Unknown substance lab How to determine mp? (video) How to determine bp (video)Complete book readings and understand appropriate terminology.
Complete problems using significant figures and units appropriately.
Complete problems on Temperature and Density.
Understand and use a flowchart regarding the classification of matter.
Know names and functions of lab apparatus (Minimum test score required).
Understand and use appropriate lab procedures (Minimum test score required).
Understand chemical terminology and safety measures (Test Score).
Understand and explain the basic history of Atomic Theory.
Be comfortable with the Periodic Table.
Use symbols and formulas to describe elements and compounds.
Use nomenclature appropriately in describing elements and compounds.
Ch 3 (p.101-Hydrates), Sec 3.8-3.11, & Ch 4: Sec 1-4 (p.139-157)
% composition (p.71),empirical formula (p.87-89), molecular formula (p.95),balanced equations (p.103-105), & organic vs. inorganic (p.113, 117)
The Mole Road A Guide to Solving Mole Problemsunderstand the relationship between moles, mass, and number of particles.
calculate percent composition from chemical formulas and vice-versa.
write and balance chemical equations
Ch4 Sec 5-9
Read Ch. 4 Sec 5-9 (starts on p.158)
Ch4 ppt NMSI Chemical Reactions and Solution Stoichiometry Notes Quick Look- Types of Reactions Table Study Cards for Chemical ReactionsDefine an electrolyte
Calculate ion concentrations in solution
Explain and ID the difference between strong & weak acids and bases
Predict whether ppt formation using solubility rules.
Define polyprotic acids and give an example
Predict and write all types of equations for the four reactions:ppt, acid/base, redox, nuclear
Apply the rules of assigning oxidation numbers, predict, and balance redox reactions
Verify expectations of reactions given quantities of reactants.
Determine whether certain types of reactions will occur.
3 Laws of Thermodynamics, Enthalpy, Entropy & Free Energy
Ch 6 & Ch 18
Read Ch 6 (Enthalpy), Ch 9(p.411-416- Bond E), & 18 (Entropy, Gibbs Free Energy, & Spontaneity)
Thermochemistry notes #1 Thermochemistry Notes #2 NMSI: ThermochemistryThermochem (Ch 6 & Ch 18)through mastering chemistry
Thermochem and Ksp Modules (35_36) Thermochemistry Study CardsEnthalpy of Chem Reaction (A/B) Lab (emailed or shared on Google Docs)
understand enthalpy in terms of exothermic and endothermic reactions
calculate changes in enthalpy of a system using calorimetry
use Hess' Law to predict the change in enthalpy of a step-wise reaction
use standard enthalpies of formation to predict changes in enthalpy
list and define the meanings and common units for the common thermodynamic symbols.
distinguish between a state function and a path function.
define internal energy, PV work, enthalpy, entropy, and free energy.
use Hess' law to solve problems of energy, entropy, and free energy.
determine the spontaneity of a reaction.
discuss the laws of thermodynamics (in order).>understand the relationship between free energy change and equilibrium constants.
Balancing Redox reactions, Voltaic vs. Electrolytic Cells, Practical Uses
Ch 4(sec9) & Ch 19
Read REDOX -P. 177-183 & ELECTROCHEM -Ch. 20
Electrochemistry Notes NMSI Electrochem notes REDOX Hints for Equations Electrolysis ExamplesSet1: Ch19 Q54,55,57,61,63 (p. 932)
Set2: Ch19 Q73,77A&B,80,87,89,95,107, 65A,67A (p.934-935)
Lemon and Tomato Battery Lab
Alchemy Lab
Electrochemistry Test
use the half-reaction method to balance redox equation.
define electrochemical terms: redox, anode, anion, cathode, cation, oxidizing agent, reducing agent, emf, electrode, etc.
distinguish between an electrolytic cell and a voltaic cell
solve problems using Faraday’s law
predict reaction products for both electrolytic and voltaic cells
discuss the importance of and draw a diagram of a standard hydrogen electrode
use a table of Standard Reduction Potentials to compute cell voltage.
solve problems using the Nernst equation
diagram voltaic cells using proper notation
describe the relationship between the free energy change, the cell potential, and the equilibrium constant
discuss and give examples of primary cells, secondary cells, and fuel cells
Big Idea 2: 1-1/2 wks & over Thanksgiving
Gas Laws and their Behavior
Ch 5 (starts p.197)
Review Questions in text (p.239)
Bell Jar & Vacuum Pump Investigations
Exp3 mini-vaccums lab Exploring Gas Laws virtual lab Molecular Mass of Carbon Dioxide lab Virtual Lab: Ideal Gas Law Labwork gas law problems in a variety of ways.
do Gas Stoichiometry by dry collection and water displacement.
explain gas behaviour using KMT.
Understand the relationship between gas behaviour and particle mass.
apply principles of gas behaviour to atmospheric issues.
Solutions, Solution solubility, Expressing concentration, & Colligative Properties
Ch 13 (p.570-614)
Ch 13 (starts on p.570)
Solutions;Colloid Notes Read about colligative properties Solutions: What are colligative properties & how do I work out problems?Solutions Assessment
calculate and use various methods of expressing concentration.
explain some substances are soluble in others and why some are not.
explain the relationship between solubility and outside factors.
predict properties of solutions given concentrations and vice-versa.
explain how solution properties are colligative properties.
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