Month Content/Essential Questions Skills/Activities Resources Assessments Assessment Anchors and Eligible Content September Significant figures Atoms, molecules, and ions basic atomic structure isotopes monatomic ions polyatomic ions chemical formulas of elements, ionic compounds, molecular compounds the mole, molar mass stoichiometry represent the structure of atoms and isotopes memorize common monatomic ion and formulas memorize common polyatomic ion and formulas write the and chemical formulas of common elements, molecular compounds and ionic compounds convert between grams and moles of chemical substances calculate quantities of chemical substances and undergo or are produced by chemical reaction ph probes lap reports Chem.A.1.1.1 Chem.A.1.1.5 Chem.A.1.1.2 Chem.A.1.1.4 Chem.A.1.2.2 Chem.B.1.3.3 Chem.B.1.4.1 Chem.B.1.4.2 PA Standards Reading, Writing, Speaking, and Listening October Types of chemical reactions and solution stoichiometry composition of aqueous solutions solution concentration solution preparation from solids solution preparation by dilution reactions in aqueous solution precipitation reactions molecular, ionic, and net ionic equations acid-base/neutralization reactions oxidation-reduction reactions represent dissolving processes with dissociation equations calculate concentrations of aqueous solutions calculate concentrations of all species within aqueous solutions after chemical change classify chemical reactions as precipitation, acid-base, or oxidationreduction reactions write balanced molecular, ionic, and net ionic equations for reactions in aqueous solution memorize solubility rules of common ionic compounds ph probes Chem.B.1.1.1 Chem.B.1.2.1 Chem.B.1.2.2 Chem.B.1.2.3 Chem.B.2.1.1 Chem.B.2.1.2 1
November Gases Boyle s law, Charles s law, Avogadro s law The ideal gas law Dalton s law of partial pressure Kinetic molecular theory of gases Effusion and diffusion Chemistry in the atmosphere Thermochemistry Enthalpy and calorimetry Hess s law Standard enthalpies of formation predict products for precipitation, acidbase, and oxidation-reductions reactions describe the behavior of particles in the gaseous state convert measurements between common units of pressure convert measurements between common measurements of temperature calculate the heat energy taken in/given off in chemical reactions Oxygen sensors Carbon dioxide sensors Chem.A.1.2.1 Chem.A.1.2.3 Chem.A.1.2.4 Chem.A.1.2.5 Chem.B.2.2.1 Chem.B.2.2.2 December Atomic Structure and Periodicity Chemical bonding Covalent bonding Ionic bonding Define and distinguish between ionic and covalent bonds Predict atomic radius trends by group and period of the periodic table. Gas pressure sensor Chem.B.1.3.3 January Kinetics Rate laws Integrated rate law Reaction mechanisms Distinguish between first-order, second-order and zero-order rate laws. Experimentally determine rate law orders. lap reports Chem.A.1.2.1 Chem.A.1.2.3 Chem.A.1.2.4 2
February Chemical equilibrium Equilibrium conditions The equilibrium constant Le Chatelier s principle Acids and bases Nature of acids and bases Acid strength The ph scale ph of strong acid solutions ph of weak acid solutions ICE tables Write equilibrium constant expressions for chemical reactions. Calculate values of the equilibrium constant for chemical reactions. Know traditional, Arrhenius, and Lewis definitions of acids and bases Define and distinguish between strong and weak acids Define and distinguish between strong and weak bases Calculate the ph of strong acid solutions Calculate the ph of weak acid solutions Determine the concentrations of unknown acidic/basic solutions by titration methods March April Electrochemistry Galvanic cells Standard reduction potentials Cell potential, electrical work, and free energy Cell dependence on concentration Batteries Corrosion Electrolysis Electrolytic cells Nuclear chemistry Nuclear stability and radioactive decay Kinetics of radioactive decay Nuclear transformations Transition metals and Calculate the potential in volts, produced by galvanic cells under standard conditions. Calculate the potential, in volts, produced by galvanic cells under nonstandard conditions. Distinguish between alpha, beta, and gamma decay. Predict products of nuclear transformations. Write electron configurations of transition metals. Voltmeters ORP sensors Chem.B.2.1.1 Chem.B.2.1.2 Chem.A.2.1.1 Chem.A.2.1.2 Chem.A.2.2.1 Chem.A.2.2.2 Chem.A.2.2.3 Chem.A.2.2.4 3
coordination chemistry First-row transition metals Coordination compounds Isomerism Bonding in complex ions Write and formulas of common transition metal compounds. Write and formulas of complex ions of complex ions of transition metals. ORP sensors Chem.A.2.3.1 Chem.A.2.3.2 May Organic chemistry structure and bonding of carbon molecular, structural and condensed formulas families of organic compounds alkane structure and nomenclature substituted hydrocarbons structural isomers cyclic organic compounds stereoisomers polymers alkenes structure and nomenclature alkynes structure and nomenclature alcohol structure and nomenclature aldehydes and ketone structure and nomenclature define organic chemistry classify organic compounds into families identify functional groups of organic compounds represent organic compounds with condensed and structural formulas recognize structural isomers draw possible structural isomers from chemical formulas assign IUPAC to alkanes draw structures of alkanes from IUPAC assign IUPAC to alkenes draw structures of alkenes from IUPAC assign IUPAC to alkynes draw structures of alkynes from IUPAC assign IUPAC to alcohols draw structures of alcohols from IUPAC assign IUPAC to aldehydes and ketones draw structures of aldehydes and ketones from IUPAC Chem.A.1.1.5 Chem.B.1.1.1 Chem.B.1.2.1 AP Exam (optional) June Final exam Final Exam Final Exam Final Project 4
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