Chemistry periods 1,2
Homework:
Week of March 11
Monday- No School
Tuesday -
Wednesday-
I am planning on using Google Classroom, this is the class code u76ufsv Please join ASAP. Assignments, notes, etc will be posted there from now one. Email with questions .
Thursday-
Friday-
Week of March 9
Monday- finish Stio 9-2WS #1,
Tuesday -9-2 WS #2, 9-2 exit ticket
Wednesday-Quiz 9-2, Notes 9-3, LR WS #1limiting_reactantproblems1.docx
Thursday- Lab
Friday-WS LR#2
Week of March 2
Monday- Notes 9-1 , Notes 9-2, WS 9-1
Tuesday -9-2 WS In Class Stoichiometry problems
Wednesday-9-2 WS #1
Thursday- catch up day
Friday-No School
Week of February 24
Monday- Quiz- Complete (word) reactions, Lab
Tuesday -ACT
Wednesday-Ch. 8 Review
Thursday-
Friday-Test Chapter 8
Week of February 17
Monday- No School
Tuesday - Lab: Single Displacement, Quiz- Reaction types/ Balance
Wednesday-Packet due (p. 6) review for quiz
Thursday- Quiz- Complete reactions, Review for quiz, pre-lab
Friday- Lab: Double Displacement Quiz- Complete (word) reactions
Week of February 10
Monday- Notes 8-2, decomposition, Packet P.#1 &2
Tuesday - Notes 8-3, Single displacement and Activity series, Packet p.#3,WS 8-3
Wednesday- Notes 8-3 Double and Combustion, packet p. #3 #6-11, p.4#4-10
Thursday- Snow Day
Friday- finish combustion packet p. #5 all,
Week of February 3
Monday- Chapter 7 Test
Tuesday - Notes 8-1, WS 8-1
Wednesday- Notes 8-2, synthesis, WS#1 Balance
Thursday- WS #2 Balance
Friday- Quiz-Balance Equations
Week of January 27
Monday- finish 7-4, WS 7-4
Tuesday - Lab
Wednesday- finish lab, chapter 7 review
Thursday- Guest speaker
Friday- Chapter 7 review due
Week of January 20
Monday- MLK Day No School
Tuesday - review for quiz
Wednesday- Quiz: Ox #s and % composition, finish hydrates
Thursday- Lab:Hydrated Crystals
Friday- Notes 7-4, WS 7-4 Quiz: Hydrates
Week of January 13
Monday-Review, WS Covalent #2
Tuesday - Quiz Polyatomic ions, WS Acids
Wednesday- Notes 7-2, WS Oxidation numbers,
Thursday- Quiz- Covalent and Acids, Notes 7-3 , WS %Composition
Friday- finish 7-3, WS Hydrates #1-16 names, #1-4 problems
Week of January 6
Monday- Staff Day
Tuesday-Notes 7-1, WS Ionic #1
Wednesday- WS Ionic #2, Polyatomic ion reveiw
Thursday-Review ionic/poly
Friday- Quiz- Ionic compounds, finish notes 7-1, WS Covalent #1
Week of December 16
Monday- Exam Review
Tuesday -Exam Review
Wednesday- Exam Review
Thursday- 2nd period exam (evens)
Friday- 1st period exam (odds)
Week of December 9
Monday- Lab: Models of Covalent Compounds
Tuesday - finish Lab, Ch 6 review
Wednesday- Ch 6 review
Thursday- Ch 6 Test
Friday- Lab
Week of December 2
Monday- finish 6-3 Whiteboard review
Tuesday - Notes 6-4,
Wednesday- Quiz 6-1-6-3, Notes 6-4, WS 6-4, Notes 6-5
Thursday- Lab: Bonding of Solids
Friday-finish 6-5 notes
Week of November 25
Monday- Notes 6-2
Tuesday- Notes 6-3
Wednesday- No School
Thursday- Thanksgiving
Friday- No School
Week of November 18
Monday- Lab: Halides
Tuesday- 5-3 Quiz, ch 5 reivew
Wednesday- Ch 5 review due
Thursday- Test ch 5
Friday- Notes 6-1, WS 6-1
Week of November 11
Monday- Review 5-2, Practice quiz
Tuesday- Snow day
Wednesday- Quiz 5-2, Notes 5-3
Thursday- Investigation #18
Friday-finish 5-3, WS 5-3
Week of November 4
Monday- Chapter 4 review due
Tuesday- chapter 4 Test
Wednesday- Notes 5-1, WS 5-1
Thursday- Notes 5-2, WS 5-2
Friday- Activity: Periodic Table
Week of October 28
Monday- Notes 4-3, WS Electron configuration
Tuesday- finish 4-3
Wednesday- 4-3 WS
Thursday- Practice quiz 4.3, WS 4-3
Friday- Quiz 4-3, CH 4 review Ws
Week of October 21
Monday- Notes 4-1, WS 4-1
Tuesday- finsh 4-1, WS Electromagnetic Spectrum
Wednesday- Notes 4-2
Thursday- Quiz 4-1, finish 4-2, WS 4-2
Friday- Lab: Flame Test
Week of October 14
Monday- Review for quiz, finish lab
Tuesday- Quiz- Gram/mole/atoms
Wednesday- Ch 3 review due
Thursday- Ch 3 Test End of 1st quarter
Friday- No School
Week of October 7
Monday-Notes 3-3, WS % abundance of isotopes, WS 3-3 due Wednesday
Tuesday-Notes Gram-Mole, Review for quiz
Wednesday-Quiz- Isotopes, WS Gram-Mole
Thursday- Notes Gram-mole-Atoms, WS-Gram-Mole-atoms, Review for quiz
Friday- Quiz-Gram-Mole, Lab: Size of Mole
Week of Sept 30
Monday-Check ch 2 review
Tuesday- CH 2 Test
Wednesday-Notes 3-1 SR 3-1
Thursday- Notes 3-2
Friday-Notes 3-3
Week of Sept 23
Monday-WS Dimensional Analysis
Tuesday- review
Wednesday-Quiz : Sig Figures, Sci Not, finish 2-3 WS Graphs
Ch 2 review p.64-65 #1,11,17,18,20,21,23,24,29,32,33,37-43
Thursday- Lab
Friday-Lab
Week of Sept 16
Monday- Notes 2-2, start 2-3 , WS Metric/Density
Tuesday- finish 2-3, WS %Error
Wednesday- WS Sig Figures #1
Thursday-Quiz-Metric, WS Sig Figures #2 (due Monday)
Friday- Lab: Measurement Challenge
Week of Sept 9
Monday- Lab: Matter and Change
Tuesday- Lab Test, finish lab if needed
Wednesday- Chapter 1 review due, p. 27-28 #2,3,7,9-19
Thursday-Chapter 1 Test
Friday- Notes 2-1
Week of Sept 2
Monday- No school
Tuesday- Lab Procedures
Wednesday- Lab Procedures
Thursday-Lab Procedures
Friday- Check Lab questions, Chapter 1 review , p. 27-28 #2,3,7,9-14,16-18,19acf due Wed.
Week of August 26
Monday- Chapter 1 Matter and Change Notes 1-1,Notes 1-2, SR 1-1
Tuesday-Pre- test SLO
Wednesday- Notes 1-3 , SR 1-2
Thursday - Lab Safety, Lab Equipment
Friday- finish Lab safety rules and Equipment, Element quiz #1-30
Week of August 19
Monday-
Tuesday-
Wednesday-
Thursday-Class Expectations and Procedures
Friday- Finish class procedures, Review elements
Week of May 27
Monday- No School
Tuesday- Exam Review
Wednesday- odd Exams
Thursday-even Exams
Friday- No School
Week of May 20
Monday- Lab
Tuesday- finish 15-2
Wednesday- Lab
Thursday-Lab
Friday- exam review
Week of May 13
Monday- Notes 14-1, WS 14-1
Tuesday- Notes 14-2Notes 14-3,WS Conjugate Pairs
Wednesday- WS Acids and Bases
Thursday-Notes 15-1, WS pH and pOH
Friday- WS pH and pOH #2, Notes 15-2
Week of May 6
Monday- Notes 13-1, WS 13-1
Tuesday- finish 13-1, WS-Precipitation reactions
Wednesday- Lab:
Thursday-finish lab, ch 13 review
Friday- Ch 13 Quiz, Extra credit due
Week of April 29
Monday- odds Lab: Paper Chromatography, WS Dilutions
Tuesday- evens Lab
Wednesday- Ch 12 Review ws
Thursday-Ch 12 Review
Friday- Ch 12 Test
Week of April 22
Monday- No School
Tuesday- Check HW, 12-3 Notes
Wednesday- Lab: Solubility
Thursday-Lab: Solubility
Friday- finish 12-3
Week of April 15
Monday- Odd periods, Notes 12-1, Post SLO
Tuesday-
Wednesday- Notes 12-2, Notes 12-3, WS Solubility Curves, WS Molarity
Thursday-
Friday- No School
Week of April 8
Monday- Quiz- Ideal/Gas Stiochiometry, WS 11-4
Tuesday- Lab
Wednesday-CH 11 Review, ch 11 notes
Thursday-Ch 11 Test
Friday- in class activity
Week of April 1
Monday- Quiz- Pressure/Dalton, finish Gas Laws
Tuesday -Quiz- Gas Law's, Notes 11-3,
Wednesday-Lab: Ideal Gas Law
Thursday-WS Gas Stio
Friday- review Gas Stio/Ideal gas law, notes 11-4
Week of March 25- Start of 4th Quarter
Monday- Ch 9 Review
Tuesday -Ch 9 Test
Wednesday-Notes 11-1, WS Pressure
Thursday- finish 11-1 notes, WS Dalton's Law
Friday- Notes 11-2 Gas Laws
Learning Targets:
Chapter 1 Chemistry
Define chemistry
Identify the branches of chemistry
Identify characteristic properties
Classify substances as mixture or pure
Classify elements as metal, nonmetal, or metalloid
Chapter 2
Describe the scientific method
Identify proper metric units
Convert from metric unit to another
Distinguish precision and accuracy
Use scientific notation
Use correct number of significant figures in calculations and measurements
Chapter 3 Chemistry
Compare and contrast the atomic models of Democritus and Dalton.
Describe Dalton’s Atomic Theory
Describe the 3 basic laws of how matter behaves in chemical reactions:
Law of conservation of mass
Law of definite proportions
Law of multiple proportions
Define an atom.
Distinguish between the subatomic particles in terms of mass and charge.
Describe the structure of the nuclear atoms, including the locations of the subatomic particles.
Compare and contrast the atomic models of Rutherford and Thompson.
Explain how Chadwick, Millikan, and Mosley contributed to the nuclear atomic model.
Define nuclear forces
Explain the role of atomic number in determining the identity of an atom.
Define an isotope and identify isotopes
Explain why atomic masses are not whole numbers using percent abundance
Calculate the number of electrons, protons, and neutrons in an atom given its mass number and atomic number.
Explain the relationship between a mole and Avogadro’s number
Calculate molar mass
Do mole/ gram conversions
Do atoms/grams conversions
Chapter 4
Compare wave and particle models of light.
Identify electromagnetic radiation
Describe the relationship between wavelength and frequency and be able to calculate each.
Describe the photoelectric effect
Define a quantum of energy and explain how it is related to an energy change in matter.
Calculate the energy of a photon.
Contrast continuous electromagnetic spectrum and atomic emission spectra.
Compare ground state and excited state of electrons
Describe Bohr’s model of the atom and how it is related to hydrogen.
Explain the impact of de Broglie’s wave- particle duality and the Heisenberg uncertainty principle on the modern view of electrons in atoms.
Describe Quantum theory.
Identify energy levels, sublevels, and atomic orbitals and how they are related.
Describe the 4 quantum numbers (principle, angular, magnetic, spin)
Write electron configurations using standard electron configuration, orbitals notation, and noble gas notation.
Apply the Pauli Exclusion Principle, the Aufbau principle, and Hund’s rule to writing electron configurations.
Define valance electrons.
Describe how many electrons are paired or unpaired using electron configuration.
Relate period to electron configuration.
Describe Noble gases
Chapter 5
Identify periods and groups on the periodic table.
Identify the contributions of Mendeleev and Moseley to the periodic table.
Explain why elements in the same group have similar properties.
Describe Periodic Law and its relationship to the modern table.
Name, identify, and classify groups on the periodic table.
Identify the four blocks of the periodic table.
Identify group, period and element based on electron configuration.
Compare period and group trends of atomic radius, ionic radius, electronegativity, electron affinity, and ionization energy.
Describe the how ions are formed and the difference between the two types.
Explain the octet rule.
Chapter 6 Chemical Bonding
Define chemical bond
Define covalent and ionic bonds
Classify bonds as ionic, polar, or non-polar
Define molecule
Relate chemical bond formation to electron configuration
Relate covalent bond strength to bond length and bond dissociation energy
Draw electron dot notations
Correctly draw Lewis structures
Apply the octet rule to atoms that bond covalently
Identify exceptions to the octet rule
Explain why resonance occurs
Identify resonance structures
Describe the formation of single, double, and triple covalent bonds
Describe the formation of ionic bonds
Explain why ionic compounds have certain physical properties
Discuss the energy involved in the formation of an ionic bond
Define a polyatomic ion
Describe a metallic bond
Explain the physical properties of metals due to metallic bonds
Discuss the VSEPR bonding theory
Predict the shape of and the bond angles in a molecule
Define hybridization
Describe Intermolecular forces, comparing hydrogen bonds, London forces, and dipole-dipole
Chapter 7
Write formulas for ionic compounds and oxyanions, and polyatomic ions.
Identify the formula of ionic compounds (with polyatomic ions and oxyanions) from their name
Write the names of molecular compounds from their formulas
Identify the formula of molecular compounds from their name
Name acidic solutions
Identify and assign oxidation numbers
Calculate formula/molar mass of a compound
Use molar mass as a conversion factor
Calculate percent composition
Explain what a hydrate is
Determine the formulas for a hydrate form lab data
Contrast the difference between empirical and molecular formula
Determine empirical formula
Determine molecular formula
Chapter 8
Identify evidence of chemical change
Represent chemical reactions with equations and proper number of atoms
Balance chemical equations
Classify chemical reactions (5types)
Identify the characteristic of different classes of chemical reactions
Describe aqueous solutions
Predict if reaction in aqueous solution with produce a precipitate, water, or a gas
Write balanced chemical equations using formulas and words
Predict the products of a chemical reaction
Use the activity series to determine what substances will displace others in chemical reactions
Chapter 9
Determine mole ratios from a balanced chemical equation.
Calculate Molar Mass
Solve stoichiometric problems, (mole to mole, mole to mass, mass to mole, mass to mass) for reactions
Identify the limiting reactant in a chemical equation
Identify the excess reactant and calculate the amount remaining after the reaction is complete
Calculate the mass of a product when the amount of more than one reactant are given
Calculate the theoretical yield of a chemical reaction from data
Determine the percent yield for a chemical reaction
Chapter 10
Describe the kinetic-molecular theory
Describe the physical properties of gases
Compare and contrast Ideal and Real gases
Compare diffusion and effusion
Describe physical properties of liquids
Explain how intermolecular forces determine liquid properties
Describe the physical properties of solids
Define amorphous solid
Describe states of matter and conditions necessary for each (include energy)
Describe equilibrium
Describe condition necessary for freezing and boiling of a substance
Define Molar enthalpy of fusion and vaporization
Explain conditions, at which water can exist as solid, liquid, and gas and how it relates to triple point and critical point
Describe physical properties of water and how they are related to structure
Describe how molar enthalpy determines physical characteristics
Determine the amount of energy absorbed or released when water freezes or boils
Explain the importance of water in chemical and biological systems
Chapter 11 Gases
Define pressure
Describe how pressure is measured
Convert between different units of pressure
Define STP
Apply Dalton’s Law of Partial Pressure
State the Gas Laws: Boyle’s Law, Charles’s Law, Gay-Lussac’s Law, and Combined Gas Law
Apply the gas laws to solving problems involving pressure, temperature and volume of a gas
State the relationship among temperature, volume and pressure in the gas laws
Relate the number of particles and volume by using Avogadro’s principle
Define Standard Molar volume of Gas
Determine volume ratios for gaseous reactants and products using coefficients from a chemical equation
Relate the amount of gas present to its pressure, temperature and volume by using the ideal gas law
Apply Graham’s Law of Effusion