NC Standards
Chm.2.2 Analyze chemical reactions in terms of quantities, product formation, and energy.
Chm.2.2.1 Explain the energy content of a chemical reaction.
Chm.2.2.2 Analyze the evidence of chemical change.
Chm.2.2.3 Analyze the law of conservation of matter and how it applies to various types of chemical equations (synthesis,
decomposition, single replacement, double replacement, and combustion).
Chm.2.2.4 Analyze the stoichiometric relationships inherent in a chemical reaction.
Chm.2.2.5 Analyze quantitatively the composition of a substance (empirical formula, molecular formula, percent composition, and
hydrates).
Chm.2.2.3
Write and balance chemical equations predicting product(s) in a reaction using the reference tables.
Identify acid-base neutralization as double replacement.
Write and balance ionic equations.
Write and balance net ionic equations for double replacement reactions.
Recognize that hydrocarbons (C,H molecule) and other molecules containing C, H, and O burn completely in oxygen to produce CO2 and water vapor.
Use reference table rules to predict products for all types of reactions to show the conservation of mass.
Use activity series to predict whether a single replacement reaction will take place.
Use the solubility rules to determine the precipitate in a double replacement reaction if a reaction occurs.
Chm.2.2.4 Interpret coefficients of a balanced equation as mole ratios.
Use mole ratios from the balanced equation to calculate the quantity of one substance in a reaction given the quantity of another substance in the reaction. (given moles, particles, mass, or volume and ending with moles, particles, mass, or volume of the desired substance).
Chm.2.2.5 Calculate empirical formula from mass or percent using experimental data.
Calculate molecular formula from empirical formula using molecular weight.
Determine percentage composition by mass of a given compound.
Perform calculations based on percent composition.
Determine the composition of hydrates using experimental data.
Chm.2.2.1 Explain the energy content of a chemical reaction.
Chm.2.2.2 Analyze the evidence of chemical change.
Chm.2.2.3 Analyze the law of conservation of matter and how it applies to various types of chemical equations (synthesis,
decomposition, single replacement, double replacement, and combustion).
Chm.2.2.4 Analyze the stoichiometric relationships inherent in a chemical reaction.
Chm.2.2.5 Analyze quantitatively the composition of a substance (empirical formula, molecular formula, percent composition, and
hydrates).
Chm.2.2.3
Write and balance chemical equations predicting product(s) in a reaction using the reference tables.
Identify acid-base neutralization as double replacement.
Write and balance ionic equations.
Write and balance net ionic equations for double replacement reactions.
Recognize that hydrocarbons (C,H molecule) and other molecules containing C, H, and O burn completely in oxygen to produce CO2 and water vapor.
Use reference table rules to predict products for all types of reactions to show the conservation of mass.
Use activity series to predict whether a single replacement reaction will take place.
Use the solubility rules to determine the precipitate in a double replacement reaction if a reaction occurs.
Chm.2.2.4 Interpret coefficients of a balanced equation as mole ratios.
Use mole ratios from the balanced equation to calculate the quantity of one substance in a reaction given the quantity of another substance in the reaction. (given moles, particles, mass, or volume and ending with moles, particles, mass, or volume of the desired substance).
Chm.2.2.5 Calculate empirical formula from mass or percent using experimental data.
Calculate molecular formula from empirical formula using molecular weight.
Determine percentage composition by mass of a given compound.
Perform calculations based on percent composition.
Determine the composition of hydrates using experimental data.
Vocabulary
Avogadro's number
empirical formula
molecular formula
molar mass
molar volume
mole (mol)
percent composition
standard temperature and pressure (STP)
activity series
balanced equation
catalyst
chemical equation
coefficients
combination reaction
combustion reaction
complete ionic equation
decomposition reaction
double-replacement reaction
net ionic equation
single-replacement reaction
skeleton equation
spectator ion
empirical formula
molecular formula
molar mass
molar volume
mole (mol)
percent composition
standard temperature and pressure (STP)
activity series
balanced equation
catalyst
chemical equation
coefficients
combination reaction
combustion reaction
complete ionic equation
decomposition reaction
double-replacement reaction
net ionic equation
single-replacement reaction
skeleton equation
spectator ion
Online Textbook
Balancing Chemical Equations & Types of Reactions
Learning Targets
I can identify different types of chemical reactions depending on their reactants and products.
Chemical Reactions
chemical_reactions.pdf | |
File Size: | 1021 kb |
File Type: |
Balancing Equations Practice
Balancing Equations Battleships
Single-Replacement Reactions
Reactivity of Metals
Solubility Rules
solubility_rules_and_precipitation_reactions__2_.ppt | |
File Size: | 185 kb |
File Type: | ppt |
Complete and Net Ionic Equations
Learning Targets
I know the difference between complete and net ionic equations.
I can identify the spectator ions in an equation.
I can identify the spectator ions in an equation.
Khan Academy Complete and Net Ionic Equations
https://www.khanacademy.org/science/chemistry/chemical-reactions-stoichiome/types-of-chemical-reactions/v/complete-ionic-and-net-ionic-equations
equationwritingactivity.docx | |
File Size: | 14 kb |
File Type: | docx |
The Mole
Learning Targets
I can explain the mole as Avogadro's Number, which is 6.02 X 1023, and how it is used in Chemistry.
I can perform mole - mass conversions.
I can perform mole - mass conversions.
the_mole_concept.pdf | |
File Size: | 1164 kb |
File Type: |
http://www.sciencegeek.net/Chemistry/Powerpoints2.shtml
Choose The Mole Powerpoint
Choose The Mole Powerpoint
Avogadro's Number, Grams, Atoms, Molar Mass Calculations
Mole Webquest
http://webcache.googleusercontent.com/search?q=cache:Zaozx9ISGfsJ:eldonmustangs.org/eldon-high-school/wp-content/uploads/sites/5/2014/03/Mole_Webquest.pdf+&cd=1&hl=en&ct=clnk&gl=us&client=safari
Percent Composition, Empirical and Molecular Formulas
Learning Targets
I can calculate Percent Composition, Empirical Formula, and Molecular Formula.
formula_mass_and___composition.pptx | |
File Size: | 59 kb |
File Type: | pptx |
empirical_and_molecular_formulas.pptx | |
File Size: | 63 kb |
File Type: | pptx |
directions_for___comp.docx | |
File Size: | 14 kb |
File Type: | docx |
__composition_worksheet.docx | |
File Size: | 14 kb |
File Type: | docx |
empirical_and_molecular_formula_worksheet.docx | |
File Size: | 13 kb |
File Type: | docx |
http://www.sciencegeek.net/Chemistry/Powerpoints2.shtml
Choose Percent Composition, Empirical, and Molecular Formulas Powerpoint
Choose Percent Composition, Empirical, and Molecular Formulas Powerpoint
Hydrates
Learning Targets
I can explain hydrates and how they are formed.
I can calculate the chemical formula for hydrates.
I can calculate the chemical formula for hydrates.
hydrates.pptx | |
File Size: | 44 kb |
File Type: | pptx |
education-portal.com/academy/lesson/hydrates-determining-the-chemical-formula-from-empirical-data.html#lessonhttp://education-portal.com/academy/lesson/hydrates-determining-the-chemical-formula-from-empirical-data.html#lesson