Notes: Unit 7 Moles & Stoichiometry

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Regents Chemistry: Notes: Unit 7 Moles & Stoichiometry 1

KEY IDEAS A compound is a substance composed of two or more different elements that are chemically combined in a fixed proportion. A chemical compound can be broken down by chemical means. A chemical compound can be represented by a specific chemical formula and assigned a name based on the IUPAC system. (3.1cc) Types of chemical formulas include empirical, molecular, and structural. (3.1ee) The empirical formula of a compound is the simplest whole-number ratio of atoms of the elements in a compound. It may be different from the molecular formula, which is the actual ratio of atoms in a molecule of that compound. (3.3d) In all chemical reactions there is a conservation of mass, energy, and charge. (3.3a) A balanced chemical equation represents conservation of atoms. The coefficients in a balanced chemical equation can be used to determine mole ratios in the reaction. (3.3c) The formula mass of a substance is the sum of the atomic masses of its atoms. The molar mass (gram formula mass) of a substance equals one mole of that substance. (3.3e) The percent composition by mass of each element in a compound can be calculated mathematically. (3.3f) Types of chemical reactions include synthesis, decomposition, single replacement, and double replacement. (3.2b) 2

Vocabulary Word Definition Balanced Equation Coefficient Decomposition Double replacement Empirical Formula Formula Mass Gram Formula Mass Law of conservation of charge Law of conservation of energy Law of conservation of mass Mole Mole ratio Molecular Formula Oxidation Precipitate A number placed in front of a formula to balance a chemical reaction. A redox reaction in which a compound breaks up to form two elements. A solution reaction in which the positive ion of one compound combines with the negative ion of the other compound to form a precipitate, and the other ions remain dissolved in solution. Formula for a compound which provides the simplest ratio of the elements present. The sum of the atomic masses of a substance in a.m.u. The sum of the atomic masses of a substance in grams. Charge cannot be created or destroyed by physical or chemical change. This is the basis for writing chemical formulas and half-reactions, and balancing redox ionic reactions. Energy cannot be created or destroyed by physical or chemical change. This is the basis for calculating the heat of reaction. Matter cannot be created or destroyed by physical or chemical change. This is the basis for balancing chemical reactions. A quantity of 6.02 x 10 23 units of a substance; the amount of a substance equal to the sum of the atomic masses in grams; Avogadro s number. The whole-number ratio between components of a balanced chemical reaction. Formula for a compound which provides the number and identity of the atoms of each element present. The loss of electron(s), causing the oxidation number of a species to become more positive. An insoluble solid that is formed either in a double-replacement reaction or as excess solute added to a saturated solution. 3

Vocabulary Product Reactant Reaction Redox reaction Reduction Single replacement Species Spectator ion Stoichiometry Synthesis The substances that are formed by a chemical reaction, designated as the right side of a chemical equation. The substances that are reacted together, designated as the left side of a chemical equation. A chemical change where reactants are turned into products. A reaction in which one element is oxidized and another element is reduced. The gain of electron(s), causing the oxidation number of a species to become more negative. A redox reaction in which an element replaces an ion in a compound. The individual products and reactants in a chemical reaction. An ion that does not participate in the chemical reaction. In a redox reaction, it is the ion whose charge does not change. In a double replacement reaction, they are the ions that remain dissolved in solution. The mathematics of mole relationships. A redox reaction in which two elements combine to form a compound. 4

Lesson 1: Moles and Molar Mass Objective: STOICHIOMETRY: The study of the amounts of reactants and products in chemical reactions (the study of chemical Calculate recipes) Molar Mass (gram formula mass) REVIEW OF COUNTING ATOMS Subscripts: number of atoms in a formula Coefficients: TOTAL number of molecules or compounds Ex. 3Ca3(PO4)2 Ca = 9 P= 6 O= 24 PRACTICE: How many oxygen atoms in each? 1. NH4NO3 2. Al2(SO4)3 3. 3Al2(SO4)3 The MOLE (mol): Unit that measures the amount (number of particles) of a substance 1 mol = 6.02 x 10 23 particles (things) 1 mol = gram formula mass Why we use it: atoms are sooooooo tiny that we have LOTS of them in a given sample. 1 dozen eggs = 12 eggs 1 mol of eggs = 6.02 x 10 23 eggs Example: 3.5 dozen roses = 3.5 (12) = 42 roses 3.5 mol roses = 3.5 (6.02 x 10 23 ) = 2.1 x 10 24 roses MOLAR MASS: (aka Gram Formula Mass or Molecular Mass) **Element s molar masses are reported on the periodic table Calculating Molar Mass (Gram Formula Mass GFM) 1. Count the atoms in the compound 2. Look up mass of each atom on periodic table 3. Multiply mass by the # of atoms of each element 4. Add up the total mass 5

Lesson 1: Moles and Molar Mass Molar Mass Examples: Elements 1. What is the molar mass of iron? 2. What is the molar mass of copper? Molar Mass Examples: Compounds 1. What is the molar mass of water? 2. What is the gram-formula-mass of calcium chloride? 6

Lesson 6: Calculating Percent Composition Objective: Calculate Percent Composition Calculate Percent composition of a hydrate PERCENT COMPOSITION: The percentage by mass of each element in a compound ***Formula located on Table T CALCULATING PERCENT COMPOSITION 1. Calculate GFM of compound (mass of whole) 2. Plug into % composition formula EXAMPLE: What is the percent composition of Calcium in CaCl2? EXAMPLE: What is the percentage by mass of carbon in CO2? 7

Lesson 6: Calculating Percent Composition EXAMPLE: What is the percent by mass of nitrogen in NH4NO3? HYDRATES Hydrate- Ionic solids with water trapped in the crystal lattice. It is written like this: Ionic Compound s Formula n H2O (n) is a whole number Ex. CuSO4. 5H2O The dot shows that 5 H2O molecules are attached to 1 CuSO4 molecule. Anhydride- A crystal with NO WATER trapped inside its lattice (opposite of a hydrate) CALCULATING PERCENT COMPOSITION OF A HYDRATE 1. Calculate GFM of HYDRATE including the water (mass of whole) 2. Plug into % composition formula T 8

Lesson 6: Calculating Percent Composition EXAMPLE: What is the percentage by mass of water in sodium carbonate crystals (Na2CO3 10H2O)? Step 1- Calculate GFM of Hydrate Step 2- Plug values into Formula EXAMPLE: What is the percent by mass of water in BaCl2 2H2O? EXAMPLE: (Calculating % mass of water in the lab) A 12.2g sample of a hydrate was heated to a constant mass of 10.2 grams. What is the percent by mass of the water in the hydrate? Water is heated (evaporated) off so the decrease in mass is the mass of the water 12.2g 10.2g = 2.0g (mass of water) x 100 = 16 % water in the hydrate 12.2g (mass of whole) 9

Lesson 2: Calculating Moles Objective: Calculate the number of moles given the grams Calculate the number of grams given the moles Use MOLE FORMULA from Table T ***Given mass is the mass in grams How to Convert from Grams to Moles 1. Calculate the GFM for the compound. (round to nearest tenth) 2. Plug the given value and the GFM into the mole calculations formula and solve for the number of moles. EXAMPLE 1: How many moles are in 39.0 grams of LiF? EXAMPLE 2: What is the number of moles of potassium chloride present in 148 g? How to Convert from Moles to Grams: Use the same mole formula to solve for grams by setting mole over 1 and cross multiplying CHECK: If more than 1 mol mass is GREATER than GFM If less than 1 mol mass is SMALLER than GFM EXAMPLE: What is the mass of 4.5 moles of KOH? 10

Lesson 2: Calculating Moles EXAMPLE: What is the mass of 0.50 mol of CuSO4? 11

Lesson 4: Balancing Chemical Reactions Objective: Assess and Balance chemical reactions using coefficients Identify Types of Reactions CONSERVATION OF MASS In all chemical reactions there is a CONSERVATION of mass, energy, and charge what goes in must come out The number of ATOMS of each element must be EQUAL on BOTH SIDES of the equation. **Matter and energy cannot be created nor destroyed, only changed from one form to another BALANCING EQUATIONS Balance with COEFFICIENTS **NOTE: WE NEVER CHANGE THE SUBSCRIPTS IN A FORMULA! STEPS FOR BALANCING EQUATIONS 1. Start with the element that is only found once on both sides. 2. Keep polyatomic ions together. Count as a unit if not broken up. 3. Coefficients must be smallest possible whole number (reduce if not) 4. Check each atom to see if its balanced EXAMPLE: Al + CuCl2 Cu + AlCl3 EXAMPLE: N2 + H2 NH3 12

Lesson 4: Balancing Chemical Reactions EXAMPLE: H2 + O2 H2O EXAMPLE: Li + O2 Li2O EXAMPLE: Pb(NO3)2 + K2Cr2O4 PbCr2O4 + KNO3 TYPES OF REACTIONS 1. Synthesis: A + 2B AB2 2. Decomposition: AB2 A + 2B 3. Combustion: CH4 + O2 CO2 + H2O 4. Single Replacement: AB + C CB +A 5. Double Replacement: AB + CD AD + CB * Notice synthesis and decomposition are opposites. Also, combustion can have any carbon compound as a reactant. PRACTICE: Identify the type of reaction 1.) 4Li + O2 2 LI2O 2.) Al + CuCl2 AlCl3 + Cu 3.) BaCl2(aq) + Na2SO4(aq) 2NaCl (aq) + BaSO4 (aq) 4.) 2AuBr3 2Au + 3Br2 13

Lesson3: Mole Ratios Objective: Calculate mole ratios in a chemical formula Mix + 2 Eggs + 1 cup water = Reactants Cake Products Just like a recipe in a chemical Rx you can double, triple, halve etc. the amounts of the ingredients to change how much product you make Example: 2 Mix = 2 Cakes 6 Eggs = 3 Cakes COEFFICIENTS: How many MOLES of the substance are needed in a reaction. 4Al + 3O2 2Al2O3 reactants products CALCULATING MOLE RATIOS: 1. Circle the substances involved 2. Set up a ratio of moles (proportion) of SUBSTANCES in the balanced equation to the ACTUAL MOLE values and solve for the unknown EXAMPLE: How many moles of oxygen are consumed when 0.6 moles of hydrogen burns to produce water? known unknown 2 H2(g) + O2(g) 2 H2O 14

Lesson3: Mole Ratios EXAMPLE: How many moles of nitrogen gas (N2) would be needed to produce 10 moles of ammonia (NH3) in the following reaction? x 10 N2 + 3H2 2NH3 x 1 = 10 2 2x = 10 X = 5 mol EXAMPLE: If 12 moles of C3H8 react completely, how many moles of H2O are formed in the reaction below? C3H8 + 5O2 3CO2 + 4H2O PRACTICE: If 20 moles of CO2 are formed, how many moles of O2 reacted in the reaction below? C3H8 + 5O2 3CO2 + 4H2O 15

Lesson 5: Determining empirical and molecular formulas Objective: Determine the empirical formula from the molecular formula Determine the molecular formula from the empirical formula EMPIRICAL FORMULA: Smallest whole number ratio of atoms in a compound (cannot be reduced any further) Example: B10G20 B1G2 (empirical formula) Example: C2H6 (empirical formula) MOLECULAR FORMULA: Actual Formula - the actual number of atoms in a compound Whole # multiple of empirical If the empirical formula is CH4 a molecular formula could be CH4, C2H8, C3H12 etc. Example: B1G2 (empirical formula) B10G20 (molecular formula) Example: CH3 (empirical formula) (molecular formula) More Examples: DETERMINE THE EMPIRICAL FORMULA Divide subscripts by the greatest common factor Example: molecular formula = C4H10 Divide by 2 (greatest common factor) Answer: C2H5 EXAMPLE: Determine empirical formula from molecular formula. 16

Lesson 5: Determining empirical and molecular formulas 1. C6H12O6 2. N2O4 3. BaCl2 4. C2H6 5. CH3 CALCULATING MOLECULAR FORMULA FROM EMPIRICAL FORMULA 1. Calculate Gram Formula Mass of the EMPIRICAL FORMULA 2. Divide molecular mass given by the empirical formula mass 3. Multiply all of the subscripts in the empirical formula by the number (multiple) you calculated in step 2 EXAMPLE: The empirical formula for ethylene is CH2. Find the molecular formula if the molecular mass is 28.1 g/mol? EXAMPLE: What is the molecular formula of a compound that has an empirical formula of NO2 and molecular mass of 92.0 g? EXAMPLE: A compound has an empirical formula of HCO2 and a molecular mass of 90 grams per mole. What is the molecular formula of this compound? 17

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