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Formulas, Equations, and Moles
Chapter 3 Formulas, Equations, and Moles
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Balancing Chemical Equations
Alphabet – elemental symbols Words – chemical formulas Sentences – chemical equations (chemical reactions) reactants products limestone quicklime + gas Calcium carbonate calcium oxide + carbon dioxide CaCO3(s) CaO(s) + CO2(g)
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Balancing Chemical Equations
Chemical reactions include Reactants Products Balanced – Law of Conservation of Mass # of atoms of an element on the reactant side must equal the # of atoms of that element on the product side. Indicate the state of matter of each chemical in the reaction (Chapter 4)
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Balancing Chemical Equations
Write the equation without coefficients List the elements in each equation Secret: if the same polyatomic ion exists on both sides, keep it together Determine the # of each kind of atom on both sides Balance atoms one element at a time by adjusting coefficients DO NOT ALTER THE FORMULA OF THE COMPOUND!!!!! Only coefficients can be altered Secret: Balance atoms appearing only once on each side first. Save compounds comprised of only one type of element till last. Reduce to lowest terms if necessary
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Examples Balance the following equations:
Al(s) + Fe2O3(s) → Al2O3 (s) + Fe (l) Solid copper reacts with aqueous silver nitrate to form aqueous copper (II) nitrate and silver solid H3PO4 (l) → H2O (l) + P4O10 (s) C4H10(g) + O2 (g) → CO2(g) + H2O (g)
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Avogadro’s Number and the Mole
Meaning of a chemical reaction 2 C4H10(g) O2(g) → 8 CO2(g) H2O (g) 2 molecules of C4H10(g) reacts with 13 molecules of O2(g) to form 8 molecule of CO2(g) and 10 molecules of H2O(g)
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Avogadro’s Number and the Mole
Molecule’s mass = the sum of the atomic masses of the atoms making up the molecule. m(C2H4O2) = 2·mC + 4·mH + 2·mO = 2·(12.01) + 4·(1.01) + 2·(16.00) = amu
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Avogadro’s Number of the Mole
One mole (mol) of any substance contains 6.02 x 1023 (Avogadro’s Number) units of that substance. One mole (mol) of a substance is the gram mass value equal to the amu mass of the substance. Calculated the same as amu’s for a molecule
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Avogadro’s Number and the Mole
Calculate the molar mass of the following: Fe2O3 (Rust) C6H8O7 (Citric acid) C16H18N2O4 (Penicillin G)
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Avogadro’s Number and the Mole
Methionine, an amino acid used by organisms to make proteins, is represented below. Write the formula for methionine and calculate its molar mass. (red = O; gray = C; blue = N; yellow = S; ivory = H)
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Stoichiometry 4 Conversion units Chemical formula
Balanced chemical equation Coefficients can read as; # of molecules # of moles of that molecules Allows conversion between compounds in an equation Avogadro’s # x 1023 of X = 1 mole of X Molar mass – how many grams of a substance = 1 mole of that substance
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Stoichiometric Calculations
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Avogadro’s Number and the Mole
How many grams of oxygen are present in x 1020 molecules of KClO3? How many atoms of oxygen are present?
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Avogadro’s Number and the Mole
Calculate the number of oxygen atoms in g of sodium sulfate, Na2SO4. A. 1.244 × 1023 O atoms B. 4.976 × 1023 O atoms C. 2.409 × 1024 O atoms D. 2.915 × 1024 O atoms E. 1.166 × 1025 O atoms
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Problem Potassium dichromate, K2Cr2O7, is used in tanning leather, decorating porcelain and water proofing fabrics. Calculate the number of chromium atoms in g of K2Cr2O7. A. 9.490 × 1025 Cr atoms B. 2.248 × 1024 Cr atoms C. 1.124 × 1024 Cr atoms D. 3.227 × 1023 Cr atoms E. 1.613 × 1023 Cr atoms
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Stoichiometry: Chemical Arithmetic
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Stoichiometry: Equation Arithmetic
Balance the following, and determine how many moles of CO will react with moles of Fe2O3. Fe2O3(s) + CO(g) → Fe(s) + CO2(g)
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Stoichiometry: Chemical Arithmetic
Aqueous sodium hydroxide and chlorine gas are combined to form aqueous sodium hypochlorite (household bleach), aqueous sodium chloride and liquid water. How many grams of NaOH are needed to react with 25.0 g of Cl2?
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Problem Sulfur dioxide reacts with chlorine to produce thionyl chloride (used as a drying agent for inorganic halides) and dichlorine monoxide (used as a bleach for wood, pulp and textiles). SO2(g) + 2Cl2(g) → SOCl2(g) + Cl2O(g) If mol of Cl2 reacts with excess SO2, how many moles of Cl2O are formed? A. 0.800 mol B. 0.400 mol C. 0.200 mol D. 0.100 mol E. mol
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Problem Nitrogen gas and hydrogen gas are combined to form ammonia (NH3), an important source of fixed nitrogen that can be metabolized by plants, using the Haber process. How many grams of nitrogen are needed to produce 325 grams of ammonia? A. 1070 g B. 535 g C. 267 g D. 178 g E. 108 g
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Lab Homework MISC 486 Problem Set 2 – Due
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Yields of Chemical Reactions
Yields of Chemical Reactions: If the actual amount of product formed in a reaction is less than the theoretical amount, we can calculate a percentage yield.
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Yield of Chemical Reactions
Dichloromethane (CH2Cl2) is prepared by reaction of methane (CH4) with chlorine (Cl2) giving hydrogen chloride as a by-product. How many grams of dichloromethane result from the reaction of 1.85 kg of methane if the yield is 43.1%?
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Problem What is the percent yield for the reaction PCl3(g) + Cl2(g) → PCl5(g) if g of PCl5 ( MM = g/mol) are formed when 61.3 g of Cl2 ( MM = g/mol) react with excess PCl3? A. 195% B. 85.0% C. 66.3% D. 51.4% E. 43.7%
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Reactions with Limiting Amounts of Reactants
Limiting Reagents: The extent to which a reaction takes place depends on the reactant that is present in limiting amounts—the limiting reagent. Process Convert each reactant into a single product The one that forms the least is the limiting reactant Complete all other calculations using the limiting reactant
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Reactions with Limiting Amounts of Reactants
Limiting Reagent Calculation: Lithium oxide is a drying agent used on the space shuttle. If 80.0 kg of water is to be removed and 65 kg of lithium oxide is available, which reactant is limiting? Li2O(s) + H2O(l) LiOH(s) MM(Li2O) = g/mol MM(H2O) = g/mol
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Reactions with Limiting Amounts of Reactants
Limiting Reagent Calculation: Cisplatin is an anti-cancer agent prepared as follows: K2PtCl4 + 2 NH3 Pt(NH3)2Cl2 + 2 KCl If 10.0 g of K2PtCl4 and 10.0 g of NH3 are allowed to react: (a) which is the limiting reagent? (b) How many grams of the excess reagent are consumed? (c) How many grams of cisplatin are formed? MM(K2PtCl4) = g/mol MM(NH3) = g/mol MM [Pt(NH3)2Cl2] = g/mol
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Problem What is the percent yield of H2O if 97.2 g CH4S reacts with 183 g of O2 to produce 58.5 g H2O according to the following chemical reaction? (Reaction may or may not be balanced.) CH4S + O2 → CO H2O + SO3 Write the balanced chemical reaction? Calculate the molar mass of CH4S? Calculate the molar mass of H2O? Calculate the molar mass of O2? Calculate the theoretical yield of H2O? What is the limiting reagent? Calculate the percent yield of H2O?
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Lab Homework MISC 486 Problem Set 4 - Due
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Concentrations of Reactants in Solution: Molarity
Molarity: The most common way of expressing the amount of a substance dissolved in a solution Conversion factor between moles and volume It is important to note that the final volume of solution must be used, not volume of solvent. solution of Liters solute Moles (M) Molarity =
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Solution Stoichiometry
Known: molarity of solution, volume of solution, and balanced chemical equation
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Concentrations of Reactants in Solution: Molarity
How many moles of solute are present in 125 mL of 0.20 M NaHCO3? How many grams of solute would you use to prepare mL of 1.25 M NaOH?
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Problem A M sodium chloride solution is referred to as a physiological saline solution because it has the same concentration of salts as normal human blood. Calculate the mass of solute needed to prepare mL of a physiological saline solution. A. 41.3 g B. 31.9 g C. 16.1 g D. 8.77 g E. 2.41 g
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Concentrations of Reactants in Solution: Molarity
Solution Preparation Determine the mass of solid needed to obtain the desired # of moles Mass the solid Add it to a volumetric flask Add water to the volumetric flask until it is about half-full Cap and shake to dissolve the solid Add water to the line Cap and shake
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Diluting Concentrated Solutions
Dilution: process of reducing a solution’s concentration by adding more solvent. Key concept: # of moles remains constant
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Diluting Concentrated Solutions
Concentrated solution + Solvent Dilute solution Moles of solute (mol) = molarity (M) x volume (V) Mconcentrated x Vconcentrated = Mdilute x Vdilute only use if the initial solution and the final solution are the same substance
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Diluting Concentrated Solutions
What volume of 18.0 M H2SO4 is required to prepare mL of M aqueous H2SO4? What is the final concentration if 750 mL of 3.50 M glucose is diluted to a volume of mL?
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Problem Calcium chloride is used to melt ice and snow on roads and sidewalks and to remove water from organic liquids. Calculate the molarity of a solution prepared by diluting 165 mL of M calcium chloride to mL. A. 3.86 M B. 0.743 M C. 0.222 M D. 0.123 M E. 0.114 M
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Titration Titration: A technique for determining the concentration of a solution. Process – a carefully measured volume of an unknown solution is allowed to react with of a standard solution (concentration is known). The volume of the known is measured. Stoichiometry calculations are performed
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H2SO4(aq) + KOH(aq) K2SO4(aq) + H2O(l)
Titration What is the molarity of a sulfuric acid solution if a 25.0 mL sample is titrated to equivalence with 50.0 mL of M potassium hydroxide solution? H2SO4(aq) + KOH(aq) K2SO4(aq) + H2O(l)
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Problem How many milliliters of 1.58 M HCl are needed to react completely with 23.2 g of NaHCO3 ( MM = g/mol)? HCl(aq) + NaHCO3(s) → NaCl(s) + H2O(l) + CO2(g) A. 638 mL B. 572 mL C. 536 mL D. 276 mL E. 175 mL
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Lab Homework MISC 486 Problem Set 5 - Due
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Percent Composition and Empirical Formulas
Percent Composition: Identifies the elements present in a compound as a mass percent of the total compound mass. The mass percent is obtained by dividing the mass of each element by the total mass of a compound and converting to percentage.
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Percent Composition and Empirical Formulas
Sugar is 42.1% C, 6.4% H, and 51.5% O Meaning – out of 100 g of sugar 42.1 g of it is due to C
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Percent Composition and Empirical Formulas
From the percent composition empirical formulas are developed empirical formula gives the smallest whole number ratio of the atoms of each element in a compound. Same as ionic formula for ionic compounds
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Percent Composition and Empirical Formulas
Compound Formula Empirical Formula Hydrogen H2O OH peroxide Benzene C6H CH Ethylene C2H CH2 Propane C3H C3H8
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Percent Composition and Empirical Formulas
A compound’s empirical formula can be determined from its percent composition. A compound’s molecular formula is determined from the molar mass and empirical formula.
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Percent Composition and Empirical Formulas
A compound was analyzed to be 82.67% carbon and 17.33% hydrogen by mass. An osmotic pressure experiment determined that its molar mass is g/mol. What is the empirical formula and molecular formula for the compound?
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Problem Gadolinium oxide, a colorless powder which absorbs carbon dioxide from the air, contains mass % Gd. Determine its empirical formula. A. Gd2O3 B. Gd3O2 C. Gd3O4 D. Gd4O3 E. GdO
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Problem Hydroxylamine nitrate contains mass % N, 4.20 mass % H, and mass O. If its molar mass is between 94 and 98 g/mol, what is its molecular formula? A. NH2O5 B. N2H4O4 C. N3H3O3 D. N4H8O2 E. N2H2O4
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Determining Empirical Formulas: Elemental Analysis
Combustion analysis is one of the most common methods for determining empirical formulas. A weighed compound is burned in oxygen and its products analyzed by a gas chromatogram. It is particularly useful for analysis of hydrocarbons.
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Determining Empirical Formulas: Elemental Analysis
Terephthalic acid, used in the production of polyester fibers and films, is composed of carbon, hydrogen, and oxygen. When g of terephthalic acid was subjected to combustion analysis it produced g CO2 and g H2O. What is its empirical formula? A. C2H3O4 B. C3H4O2 C. C4H3O2 D. C5H12O4 E. C2H2O
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Optional Homework Text –3.30, 3.32, 3.34, 3.36, 3.40, 3.42, 3.54, 3.58, 3.62, 3.64, 3.70, 3.72, 3.74, 3.76, 3.80, 3.82, 3.86, 3.88, 3.90, 3.92, 3.94, 3.96, 3.100, 3.106, 3.108, 3.112, 3.116 Chapter 3 Homework – from website
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Required Homework MISC 486 Problem Set 3 – Due Assignment #3
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