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Chapter Three: Chemical Concepts By: Andie Aquilato.

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1 Chapter Three: Chemical Concepts By: Andie Aquilato

2 Units of Measurement Slides 2-5

3 SI Units Mass: kilogram (kg) Length: meter (m) Time: seconds (s) Amount of substance: mole (mol) Temperature: Kelvin (K) Electric current: ampere (A) Luminous intensity: candela (cd)

4 Prefixes for Units giga- 10 9 (G) mega- 10 6 (M) kilo- 10 3 (k) deci- 10 -1 (d) centi- 10 -2 (c) milli- 10 -3 (m) micro- 10 -6 (µ) nano- 10 -9 (n) pico- 10 -12 (p) femto- 10 -15 (f) atto- 10 -18 (a)

5 The Mole Molar Mass: the mass in grams of one mole of a substance  Ex: 1 mole of C is 12.011 g  Ex: 1 mol of CH 2 O = 1 mol C + 2 mol H + 1 mol O = 12.011 g + 2(1.0079 g) + 15.9994 g = 30.0262 g Avogadro’s number: there are 6.022 x 10 23 particles in one mol The Millimole: 1mmol = 10 -3 Calculating the Amount of a Substance Ex.: Determine the mass in grams of Na + (22.99 g/mol) in 25.0 g Na 2 SO 4 (142.0 g/mol). (This is using the factor-label method) 25 g Na 2 SO 4 1 mol Na 2 SO 4 2 mol Na + 22.99 g Na + = 8.10 g Na + 142.0 g Na 2 SO 4 1 mol Na 2 SO 4 1 mol Na +

6 Solutions and Concentrations Slides 6-12

7 Molarity (M) Molarity (M): the number of moles of a substance per 1 L of solution (mol/L or mmol/mL) Analytical Molarity: totals moles of solute per 1 L of solution Equilibrium (species) Molarity: M at equilibrium Ex.: Describe the preparation of 2.00 L of 0.108 M BaCl 2 from BaCl 2 ∙2H 2 O (244 g/mol) We know that one mol of BaCl 2 ∙H 2 0 yields 1 mol BaCl 2, so we’ll figure out how much BaCl 2 ∙H 2 0 we need to make a 0.108 M BaCl 2 ∙H 2 O solution 2.00 L 0.108 mol BaCl 2 ∙H 2 0 244 g BaCl 2 ∙H 2 0 = 52.8 g BaCl 2 ∙H 2 0 1.00 L1 mol BaCl 2 ∙H 2 0

8 Percent Concentration Weight (w/w): (weight of solute/ weight of solution)x100% Volume (v/v): (volume of solute/volume of solution)x100% Weight/volume (w/v): (weight of solute/volume of solution)x100%

9 Parts Per… (for dilute solutions) Million: mg solute/L soln Billion: g solute/ g solution x 109 Ex.: What is the molarity of K+ in a solution that contains 63.3 ppm of K3Fe(CN)6 (329.3 g/mol)? Since the solution is so dilute, we can assume that ppm = mg solute/L soln, therefore the solution is 63.3 mg/L of K3Fe(CN)6. 63.3 mg K 3 Fe(CN) 6 1 g 1 mol K 3 Fe(CN) 6 3 mol K + = 5.77 x 10 -4 M K + 1 L1000 mg 329.3 g K 3 Fe(CN) 6 1 mol K 3 Fe(CN) 6

10 Soluent-Diluent Volume Ratios Def.: amt of solution to the amt of solvent Ex.: 1:4 HCl solution contains 1 volume of HCl for 4 volumes water Def.: pX = -log[X] Ex.: pH = -log[H] Ex.: Calculate the p-value for each ion in a solution that is 2.00 x 10 -3 M in NaCl and 5.4 x 10 -4 in HCl NaCl  Na + + Cl - HCl  H + + Cl - pNa = -log(2.00 x 10 -3 ) = 2.699 pH = -log(5.4 x 10 -4 ) = 3.27 pCl = -log(2.00 x 10 -3 + 5.4 x 10 -4 ) = 2.595 Ex.: What is the molar concentration of Ag+ in a solution that has a pAg of 6.372? pAg = -log[Ag + ] 3.372 = -log[Ag + ] Ag + = antilog(3.372) Ag + = 4.25 x 10 -7 P-Functions

11 Density Def.: mass of a substance/mass of an equal volume of water Ex.: Calculate the molar concentration of HNO3 (63 g/mol) in a solution that has a specific gravity of 1.42 and is 70% HNO3 (w/w) mass volume (g/mL or kg/L) Specific Gravity 1.42 kg reagent1000 g70 g HNO31 mol HNO3 = 15.8 M HNO3 1 L reagent1 kg100 g reagent63 g HNO3

12 Stoichiometry Def.: mass relationships among reacting chemical species, use ratios for calculations Ex.: 2NaI (aq) + Pb(NO 3 ) 2 (aq)  PbI 2 (s) + 2NaNO 3 (aq) For every 2 moles of NaI, 1 mol of PbI 2 is made For every mol of Pb(NO 3 ) 2, 2 mol of NaNO 3 is made, etc. Empirical Formula: simplest (CH 2 O) Molecular Formula: specific (C 6 H 12 O 6 ) Ex.: 4NH 3 (g) + 6NO(g)→5N 2 (g) + 6H 2 O(g) How many moles of reactant are there is 13.7 moles of N 2 is produced? 1 13.7 mol N 2 4 mol NH 3 =10.96mol NH 3 5 mol N 2 13.7 mol N 2 6 mol NO =16.44mol NO 5 mol N 2 13.7 mol N 2 6 mol H 2 O =16.44mol H 2 O 5 mol N 2

13 Stoichiometry, cont’d Ex.: 2Al +3Cl 2 →2AlCl 3 When 80 grams of aluminum is reacted with excess chlorine gas, how many moles of AlCl 3 are produced? 1 80 g Al1 mol Al2 mol AlCl3 =2.96mol Al 27 g Al2 mol Al ● Ex.: Sb 2 S 3 (s) + 3Fe(s)→2Sb(s) +3FeS(s) If 3.87×10 23 particles of Sb 2 S 3 (s) are reacted with excess Fe(s), what mass of FeS(s) is produced? 1 3.87 x 10 23 particles Sb 2 S 3 1 mol3 mol FeS88 g FeS =169.71g FeS 6.02 x 10 23 particles 1 mol Sb 2 S 3 1 mol FeS 1 Hanuschak, Gregor. SparkNote on Stoichiometric Calculations. 9 Dec. 2005.

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