Qrtr 4 final

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The Learning Goal for this assignment is: Defining Concentration The student will learn what properties are used to describe the nature of solutions and how to quantify the concentration of a solution. Measures of Concentration Concentration is defined as the amount of dissolved solute in a given amount of solvent or solution. There are several terms that describe concentration. Some of these terms are relative; that is, they can be used only to compare the concentration of one solution to another. Dilute and concentrated are two such terms. A dilute solution contains less dissolved solute than a concentrated solution (in equal volumes of solution). The terms saturated, unsaturated, and supersaturated are terms that describe concentration more precisely. Saturated: The maximum amount of solute is dissolved in a given amount of solvent at a particular temperature. Such solutions are stable. Unsaturated: Less than the maximum amount of solute is dissolved in a given amount of solvent at a particular temperature. Such solutions are stable. Supersaturated: More than the maximum amount of solute is dissolved in a given amount of solvent at a particular temperature. Such solutions are unstable. Look at the solubility curve shown below: The solubility of NaNO3 is 86.0 g/100 mL H2O (at 20 °C). If you prepare a solution of 50.0 g NaNO3 dissolved in 100 mL H2O, an unsaturated solution results (Point A on the graph). continue adding NaNO to the solution until 86.0 g are dissolved, a saturated solution results (Point B). heat the solution to 50 °C, 113 grams NaNO3 can be dissolved (Point C). When the solution cools back down to 20 °C, it will be supersaturated (Point D). Quantifying Concentration To describe the concentration of a solution even more precisely, various measures of concentration can be used. Some of the ways concentration can be quantified include calculating the Mass of solute per solution mass (expressed as a percent or parts per million) Moles of solute per kilogram solvent (molality) Mass of solute per liter of solution (grams/liter) Moles of solute per liter of solution (molarity)
Part 1: Mass Percent Mass percent (also called percent by mass, weight percent, or percent by weight) compares the mass of the solute to the entire mass of the solution. Notes: Part 2: Parts per Million Parts per million (ppm) is another measure of concentration. It is similar to mass percent. But mass percent indicates the number of grams of solute per 100 g solution. Parts per million indicates the number of grams of solute per 1,000,000 g solution. This measure of concentration is often used to express the concentrations of very dilute solutions. Notes: Part 3: Molality Molality (m) is the ratio of the moles of solute to the kilograms of solvent. Note: this is the first measure of concentration that is concerned with the mass of the solvent, not the mass of the solution as a whole. Notes: Part 4: Grams per Liter To express the concentration of a solution in grams per liter, you must know the mass of the solute and the volume of the solution, not just the volume of the solvent. Notes: Suppose you wanted to know what the concentration would be before making the solution. Could that be done? In order to relate the volume or mass of solvent to the volume of solution, you would have to know the density of the solution. You will see how solution density can be used to calculate molarity in the next section.
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Alexandra’s Chemistry Notebook
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Unit 1 Measurement Lab Separation o
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Unit 5 (28 days) Chapter 10 Chemica
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30. Always lubricate glassware (tub
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7
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9 Print vs. print Online vs. online
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11 To use the Stair-Step method, fi
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Using SI Units Match the terms in C
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Standards of Measurement Fill in th
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17 SCIENTIFIC NOTATION RULES How to
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19 Convert each number from Scienti
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21 Significant Figures Rules There
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23 How Many Significant Digits for
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The following rule applies for mult
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1qt=32 oz 1gal = 4qts 1.00 qt = 946
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Chapter 5 Electrons in Atoms The st
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Atoms Are Building Blocks Atoms are
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Electrovalence Don't get worried ab
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Summary 35
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Electron Configuration Color the su
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Electron Configuration In order to
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41
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Research the Scientist and summariz
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Using Wikipedia, define the 8 categ
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Ionization Energy Define Ionization
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Ion Size Define Ion Size: The trans
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Chapter 7 Ionic and Metallic Bondin
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10. Name __________________________
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The Nucleus A typical model of the
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Gamma Radiation After a decay react
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This analysis shows that sodium has
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Metals, with only a few electrons i
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POLAR BONDING results when two diff
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Step 6 Put the atoms in the structu
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Trigonal Planar Molecular Geometry
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Tetrahedral Orbital Equation Lone P
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Orbital Equation Lone Pairs Angle S
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T Shaped Orbital Equation Lone Pair
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Square Planar Orbital Equation Lone
Page 79 and 80: Name Formula Charge Dichromate Cr
Page 81 and 82: Chapter 23 Functional Groups The st
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Page 85 and 86: Chapter 12 Stoichiometry The studen
Page 87 and 88: www.youtube.com/watch?v=BTRm8PwcZ3U
Page 89 and 90: 4) Double displacement: This is whe
Page 91 and 92: Determine the Type of Reaction for
Page 93 and 94: Step 3 Always leave hydrogen and ox
Page 95 and 96: 1) ___ 2 NaNO3 + ___ PbO ___ Pb(NO
Page 97 and 98: 1) 2 NaNO3 + PbO Pb(NO3)2 + Na2O 2
Page 99 and 100: we can determine that 2 moles of HC
Page 101 and 102: When there is no limiting reagent b
Page 103 and 104: Example 7 How much 5M stock solutio
Page 105 and 106: Theoretical and Actual Yields Key T
Page 107 and 108: Review Purposes To get an over
Page 109 and 110: For these problems, you start of li
Page 111 and 112: Chapter 14 The Behavior of Gases Th
Page 113 and 114: etween liquid particles allows liqu
Page 115 and 116: Name: Alexandra M Name: Alexa B Gra
Page 117 and 118: 2 * 3 = 3 * 2 solve for this side P
Page 119: 8 = 4 8 4 Must be constant volume!
Page 124 and 125: Combined Gas Law- The combined g
Page 126 and 127: The Learning Goal for this assignme
Page 128 and 129: Unit 7 Chapter 16 Solutions The stu
Page 132 and 133: Part 5: Molarity Molarity (M) is th
Page 136 and 137: The Time-Temperature Graph We are g
Page 138 and 139: Step Two: solid ice melts Now, we c
Page 140 and 141: Step Four: liquid water boils Now,
Page 142 and 143: The following table summarizes the
Page 144 and 145: The Learning Goal for this section
Page 146 and 147: C 6 H 6 + Br 2
Page 148 and 149: 11 In which of the following reacti
Page 150 and 151: The Learning Goal for this section
Page 152 and 153: This would be a generic base: XOH -
Page 154 and 155: HCl + H2O ⇌ H3O + + Cl¯ HCl - th
Page 156 and 157: Several categories of substances ca
Page 158 and 159: 1. 2.82 2. 8.30 3. 0.00 4. 3.485 5.
Page 162 and 163: 2. What is the oxidation number of
Page 164 and 165: One point of concern: notice that e
Page 166 and 167: Reference Tables for Physical Setti
Page 168 and 169: 150. 140. Table G Solubility Curves
Page 170 and 171: Table I Heats of Reaction at 101.3
Page 172 and 173: Table O Symbols Used in Nuclear Che
Page 174 and 175: 0 6.941 +1 Li 3 2-1 Na 39.0983 K +1
Page 176 and 177: First Atomic Symbol Name Ionization
Page 178 and 179: Collier County CHEMISTRY EXAM FORMU
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CHEMISTRY EXAM FORMULA AND RESOURCE
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