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KayEstelleGepulango

This document provides an overview of key topics in solutions and solubility from a chemistry textbook. It includes 3 sections: [1] an introduction to solutions and factors that influence solubility, such as temperature, pressure, and polarity; [2] different types of solutions (saturated, unsaturated, supersaturated) and how concentration can be expressed; and [3] examples of calculations involving molarity, molality, dilution, and titrations. The document aims to outline the main concepts and equations students need to understand properties and concentrations of solutions.

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Solutions Chapter 13 (part I of II)Properties of Solutions (N.B. aspects of this topic were seen in chapter 4) (This ppt is a modified file from our Textbook publisher with additional slides taken from ppt file found at http://www.chemistrygeek.com/chem2.htm ) Chemistry, The Central Science, 10th edition, AP version Theodore L. Brown; H. Eugene LeMay, Jr.; and Bruce E. Bursten
Solutions Resources and Activities • Textbook - chapter 13 & ppt file (AP, SAT II and regents exams) • Online practice quiz • Lab activities • POGIL activities: – Solution concentration – Interpreting Solubility Curves – Colligative Properties • Chem guy video-lectures at http://www.cosmolearning.com/cour ses/ap-chemistry-with- chemguy/video-lectures/ Chemtour videos from W.W. Norton chapter 10 : http://www.wwnorton.com/college/ chemistry/gilbert2/contents/ch 10/studyplan.asp Chapter 12 Animations from glencoe website for Chang’s book: http://glencoe.mcgraw- hill.com/sites/0023654666/student _view0/chapter12/animations_cent er.html#
Activities and Problem set for chapter 13 (due date_______) TextBook ch. 13 – content required for regents (in part), SAT II and AP exams Lab activities: – Solubility of KNO3 – Colligative properties lab POGILS (3) – Solution concentration – Interpreting Solubility Curves – Colligative Properties Online practice quiz ch 13 due by_____ Chapter 13 reading guide and practice problems packet and following 7 end of chapter exercises:13.59, .63, .67, .69, .71, 73, 75 In class preview and then Independent work - students to view animations & interactive activities (5 in total – 3 from Norton and 2 from the Glencoe site for Chang’s book) and write summary notes on each. These summaries are to be included in your portfolio. Animation to view in class and at home: http://www.wwnorton.com/college/chemistry/gilbert2/contents/ch10/stu dyplan.asp (Henry’s Law; Raoult’s law; Boiling and freezing points; osmotic pressure) http://glencoe.mcgraw- hill.com/sites/0023654666/student_view0/chapter12/animations_ center.html# (dissolution of an ionic and a covalent compound; osmosis)
Student, Beware! Just because a substance disappears when it comes in contact with a solvent, it doesn’t mean the substance dissolved. • Dissolution is a physical change—you can get back the original solute by evaporating the solvent. • If you can’t, the substance didn’t dissolve, it reacted.
Solutions Solutions • Solutions are homogeneous mixtures of two or more pure substances. • In a solution, the solute is dispersed uniformly throughout the solvent. (view Glencoe animation)
An electrolyte is a substance that, when dissolved in water, results in a solution that can conduct electricity. A nonelectrolyte is a substance that, when dissolved, results in a solution that does not conduct electricity. nonelectrolyte weak electrolyte strong electrolyte
Solutions Solutions The intermolecular forces between solute and solvent particles must be strong enough to compete with those between solute particles and those between solvent particles.
Solutions How Does a Solution Form? As a solution forms, the solvent pulls solute particles apart and surrounds, or solvates, them.
Three types of interactions in the solution process: • solvent-solvent interaction • solute-solute interaction • solvent-solute interaction DHsoln = DH1 + DH2 + DH3
Solutions How Does a Solution Form If an ionic salt is soluble in water, it is because the ion- dipole interactions are strong enough to overcome the lattice energy of the salt crystal.
Solutions Why Do Endothermic Processes Occur? Things do not tend to occur spontaneously (i.e., without outside intervention) unless the energy of the system is lowered. Yet we know that in some processes, like the dissolution of NH4NO3 in water, heat is absorbed, not released.
Solutions Enthalpy Is Only Part of the Picture The reason is that increasing the disorder or randomness (known as entropy) of a system tends to lower the energy of the system. So even though enthalpy may increase, the overall energy of the system can still decrease if the system becomes more disordered.
A saturated solution contains the maximum amount of a solute that will dissolve in a given solvent at a specific temperature. An unsaturated solution contains less solute than the solvent has the capacity to dissolve at a specific temperature. A supersaturated solution contains more solute than is present in a saturated solution at a specific temperature. Sodium acetate crystals rapidly form when a seed crystal is added to a supersaturated solution of sodium acetate.
Solutions Types of Solutions • Saturated Solvent holds as much solute as is possible at that temperature. Dissolved solute is in dynamic equilibrium with solid solute particles.
Solutions Types of Solutions • Unsaturated Less than the maximum amount of solute for that temperature is dissolved in the solvent.
Solutions Types of Solutions • Supersaturated Solvent holds more solute than is normally possible at that temperature. These solutions are unstable; crystallization can usually be stimulated by adding a “seed crystal” or scratching the side of the flask.
Solutions Factors Affecting Solubility • Chemists use the axiom “like dissolves like”: Polar substances tend to dissolve in polar solvents. Nonpolar substances tend to dissolve in nonpolar solvents.
Solutions Factors Affecting Solubility The more similar the intermolecular attractions, the more likely one substance is to be soluble in another.
Solutions Factors Affecting Solubility Glucose (which has hydrogen bonding) is very soluble in water, while cyclohexane (which only has dispersion forces) is not.
Solutions Factors Affecting Solubility • Vitamin A is soluble in nonpolar compounds (like fats). • Vitamin C is soluble in water.
Solutions Temperature Generally, the solubility of solid solutes in liquid solvents increases with increasing temperature.
Fractional crystallization is the separation of a mixture of substances into pure components on the basis of their differing solubilities. Suppose you have 90 g KNO3 contaminated with 10 g NaCl. Fractional crystallization: 1. Dissolve sample in 100 mL of water at 600C 2. Cool solution to 00C 3. All NaCl will stay in solution (s = 34.2g/100g) 4. 78 g of PURE KNO3 will precipitate (s = 12 g/100g). 90 g – 12 g = 78 g
Solutions Gases in Solution • In general, the solubility of gases in water increases with increasing mass. • Larger molecules have stronger dispersion forces.
Solutions Gases in Solution • The solubility of liquids and solids does not change appreciably with pressure. • The solubility of a gas in a liquid is directly proportional to its pressure.
Solutions Henry’s Law Sg = kPg where • Sg is the solubility of the gas; • k is the Henry’s law constant for that gas in that solvent; • Pg is the partial pressure of the gas above the liquid.
Solutions Temperature • The opposite is true of gases: Carbonated soft drinks are more “bubbly” if stored in the refrigerator. Warm lakes have less O2 dissolved in them than cool lakes.
Solutions Ways of Expressing Concentrations of Solutions • mass percentage • parts per million (ppm) • parts per billion (ppb) • Mole fraction (X) • molarity (M) • molality (m) • The concentration of a solution is the amount of solute present in a given quantity of solvent or solution
moles of A total moles in solution XA = Mole Fraction (X) • In some applications, one needs the mole fraction of solvent, not solute—make sure you find the quantity you need! Mass Percentage Mass % of A = mass of A in solution total mass of solution  100
Parts per Million and Parts per Billion ppm = mass of A in solution total mass of solution  106 Parts per Million (ppm) Parts per Billion (ppb) ppb = mass of A in solution total mass of solution  109
Solutions mol of solute L of solution M = Molarity (M) • You will recall this concentration measure from Chapter 4. • Because volume is temperature dependent, molarity can change with temperature.
Solutions mol of solute kg of solvent m = Molality (m) Because both moles and mass do not change with temperature, molality (unlike molarity) is not temperature dependent.
Solution Stoichiometry (Chapter 4) The concentration of a solution is the amount of solute present in a given quantity of solvent or solution. M = molarity = moles of solute liters of solution What mass of KI is required to make 500. mL of a 2.80 M KI solution? volume KI moles KI grams KI M KI M KI 500. mL = 232 g KI 166 g KI 1 mol KI x 2.80 mol KI 1 L soln x 1 L 1000 mL x
ccchapter13SOLUTIONSmodifiedsmbpartI.ppt
Dilution is the procedure for preparing a less concentrated solution from a more concentrated solution. Dilution Add Solvent Moles of solute before dilution (i) Moles of solute after dilution (f) = MiVi MfVf =
How would you prepare 60.0 mL of 0.2 M HNO3 from a stock solution of 4.00 M HNO3? MiVi = MfVf Mi = 4.00 Mf = 0.200 Vf = 0.06 L Vi = ? L Vi = MfVf Mi = 0.200 x 0.06 4.00 = 0.003 L = 3 mL 3 mL of acid + 57 mL of water = 60 mL of solution
Solutions Changing Molarity to Molality If we know the density of the solution, we can calculate the molality from the molarity, and vice versa.
What is the molality of a 5.86 M ethanol (C2H5OH) solution whose density is 0.927 g/mL? m = moles of solute mass of solvent (kg) M = moles of solute liters of solution Assume 1 L of solution: 5.86 moles ethanol = 270 g ethanol 927 g of solution (1000 mL x 0.927 g/mL) mass of solvent = mass of solution – mass of solute = 927 g – 270 g = 657 g = 0.657 kg m = moles of solute mass of solvent (kg) = 5.86 moles C2H5OH 0.657 kg solvent = 8.92 m
Gravimetric Analysis 1. Dissolve unknown substance in water 2. React unknown with known substance to form a precipitate 3. Filter and dry precipitate 4. Weigh precipitate 5. Use chemical formula and mass of precipitate to determine amount of unknown ion
Titrations In a titration a solution of accurately known concentration is added gradually added to another solution of unknown concentration until the chemical reaction between the two solutions is complete. Equivalence point – the point at which the reaction is complete Indicator – substance that changes color at (or near) the equivalence point Slowly add base to unknown acid UNTIL the indicator changes color
What volume of a 1.420 M NaOH solution is Required to titrate 25.00 mL of a 4.50 M H2SO4 solution? WRITE THE CHEMICAL EQUATION! volume acid moles acid moles base volume base H2SO4 + 2NaOH 2H2O + Na2SO4 4.50 mol H2SO4 1000 mL soln x 2 mol NaOH 1 mol H2SO4 x 1000 ml soln 1.420 mol NaOH x 25.00 mL = 158 mL M acid rx coef. M base

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ccchapter13SOLUTIONSmodifiedsmbpartI.ppt

  • 1. Solutions Chapter 13 (part I of II)Properties of Solutions (N.B. aspects of this topic were seen in chapter 4) (This ppt is a modified file from our Textbook publisher with additional slides taken from ppt file found at http://www.chemistrygeek.com/chem2.htm ) Chemistry, The Central Science, 10th edition, AP version Theodore L. Brown; H. Eugene LeMay, Jr.; and Bruce E. Bursten
  • 2. Solutions Resources and Activities • Textbook - chapter 13 & ppt file (AP, SAT II and regents exams) • Online practice quiz • Lab activities • POGIL activities: – Solution concentration – Interpreting Solubility Curves – Colligative Properties • Chem guy video-lectures at http://www.cosmolearning.com/cour ses/ap-chemistry-with- chemguy/video-lectures/ Chemtour videos from W.W. Norton chapter 10 : http://www.wwnorton.com/college/ chemistry/gilbert2/contents/ch 10/studyplan.asp Chapter 12 Animations from glencoe website for Chang’s book: http://glencoe.mcgraw- hill.com/sites/0023654666/student _view0/chapter12/animations_cent er.html#
  • 3. Activities and Problem set for chapter 13 (due date_______) TextBook ch. 13 – content required for regents (in part), SAT II and AP exams Lab activities: – Solubility of KNO3 – Colligative properties lab POGILS (3) – Solution concentration – Interpreting Solubility Curves – Colligative Properties Online practice quiz ch 13 due by_____ Chapter 13 reading guide and practice problems packet and following 7 end of chapter exercises:13.59, .63, .67, .69, .71, 73, 75 In class preview and then Independent work - students to view animations & interactive activities (5 in total – 3 from Norton and 2 from the Glencoe site for Chang’s book) and write summary notes on each. These summaries are to be included in your portfolio. Animation to view in class and at home: http://www.wwnorton.com/college/chemistry/gilbert2/contents/ch10/stu dyplan.asp (Henry’s Law; Raoult’s law; Boiling and freezing points; osmotic pressure) http://glencoe.mcgraw- hill.com/sites/0023654666/student_view0/chapter12/animations_ center.html# (dissolution of an ionic and a covalent compound; osmosis)
  • 4. Student, Beware! Just because a substance disappears when it comes in contact with a solvent, it doesn’t mean the substance dissolved. • Dissolution is a physical change—you can get back the original solute by evaporating the solvent. • If you can’t, the substance didn’t dissolve, it reacted.
  • 5. Solutions Solutions • Solutions are homogeneous mixtures of two or more pure substances. • In a solution, the solute is dispersed uniformly throughout the solvent. (view Glencoe animation)
  • 6. An electrolyte is a substance that, when dissolved in water, results in a solution that can conduct electricity. A nonelectrolyte is a substance that, when dissolved, results in a solution that does not conduct electricity. nonelectrolyte weak electrolyte strong electrolyte
  • 7. Solutions Solutions The intermolecular forces between solute and solvent particles must be strong enough to compete with those between solute particles and those between solvent particles.
  • 8. Solutions How Does a Solution Form? As a solution forms, the solvent pulls solute particles apart and surrounds, or solvates, them.
  • 9. Three types of interactions in the solution process: • solvent-solvent interaction • solute-solute interaction • solvent-solute interaction DHsoln = DH1 + DH2 + DH3
  • 10. Solutions How Does a Solution Form If an ionic salt is soluble in water, it is because the ion- dipole interactions are strong enough to overcome the lattice energy of the salt crystal.
  • 11. Solutions Why Do Endothermic Processes Occur? Things do not tend to occur spontaneously (i.e., without outside intervention) unless the energy of the system is lowered. Yet we know that in some processes, like the dissolution of NH4NO3 in water, heat is absorbed, not released.
  • 12. Solutions Enthalpy Is Only Part of the Picture The reason is that increasing the disorder or randomness (known as entropy) of a system tends to lower the energy of the system. So even though enthalpy may increase, the overall energy of the system can still decrease if the system becomes more disordered.
  • 13. A saturated solution contains the maximum amount of a solute that will dissolve in a given solvent at a specific temperature. An unsaturated solution contains less solute than the solvent has the capacity to dissolve at a specific temperature. A supersaturated solution contains more solute than is present in a saturated solution at a specific temperature. Sodium acetate crystals rapidly form when a seed crystal is added to a supersaturated solution of sodium acetate.
  • 14. Solutions Types of Solutions • Saturated Solvent holds as much solute as is possible at that temperature. Dissolved solute is in dynamic equilibrium with solid solute particles.
  • 15. Solutions Types of Solutions • Unsaturated Less than the maximum amount of solute for that temperature is dissolved in the solvent.
  • 16. Solutions Types of Solutions • Supersaturated Solvent holds more solute than is normally possible at that temperature. These solutions are unstable; crystallization can usually be stimulated by adding a “seed crystal” or scratching the side of the flask.
  • 17. Solutions Factors Affecting Solubility • Chemists use the axiom “like dissolves like”: Polar substances tend to dissolve in polar solvents. Nonpolar substances tend to dissolve in nonpolar solvents.
  • 18. Solutions Factors Affecting Solubility The more similar the intermolecular attractions, the more likely one substance is to be soluble in another.
  • 19. Solutions Factors Affecting Solubility Glucose (which has hydrogen bonding) is very soluble in water, while cyclohexane (which only has dispersion forces) is not.
  • 20. Solutions Factors Affecting Solubility • Vitamin A is soluble in nonpolar compounds (like fats). • Vitamin C is soluble in water.
  • 21. Solutions Temperature Generally, the solubility of solid solutes in liquid solvents increases with increasing temperature.
  • 22. Fractional crystallization is the separation of a mixture of substances into pure components on the basis of their differing solubilities. Suppose you have 90 g KNO3 contaminated with 10 g NaCl. Fractional crystallization: 1. Dissolve sample in 100 mL of water at 600C 2. Cool solution to 00C 3. All NaCl will stay in solution (s = 34.2g/100g) 4. 78 g of PURE KNO3 will precipitate (s = 12 g/100g). 90 g – 12 g = 78 g
  • 23. Solutions Gases in Solution • In general, the solubility of gases in water increases with increasing mass. • Larger molecules have stronger dispersion forces.
  • 24. Solutions Gases in Solution • The solubility of liquids and solids does not change appreciably with pressure. • The solubility of a gas in a liquid is directly proportional to its pressure.
  • 25. Solutions Henry’s Law Sg = kPg where • Sg is the solubility of the gas; • k is the Henry’s law constant for that gas in that solvent; • Pg is the partial pressure of the gas above the liquid.
  • 26. Solutions Temperature • The opposite is true of gases: Carbonated soft drinks are more “bubbly” if stored in the refrigerator. Warm lakes have less O2 dissolved in them than cool lakes.
  • 27. Solutions Ways of Expressing Concentrations of Solutions • mass percentage • parts per million (ppm) • parts per billion (ppb) • Mole fraction (X) • molarity (M) • molality (m) • The concentration of a solution is the amount of solute present in a given quantity of solvent or solution
  • 28. moles of A total moles in solution XA = Mole Fraction (X) • In some applications, one needs the mole fraction of solvent, not solute—make sure you find the quantity you need! Mass Percentage Mass % of A = mass of A in solution total mass of solution  100
  • 29. Parts per Million and Parts per Billion ppm = mass of A in solution total mass of solution  106 Parts per Million (ppm) Parts per Billion (ppb) ppb = mass of A in solution total mass of solution  109
  • 30. Solutions mol of solute L of solution M = Molarity (M) • You will recall this concentration measure from Chapter 4. • Because volume is temperature dependent, molarity can change with temperature.
  • 31. Solutions mol of solute kg of solvent m = Molality (m) Because both moles and mass do not change with temperature, molality (unlike molarity) is not temperature dependent.
  • 32. Solution Stoichiometry (Chapter 4) The concentration of a solution is the amount of solute present in a given quantity of solvent or solution. M = molarity = moles of solute liters of solution What mass of KI is required to make 500. mL of a 2.80 M KI solution? volume KI moles KI grams KI M KI M KI 500. mL = 232 g KI 166 g KI 1 mol KI x 2.80 mol KI 1 L soln x 1 L 1000 mL x
  • 34. Dilution is the procedure for preparing a less concentrated solution from a more concentrated solution. Dilution Add Solvent Moles of solute before dilution (i) Moles of solute after dilution (f) = MiVi MfVf =
  • 35. How would you prepare 60.0 mL of 0.2 M HNO3 from a stock solution of 4.00 M HNO3? MiVi = MfVf Mi = 4.00 Mf = 0.200 Vf = 0.06 L Vi = ? L Vi = MfVf Mi = 0.200 x 0.06 4.00 = 0.003 L = 3 mL 3 mL of acid + 57 mL of water = 60 mL of solution
  • 36. Solutions Changing Molarity to Molality If we know the density of the solution, we can calculate the molality from the molarity, and vice versa.
  • 37. What is the molality of a 5.86 M ethanol (C2H5OH) solution whose density is 0.927 g/mL? m = moles of solute mass of solvent (kg) M = moles of solute liters of solution Assume 1 L of solution: 5.86 moles ethanol = 270 g ethanol 927 g of solution (1000 mL x 0.927 g/mL) mass of solvent = mass of solution – mass of solute = 927 g – 270 g = 657 g = 0.657 kg m = moles of solute mass of solvent (kg) = 5.86 moles C2H5OH 0.657 kg solvent = 8.92 m
  • 38. Gravimetric Analysis 1. Dissolve unknown substance in water 2. React unknown with known substance to form a precipitate 3. Filter and dry precipitate 4. Weigh precipitate 5. Use chemical formula and mass of precipitate to determine amount of unknown ion
  • 39. Titrations In a titration a solution of accurately known concentration is added gradually added to another solution of unknown concentration until the chemical reaction between the two solutions is complete. Equivalence point – the point at which the reaction is complete Indicator – substance that changes color at (or near) the equivalence point Slowly add base to unknown acid UNTIL the indicator changes color
  • 40. What volume of a 1.420 M NaOH solution is Required to titrate 25.00 mL of a 4.50 M H2SO4 solution? WRITE THE CHEMICAL EQUATION! volume acid moles acid moles base volume base H2SO4 + 2NaOH 2H2O + Na2SO4 4.50 mol H2SO4 1000 mL soln x 2 mol NaOH 1 mol H2SO4 x 1000 ml soln 1.420 mol NaOH x 25.00 mL = 158 mL M acid rx coef. M base