A Lile Extra RECAP AND SUMMARY Unit 08 - Solutions ______________________________________________________________ Match the description in the first column with the term in the second column. 1 The concentration expression used when calculating freezing point depression. G A colligative 2 The ratio 10g NaOH / (10g NaOH + 190 g H2O) is an example of this concentration expression. F B colloid 3 The amount of a solute present in a solution when it is saturated under the given conditions. K C Raoult’s law 4 The process of surrounding a solute by water molecules. E D Henry’s law 5 The type of solution formed when an equilibrium exists between a solid solute and its dissolved ions. J E hydration 6 The condition of equilibrium when 0.003g/mL of CdCO3 is completely dissolved at 25oC and the solubility of CdCO3 is 0.000448 g/mL. L F mass percent 7 The condition of equilibrium when 0.00005g/mL of CdCO3 is completely dissolved at 25oC and the solubility of CdCO3 is 0.000448 g/mL. N G molality 8 The type of solution that can form in a mixture with water and particles of approximately 500 nm. B H osmosis 9 The name given to the scattering of light that occurs when a beam of light at right angles to the line of sight. M I osmotic pressure 10 When two solutions are connected by a semipermeable membrane and are isotonic, they have the same physical property which has this name. I J saturated 11 The process of solvent molecules passing through a semipermeable membrane from a more dilute solution to a more concentrated one. H K solubility 12 A property of a solution that depends on the numbers of solute and solvent particles. A L supersatrated 13 The vapor pressure of a mixture is lower than that of the pure solvent by a factor equal to the mole fraction of the solvent. C M Tyndall effect 14 A statement that the pressure of a gas over a solvent in which it is dissolved depends on the solubility of the gas in the solvent. D N unsaturated Are the following statements true or false? 15. A solution contains 0.30 mg of sodium ion per liter of solution. This corresponds to a concentration of sodium ion of 3.0 ppm. FALSE 16. Crystallization occurs more readily when a seed crystal is present. TRUE 17. The molal boiling-point elevation constant for carbon tetrachloride is 2.53oC/m. This means that 1m of nonvolatile solute particles in carbon tetrachloride will cause the solution to boil 2.53oC higher than pure carbon tetrachloride. TRUE 18. The presence of ion pairs in a NaCl solution will cause a further increase in osmotic pressure. FAL 19. CH4 should have hydrophilic properties. FALSE 20. A CH3(CH2)20 group in a molecule should cause the molecule to be hydrophobic. TRUE 21. Water and CH3(CH2)7OH are both liquids and therefore miscible. FALSE 22. Dissolving solid NaCl in water increases the entropy of the system. TRUE New 2014-2015 Page 1 of 3 - APChem- LCA A Lile Extra RECAP AND SUMMARY Unit 08 - Solutions ______________________________________________________________ 23. 24. 25. 26. 27. Copper metal is miscible in water. FALSE Hydrocarbons are immiscible in water. TRUE A 0.50M solution of KCl and a 0.10M solution of solution are isotonic. FALSE A hypotonic solution has an osmotic pressure that is higher than another solution. FALSE A 0.20M NaCl solution is hypertonic with respect to a 0.20M CaCl2 solution. FALSE A few final short answer questions . . . 28. The heat of solution of RbCl in water at 25oC is 16.7 kJ/mol. Given that the process is endothermic, how can RbCl dissolve in H2O? 29. What are two significant advantages of using the concentration unit molality compared to using molarity? When will the two terms have similar values for an aqueous solution? 30. Which acid should give a greater freezing-point depression, a 0.002m HF solution of a 0.002m HCl solution? Explain. 31. The freezing-points for 0.01m solutions of Co(NH3)6Cl3, MgSO4, NH4Cl, and CH3COOH are 0.0643oC, 0.0308oC, 0.0358oC, and 0.0193oC, respectively. Kf for H2O is 1.86oC/m. Which compounds are strong electrolytes and which are weak? Which compound forms the greatest number of ions in a 0.01m solution? New 2014-2015 Page 2 of 3 - APChem- LCA A Lile Extra RECAP AND SUMMARY Unit 08 - Solutions ______________________________________________________________ #28 The energy associated with the ion-water attractions is not sufficient to overcome the endothermic energetics of solute and solvent particle separation. Another principle exists and operates in this case: processes that lead to an increase in the entropy of a system favor spontaneous processes. The dissolving of a highly ordered crystalline RbCl in water leads to solvated ions that now are able to move. This results in a net increase in the number of microstates/arrangements of molecules in the system and permits the dissociation process to occur. #29 The key difference between the two concentration units is denominator. Molarity is calculated using a volume, which is temperature dependent. So molarity varies with temperature while molality is independent of temperature. When an aqueous solution is very dilute, the mass of the solute contributes very little to density; thus there is essentially no difference between the number of kilograms and the number of liters. #30 The freezing-point depression is proportional to the molality of the solution. The two acids have the same molality, but HCl is a strong acid and ionizes 100% while HF is a weak acid and ionizes to a very small extent. The number of solute particles produced in the ionization of HCl is greater than the number of particles produced in the ionization of HF. This results in a greater freezingpoint depression for HCl. #31 The ΔT lowering for a 0.01m weak electrolyte solution is approximately ΔTf = Kfm = (1.86oC/m) (0.01m) = 0.0186oC. Only the 0.01m CH3COOH solution has a ΔTf approximately equal to 0.0186oC; it is the only weak electrolyte. The other salt solutions produce freezing-point depressions significantly greater than that of acetic acid; thus they are all strong electrolytes. Since the 0.01m solution of Co(NH3)6Cl3 produces the greatest ΔTf lowering the molality of all species in the solution is the largest; it forms the greatest number of ions in solution. New 2014-2015 Page 3 of 3 - APChem- LCA
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