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Chapter 13 Properties of Solutions. Solutions. Solutions are homogeneous mixtures of two or more pure substances. In a solution, the solute is dispersed uniformly throughout the solvent. How Does a Solution Form?.
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Solutions Solutionsare homogeneous mixtures of two or more pure substances. In a solution, the solute is dispersed uniformly throughout the solvent.
How Does a Solution Form? As a solution forms, the solvent pulls solute particles apart and surrounds, or solvates, them.
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. How Does a Solution Form?
Student, Beware! Just because a substance disappears when it comes in contact with a solvent, it doesn’t mean the substance dissolved. It may have reacted.
Dissolution is a physical change—you can get back the original solute by evaporating the solvent. If you can’t get it back, the substance didn’t dissolve, it reacted. Student, Beware!
Types of Solutions Saturated In a saturatedsolution, the solvent holds as much solute as is possible at that temperature. Dissolved solute is in dynamic equilibrium with solid solute particles. Unsaturated If a solution is unsaturated, less solute than can dissolve in the solvent at that temperature is dissolved in the solvent. Supersaturated In supersaturated solutions, the 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.
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.
Factors Affecting Solubility The more similar the intermolecular attractions, the more likely one substance is to be soluble in another.
Glucose (which has hydrogen bonding) is very soluble in water, while cyclohexane (which only has dispersion forces) is not. Factors Affecting Solubility
Vitamin A is soluble in nonpolar compounds (like fats). Vitamin C is soluble in water. Factors Affecting Solubility
Sample Exercise 13.1Predicting Solubility Patterns Predict whether each of the following substances is more likely to dissolve in the nonpolar solvent carbon tetrachloride (CCl4) or in water: C7H16, Na2SO4, HCl, and I2. Solve: C7H16 is nonpolar. Na2SO4, is ionic. HCl, is polar. I2, is nonpolar. We would therefore predict that C7H16 and I2 (the nonpolar solutes) would be more soluble in the nonpolar CCl4 than in polar H2O, whereas water would be the better solvent for Na2SO4 and HCl (the ionic and polar covalent solutes).
Gases in Solution In general, the solubility of gases in water increases with increasing mass. Larger molecules have stronger dispersion forces.
The solubility of liquids and solids does not change appreciably with pressure. But the solubility of a gas in a liquid is directly proportional to its pressure. Gases in Solution
Temperature Generally, the solubility of solid solutes in liquid solvents increases with increasing 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. Temperature
Mass Fraction Mass % of A = mass of A in solution total mass of solution mass of A in solution total mass of solution Mass fraction = Mass Percentage 100
Parts per Million andParts per Billion ppm = mass of A in solution total mass of solution mass of A in solution total mass of solution Parts per million (ppm) 106 Parts per billion (ppb) 109 ppb =
Sample Exercise 13.3Calculation of Mass-Related Concentrations (a) A solution is made by dissolving 13.5 g of glucose (C6H12O6) in 0.100 kg of water. What is the mass percentage of solute in this solution? (b) A 2.5-g sample of groundwater was found to contain 5.4 g of Zn2+. What is the concentration of Zn2+ in parts per million? Solution:
Mole Fraction (X ) In some applications, one needs the mole fraction of solvent, not solute—make sure you find the quantity you need! moles of A total moles of all components XA =
Molarity (M ) You will recall this concentration measure from Chapter 4. Since volume is temperature-dependent, molarity can change with temperature. moles of solute liters of solution M =
Molality (m) Since both moles and mass do not change with temperature, molality (unlike molarity) is not temperature-dependent. moles of solute kilograms of solvent m =
Sample Exercise 13.4Calculation of Molality A solution is made by dissolving 4.35 g glucose (C6H12O6) in 25.0 mL of water at 25 C. Calculate the molality of glucose in the solution. Water has a density of 1.00 g/mL. Solution: Because water has a density of 1.00 g/mL, the mass of the solvent is: (25.0 mL)(1.00 g/mL) = 25.0 g = 0.0250 kg
Sample Exercise 13.5Calculation of Mole Fraction and Molarity An aqueous solution of hydrochloric acid contains 36% HCl by mass. (a) Calculate the mole fraction of HCl in the solution. (b) Calculate the molality of HCl in the solution.
Sample Exercise 13.6Calculation of Molarity Using the Density of the Solution A solution with a density of 0.876 g/mL contains 5.0 g of toluene (C7H8) and 225 g of benzene. Calculate the molarity of the solution. Solution:
Colligative Properties Changes in colligative propertiesdepend only on the number of solute particles present, not on the identity of the solute particles. Among colligative properties are Vapor-pressure lowering Boiling-point elevation Melting-point depression Osmotic pressure
Boiling-Point Elevation and Freezing-Point Depression Note that in both equations, T does not depend on what the solute is, but only on how many particles are dissolved. Tb = Kb m Tf = Kf m
Sample Exercise 13.8Calculating Of Boiling-Point Elevation and Freezing-Point Depression Automotive antifreeze consists of ethylene glycol, CH2(OH)CH2(OH), a nonvolatile nonelectrolyte. Calculate the boiling point and freezing point of a 25.0 mass % solution of ethylene glycol in water. Tb= Kbm = (0.51 C/m)(5.37 m) = 2.7 C Tf= Kfm = (1.86 C/m)(5.37 m) = 10.0 C Boiling point = (normal bp of solvent) + Tb = 100.0 C + 2.7 C = 102.7 C Freezing point = (normal fp of solvent) Tf = 0.0 C 10.0 C = 10.0 C
Colligative Properties of Electrolytes Since the colligative properties of electrolytes depend on the number of particles dissolved, solutions of electrolytes (which dissociate in solution) should show greater changes than those of nonelectrolytes.
Osmosis Some substances form semipermeable membranes, allowing some smaller particles to pass through, but blocking other larger particles. In biological systems, most semipermeable membranes allow water to pass through, but solutes are not free to do so.
In osmosis, there is net movement of solvent from the area of higher solvent concentration(lowersoluteconcentration) to the area of lower solvent concentration(highersoluteconcentration). Osmosis
Osmotic Pressure The pressure required to stop osmosis, known as osmotic pressure, P, is n V P =( )RT = MRT where M is the molarity of the solution. If the osmotic pressure is the same on both sides of a membrane (i.e., the concentrations are the same), the solutions are isotonic.
Osmosis in Blood Cells If the solute concentration outside the cell is greater than that inside the cell, the solution is hypertonic. Water will flow out of the cell, and crenation results.
Osmosis in Cells If the solute concentration outside the cell is less than that inside the cell, the solution is hypotonic. Water will flow into the cell, and hemolysis results.
Sample Exercise 13.10Calculating Involving Osmotic Pressure The average osmotic pressure of blood is 7.7 atm at 25 C. What molarity of glucose (C6H12O6) will be isotonic with blood? Solution:
Desalinationتحلية المياه • “Water, water everywhere, and not a drop to drink.” Seawater has too high a concentration of NaCl for human consumption. • It can be desalinated through reverse osmosis.
Reverse Osmosis • Water naturally flows through a semipermeable membrane from regions of higher water concentration to regions of lower water concentration. • If pressure is applied, the water can be forced through a membrane in the opposite direction, concentrating the pure water.
Water Purification In third-world countries, products such as the LifeStraw can provide safe drinking water. • As one sucks water through the strawشرب بالقصبة , filters remove most of the sediment and bacteria. • Iodine-impregnatedbeadsحبيبات اليود المخصب then kill viruses and bacteria. • Charcoal removes the iodine smell and most remaining parasites طفيليات.