12.6
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Q1: How does temperature affect the solubility of solid solutes in water?
For most solid solutes, solubility increases as temperature rises, though exceptions like cesium sulfate exist. Different substances respond differently to temperature changes. Potassium nitrate's solubility rises sharply with heat, while potassium chloride changes minimally. This temperature dependence enables fractional crystallization, a separation technique where cooling a mixed solution causes the least soluble component to precipitate first.
Q2: Why does soda go flat when it warms up?
Gas solubility in water decreases as temperature increases. When cold soda warms to room temperature, carbon dioxide becomes less soluble and escapes as bubbles, causing the soda to flatten. This inverse relationship between temperature and dissolved gas concentration is fundamental to understanding gas behavior in solutions.
Q3: What is Henry's Law and how does it apply to carbonated beverages?
Henry's Law states that gas solubility equals the Henry's Law Constant multiplied by the gas pressure. During soda production, carbon dioxide dissolves in sugar solution under high pressure, saturating the solution. When a can opens, pressure drops and carbon dioxide escapes, producing the characteristic pop and bubbles as the gas becomes less soluble.
Q4: How do intermolecular forces influence gas solubility in liquids?
Gas solubility depends on solute-solvent intermolecular attractions since gases lack solute-solute interactions. Oxygen dissolves three times better in water than helium due to stronger dispersion forces with larger oxygen molecules. Polar chloromethane dissolves 100 times better than oxygen in water because dipole-dipole attractions between chloromethane and water are stronger than dispersion forces.
Q5: Why is oxygen more soluble in hexane than in water?
Oxygen's solubility in hexane is approximately 20 times greater than in water because larger hexane molecules create stronger dispersion forces with oxygen molecules compared to water. Since gas solubility depends primarily on solute-solvent interactions, the greater dispersion forces between oxygen and hexane result in higher gas solubility in that solvent.
Q6: What role does pressure play in dissolving gases in liquids?
Higher gas pressure above a liquid increases gas solubility proportionally, as quantified by Henry's Law. The partial pressure of a gas directly determines how much dissolves in solution. This pressure-solubility relationship is why carbonated beverages require high pressure during manufacturing to achieve saturation with carbon dioxide.
Q7: How can fractional crystallization separate mixed solutes?
Fractional crystallization exploits differences in how solute solubility changes with temperature. When a solution containing potassium nitrate and potassium chloride is heated then cooled slowly, potassium nitrate precipitates first because its solubility decreases more dramatically at low temperatures. This selective crystallization allows separation of components based on their distinct temperature-solubility profiles.
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