Textbook Question
Ethanol 1CH CH OH 2 dissolves in hexane 1C H 2. Give the strongest type of intermolecular force between two sol- ute molecules, between two solvent molecules, and between a solute and solvent molecule. (LO 13.1) (a)
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Ch.13 - Solutions & Their Properties
Chapter 13, Problem 2
When lithium chloride dissolves in water, the temperature of the solution increases. Which diagram represents the enthalpy changes of the steps in the solution-making process? (LO 13.2)
Verified step by step guidance1
Identify the process of dissolving lithium chloride in water as an exothermic reaction, where the temperature of the solution increases.
Understand that the enthalpy change of solution (ΔH_solution) can be broken down into three steps: breaking the lattice of the solute (endothermic), breaking the hydrogen bonds of the solvent (endothermic), and forming new interactions between solute and solvent (exothermic).
Recognize that the overall enthalpy change (ΔH_solution) is the sum of the enthalpy changes of these steps: ΔH_lattice (endothermic) + ΔH_hydration (exothermic).
Since the temperature increases, the exothermic process (ΔH_hydration) must be greater in magnitude than the endothermic process (ΔH_lattice), resulting in a negative ΔH_solution.
Visualize a diagram where the initial energy level (lattice energy) is higher, followed by a rise (endothermic step), and then a larger drop (exothermic step) to a final energy level lower than the initial, indicating an overall exothermic process.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Enthalpy of Solution
The enthalpy of solution refers to the heat change that occurs when a solute dissolves in a solvent. It can be either exothermic, where heat is released (as in the case of lithium chloride in water), or endothermic, where heat is absorbed. Understanding this concept is crucial for analyzing temperature changes during dissolution.
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Enthalpy of Formation
Endothermic vs. Exothermic Processes
Endothermic processes absorb heat from the surroundings, leading to a decrease in temperature, while exothermic processes release heat, causing an increase in temperature. In the context of lithium chloride dissolving in water, the exothermic nature of the process results in a temperature rise, which is essential for interpreting the enthalpy changes involved.
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01:23Endothermic & Exothermic Reactions Example 2
Thermodynamic Diagrams
Thermodynamic diagrams, such as enthalpy change diagrams, visually represent the energy changes during a chemical process. They typically illustrate the steps of dissolution, including the breaking of ionic bonds in the solute and the formation of solute-solvent interactions. Understanding how to read these diagrams is vital for identifying the enthalpy changes associated with the dissolution of lithium chloride.
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01:18First Law of Thermodynamics
Related Practice
Textbook Question
In which solvent does sodium acetate 1CH COONa2 have the highest solubility (a) Acetone CH3OCH3 (b) Methanol (CH3OH) (c) Ethanol (CH3CH2OH) (d) Pentane (CH3CH2CH2CH2CH3)
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Textbook Question
Rubbing alcohol is a 90% (by mass) solution of isopropyl alcohol, C3H8O, in water. How many moles of isopropyl alcohol are in 50.0 g of rubbing alcohol? (LO 13.4) (a) 45 mol
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Textbook Question
Fluoride ion is added to drinking water at low concentra- tions to prevent tooth decay. What mass of sodium fluoride (NaF) should be added to 750 L of water to make a solution
that is 1.5 ppm in fluoride ion? (LO 13.5) (a) 1.1 g (b) 2.5 g (c) 0.51 g (d) 3.1 g
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