Textbook Question
Assign oxidation numbers to each atom in Borax, Na2B4O7, a mineral used in laundry detergent. (LO 4.18)
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Ch.4 - Reactions in Aqueous Solution
McMurry8th EditionChemistryISBN: 9781292336145
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Table of contents
- Ch.1 - Chemical Tools: Experimentation & Measurement143
- Ch.2 - Atoms, Molecules & Ions134
- Ch.3 - Mass Relationships in Chemical Reactions149
- Ch.4 - Reactions in Aqueous Solution157
- Ch.5 - Periodicity & Electronic Structure of Atoms92
- Ch.6 - Ionic Compounds: Periodic Trends and Bonding Theory73
- Ch.7 - Covalent Bonding and Electron-Dot Structures47
- Ch.8 - Covalent Compounds: Bonding Theories and Molecular Structure51
- Ch.9 - Thermochemistry: Chemical Energy104
- Ch.10 - Gases: Their Properties & Behavior138
- Ch.11 - Liquids & Phase Changes43
- Ch.12 - Solids and Solid-State Materials56
- Ch.13 - Solutions & Their Properties98
- Ch.14 - Chemical Kinetics79
- Ch.15 - Chemical Equilibrium107
- Ch.16 - Aqueous Equilibria: Acids & Bases94
- Ch.17 - Applications of Aqueous Equilibria125
- Ch.18 - Thermodynamics: Entropy, Free Energy & Equilibrium66
- Ch.19 - Electrochemistry130
- Ch.20 - Nuclear Chemistry73
- Ch.21 - Transition Elements and Coordination Chemistry122
- Ch.22 - The Main Group Elements155
- Ch.23 - Organic and Biological Chemistry43
Chapter 4, Problem 37
Box (a) represents 1.0 mL of a solution of particles at a given concentration. Which of the boxes (b)–(d) represents 1.0 mL of the solution that results after (a) has been diluted by doubling the volume of its solvent? (a)
(b)
(c)
(d)
Verified step by step guidance1
Step 1: Understand the concept of dilution. Dilution involves adding more solvent to a solution, which decreases the concentration of the solute. The total amount of solute remains the same, but it is spread out over a larger volume.
Step 2: Identify the initial conditions. Box (a) represents 1.0 mL of a solution at a certain concentration. This is your starting point before dilution.
Step 3: Determine the effect of doubling the volume. Doubling the volume of the solvent means the final volume will be 2.0 mL. The concentration of the solution will be halved because the same amount of solute is now in a larger volume.
Step 4: Visualize the particle distribution. In the diluted solution, the particles will be more spread out compared to the original solution in box (a).
Step 5: Compare the options. Look at boxes (b), (c), and (d) to identify which one shows particles that are half as concentrated as in box (a), indicating the correct representation of the diluted solution.
Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Dilution
Dilution is the process of reducing the concentration of a solute in a solution, typically by adding more solvent. When a solution is diluted, the number of solute particles remains the same, but the total volume increases, leading to a lower concentration. For example, if you have 1.0 mL of a solution and you double the volume by adding 1.0 mL of solvent, the concentration of the solute is halved.
Recommended video:
Guided course
00:58
Dilution Equation
Concentration
Concentration refers to the amount of solute present in a given volume of solution. It is often expressed in units such as molarity (moles per liter) or mass/volume percent. Understanding concentration is crucial for predicting how changes in volume, such as dilution, will affect the properties of the solution, including its reactivity and behavior in chemical reactions.
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07:35Calculate Concentration of the Basic Form
Volume and Solvent Relationship
The relationship between volume and solvent in a solution is fundamental to understanding how dilution affects concentration. When the volume of solvent is increased, the solute is spread over a larger volume, which decreases its concentration. This principle is essential for solving problems related to mixing solutions and predicting the outcomes of chemical processes involving solutions.
Recommended video:
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01:09Relationship of Volume and Moles Example
Related Practice
Textbook Question
The most strongly reducing elements are listed at the top of the partial activity series table provided. Use the activity series to predict which reaction will occur. (LO 4.20) (a) (b) (c) (d)
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Textbook Question
Assume that an aqueous solution of OH-, represented as a blue sphere, is allowed to mix with a solution of an acid HnA, represented as a red sphere. Three possible outcomes are depicted by boxes (1)–(3), where the green spheres represent An-, the anion of the acid: Which outcome corresponds to each of the following reactions? (a) (b) (c)
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Textbook Question
The concentration of an aqueous solution of NaOCl (sodium hypochlorite; the active ingredient in household bleach) can be determined by a redox titration with iodide ion in acidic solution: Assume that the blue spheres in the buret represent I-ions, the red spheres in the flask represent OCl-ions, the con-centration of the I-ions in the buret is 0.120 M, and the volumes in the buret and the flask are identical. What is the concentration of NaOCl in the flask? What percentage of the I-solution in the buret must be added to the flask to react with all the OCl-ions?
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Textbook Question
Assume that an aqueous solution of a cation, represented as a red sphere, is allowed to mix with a solution of an anion, represented as a yellow sphere. Three possible outcomes are represented by boxes (1)–(3): Which outcome corresponds to each of the following reactions?(a) 2 Na+(aq) + CO32-(aq) S(b) Ba2+(aq) + CrO42-(aq) S(c) 2 Ag+(aq) + SO32-(aq) S
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Textbook Question
Identify the element that gets oxidized and the oxidizing agent in the reaction. (LO 4.19) (a) (b) (c) (d)
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