Part 4: Oxidation Numbers 6. Meny chemical reactions are labeled "redox reactions". inyarate dissolved. a. Explain what

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Part 4 Oxidation Numbers 6 Meny Chemical Reactions Are Labeled Redox Reactions Inyarate Dissolved A Explain What 1 (69.86 KiB) Viewed 21 times

Part 4: Oxidation Numbers 6. Meny chemical reactions are labeled "redox reactions". inyarate dissolved. a. Explain what a redox reaction is, detailing the main event in such reactions that it would be a "redox" reaction. b. For the reaction we are dissecting in this project, determine if it is a redox reaction. If it is, identify the elements that are oxidized and the element reduced, detailing the change(s) in oxidation number that illustrates redox behavior. c. When a redox reaction occurs, there is an oxidizing agent and a reducing agent. From the reactants, identify the oxidizing agent and reducing agent. In a few sentences, explain how you derived the oxidation numbers, what an oxidation number represents, and how you determined the difference between the oxidizing and reducing agent. Part 7: Aqueous Chemistry...Ionic Equations 7. In many aqueous chemical reactions, there are ions that are not involved in the chemical change but serve to deliver the ions that are involved. hen a compound in a chemical equation has an aqueous label, and is ionic, it consists of the constituent ions separated in solution. We represent the ions in a complete ionic equation that shows this, as well as any solids or gasses. See section 7.1 of the text. a. For this reaction, type out the complete ionic equation and the net ionic equation for the reaction between copper(1) chloride dihydrate and aluminum metal. b. Explain how you arrived at your answer in a narrative (4-8 sentences), including why you canceled any ions or molecules as spectators. Include phase labels on each species. c. Delving deeper into the redox nature of this reaction, half reactions display the individual species and the transfer of electrons. Now that you have the net ionic equation, separate the net ionic equation into constituent half reactions, showing the species being reduced and the half reaction showing the species being oxidized. Illustrate the additivity of these two reactions to make the whole net ionic equation. See section 7.7 of the text