Write the two half reactions that occurres in each half cell, be sure to correctly indicate the cathode and anode, then combine them to write the full net ionic equation.

Chemistry
10th Edition
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Chapter1: Chemical Foundations
Section: Chapter Questions
Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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**Instructions for Writing Half Reactions and Net Ionic Equations**

1. **Identify the Half Reactions:** 
   Write the two half reactions that occur in each half-cell of an electrochemical cell. 

2. **Indicate Cathode and Anode:**
   Make sure to correctly identify which reaction occurs at the cathode and which reaction occurs at the anode.
   
3. **Combine the Reactions:**
   Combine the two half reactions to write the full net ionic equation.

**Note:**
- The cathode is where the reduction reaction occurs.
- The anode is where the oxidation reaction occurs.
- In a balanced redox reaction, the number of electrons lost in oxidation must equal the number of electrons gained in reduction.

This will help in understanding how different elements and compounds interact in electrochemical processes, facilitating a deeper understanding of fundamental chemical principles.
Transcribed Image Text:**Instructions for Writing Half Reactions and Net Ionic Equations** 1. **Identify the Half Reactions:** Write the two half reactions that occur in each half-cell of an electrochemical cell. 2. **Indicate Cathode and Anode:** Make sure to correctly identify which reaction occurs at the cathode and which reaction occurs at the anode. 3. **Combine the Reactions:** Combine the two half reactions to write the full net ionic equation. **Note:** - The cathode is where the reduction reaction occurs. - The anode is where the oxidation reaction occurs. - In a balanced redox reaction, the number of electrons lost in oxidation must equal the number of electrons gained in reduction. This will help in understanding how different elements and compounds interact in electrochemical processes, facilitating a deeper understanding of fundamental chemical principles.
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