Consider the following galvanic cell: E° (V) Sn4+  +  2 e−   →   Sn2+ 0.139 Ag+  +  e−   →   Ag(s) 0.799 Write a line notation for the spontaneous electrochemical cell (be sure to put the anode and the cathode in agreement with your previous answers).

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Chapter1: Chemical Foundations
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Consider the following galvanic cell:

E° (V)

Sn4+  +  2 e   →   Sn2+

0.139

Ag+  +  e   →   Ag(s)

0.799

Write a line notation for the spontaneous electrochemical cell (be sure to put the anode and the cathode in agreement with your previous answers).

The image depicts a galvanic cell setup, illustrating the electrochemical process between tin (Sn) and silver (Ag) electrodes. 

- **Left Beaker:** 
  - Contains a tin electrode submerged in a solution of tin ions (Sn²⁺, Sn⁴⁺).
  - Labeled "Sn" for the electrode and "Sn²⁺, Sn⁴⁺" for the solution, indicating the presence of tin ions in different oxidation states.

- **Right Beaker:** 
  - Contains a silver electrode submerged in a solution of silver ions (Ag⁺).
  - Labeled "Ag" for the electrode and "Ag⁺" for the solution, indicating the presence of silver ions.

- **Salt Bridge:**
  - A KCl (potassium chloride) salt bridge connects the two beakers.
  - The salt bridge allows ionic conduction, maintaining charge balance by allowing ions to flow between the two solutions.

- **Circuit:**
  - Wires connect the electrodes to an external circuit, completing the electrical pathway for electron flow.

This setup demonstrates how redox reactions can generate electrical energy, with electrons flowing from the tin electrode to the silver electrode through the external circuit, while ionic movement occurs through the salt bridge.
Transcribed Image Text:The image depicts a galvanic cell setup, illustrating the electrochemical process between tin (Sn) and silver (Ag) electrodes. - **Left Beaker:** - Contains a tin electrode submerged in a solution of tin ions (Sn²⁺, Sn⁴⁺). - Labeled "Sn" for the electrode and "Sn²⁺, Sn⁴⁺" for the solution, indicating the presence of tin ions in different oxidation states. - **Right Beaker:** - Contains a silver electrode submerged in a solution of silver ions (Ag⁺). - Labeled "Ag" for the electrode and "Ag⁺" for the solution, indicating the presence of silver ions. - **Salt Bridge:** - A KCl (potassium chloride) salt bridge connects the two beakers. - The salt bridge allows ionic conduction, maintaining charge balance by allowing ions to flow between the two solutions. - **Circuit:** - Wires connect the electrodes to an external circuit, completing the electrical pathway for electron flow. This setup demonstrates how redox reactions can generate electrical energy, with electrons flowing from the tin electrode to the silver electrode through the external circuit, while ionic movement occurs through the salt bridge.
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