Consider the following voltaic cell, which utilizes a salt bridge containing K+ and NO3–:Zn (s) ∣ Zn2+(aq) ‖ Cd2+(aq) ∣ Cd (s)Identify the anode and cathode, and indicate the direction of potassium ion and nitrate ion flow from the salt bridge.Group of answer choices:Cd is the anode and Zn is the cathode; NO3– flows into the anodic cell and K+ flows into the cathodic cell.Actually, it is the Zn2+ and Cd2+ ions that move into the salt bridge.Cd is the anode and Zn is the cathode; K+ flows into the anodic cell and NO3– flows into the cathodic cell.Zn is the anode and Cd is the cathode; K+ flows into the anodic cell and NO3– flows into the cathodic cell.Zn is the anode and Cd is the cathode; NO3– flows into the anodic cell and K+ flows into the cathodic cell.

Right side of cell representation represents cathode reaction and left side of cell representation…

Answered: Consider the following voltaic cell,…

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Consider the following voltaic cell, which utilizes a salt bridge containing K⁺ and NO₃^–:

Zn _(s) ∣ Zn²⁺_(aq) ‖ Cd²⁺_(aq) ∣ Cd _(s)

Identify the anode and cathode, and indicate the direction of potassium ion and nitrate ion flow from the salt bridge.

Group of answer choices:

Cd is the anode and Zn is the cathode; NO₃^– flows into the anodic cell and K⁺ flows into the cathodic cell.

Actually, it is the Zn²⁺ and Cd²⁺ ions that move into the salt bridge.

Cd is the anode and Zn is the cathode; K⁺ flows into the anodic cell and NO₃^– flows into the cathodic cell.

Zn is the anode and Cd is the cathode; K⁺ flows into the anodic cell and NO₃^– flows into the cathodic cell.

Zn is the anode and Cd is the cathode; NO₃^– flows into the anodic cell and K⁺ flows into the cathodic cell.

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