In a corroding pipe, the electrons released at the anode will combine with which species in the pipe at the cathode?

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Prepare for the ADEQ Water Treatment 2 Exam with our comprehensive study tools including flashcards and multiple-choice questions. Each question is equipped with helpful hints and detailed explanations to ensure you're ready to excel on your exam day!

Multiple Choice

In a corroding pipe, the electrons released at the anode will combine with which species in the pipe at the cathode?

In a corroding pipe, electrons flow from the anode to the cathode and are used in the reduction reaction that occurs there. In the aqueous environment of the pipe, the easiest and most common species to reduce is the hydrogen ion. Two hydrogen ions gain two electrons and form hydrogen gas: 2 H+ + 2 e− → H2. That’s why hydrogen gas evolution is the typical cathodic process in corrosion.

Ferrous hydroxide can form later from Fe2+ and OH−, but it isn’t the species being reduced at the cathode. Organics aren’t the primary electron acceptors in this corrosion context, and reducing metal cations to metal is not the usual cathodic path here.

In a corroding pipe, the electrons released at the anode will combine with which species in the pipe at the cathode?

Prepare for the ADEQ Water Treatment 2 Exam with our comprehensive study tools including flashcards and multiple-choice questions. Each question is equipped with helpful hints and detailed explanations to ensure you're ready to excel on your exam day!

In a corroding pipe, the electrons released at the anode will combine with which species in the pipe at the cathode?

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