What essential process occurs in a fuel cell?

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Study for the Electrochemical Exam. Learn with flashcards and multiple-choice questions, each question with hints and explanations. Get well-prepared and confident for your exam!

Multiple Choice

What essential process occurs in a fuel cell?

Explanation:
In a fuel cell, the essential process that takes place is the conversion of chemical energy into electrical energy. This conversion occurs through an electrochemical reaction, typically between a fuel (such as hydrogen) and an oxidant (usually oxygen from the air). In the anode compartment of the fuel cell, the fuel undergoes oxidation, releasing electrons and producing positive ions. These electrons are then conducted through an external circuit, generating electrical energy. Meanwhile, at the cathode, the oxidant reacts with the incoming protons (or positive ions) and the electrons that have traveled through the circuit, producing water and heat as byproducts. This fundamental operation of transforming chemical potential energy into usable electrical energy is what distinguishes fuel cells from other processes like combustion or traditional batteries. Fuel cells are valued for their efficiency and the cleanliness of the chemical reactions involved, often producing only water as a byproduct when using hydrogen as fuel.

In a fuel cell, the essential process that takes place is the conversion of chemical energy into electrical energy. This conversion occurs through an electrochemical reaction, typically between a fuel (such as hydrogen) and an oxidant (usually oxygen from the air).

In the anode compartment of the fuel cell, the fuel undergoes oxidation, releasing electrons and producing positive ions. These electrons are then conducted through an external circuit, generating electrical energy. Meanwhile, at the cathode, the oxidant reacts with the incoming protons (or positive ions) and the electrons that have traveled through the circuit, producing water and heat as byproducts.

This fundamental operation of transforming chemical potential energy into usable electrical energy is what distinguishes fuel cells from other processes like combustion or traditional batteries. Fuel cells are valued for their efficiency and the cleanliness of the chemical reactions involved, often producing only water as a byproduct when using hydrogen as fuel.

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