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Faraday's Law

In every electrochemical process, whether spontaneous or not, a certain amount of electric charge is transferred during the oxidation and reduction. The half-reactions we have written for electrode processes include the electrons which carry that charge. It is possible to measure the rate at which the charge is transferred with a device called an ammeter.

An ammeter measures the current flowing through a circuit. The units of current are amperes (A) (amps, for short). Unlike a voltmeter, ammeters allow electrons to pass and essentially "clock" them as they go by. The amount of electric charge which has passed through the circuit can then be calculated by a simple relationship:

Charge = current x time OR Coulombs = amps x seconds

Question for Faraday's Law
Try yourself:
What is the purpose of placing the voltmeter across the electron conduit in an electrochemical cell?
View Solution
 

This enables us to connect reaction stoichiometry to electrical measurements. The principles underlying these relationships were worked out in the first half of the 19th century by the English scientist, Michael Faraday.
Faraday`s Law | Chemistry Optional Notes for UPSC

The diagram shows how voltage and current might be measured for a typical galvanic cell but the arrangment is the same for any electrochemical cell. Notice that the voltmeter is placed across the electron conduit (i.e., the wire) while the ammeter is part of that conduit. A good quality voltmeter can be used in this way even though it might appear to be "shorting out" the circuit. Since electrons cannot pass through the voltmeter, they simply continue along the wire.

Both the voltmeter and ammeter are polarized. They have negative and positive terminals marked on them. Electrons are "expected" only in one direction. This is important in measurements of direct current (DC) such as comes out of (or goes into) electrochemical cells.

Faraday's law of electrolysis might be stated this way: the amount of substance produced at each electrode is directly proportional to the quantity of charge flowing through the cell. Of course, this is somewhat of a simplification. Substances with different oxidation/reduction changes in terms of the electrons/atom or ion will not be produced in the same molar amounts. But when those additional ratios are factored in, the law is correct in all cases.

Question for Faraday's Law
Try yourself:
What is the purpose of an ammeter in an electrochemical cell?
View Solution
 

The document Faraday's Law | Chemistry Optional Notes for UPSC is a part of the UPSC Course Chemistry Optional Notes for UPSC.
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FAQs on Faraday's Law - Chemistry Optional Notes for UPSC

1. What is Faraday's Law?
Ans. Faraday's Law, named after the scientist Michael Faraday, states that the amount of electric charge released or deposited during an electrolysis reaction is directly proportional to the quantity of substance involved in the reaction.
2. What is the significance of Faraday's Law?
Ans. Faraday's Law is significant as it quantifies the relationship between the amount of electric charge passed through a conductor and the amount of substance involved in an electrolysis reaction. It forms the basis for understanding electrochemical processes, such as the production of metals through electrolysis.
3. How does Faraday's Law relate to the UPSC exam?
Ans. Faraday's Law is a topic covered in the UPSC exam under the section of General Science. It is important for candidates to have a clear understanding of this law, as questions related to electrolysis, electrochemistry, and applications of Faraday's Law can be asked in the exam.
4. Can you explain Faraday's Law in simpler terms?
Ans. Certainly! Faraday's Law essentially states that the amount of substance involved in an electrolysis reaction is directly proportional to the amount of electric charge passed through the conductor. This law helps us understand how electricity can be used to produce or separate different substances.
5. What are some practical applications of Faraday's Law?
Ans. Faraday's Law finds applications in various fields such as electroplating, metal extraction, and quantitative analysis in chemistry. It is used to determine the amount of a substance produced or consumed during an electrolysis reaction, which is crucial in industries and laboratories for various purposes.
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