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Introduction

  • The standard electrode potential, commonly written as Eocell, of a concentration cell is equal to zero because the electrodes are identical. But, because the ion concentrations are different, there is a potential difference between the two half-cells. One can find this potential difference via the Nernst Equation,
    Concentration cells | Chemistry Optional Notes for UPSC(1)
  • at 25oC. The E stands for the voltage that can be measured using a voltmeter (make sure if the voltmeter measures it in millivolts that you convert the number before using it in the equation). Note that the Nernst Equation indicates that cell potential is dependent on concentration, which results directly from the dependence of free energy on concentration. Remember that to find Q you use this equation:
    Concentration cells | Chemistry Optional Notes for UPSC(2), (3)
  • When Q=1, meaning that the concentrations for the products and reactants are the same, then taking the log of this equals zero. When this occurs, the Ecell is equal to the Eocell.
  • Another way to use the Eocell , or to find it, is using the equation below.
    Concentration cells | Chemistry Optional Notes for UPSC(4)

Concentration cells | Chemistry Optional Notes for UPSC

Fig.1 An example of a concentration cell

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What is the standard electrode potential of a concentration cell?
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Connected Information

These concepts are useful for understanding the electron transfer and what occurs in half-cells.

Use of a Salt Bridge

  • The two compartments of a cell must be separated so they do not mix, but cannot be completely separated with no way for ions to be transferred. A wire cannot be used to connect the two compartments because it would react with the ions that flow from one side to another. Because of this, a salt bridge is an important part of a concentration cell. It solves the major problem of electrons beginning to pile up too much in the right beaker.
  • This buildup is due to electrons moving from the left side, or left beaker, to the right side, or right beaker. The salt bridge itself can be in a few different forms, such as a salt solution in a U-tube or a porous barrier (direct contact). It evens the charge by moving ions to the left side, or left beaker. In the written expression which shows what is occurring in specific reactions, the salt bridge is represented by the double lines. An example of this would be:
    Zn(s)|Zn2+(1 M)||Cu2+(1 M)|Cu (5)
  • The double lines between the Zn2+(1 M) and the Cu2+(1 M) signify the salt bridge. The single lines, however, do not represent bridges; they represent the different phase changes, for example, from solid zinc to liquid zinc solution. If there is a comma where you would expect to see a single line, this is not incorrect. It simply means that no phase changes occurred.

Electrode Use

  • In this type of reaction, there are two electrodes which are involved. These are known as the anode and the cathode, or the left and right side, respectively. The anode is the side which is losing electrons (oxidation) while the cathode is the side which is gaining electrons (reduction).

Use of a Voltmeter

  • A voltmeter (not to be confused with a different kind of voltmeter which also measures a type of energy) is used to measure the cell potential that is passed between the two sides. It is typically located in between the two cells. This cell potential (also known as an electromotive force) occurs due to the flow of electrons.
  • The value it shows can be negative or positive depending on the direction in which the electrons are flowing. If the potential is positive then the transfer of electrons is spontaneous, but the reverse reaction is NONspontaneous. Conversely, if the value of the potential is negative, the transfer of electrons is nonspontaneous and the reverse reaction. The voltmeter measures this potential in volts or millivolts.

Electrons

  • The tendency of electrons to flow from one chemical to another is known as electrochemistry. This is what occurs in a concentration cell. The electrons flow from the left side (or left beaker) to the right side (or right beaker). Because the left side is losing electrons and the right is gaining them, the left side is called the oxidation side and the right side is the reduction side. 
  • Although you could switch the two to be on the opposite sides, this is the general way in which the set up is done. The oxidation side is called the anode and the reduction side is the cathode. It is the flow of the electrons that cause one side to be oxidized and the other to be reduced.

Question for Concentration cells
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What is the purpose of a salt bridge in a concentration cell?
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Corrosion

  • Corrosion can occur on a concentration cell when the metal being used is in contact with different concentrations, causing parts of the metal to have different electric potential than the other parts. One element that is often linked to this corrosion is oxygen. In the areas in which there is a low oxygen concentration corrosion occurs.
  • This can be somewhat prevented through sealing off the cell and keeping it clean, but even this cannot prevent any corrosion from occurring at some point.
  • Corrosion is most frequently a problem when the cell is in contact with soil. Because of the variations that occur within soil, which is much greater than the variations that occur within a fluid, contact with soil often causes corrosion for the cell.

Uses of Concentration Cells

  • A pH meter is a specific type of concentration cell that uses the basic setup of a concentration cell to determine the pH, or the acidity/basicity, of a specific solution. It is comprised of two electrodes and a voltmeter. One of the electrodes, the glass one has two components: a metal (commonly silver chloride) wire and a separate semi-porous glass part filled with a potassium chloride solution with a pH of 7 surrounding the AgCl. 
  • The other electrode is called the reference electrode, which contains a potassium chloride solution surrounding a potassium chloride wire. The purpose of this second electrode is to act as a comparison for the solution being tested. When the glass electrode comes into contact with a solution of different pH, an electric potential is created due to the reaction of the hydrogen ions with the metal ions. This potential is then measured by the voltmeter, which is connected to the electrode. The higher the voltage, the more hydrogen ions the solution contains, which means the solution is more acidic.

Concentration cells | Chemistry Optional Notes for UPSC

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FAQs on Concentration cells - Chemistry Optional Notes for UPSC

1. What is corrosion?
Corrosion is the process by which metals deteriorate and become damaged due to chemical reactions with their environment. It is often caused by exposure to moisture, oxygen, and other substances, leading to the formation of corrosion products such as rust.
2. How does corrosion occur?
Corrosion occurs when metals undergo oxidation, where they lose electrons and form positive ions. This process is facilitated by the presence of an electrolyte, such as water or an acidic solution, which allows the flow of ions and electrons between the metal surface and the electrolyte. The metal acts as an anode, where oxidation occurs, while the electrolyte acts as a cathode, where reduction occurs.
3. What are the different types of corrosion?
There are several types of corrosion, including uniform corrosion, pitting corrosion, crevice corrosion, galvanic corrosion, and stress corrosion cracking. Uniform corrosion occurs evenly over the entire surface of a metal, while pitting corrosion forms localized pits or holes. Crevice corrosion occurs in confined spaces, and galvanic corrosion happens when two different metals are in contact in the presence of an electrolyte. Stress corrosion cracking is the formation of cracks in a metal due to the combined effect of stress and corrosive environment.
4. How can corrosion be prevented?
Corrosion can be prevented through various methods, including the use of protective coatings such as paint or corrosion-resistant materials. Applying inhibitors or sacrificial anodes can also help prevent corrosion. Proper design and maintenance practices, such as regular cleaning and inspection, can reduce the likelihood of corrosion. Additionally, controlling environmental factors such as humidity and temperature can minimize corrosion risk.
5. What are the consequences of corrosion?
Corrosion can have significant consequences, including structural damage, reduced lifespan of metal objects, and financial losses. In industries such as oil and gas, corrosion can lead to equipment failure, production disruptions, and environmental hazards. Corrosion in infrastructure, such as bridges and pipelines, can compromise safety and require costly repairs. Therefore, understanding and effectively managing corrosion is essential in preserving the integrity and longevity of metal structures and materials.
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