Mention the difference between electrolytic cell and electrochemical cell
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Electrochemical Cells
Electrochemical cell is a combination of a reducing and oxidizing agent, which is physically separated from each other. Usually separation is done by a salt bridge. Although they are physically separated, both half cells are in chemical contact with each other. Electrolytic and galvanic cells are two types of electrochemical cells. In both electrolytic and galvanic cells, oxidation-reduction reactions are taking place. Therefore, in an electrochemical cell, there are two electrodes called anode and cathode. Both electrodes are externally connected with a high resistant voltmeter; therefore, current won’t be transmitting between the electrodes. This voltmeter helps to maintain a certain voltage between the electrodes where oxidation reactions takes place. Oxidation reaction takes place on the anode, and the reduction reaction takes place on the cathode. Electrodes are immersed in separate electrolyte solutions. Normally, these solutions are ionic solutions related to the type of electrode. For example, copper electrodes are immersed in copper sulfate solutions and silver electrodes are immersed in silver chloride solution. These solutions are different; hence, they have to be separated. The most common way to separate them is a salt bridge. In an electrochemical cell, the potential energy of the cell is converted to an electrical current, which we can use to light a bulb, or to do some other electrical work.
Electrolytic Cells
This is a cell, which uses an electrical current to break chemical compounds, or in other words, to do an electrolysis. Therefore, electrolytic cells need an external source of electrical energy for operation. For an example, if we take copper and silver to be the two electrodes in the cell, silver is connected to the positive terminal of an external energy source (a battery). Copper is connected to the negative terminal. Since the negative terminal is electron rich, electrons flow from there to the copper electrode. So copper is reduced. At the silver electrode, an oxidation reaction takes place, and the released electrons are given to the electron deficient positive terminal of the battery. Following is the overall reaction taking place in an electrolytic cell, which has copper and silver electrodes.
Electrochemical cell is a combination of a reducing and oxidizing agent, which is physically separated from each other. Usually separation is done by a salt bridge. Although they are physically separated, both half cells are in chemical contact with each other. Electrolytic and galvanic cells are two types of electrochemical cells. In both electrolytic and galvanic cells, oxidation-reduction reactions are taking place. Therefore, in an electrochemical cell, there are two electrodes called anode and cathode. Both electrodes are externally connected with a high resistant voltmeter; therefore, current won’t be transmitting between the electrodes. This voltmeter helps to maintain a certain voltage between the electrodes where oxidation reactions takes place. Oxidation reaction takes place on the anode, and the reduction reaction takes place on the cathode. Electrodes are immersed in separate electrolyte solutions. Normally, these solutions are ionic solutions related to the type of electrode. For example, copper electrodes are immersed in copper sulfate solutions and silver electrodes are immersed in silver chloride solution. These solutions are different; hence, they have to be separated. The most common way to separate them is a salt bridge. In an electrochemical cell, the potential energy of the cell is converted to an electrical current, which we can use to light a bulb, or to do some other electrical work.
Electrolytic Cells
This is a cell, which uses an electrical current to break chemical compounds, or in other words, to do an electrolysis. Therefore, electrolytic cells need an external source of electrical energy for operation. For an example, if we take copper and silver to be the two electrodes in the cell, silver is connected to the positive terminal of an external energy source (a battery). Copper is connected to the negative terminal. Since the negative terminal is electron rich, electrons flow from there to the copper electrode. So copper is reduced. At the silver electrode, an oxidation reaction takes place, and the released electrons are given to the electron deficient positive terminal of the battery. Following is the overall reaction taking place in an electrolytic cell, which has copper and silver electrodes.
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