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Reduction occurs at the cathode in an electrolytic cell.
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Diagram of electrolytic cell
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In an electrolytic cell, the anode is positive.
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In an electrolytic cell, the anode is designated as positive.
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At the anode of an electrolytic cell, oxidation occurs. Electrons are lost from the anode as the electrode is oxidized, resulting in the formation of positive ions that move towards the cathode.
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A galvanic cell can become an electrolytic cell by applying an external voltage that is of opposite polarity to the cell's spontaneous voltage. This external voltage can overcome the natural tendency of the cell to generate electricity and drive a non-spontaneous chemical reaction in the reverse direction, converting it into an electrolytic cell.
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In an electrolytic cell, an external power source is needed to drive a non-spontaneous redox reaction, while in a voltaic cell, the redox reaction is spontaneous and generates electric energy. In an electrolytic cell, the anode is positive and the cathode is negative, whereas in a voltaic cell, the anode is negative and the cathode is positive.
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Electrons flow in the opposite direction.
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Electrons flow in the opposite direction.
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Electrons flow from the negative electrode (cathode) to the positive electrode (anode) in an electrolytic cell. This is the opposite direction of conventional current flow.
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A nonspontaneous redox reaction is driven by an external source of electrical energy, such as a battery, when a current passes through the electrolytic cell. In an electrolytic cell, the anode is positive and the cathode is negative; electrons flow from the anode to the cathode, and oxidation occurs at the anode while reduction occurs at the cathode.
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Electrons flow in the opposite direction.
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In the electrolytic cell, electrons flow from the negative terminal (cathode) to the positive terminal (anode). This flow allows for the oxidation of ions at the anode and the reduction of ions at the cathode, resulting in the desired chemical reactions to occur.
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The electrode where reduction occurs.
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The significance of anode polarity in electrochemistry is that it determines the direction of electron flow in a galvanic cell or electrolytic cell. The anode is where oxidation occurs, and it is positively charged in a galvanic cell and negatively charged in an electrolytic cell. This polarity affects the overall reaction and the flow of ions in the cell.
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-2.48
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The only reason to use salt in a pool is so that it can be broken down by an electrolytic cell, into chlorine. There is absolutely no reason to use salt if you dont have a salt system.
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In an electrolytic cell, electrical energy is transformed into chemical energy. This occurs when an external voltage is applied to drive a non-spontaneous redox reaction to produce a desired chemical product.
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Reduction occurs at the cathode in an electrolytic cell. This is where cations in the electrolyte solution gain electrons and get reduced, leading to the deposition of a substance onto the cathode.
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Reduction occurs at the cathode in an electrolytic cell.
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It is a cell that contains an electrolyte in which an electrochemical reaction produces an electromotive force.
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An electrolytic cell uses an external power source to drive a non-spontaneous chemical reaction. Electricity is used to force electrons through the cell, causing a redox reaction to occur at the electrodes. This allows for the production of new chemical compounds or the separation of substances.
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A still cell refers to a type of electrolytic cell used for producing chlorine gas and caustic soda (sodium hydroxide) through the electrolysis of brine (sodium chloride solution). It is characterized by its stationary or non-moving electrodes and typically operates at lower temperatures compared to other types of electrolytic cells.
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electrical energy into chemical energy
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