What is the Difference Between Electrochemical Cell and Galvanic Cell?
🆚 Go to Comparative Table 🆚The main difference between an electrochemical cell and a galvanic cell lies in the direction of energy conversion. Here are the key distinctions between the two:
- Electrochemical Cell: These cells either generate electrical energy from a chemical reaction or use electrical energy to produce a chemical reaction. Electrolytic cells are a type of electrochemical cell that converts electrical energy into chemical energy.
- Galvanic Cell: Also known as voltaic cells, galvanic cells are electrochemical cells that convert chemical energy into electrical energy. These cells involve spontaneous redox reactions, which allow the continuous flow of electrons through the conductor.
Some other differences between electrochemical cells and galvanic cells include:
- In a galvanic cell, the cathode is the positive electrode, while the anode is the negative electrode. In contrast, in an electrolytic cell, the anode is the positive electrode, and the cathode is the negative electrode.
- In a galvanic cell, the electrons are supplied by the species getting oxidized, moving from the anode to the cathode in the external circuit. In an electrolytic cell, the external battery supplies the electrons, which enter through the cathode and come out through the anode.
- Galvanic cells have two half-cells set up in different containers, connected through a salt bridge or porous partition. In contrast, both electrodes in an electrolytic cell are placed in the same container in the solution of molten electrolyte.
In summary, electrochemical cells can be either galvanic (voltaic) cells that convert chemical energy into electrical energy or electrolytic cells that convert electrical energy into chemical energy. Galvanic cells involve spontaneous redox reactions, while electrolytic cells involve non-spontaneous redox reactions induced by an external source of current.
Comparative Table: Electrochemical Cell vs Galvanic Cell
Here is a table comparing the differences between electrochemical cells and galvanic cells:
Feature | Electrochemical Cells | Galvanic Cells |
---|---|---|
Definition | Electrochemical cells are devices that convert chemical energy into electrical energy. | Galvanic cells are a type of electrochemical cell that generates electrical energy from spontaneous chemical reactions. |
Purpose | Electrochemical cells can be used for various purposes, such as generating electrical energy or facilitating chemical reactions. | Galvanic cells convert chemical energy into electric energy through spontaneous redox reactions. |
Energy Direction | Electrochemical cells can either generate electrical energy from chemical reactions or use electrical energy to facilitate chemical reactions. | Galvanic cells spontaneously convert chemical energy into electric energy. |
Redox Reactions | Electrochemical cells involve redox reactions, which can be spontaneous or non-spontaneous. | Galvanic cells involve spontaneous redox reactions that convert chemical energy into electric energy. |
Electrode Polarity | The cathode is the positive electrode, and the anode is the negative electrode in electrochemical cells. | The cathode is the positive electrode, and the anode is the negative electrode in galvanic cells. |
Example | A basic voltaic cell, which is a type of galvanic cell, is created by immersing a zinc plate and a copper plate in a diluted solution of sulfuric acid. | A galvanic cell is an electrochemical cell in which an electric current is produced from spontaneous oxidation-reduction reactions. |
In summary, electrochemical cells are devices that convert chemical energy into electrical energy or vice versa, while galvanic cells are a specific type of electrochemical cell that generates electrical energy from spontaneous chemical reactions. Both cell types involve redox reactions, but galvanic cells specifically use spontaneous redox reactions to convert chemical energy into electric energy.
- Electrolytic vs Galvanic Cells
- Electrochemical Cell vs Electrolytic Cell
- Galvanic Cell vs Concentration Cell
- Voltaic Cell vs Electrolytic Cell
- Galvanic Series vs Electrochemical Series
- Electrode Potential vs Cell Potential
- Electroplating vs Electrolysis
- Electrolyte vs Electrolysis
- Electroplating vs Galvanisation
- Electrode vs Electrolyte
- Ionization vs Electrolysis
- Photocatalysis vs Electrocatalysis
- Faradic vs Galvanic Current
- Photochemical vs Electrochemical Reaction
- Concentration Cell vs Chemical Cell
- Electroforming vs Electroplating
- Electrophoresis vs Electroosmosis
- Metallic vs Electrolytic Conduction
- Cell vs Battery