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I would like to pose a question to all the Energetic minds on this Forum.
How does the energy ( Flow of Electrons) within a circuit regenerate and maintain its potential?
If we compare a wet central heating (closed loop system) to that of an electric circuit , then a central question is raised. That is the regeneration of energy within the system. A gas driven central heating system draws it's energy from the gas boiler, the heated water is pumped around the system and returns to the boiler to pick up more energy released by the burning of gas. However if we compare the electric circuit ( again a closed loop system) the electrons are driven around the system by its pump the generator. If loads are incorporated within the electrical circuit, then heat is generated, resulting in energy loss within the system. The question then arises, how is this energy replenished within the electric circuit, if the generator is only acting as a pump. How does an electric circuit maintain its potential,
How does the energy ( Flow of Electrons) within a circuit regenerate and maintain its potential?
If we compare a wet central heating (closed loop system) to that of an electric circuit , then a central question is raised. That is the regeneration of energy within the system. A gas driven central heating system draws it's energy from the gas boiler, the heated water is pumped around the system and returns to the boiler to pick up more energy released by the burning of gas. However if we compare the electric circuit ( again a closed loop system) the electrons are driven around the system by its pump the generator. If loads are incorporated within the electrical circuit, then heat is generated, resulting in energy loss within the system. The question then arises, how is this energy replenished within the electric circuit, if the generator is only acting as a pump. How does an electric circuit maintain its potential,