06-24-2024, 04:16 PM
I'm suggesting that we use something like a MOSFET to switch the path of a closed loop in a transformer. Imagine combining a regular earth battery, which has some electrical conductivity, with a solid-state cell that blocks electron flow but allows ion flow momentarily. By continuously switching the path, you can close the earth path and open the solid-state cell path. This way, you maintain pure electrostatic potential and achieve modulation, resulting in more energy output.
Earth batteries are fantastic, but to achieve an electrostatic effect with zero continuity, we need a different approach. Some people use water, gels, earth, or even skin as ion bridges, but these materials also provide an electrical path, which nullifies the open loop effect. If you're looking to run something like a Bedini motor with an earth battery stack, that's perfectly fine if it works for you. However, my focus right now is on this new method.
By mixing and matching both approaches, you could use a switch to pulse a temporary earth battery path and then switch to the solid-state cell path. You’re likely to notice some very interesting interactions!
Earth batteries are fantastic, but to achieve an electrostatic effect with zero continuity, we need a different approach. Some people use water, gels, earth, or even skin as ion bridges, but these materials also provide an electrical path, which nullifies the open loop effect. If you're looking to run something like a Bedini motor with an earth battery stack, that's perfectly fine if it works for you. However, my focus right now is on this new method.
By mixing and matching both approaches, you could use a switch to pulse a temporary earth battery path and then switch to the solid-state cell path. You’re likely to notice some very interesting interactions!