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Reason: None provided.

It's not quite like that, you have to think of it more like a heat pump. It's not about how much static is ambient, it's about how much charge you can move from one side, to the other side and contain on the other side.

In other words, you are creating charge separation, quite litterally: you charge capacitor plates and then you physically separate them and create a very large charge separation.

It's creates electron density differentials, it uses electrostatic forces to do it, but it doesn't rely on drawing electrons in from anywhere, unless you attach a capacitor, in which case, you will pull electrons from one capacitor plate and concentrate them in the other.

It's really an electric analog to a heat pump.

So it's not like electrons are coming from somewhere, you're just surface ionising different parts of the circuit (providing capacitive static charge) and separating the charge.

It's a completely different approach to power generation. Normal generators force charge to move by establishing a temporary electric field with a changing magnetic field. This machine actually physically separates charge.

1 year ago
1 score
Reason: None provided.

It's not quite like that, you have to think of it more like a heat pump. It's not about how much static is ambient, it's about how much charge you can move from one side, to the other side and contain on the other side.

In other words, you are creating charge separation, quite litterally: you charge capacitor plates and then you physically separate them and create a very large charge separation.

It's creates electron density differentials, it uses electrostatic forces to do it, but it doesn't rely on drawing electrons in from anywhere, unless you attach a capacitor, in which case, you will pull electrons from one capacitor plate and concentrate them in the other.

It's really an electric analog to a heat pump.

So it's not like electrons are coming from somewhere, you're just surface ionising different parts of the circuit (providing capacitive static charge) and separating the charge.

It's a completely different approach to power generation. Normal generator force charge to move by establishing a temporary electric field with a changing magentic field. This machine actually physically separates charge.

1 year ago
1 score
Reason: None provided.

It's not quite like that, you have to think of it more like a heat pump. It's not about how much static is ambient, it's about how much charge you can move from one side, to the other side and contain on the other side.

In other words, you are creating charge separation, quite litterally: you charge capacitor plates and then you physically separate them and create a very large charge separation.

It's creates electron density differentials, it uses electrostatic forces to do it, but it doesn't rely on drawing electrons in from anywhere, unless you attach a capacitor, in which case, you will pull electrons from one capacitor plate and concentrate them in the other.

It's really an electric analog to a heat pump.

So it's not like electrons are coming from somewhere, you're just surface ionising different parts of the circuit (providing capacitive static charge) and separating the charge.

1 year ago
1 score
Reason: None provided.

It's not quite like that, you have to think of it more like a heat pump. It's not about how much static is ambient, it's about how much charge you can move from one side, to the other side and contain on the other side.

In other words, you are creating charge separation, quite litterally: you charge capacitor plates and then you physically separate them and create a very large charge separation.

It's creates electron density differentials, it uses electrostatic forces to do it, but it doesn't rely on drawing electrons in from anywhere, unless you attach a capacitor, in which case, you will pull electrons from one capacitor plate and concentrate them in the other.

It's really an electric analog to a heat pump.

So it's not like electrons are coming from somewhere, you're just surface ionising different parts of the circuit (providing capacitive charge) and separating the charge.

1 year ago
1 score
Reason: Original

It's not quite like that, you have to think of it more like a heat pump. It's not about how much static is ambient, it's about how much charge you can move from one side, to the other side and contain on the other side.

In other words, you are creating charge separation, quite litterally: you charge capacitor plates and then you physically separate them and create a very large charge separation.

It's creates electron density differentials, it uses electrostatic forces to do it, but it doesn't rely on drawing electrons in from anywhere, unless you attach a capacitor, in which case, you will pull electrons from one capacitor plate and concentrate them in the other.

It's really an electric analog to a heat pump.

1 year ago
1 score