The Final Secret of Free Energy
T. E. Bearden
Publisher Tesla Book Co
Publication Date: 1993-02
This is short book, you can read it in 30 minutes. Yes, but you will have to re-read it several times to take it in. That is because you are being asked to rethink the physics you learnt in school. It was hard to learn, but is even harder to unlearn. Even so, on my fourth rereading of the paper I finally got it.
START HERE
The core point is that energy and potential ARE THE SAME THING. From this it is but a short step to free energy. All you have to do is link a battery to a collector (an accumulator), call this circuit one. You then link your accumulator to load, call this circuit two. The two circuits remain electrically separate throughout. You switch on circuit one (leaving circuit two open) and create potential in your accumulator. BUT, BEFORE ANY ENERGY FLOWS (i.e. before the expiry of the "relaxation time" (see below) you switch it off again. At the same moment you switch on circuit two and power your load with the potential (the energy) created by circuit one. And then you repeat. The relaxation time depends on the material of your wires and your accumulator and it must not be too short or current will flow in circuit one and your first power source will deplete. Copper has an incredibly short relaxation time so you can't use in circuit one - you need a degraded semiconductor. Then you can expect to do your switching at around only once per microsecond (!) and you will be in phase with the on-off characteristics of your primary circuit. That is to say you will switch in time with the duration of your primary circuit's relaxation time.
Relaxation time is the time taken to create potential but before current flows. It is well known that in wires the electrons flow on the skin of the conductor. At the moment they get there, the potential has been created in the circuit. If any more time is allowed to pass then current will begin to flow. That current, if allowed to flow, makes it back to the negative pole of your battery and alters the chemistry that creates the potential, that is to say your battery runs down. If you cut off this flow of current before the expiry of the relaxation time you get potential and no current flow. Now go back to the start point of this explanation and read sentence one. Did you get that? If you did you are where I am. Go round again only if you have to.
http://ifile.it/cqzt6xw
T. E. Bearden
Publisher Tesla Book Co
Publication Date: 1993-02
This is short book, you can read it in 30 minutes. Yes, but you will have to re-read it several times to take it in. That is because you are being asked to rethink the physics you learnt in school. It was hard to learn, but is even harder to unlearn. Even so, on my fourth rereading of the paper I finally got it.
START HERE
The core point is that energy and potential ARE THE SAME THING. From this it is but a short step to free energy. All you have to do is link a battery to a collector (an accumulator), call this circuit one. You then link your accumulator to load, call this circuit two. The two circuits remain electrically separate throughout. You switch on circuit one (leaving circuit two open) and create potential in your accumulator. BUT, BEFORE ANY ENERGY FLOWS (i.e. before the expiry of the "relaxation time" (see below) you switch it off again. At the same moment you switch on circuit two and power your load with the potential (the energy) created by circuit one. And then you repeat. The relaxation time depends on the material of your wires and your accumulator and it must not be too short or current will flow in circuit one and your first power source will deplete. Copper has an incredibly short relaxation time so you can't use in circuit one - you need a degraded semiconductor. Then you can expect to do your switching at around only once per microsecond (!) and you will be in phase with the on-off characteristics of your primary circuit. That is to say you will switch in time with the duration of your primary circuit's relaxation time.
Relaxation time is the time taken to create potential but before current flows. It is well known that in wires the electrons flow on the skin of the conductor. At the moment they get there, the potential has been created in the circuit. If any more time is allowed to pass then current will begin to flow. That current, if allowed to flow, makes it back to the negative pole of your battery and alters the chemistry that creates the potential, that is to say your battery runs down. If you cut off this flow of current before the expiry of the relaxation time you get potential and no current flow. Now go back to the start point of this explanation and read sentence one. Did you get that? If you did you are where I am. Go round again only if you have to.
http://ifile.it/cqzt6xw