The Daily Dialectics

Nikola Tesla Secrets

Illustration for Nikola Tesla Secrets

Synopsis

The search for new energy technology takes us to northern Idaho to meet a ten-year-old girl who won a science fair with a battery-charging motor. She describes

20  Bedini

Tesla Chargers by EnergenX

20  Bedini-Bearden Years

Free Energy Generation

Special thanks to all the groups

who kept the faith.

 

 

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John Bedini discharging the radiant energy from the storage capacitors.

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The current appears after the radiant discharge.

 

 

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Tom Bearden 1984 Simple Free Energy Motor

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On this slide, we show a theoretical scheme which several researchers have discovered and used to build simple free energy motors. In this scheme, we drive an ordinary d.c. series motor by a two wire system from an ordinary battery.  The motor produces shaft horsepower, at -- say -- some 30 or 40 percent efficiency, compared to the power drained from the battery.  This much of the circuit is perfectly ordinary. The trick here is to get the battery to recharge itself, without furnishing normal power to it, or expending work from the external circuit in the process. To do this, recall that a charged particle in a "hooking" del-phi river moves itself.  This is true for an ion, as well as for an electron.  We need only make the del-phi in correct fashion and synchronize it;  specifically, we must not release the hose nozzles we utilize to produce our del-phi river or waves.

The inventors who have discovered this have used various variations, but here we show a common one. First, we add an "energizer" (often referred to by various other names) to the circuit. This device makes the del-phi waves we will utilize, but does NOT make currents of electron masses.  In other words, it makes pure ÿ-dot.  It takes a little work to do this, for the energizer circuit must pump a few charges now and then.  So the energizer draws a little bit of power from the motor, but not very much. Now we add a switching device, called a controller, which breaks up power to the motor in pulses.  During one pulse, the battery is connected and furnishes power to the motor; during the succeeding pulse, the battery is disconnected completely from the motor and the output from the energizer is applied across the terminals of the battery. If frequency content, spin-hole content, etc. are properly

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