New Energy Part 3: The Science - Electrokinetics

New Energy for an Ultramodern Vietnam

Part 3: The Science

June 2014 Saigon New Energy Group

To discuss this presentation and pose any questions you may have, please visit our website,

www.nangluongmoisaigon.org

Welcome back!

Now we are ready to explore the final six key theoretical insights for New Energy science.

We’d like to remind you that this is not a complete list of the physics you need to study to develop New Energy – but we hope these topics will get you started.

We invite you to explore the items in the bibliography being made available in this

seminar, as well as to check our web site at www.nangluongmoisaigon.org regularly to

learn about new developments in New Energy science.

Our seventh physics theory that we think is fundamental to New Energy science is

electrokinetics

Now, T. Townsend Brown was also a key person in

the development of electrokinetics, and this field is somewhat similar

to electrogravitics

But as we’ll see, in electrokinetics, there is no important connection to mass or gravity

Both Honda and the U.S. Army have invested a lot of money to study

electrokinetics, so there is probably something important going on here!

Dr. Oleg Jefimenko defines the

electrokinetic field as “the dragging force

that electrons exert on neighboring electric

charges”

Jefimenko relates the electrokinetic field (Ek) to Maxwell’s equations as follows:

Several of us non-scientists here at SNEG readily confess that we don’t understand a

single thing in those equations.

However, according to Dr. Thomas Valone of the U.S. Patent Office, one consequence of the first equation is that the faster the rates

of change of current in an electrokinetic system, the larger will be the force that is

produced

As we say in our discussion of Quantum Electrodynamics, a key concept in New Energy science is that pulsing energy (in

various forms) into the Zero Point Field will cause it to “cohere” and form rhythmic,

predictable waves.

Here, Jefimenko and Valone are telling that these pulses need to be extremely fast in

order to have an efficient energy extraction system.

Besides quick pulsing of energy (such as from a laser) into the Zero Point Field, electrokinetics gives us other ways to increase

the amount of Zero Point Energy we can extract

Electrokinetics uses asymmetric capacitors to increase the propulsive force, probably because they create imbalances in the Zero Point Field

Electrokinetic systems usually

use parallel plate capacitors to

increase force

An example of a spacecraft utilizing an electrokinetic propulsion drive

developed by the U.S. Air Force in 1988

The quick pulses of electricity to the electrodes in this craft were measured in just

a few nanoseconds each to give a big propulsive force

Notice the use of a “distributor cap” type of device at the top to control the electrical pulses down into

alternating layers of metal plates and dielectric

Very recent experiments in electrokinetics have shown that using a permeable/ magnetizable dielectric will make the

propulsive force even stronger

This insight may have been used to design the antigravity drive of the B-2 bomber,

which is electrokinetic in nature

An interesting part of electrokinetics research is that scientists have noticed the alignment of the planets in the solar system affects the

propulsive force they measure

Solar and lunar eclipses also have affected experimental setups in electrokinetics

And so as a New Energy scientist, you might think about how your laboratory is affected

by much larger forces in the outer space environment

We will explore these forces in more detail in our twelfth New Energy physics theory, called Torsion Physics