The Thunderbolts Project — a Voice for the Electric Universe
In this re-release of his EU2013 Conference talk, Gerald H. Pollack, PhD, gave this one-hour presentation about the historical research and recent discovery of the electric charge within water on Saturday, January 5, 2013.
We are taught water has three phases: solid, liquid, vapor. In 2003, Dr. Pollack and his laboratory group discovered a fourth phase that occurs next to water-loving surfaces projecting out by up to millions of molecular layers. Subsequent experiments show that this fourth phase is charged—and the water just beyond is oppositely charged—creating a battery that can produce current. Light charges this battery.
Thus, water receives and processes electromagnetic energy drawn from the environment in much the same way as plants. This absorbed energy can be exploited for performing chemical, electrical, or mechanical work.
Rich with implication, we are now able to provide an understanding of how water processes solar and other energies—and describe a simpler explanation of natural phenomena ranging from weather, green energy, and biological phenomena such as the origin of life.
Professor of Bioengineering at the University of Washington, Jerry Pollack is an international leader in the field of water research. He received his PhD from the University of Pennsylvania in 1968.
In this re-release of his EU2013 Conference talk, Gerald H. Pollack, PhD, gave this one-hour presentation about the historical research and recent discovery of the electric charge within water on Saturday, January 5, 2013.
We are taught water has three phases: solid, liquid, vapor. In 2003, Dr. Pollack and his laboratory group discovered a fourth phase that occurs next to water-loving surfaces projecting out by up to millions of molecular layers. Subsequent experiments show that this fourth phase is charged—and the water just beyond is oppositely charged—creating a battery that can produce current. Light charges this battery.
Thus, water receives and processes electromagnetic energy drawn from the environment in much the same way as plants. This absorbed energy can be exploited for performing chemical, electrical, or mechanical work.
Rich with implication, we are now able to provide an understanding of how water processes solar and other energies—and describe a simpler explanation of natural phenomena ranging from weather, green energy, and biological phenomena such as the origin of life.
Professor of Bioengineering at the University of Washington, Jerry Pollack is an international leader in the field of water research. He received his PhD from the University of Pennsylvania in 1968.
https://youtu.be/rfxDs1N_-3c
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