T. Townsend Brown

Who is Thomas Townsend Brown? The most authoritative biography of T. Townsend Brown is found at ttbrown.com. As that website author compiled his work, he posted his work online. That intensive work is now available as a compelling book.

T. Townsend Brown is most noted for his work of electrogravitics and the Biefeld-Brown Effect. The Biefeld-Brown Effect, aligns a positive charge of a capacitor on the leading edge of a transportation apparatus and a negative charge on the trailing edge. This is different than a magnet. This is beyond the capability of magnetism; magnets aren’t attracted to all objects but electrogravitics applies to all matter.

T. Townsend Brown discovered electrogravitics in 1918.  In 1923, Professor Biefeld of Denison University suggested to his protege, Townsend Brown, to preform experiments which led to the discovery of the Biefeld-Brown Effect, and, ultimately, to the electrogravitational energy spectrum. 

The Biefeld-Brown Effect was established by Dr, Paul Biefeld and T. Townsend Brown. It finds that a highly charged capacitor, when properly suspended, shows a tendency to move; relative to gravitational force. Their experiments proved that when the poles of a freely suspended charged capacitor (even in a vacuum) were placed on a horizontal axis, a forward thrust would be produced which would move the capacitor in the direction of the positive pole. Additionally, the direction of thrust would reverse in conjunction with a polarity change. 

This gravitational experiment was demonstrated by placing the capacitor on a beam balance and charging it. When the positive pole pointed upwards, the condenser would move to a point of equilibrium, when the positive pole was pointed downwards, the balance would show a downward deflection

This Biefeld-Brown Effect is associated with the term electrogravitics. The term electromagnetics is a commonly accepted term in limited circles. Electrogravitics raises questions about the accuracy of theoretical physics in its pursuit of electrons being a magnetic force; or can it be that subatomic motion is influenced by gravitational forces? 

Finding studies in the science of electrogravitics is as obscure as Nikola Tesla’s writings about gravity. The beginning of electrogravitics started with the Biefeld-Brown Effect in 1918. As Tesla’s work focused on the utilization of waves in matter, and his contemporaries developed theories for particle mass, the science of electrogravitics disappeared from science by the 1960s.

In searching the topic of gravitational propulsion, one of Nikola Tesla’s distant contemporaries: T. Townsend Brown discovered electrogravitics in 1918.  In 1923, Professor Biefeld of Denison University suggested to his protege, Townsend Brown, to preform experiments which led to the discovery of the Biefeld-Brown Effect, and, ultimately, to the electrogravitational energy spectrum. 

In the 1950s, Professor T. Townsend Brown worked with US Naval research on an anomalous propulsion force from a high voltage capacitive charge, similar to an electrokinetic force (for anyone who may be reading this that doesn’t know what that is: kinetic energy is the force of its motion). By the late 1950s, after 30 years, he was persuaded, or frustrated by the absence of support, that the gravitational effects of electrons had no commercial value and thereafter referred to the science of electrogravitics as “stress in dielectrics”. 

http://ttbrown.com/defying_gravity/21_gravity.html

https://electrogravityphysics.com/townsend-brown-capacitors/ 

https://electrogravityphysics.com/wp-content/uploads/Musha-Biefeld-Brown.pdf 

https://file.scirp.org/Html/9-7501400_36094.htm 

https://www.sciencedirect.com/science/article/abs/pii/S0304388611001367 

As a source of motion for transportation, how does this provide floatation or levitation? And how does this provide acceleration? Common sense says that it has to involve spin.