It appears to me that they have most of the possible current levels covered. Why list ranges that include each other?
Magnetic fields that are changing in magnitude or direction generate electric fields that can impart energy upon charged particles. A steady magnetic field is not able to supply energy to these charged objects, but can change their direction of motion. Dave -----Original Message----- From: pagnucco <[email protected]> To: vortex-l <[email protected]> Sent: Thu, Jan 16, 2014 12:59 am Subject: [Vo]:Observation on a BLP (patent?) document The BLP website is down as I write this, but yesterday the "Whats New" tab on their homepage led to this entry dated 1/14/14 - Patent Application Power Generation Systems and Methods Regarding Same. http://www.blacklightpower.com/wp-content/uploads/presentations/Power%20Generation%20Systems%20and%20Methods%20Patent%20Application.pdf I am unsure whether this untitled 324 page document is an existing patent application, one just submitted, or is pending submission. What I found especially interesting is that it credits the anomalous energy generation, and hydrino formation to an extremely wide range of plasma currents, and current pulse widths. For example, on p.107, the following excerpt appears - "The current density may be in the range of at least one of 100A/cm^2 to 1,000,000 A/cm^2, 1000 A/cm^2 to 100,000 A/cm^2, [...] The pulse time may be in at least one range chosen from about 10^-6 s to 10s, 10^-5s to 1s, 10^-4s to 0.1s, and 10^-3s to 0.01s. [...] The magnetic flux may be in the range of about 10 G to 10 T, 100 G to 5 T, or 1 kG to 1 T." The huge current densities and sharp rise/fall times should create very large magnetic forces that, if focused, impart huge momenta and energies to charged particles that are in, or impacted, by the plasma current filaments. Possibly, BLP's upcoming demo will be a more systemic version of the 1922 Wendt-Irion experiment that vindicates W-I's conclusions? -- Lou Pagnucco
