Subquantum Kinetics: Autogenesis in 2 Dimensions

This is a 2-dimensional simulation of the process known as autogenesis in the framework of subquantum kinetics (SQK). The initial conditions at t=0 are two particles situated next to each other. The reaction-diffusion system known as Model G, under specific system parameters, gives rise to natural particle formation in the vicinity of existing matter. In this case the system parameters create a super-critical environment in which new particles are created with ease, such as in certain life stages of a neutron star (the particles being actual neutrons) or in the center of a galaxy in which the rapid matter formation can give rise to a galactic superwave. Continue reading

Quantum Energy Generator

This looks very promising interesting*:

Download the open source specs here:

http://hopegirl2012.wordpress.com/2014/03/25/qeg-open-sourced/


*Update May 10, 2014:

This technology is not home free, in that the over-unity self-powering loop has not been closed. Instead, what is claimed is that the output energy is greater than the input energy. The question is, how is the output energy measured?

In electrical systems, the power P (energy) is equal to the voltage (V) times current (I):

 P = V \times I

Therefore if one measures a high output voltage V and high output current I and multiplies them together to derive a calculated power P which is greater than the input power, it is then tempting to claim over-unity has been achieved. However, with alternating currents, as is the case with the QEG, there is a critical third variable, which is the phase difference \phi between the current and voltage:

phase

The phase between voltage and current determines whether there is usable power.

Since both the current and voltage are oscillating in an alternating current, it is important that they be sufficiently synchronized in order to have usable energy. The phase \phi is an indicator of the degree of synchronicity. Whether or not the QEG satisfies this requirement is still an open question.


Updated May 21, 2014

A few days ago HopeGirl posted the video

which report the following numbers:

Output voltage = 1.9 kV
Output current = 1 Amp
Input power = 655 Watts

James commented that the output measurements are "peak readings".

Taking into consideration the phase \phi between output voltage and current, the formula, assuming a perfect sine wave for the alternating voltage and current, is

 \mbox{Output power} = 1.9{\rm kV}\times1{\rm Amp}\times\frac{1}{2}\cos\phi = 950{\rm W}\times\cos\phi

In the best case, in which output voltage and current are in-phase, \phi=0 and \cos\phi=1 then we have the efficiency = \frac{950{\rm W}}{655{\rm W}}=145\% which is over-unity.

In the worst case, in which the output voltage and current are out of phase by \phi=90^\circ, then \cos\phi=0 in which case there is no real energy output.

We need to know the relative phase between the output voltage and current before the claim of over-unity is made.

A Quantum Game, part 1

Quantum physics is often invoked to explain various New Age ideas, such as telepathy and remote viewing, among other exotic and seemingly supernatural phenomena. The evidence for the reality of some such phenomena is ubiquitous—the work of Courtney Brown and The Farsight Institute, to name one credible example. When we look to mainstream science for explanations, quantum theory appears to have provided the most popular theoretical pigeonhole to account for these things. This is understandable, as Einstein himself described quantum entanglement as "spukhafte Fernwirkung" (spooky action at a distance). Continue reading

The Dream To Awaken Our World

A history professor once taught: A country cannot control a technology without an academic culture that understands the science. For example, during much of the 20th century, Eastern countries that coveted Western technology learned that the ideas and ways of Western science must also be adopted by their academic institutions if the technology were to be successfully wielded. A sword does little good outside the hands of a trained swordsman.
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