The equivalent of 124,215 printed pages was downloaded during the day (452.888 megabytes) from 2,159 distinct visits, each averaging 2.7 memory pages and 10 minutes, printed pages to hits ratio for the day of 57.53, main spiders cnsat(China), google, MSN and yahoo. Collected ECE2 1404, Top ten 1270, Collected Evans / Morris 660(est), F3(Sp) 543, Collected scientometrics 426, Barddoniaeth / Collected poetry 222, Principles of ECE 192, Eckardt / Lindstrom papers 191, Collected Proofs 180, Autobiography volumes one and two 176, Evans Equations 109, UFT88 94, Engineering Model 93(est), PECE 67, CEFE 65, UFT311 47, UFT321 37, Llais 28, Self Charging Inverter 28, List of prolific authors 22, Three world records by MWE 17, Lindstrom Idaho Lecture 11, UFT313 31, UFT314 29, UFT315 31, UFT316 31, UFT317 32, UFT318 35, UFT319 39, UFT320 27, UFT322 40, UFT323 31, UFT324 48, UFT325 39, UFT326 41, UFT327 28, UFT328 40, UFT329 41, UFT330 25, UFT331 28, UFT332 27, UFT333 29, UFT334 22, UFT335 25, UFT336 25, UFT337 23, UFT338 22, UFT339 21, UFT340 26, UFT341 19, UFT342 22, UFT343 25, UFT344 31, UFT345 31, UFT346 44, UFT347 36, UFT348 31, UFT349 31, UFT351 44, UFT352 44, UFT353 38, UFT354 51, UFT355 61, UFT356 44, UFT357 16 to date in September 2016. SCV Catalonia general; Institute for Optics and Quantum Electronics University of Jena UFT158; Arab Open University Jordan general; Institute of Industrial Science University of Tokyo Home page; University of Bath Diplomatic Objection to ‘t Hooft; University of Edinburgh UFT143. Intense interest all sectors, updated usage file attached for September 2016.

Unauthorized

This server could not verify that you are authorized to access the document requested. Either you supplied the wrong credentials (e.g., bad password), or your browser doesn’t understand how to supply the credentials required.

Additionally, a 401 Unauthorized error was encountered while trying to use an ErrorDocument to handle the request.

This note introduces the new subject area of fluid gravitation, in exact analogy with fluid electrodynamics within ECE2 unified field theory. The ECE2 equations of gravitation are exactly analogous with the equations of the fluid dynamics of spacetime, or aether. So a multitude of new insights emerges. For example, Eq. (5) shows that the gravitational field in matter is the electric field of spacetime fluid dynamics. There is an equilibrium between matter and spacetime (or vacuum or aether). The well known Newtonian gravitatonal field is given by Eq. (6), and induces a spacetime velocity field in exact analogy with pervious work on the electric field. Conversely any spacetime velocity field induces a gravitational field in matter. Eq. (17) shows that the material gravitomagnetic field is induced by the vorticity of spacetime, and vice versa. So the material gravitomagnetic field is governed by the vorticity equation of spacetime, which can be derived from the spacetime Navier Stokes equation as in recent UFT papers. Finally the vector potential of gravitation and gravitomagnetism in matter is the velocity field of spacetime (Eq. (20)). This means that the fluid dynamical equations of spacetime can induce both the gravitational and electromagnetic field equations of matter. This may be used to engineer gravitation with an electromagnetic field.

a358thpapernotes1.pdf

The equivalent of 460,505 printed pages was downloaded during the day (1.679 gigabytes) from 2,931 downloaded memory files (hits) and 584 distinct visits, each averaging 3.3 memory pages and 10 minutes, printed pages to hits ratio of 157.16 for the day, main spiders cnsat(China), google, MSN and yahoo. Collected ECE2 1356, Top ten 1280, Collected Evans / Morris 627, F3(Sp) 522, Collected scientometrics 370(est), Barddoniaeth / Collected Poetry 215, Principles of ECE 186, Collected Eckardt / Lindstrom 181(est), Collected Proofs 176, Autobiography volumes one and two 169, Evans Equations 94(est), Engineering Model 93(est), UFT88 83, PECE 65, CEFE 62, UFT311 45, UFT321 35, Llais 26, Self charging inverter 25, List of prolific authors 21, Three world records by MWE 17, Lindstrom Idaho Lecture 11, UFT313 28, UFT314 17, UFT315 31, UFT316 19, UFT317 20, UFT318 33, UFT319 36, UFT320 26, UFT322 39, UFT323 29, UFT324 45, UFT325 38, UFT326 41, UFT327 27, UFT328 37, UFT329 41, UFT330 24, UFT331 28, UFT332 27, UFT333 29, UFT334 22, UFT335 25, UFT336 24, UFT337 23, UFT338 22, UFT339 21, UFT340 26, UFT341 19, UFT342 21, UFT343 25, UFT344 30, UFT345 30, UFT346 46, UFT347 35, UFT348 31, UFT349 31, UFT351 44, UFT352 43, UFT353 37, UFT354 50, UFT355 61, UFT356 44, UFT357 12 to date in September 2016. City Government of Winnipeg UFT357 and general; National Distance Learning University Colombia UFT169(Sp); German National Websearch Facility (Deusu) general; University of Cuenca Ecuador UFT169(Sp); College of Information Sciences and Technology Pennsylvania State University UFT3; Hakodate College of the Japanese National Institute of Technology UFT177; University of Edinburgh Spacetme Engineering article; University of Warwick Omnia Opera 1 and 191. Intense interest all sectors, updated usage file attached for September 2016.

Unauthorized

This server could not verify that you are authorized to access the document requested. Either you supplied the wrong credentials (e.g., bad password), or your browser doesn’t understand how to supply the credentials required.

Additionally, a 401 Unauthorized error was encountered while trying to use an ErrorDocument to handle the request.

Agreed with Russ Davis, this is an entirely new subject area. For UFT358 I intend to work on the equilibrium between spacetime and matter and incorporate gravitation. For example a static electric field may induce spacetime patterns, which in turn induce gravitational effects. This may be a method of engineering gravitation with an electric field. UFT358 section 3 is pencilled in for the calculations by Russell Davis and comments by Horst Eckardt.

Sent: 19/09/2016 20:10:21 GMT Daylight Time
Subj: Re: Section 3 of paper 356

Horst,

I am still going through this note, which is quite interesting. These examples convey how elaborately different the spacetime fluid fields are from their material counterparts.

Figure 10 has text, “Component Bx.” Is Bz intended (typo?).

-Russ

The equivalent of 138,495 printed pages was downloaded during the day (504.952 megabytes) from 2,483 downloaded memory files and 558 distinct visits each averaging 3.9 memory pages and 12 minutes, printed pages to hits ratio of 55.78 for the day, main spiders cnsat(China), google, MSN and yahoo. Collected ECE2 1236, Top ten 1145, Evans / Morris 594(est), F3(Sp) 478, Collected Scientometrics 370(est), Barddoniaeth / Collected Poetry 211, Eckardt / Lindstrom papers 181, Principles of ECE 178, Collected Proofs 167, Autobiography volumes one and two 164, Evans Equations 94(est), Engineering Model 93(est), UFT88 76, CEFE 62, PECE 61, UFT311 43, UFT321 34, Llais 26, Self Charging Inverter 25, List of Prolific Authors 20, Three World Records 16, Lindstrom Idaho Lecture 11, UFT313 28, UFT314 25, UFT315 29, UFT316 18, UFT317 29, UFT318 31, UFT319 35, UFT320 25, UFT322 36, UFT323 26, UFT324 44, UFT325 33, UFT326 39, UFT327 26, UFT328 35, UFT329 38, UFT330 23, UFT331 26, UFT332 26, UFT333 27, UFT334 21, UFT335 23, UFT336 22, UFT337 20, UFT338 20, UFT339 19, UFT340 23, UFT341 16, UFT342 18, UFT343 23, UFT344 25, UFT345 28, UFT346 40, UFT347 33, UFT348 29, UFT349 29, UFT351 43, UFT352 33, UFT353 30, UFT354 47, UFT355 57, UFT357 8 to date in September 2016. University of Vermont UFT351; University of Wisconsin Madison UFT158; National Tsinghua University Taiwan general, University of Edinburgh UFT155, theory of H bonding; Llyfrgell Genedlaethol Cymru Home Page. Intense interest all sectors, updated usage file attached for September 2016.

Unauthorized

This server could not verify that you are authorized to access the document requested. Either you supplied the wrong credentials (e.g., bad password), or your browser doesn’t understand how to supply the credentials required.

Additionally, a 401 Unauthorized error was encountered while trying to use an ErrorDocument to handle the request.

The equivalent of 147,627 printed pages was downloaded during the day (538.247 megabytes) from 539 distinct visits each averaging 3.1 memory pages and 10 minutes, printed pages to hits ratio of 67.94 for the day, main spiders cnsat(China), google, MSN and yahoo. Collected ECE2 1178, Top ten 1119, Collected Evans / Morris 561(est), F3(Sp) 453, Collected Scientometrics 370, Barddoniaeth / Collected Poetry 204, Principles of ECE 174, Eckardt Lindstrom papers 164, Collected Proofs 162, Autobiography volumes one and two 158, Evans Equations 88(est), Engineering Model 77, UFT88 74, PECE 60, CEFE 57, UFT311 39, UFT321 31, Self charging inverter 25, Llais 23, List of prolific authors 20, Three world records by MWE 16, UFT313 27, UFT314 24, UFT315 28, UFT316 17, UFT317 28, UFT318 30, UFT319 33, UFT320 22, UFT322 34, UFT323 24, UFT324 40, UFT325 33, UFT326 37, UFT327 25, UFT328 34, UFT329 37, UFT330 21, UFT331 23, UFT332 25, UFT333 26, UFT334 19, UFT335 20, UFT336 21, UFT337 19, UFT338 18, UFT339 17, UFT340 21, UFT341 14, UFT342 17, UFT343 22, UFT344 23, UFT345 26, UFT346 36, UFT347 32, UFT348 26, UFT349 28, UFT351 39, UFT352 41, UFT353 29, UFT354 45, UFT355 56, UFT356 42 to date in September 2016, German Websearch Machine (DEUSU) Statements and spidering; University of Ohio UFT214. Intense interest all sectors, updated usage file attached for September 2016.

Unauthorized

This server could not verify that you are authorized to access the document requested. Either you supplied the wrong credentials (e.g., bad password), or your browser doesn’t understand how to supply the credentials required.

Additionally, a 401 Unauthorized error was encountered while trying to use an ErrorDocument to handle the request.

To group and not blog. OK, Horst and yourself can iterate to a conclusion and I will start making my contributions along these lines.

om: russdavis1234@yahoo.com
To: emyrone@aol.com
CC: mail@horst-eckardt.de
Sent: 17/09/2016 17:25:08 GMT Daylight Time
Subj: Fw: Preparing for UFT358

Sorry, I think my “gain” idea is not properly captured in the original formulation (email below).

The material E-field gain, G, should be = (E_initial) / (E_final_due_to_spacetime_feedback) ,

not sure how to convey this where E = [(epsilon-null/ rho_m) (Div E) ] / E_f

-Russ

I have studied the notes and agree with the concepts. The basic idea of an interchange between a circuit and vacuum is very important, and indeed UFT355 and UFT356 are already very popular. The graphics are also very interesting. I am forwarding to the group and will write out notes for UFT358 as usual, so the final paper can be a based on a combination of notes and calculations.

To: EMyrone@aol.com
CC: mail@horst-eckardt.de
Sent: 17/09/2016 16:44:18 GMT Daylight Time
Subj: Re: Preparing for UFT358

Hi Dr. Evans,

I attached as a compressed file (files.zip) of some of my calculations and correspondence with Horst. He is very busy and has not had time to vet many of these ideas and calculations (there are likely conceptual and calculation mistakes) So, I recommend not posting my raw results information on the blog.

Some questions I was trying to answer are following (a special case answer to 1st question is in file in the zip attachment):

1) What is the static voltage profile, Ф(x) for E = E_f ?

2) Can E(x,t) be proportional to (+,-) E_f(x,t), for time varying fields? If so, does such a circumstance constitute a phase-locking of a component of the aether (background) with the material field (foreground) ? Can the coupling in such a case result in positive feedback, so that the material voltage is amplified?

3) Can material E-field obtain gain due to spacetime feedback, where gain G = E/E_f, for
G = ( –phi‘ ) / (rho_m / epsilon-null) phi‘/phi” ) = ( epsilon-null / rho_m) phi” ?

The above formulations are an oversimplification with respect to time-varying cases, since do not include time-varying vector potential components.

Cheers,

-Russ

Condolences on the death of your uncle from the group and myself.

To: russdavis1234@yahoo.com
CC: Emyrone@aol.com
Sent: 17/09/2016 18:50:52 GMT Daylight Time
Subj: Re: Fw: Preparing for UFT358

I had to go to a funeral in Northern Germany yesterday because my uncle has died. I am currently in the process of writing section 3 o fpaper 356. Will look into your script, Russ, probably tomorrow.

Horst

Am 17.09.2016 um 18:25 schrieb Russell Davis:

Sorry, I think my “gain” idea is not properly captured in the original formulation (email below).

The material E-field gain, G, should be = (E_initial) / (E_final_due_to_spacetime_feedback) ,

not sure how to convey this where E = [(epsilon-null/ rho_m) (Div E) ] / E_f

-Russ

Many thanks again, much appreciated as ever!

To: EMyrone@aol.com
Sent: 18/09/2016 00:30:26 GMT Daylight Time
Subj: Re: FOR POSTING: UFT357 and Background Notes

Posted today

Dave

On 9/17/2016 2:40 AM, EMyrone wrote:

This paper uses fluid electrodynamics to give a straightforward explanation of the anomalous g factor of the electron and the Lamb shift, two of the well known and precisely measured radiative corrections that show that spacetime (or aether or vacuum) contains energy that can be transferred to matter such as an electron or the H atom, total energy being conserved.