Archive for September, 2017

Daily Report 28/7/17

Saturday, September 30th, 2017

The equivalent of 139,612 printed pages was downloaded (509.024 megabytes) from 2,302 downloaded memory files (hits) and 586 distinct visits each averaging 3.4 memory pages and 8 minutes, printed pages to hits ratio 56.27, top referrals total 2,302,357, main spiders Baidu, Google, MSN and Yahoo. Collected ECE2 2558, Top ten 1671, Collected Evans / Morris 924(est), F3(Sp), Collected Scientometrics 528, Principles of ECE 286, Barddoniaeth (Collected Poetry) 231, Autobiography volumes one and two 175, Collected Eckardt / Lindstrom 168, UFT88 146, Collected Proofs 120, PECE 119, Evans Equations 88, Engineering Model 82, MJE 82, SCI 72, UFT311 70, PLENR 68, CEFE 66, CV 56, Llais 42, UFT321 36, PECE2 35, 83Ref 31, ADD 22, UFT313 35, UFT314 27, UFT315 36, UFT316 23, UFT317 43, UFT318 27, UFT319 55, UFT320 34, UFT322 30, UFT323 33, UFT324 60, UFT325 40, UFT326 20, UFT327 28, UFT328 32, UFT329 27, UFT330 16, UFT331 37, UFT332 41, UFT333 16, UFT334 31, UFT335 55, UFT336 26, UFT337 28, UFT338 24, UFT339 29, UFT340 29, UFT341 41, UFT342 42, UFT343 45, UFT344 33, UFT345 39, UFT346 17, UTF347 59, UFT348 45, UFT349 37, UFT351 47, UFT352 40, UFT353 42, UTF354 64, UFT355 43, UFT356 42, UTF357 33, UFT358 49, UTF359 28, UFT360 21, UFT361 16, UFT362 24, UFT363 33, UFT364 33, UFT365 12, UFT366 35, UFT367 26, UFT368 31, UFT369 42, UFT370 31, UFT371 28, UFT372 29, UFT373 29, UFT374 39, UFT375 16, UFT376 19, UFT377 25, UFT378 27, UFT379 21, UFT380 21, UFT381 35, UFT382 74, UFT383 55, UFT384 31, UFT385 66, UFT386 49, UFT387 44, UFT388 28 to date in September 2017. City of Winnipeg extensive; University of Quebec Trois Rivieres UFT381 – UFT388; University of Applied Sciences Ravensburg-Weingarten LR Resonant; Complutense University Madrid general; Ministry of Communications and Information Technology Government of India general; University of Amsterdam UFT88; Wayback Machine archiving; Dhalgren Gallery general; San Joaquim Valley Library System Californian Archive System UFT299; AMRES Institutions Serbia UFT175. Intense interest all systems, updated usage file attached for September 2017.

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Daily Report 27/7/17

Friday, September 29th, 2017

The equivalent of 153,928 printed pages was downloaded (561.222 megabytes) from 2,581 memory files downloaded (hits) and 592 distinct visits each averaging 3.5 memory pages and 10 minutes, printed pages t hits ratio of 59.64, top referrals total 2,301,901, main spiders Baidu, Google, MSN and Yahoo. Collected ECE2 2518, Top ten 1627, Collected Evans / Morris 891(est), F3(Sp) 698, Collected scientometrics 505, Principles of ECE 283, Barddoniaeth 223, Collected Eckardt / Lindstrom 165, Autobiography volumes one and two 166, UFT88 135, PECE 118, Collected Proofs 114, Evans Equations 87, Engineering Model 81, UFT311 69, CEFE 65, CV 54, UFT321 40, Llais 38, PECE2 35, 83Ref. 29, ADD 20, UFT313 34, UFT314 27, UFT315 34, UFT316 23, UFT317 42, UFT318 25, UFT319 55, UFT320 34, UFT322 30, UFT323 33, UFT324 59, UFT325 39, UFT326 20, UFT327 28, UFT328 31, UFT329 27, UFT330 16, UFT331 37, UFT332 40, UFT333 16, UFT334 31, UFT335 55, UFT336 25, UFT337 28, UFT338 23, UFT339 28, UFT340 29, UFT341 41, UFT342 41, UFT343 42, UFT344 33, UFT345 37, UFT346 17, UFT347 59, UFT348 44, UFT349 38, UFT351 47, UFT352 40, UFT353 42, UFT354 64, UFT355 42, UFT356 41, UFT357 33, UFT358 49, UFT359 28, UFT360 20, UFT361 16, UFT362 24, UFT363 32, UFT364 33, UFT365 12, UFT366 35, UFT367 26, UFT368 30, UFT369 41, UFT370 30, UTF371 28, UFT372 28, UTF373 29, UFT374 38, UTF375 16, UFT376 19, UFT377 25, UFT378 27, UFT379 20, UFT380 20, UFT381 33, UFT382 72, UFT383 51, UFT384 28, UFT385 64, UFT386 47, UFT387 42, UFT388 26 to date in September 2017. City of Winnipeg UFT papers; New York University UFT213; French Atomic and Alternative Energy Commissariat general; Lorraine Academic network (CROUS Lorraine Nancy Metz) general; Welsh Networking Invitation to Buckingham Palace, Award of Civil List Pension and similar; Royal Institute of Technology Stockholm UFT139; University of York UFT28. Intense interest all sectors, updated usage file attached for Spetember 2017.

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389(8): Suggested Standard Procedure for ECE2 Level Physics

Thursday, September 28th, 2017

This note is written for electrodynamics but is also valid for gravitation, classical and quantum mechanics, and fluid dynamics. The only area not yet developed in as much depth with ECE2 level physics is nuclear physics. First note that that there exists a hitherto undiscovered equation (9) which links the vector spin connection and the scalar potential phi. So the suggested standard procedure starts with the measurement of the charge density in a material or circuit, then proceeds in a rigorously logical way to calculate the other relevant quantities while obeying all five antisymmetry equations simultaneously. Step (9) checks for self consistency using the trace antisymmetry law eq. (20) – discovered by Dr. Douglas Lindstrom using the tetrad postulate of Cartan geometry and named the Lindstrom constraint. Point (10) introduces the well known gauge equations to regauge the scalar and vector potentials if necessary until Eq. (22) is obeyed. In general, numerical methods can be used at all stages, if necessary with mainframes and supercomputers, array processors and so on. A good desktop could probably go a long way with code packages such as Maxima, Maple, Mathematica, IBM ESSL, NAG and so on. There are many online libraries of code available. So I will write up UFT389, Sections 1 and 2, along these lines. The spin conenctikon four vector is a map of the aether or vacuum for any problem in physics. This i sbecasue ECE2 is a generally covarian t unified field theory, now well accepted by a vast new school of avant garde thought in physics. We know this through fifteen years of meticulous scientometrics available on www.aias.us.

.

a389thpapernotes8.pdf

Discussion of 389(7): The Completed Law of Consevation of Antisymmetry

Thursday, September 28th, 2017

Agreed, this is of key importance. If A is chosen as the starting point, omega can be computed from Eqs. (9) to (11), an exactly determined set of three equations. Then phi can be calculated from Eqs. (2) and (4), finally omega sub 0 is calculated from eq. (4). I will summarizes this method in the next note for electromagnetism and gravitation and then proceed to write up UFT389. The standard model is completely erroneous, it does not conserve antisymmetry as was first shown in UFT131.

To: EMyrone@aol.com
Sent: 27/09/2017 11:48:41 GMT Daylight Time
Subj: Re: 389(7): The Completed Law of Consevation of Antisymmetry

It is important that the potentials are self-consistent as you have described. As we will see from the examples I am preparing for UFT 388, taking over well known approaches from the standard model can lead to inconsistencies in the field equations for example. Using a regauging could be a remedy for this.

Horst

Am 27.09.2017 um 12:24 schrieb EMyrone:

This has taken nearly a decade to develop, and in electrodynamics consists of Eqs. (1) and (2) and Eqs. (9) to (11). These equations are based on the tetrad postulate of Cartan geometry and the antisymmetry of a differential two form, in this case the electromagnetic field tensor on the ECE2 level in physics. Eqs. (1) and (2) must be solved simultaneously for the scalar spin connection and the scalar potential, and Eqs. (9) to (11) for the vector spin connection given the vector potential. They must be applied simultaneously with the field equations on the ECE2 level in physics. This note uses the gauge transformation (24) to ensure that the differential equation (28) for phi that emerges from Eqs. (1) and (2) is self consistent. If the scalar potential phi from Eq. (28) is not the same as the experimentally determined phi, then the former is regarded as the gauge shifted phi defined by Eq. (29). The Maxwell Heaviside theory violates the law of conservation of antisymmetry as shown initially in UFT131 ff. So the standard U(1) theory of electrodynamics is completely refuted, as is zero photon mass theory and Higgs boson theory, and also the standard electroweak theory (U(1) x SU(2)) and grand unified theory (U(1) x SU(2) x SU(3)), together with Einsteinian general relativity. The electroweak theory is entirely refuted in other ways in UFT225. The scientometrics show beyond doubt that these conclusions has been accepted by a vast avant garde school of thought: ECE Physics. This exists indefinitely alongside the standard model of physics, which has been riddled completely by well known and accepted refutations. AIAS / UPITEC is the leading institute of physics in the world and has developed a new distance teaching and publication method at no cost to the taxpayer, with the exception of my Civil List pension of £2,400 a year. This is a token of gratitude by Queen Elizabeth and Parliament for services to science and voluntary work, and is not meant to live on. I earn my living in other ways. All our results are openly accessible worldwide.

Daily Report 26/7/17

Thursday, September 28th, 2017

The equivalent of 153,784 printed pages was downloaded (560.697 megabytes) from 2,710 downloaded memory files (hits) and 610 distinct visits each averaging 3.6 memory pages and 8 minutes, printed pages to hits ratio of 56.75, top referrals total 2,301,688, main spiders Baidu, Google, MSN and Yahoo. Collected ECE2 2478, Top ten 1549, Collected Evans / Morris 858(est), F3(Sp) 670, Collected scientometrics 501, Principles of ECE 267, Barddoniaeth 226, Autobiography volumes one and two 158, Colelcted Eckardt / Lindstrom 161, UFT88 126, PECE 114, Collected Proofs 110, Evans Equations 85, MJE 81, Engineering Model 80, SCI 69, UFT311 65, CEFE 61, CV 52, Llais 38, UFT321 37, PECE2 35, 83Ref 29, ADD 21, UFT313 33, UFT314 27, UFT315 34, UFT316 23, UFT317 41, UFT318 24, UFT319 53, UFT320 33, UFT322 29, UFT323 29, UFT324 56, UFT325 37, UFT326 20, UFT327 28, UFT328 31, UFT329 26, UFT330 15, UTF331 34, UFT332 39, UFT333 14, UFT334 30, UFT335 63, UFT336 23, UFT337 28, UFT338 22, UFT339 27, UFT340 27, UFT341 40, UTF342 40, UFT343 42, UFT344 32, UFT345 36, UTF346 17, UFT347 58, UFT348 42, UFT349 37, UFT351 45, UFT352 39, UTF353 41, UFT354 62, UFT355 40, UFT356 39, UFT357 33, UFT358 49, UFT359 28, UFT360 20, UFT361 16, UFT362 22, UFT363 30, UFT364 32, UFT365 10, UFT366 35, UFT367 23, UFT368 30, UFT369 40, UFT370 29, UFT371 28, UFT372 28, UFT373 29, UFT374 38, UFT375 15, UFT376 19, UFT377 25, UFT378 27, UFT379 20, UFT380 20, UFT381 31, UFT382 69, UFT383 49, UFT384 26, UFT385 61, UFT386 45, UFT387 40, UFT388 22 to date in September 2017. University of Quebec Trois Rivieres UFT366 – UFT388; York University Toronto general; Geographical Institute University of Bayreuth UFT41; Roswell Park Cancer Institute Buffalo New York home page. Intense interest all sectors, updated usage file attached for September 2017.

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389(7): The Completed Law of Consevation of Antisymmetry

Wednesday, September 27th, 2017

This has taken nearly a decade to develop, and in electrodynamics consists of Eqs. (1) and (2) and Eqs. (9) to (11). These equations are based on the tetrad postulate of Cartan geometry and the antisymmetry of a differential two form, in this case the electromagnetic field tensor on the ECE2 level in physics. Eqs. (1) and (2) must be solved simultaneously for the scalar spin connection and the scalar potential, and Eqs. (9) to (11) for the vector spin connection given the vector potential. They must be applied simultaneously with the field equations on the ECE2 level in physics. This note uses the gauge transformation (24) to ensure that the differential equation (28) for phi that emerges from Eqs. (1) and (2) is self consistent. If the scalar potential phi from Eq. (28) is not the same as the experimentally determined phi, then the former is regarded as the gauge shifted phi defined by Eq. (29). The Maxwell Heaviside theory violates the law of conservation of antisymmetry as shown initially in UFT131 ff. So the standard U(1) theory of electrodynamics is completely refuted, as is zero photon mass theory and Higgs boson theory, and also the standard electroweak theory (U(1) x SU(2)) and grand unified theory (U(1) x SU(2) x SU(3)), together with Einsteinian general relativity. The electroweak theory is entirely refuted in other ways in UFT225. The scientometrics show beyond doubt that these conclusions has been accepted by a vast avant garde school of thought: ECE Physics. This exists indefinitely alongside the standard model of physics, which has been riddled completely by well known and accepted refutations. AIAS / UPITEC is the leading institute of physics in the world and has developed a new distance teaching and publication method at no cost to the taxpayer, with the exception of my Civil List pension of £2,400 a year. This is a token of gratitude by Queen Elizabeth and Parliament for services to science and voluntary work, and is not meant to live on. I earn my living in other ways. All our results are openly accessible worldwide.

a389thpapernotes7.pdf

Daily Report 25/9/17

Wednesday, September 27th, 2017

The equivalent of 172,921 printed pages was downloaded (630.471 megabytes) from 3,258 downloaded memory files (hits) and 672 distinct visits each averaging 3.7 memory pages and 10 minutes, printed pages to hits ratio of 53.08, top referrals total 2,301,485, main spiders Baidu, Google, MSN and Yahoo. Collected ECE2 2326, Top ten 1504, Collected Evans / Morris 825(est), F3(Sp) 636, Collected Scientometrics 474(est), Principles of ECE 264, Barddoniaeth (Collected Poetry) 217, Collected Eckardt /Lindstrom 158, Autobiography Volumes One and Two 144, UFT88 125, PECE 111, Collected Proofs 108, Engineering Model 78, Evans Equations 78, SCI 69, UFT311 64, PLENR 60, CV 51, Llais 37, UFT321 35, PECE2 33, 83Ref 28, ADD 21, UFT313 32, UFT314 26, UFT315 33, UFT316 23, UFT317 40, UFT318 24, UFT319 52, UFT320 33, UFT322 28, UFT323 27, UFT324 56, UFT325 36, UFT326 18, UFT327 26, UFT328 30, UFT329 23, UFT330 14, UFT331 34, UFT332 36, UFT333 14, UFT334 30, UFT335 53, UFT336 23, UFT337 26, UFT338 20, UFT339 27, UFT340 27, UFT341 40, UFT342 40, UFT343 42, UFT344 31, UFT345 35, UFT346 17, UFT347 57, UFT348 39, UFT349 36, UFT351 43, UFT352 38, UFT353 41, UTF354 62, UFT355 39, UFT356 39, UFT357 33, UFT358 47, UTF359 27, UFT360 20, UFT361 15, UFT362 21, UFT363 30, UFT364 30, UFT365 10, UTF366 33, UFT367 21, UFT368 26, UFT369 35, UFT370 25, UFT371 24, UFT372 25, UFT373 26, UFT374 36, UFT375 13, UFT376 17, UFT377 22, UFT378 25, UFT379 18, UFT380 17, UFT381 28, UFT382 66, UFT383 47, UFT384 24, UFT385 58, UFT386 41, UFT387 38, UFT388 20 to date in September 2017. University of Heidelberg UFT58; Thomas Jefferson University UFT382, ECE Devices; Compiegne University of Technology (Sorbonne Universities) general. Intense interest all sectors, updated usage file attached for September 2017.

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389(6): Final Adjustments to Note 389(5)

Tuesday, September 26th, 2017

In this note the complex conjugate spin connections (1) and (2) are given for plane waves and B(3) theory. These are maps of the aether or vacuum. They were computed by co author Horst Eckardt using the equations of conservation of antisymmetry for B(3) theory, nominated for a Nobel prize several times. For plane waves the Lindstrom constraint reduces to Eq. (14). The Lindstrom constraint is the trace antisymmetry law of physics. It is written self consistently with the vector antisymmetry laws of physics, Eqs. (11) to (13). The trace antisymmetry law and scalar antisymmetry law (15) must be solved simultaneously and self consistently. This is achieved by defining A*(total) as in Eqs. (20) to (23). This procedure means that the homogeneous field equations (16) and (17) are obeyed automatically on the ECE2 level in physics. For plane waves the electric field strength E is known so the scalar potential for plane waves can be found from Eq. (24), knowing the spin conenction vector. Then the scalar spin connection can be found from the Lindstrom constraint. This is another map of the vacuum for B(3) theory. Maps of the vacuum exist for any theory of physics on the ECE2 level. Finally the scalar antisymmetry law (26) must always be obeyed. This can always be achieved by using the gauge transformation (27), and by adjsuting the gauge function chi. Antisymmetry conservation is a major discovery in physics, as was B(3). So this note can be used in Section 3 of UFT388 The gauge procedure is new to this note, and can also be used in gravitation on the ECE2 level. This is far in advance of the standard model.

a389thpapernotes6.pdf

Discussion of 389(5)

Tuesday, September 26th, 2017

This is very good progress, the vector antisymmetry equations have been solved to give the vector spin connection:

omega = (kappa / root2) (i bold – i j bold) exp i phi – i kappa k

I agree that this is the correct spin connection. I will rework the note with this spin connection and send the new calculations over to Horst. The final calculations can be used in Section 3 of UFT388, because UFT389 is on gravitation.

To: EMyrone@aol.com
Sent: 26/09/2017 01:34:17 GMT Daylight Time
Subj: Re: 389(5): The Spin Cyclic Theorem

When using the computer, there seem to be some problems with antisymmetry eqs. (32-34). The derivative

partial A_y* / partial z

is not zero. Therefore omega_z cannot be zero in (38). The eq. (42) with

i kappa = kappa

means that kappa=0, not omega_z=0.

By computer, using A* = A(2) = ,

it follows that the equation set (32-34) is of rank 2. The solution is

with an unspecified constant r2. This looks a bit strange. Some tests led to the result that

omega =

solves the antisymm. eqs. (32-34). However with omega_z=0 it does definitely not.
The subsequent calculation gives for E and B (total fields):

There are some differences in signs with eq. (53). The B_Z component (which should be equal to B(3)) is imaginary.
Maxwell’s equations give div E=0 and div B=0 but non-vanishing current densities.
The Lindstrom constraint for phi = 0 gives

(should be zero). For phi* given by (62) the equation

follows.
It seems that some adjustments have still to be done for this note, or I misunderstood some parts.

Horst

Am 24.09.2017 um 14:07 schrieb EMyrone:

This theorem defines the B(3) field as in Eq. (24) through the conjugate product of spin connection plane wave vectors. Symmetry shows that omega(3) = A(3) = 0. The vector antisymmetry equations (32) to (34) are obeyed, and the other two antisymmetry equations (46) and (47) are obeyed by using the procedure on pp. 8 and ff. of the Note. This is the best procedure to adapt in every application because it makes sure that the two antisymmetry equations (46) and (47) are obeyed simultaneously and self consistently. So B(3) theory rigorously conserves antisymmetry, as must all theories of physics. There is also a gravitational and fluid dynamical B(3) field. The ECE School of Thought has become independent of the standard model and is forging ahead with rapid advances.

389(B3).pdf

Discussion of Note 389(4)

Tuesday, September 26th, 2017

Many thanks as ever for checking this note. These spin connections, Eqs. (13) to (16), are maps of the aether for a precessing planar orbit and it would be very interesting to graph the scalar and vector parts of the spin connection four vector for forward and retrograde precession. Then Q can be found and graphed from Eqs. (3) to (5), and omega sub 0 from the Lindstrom constraint (6), using the Newtonian gravitational scalar potential phi cap. Finally we use Eqs. (7) and (8). A lot of very interesting results will emerge.

To: EMyrone@aol.com
Sent: 25/09/2017 17:18:27 GMT Daylight Time
Subj: Re: 389(4) Spin Connections for Precessing Planar Orbits

There is a factor missing in the denominators of eqs.(13,14). The right solution (13) is:

And correspondingly for (14).

Horst

Am 22.09.2017 um 13:19 schrieb EMyrone:

This not gives the spin connections for a forward and retrograde precession using the gravitational potential (3). The results are equations (13) to (16) and can be graphed. They are maps of spacetime, the vacuum or gravitational aether. In order to compute the vector potential Q it is necessary to compute Eqs. (17) to 919), the antisymmetry equations. Having found the vector potential, the scalar spin connection is found from the Lindstrom constraint,and finally the total vector potential found as in the previous note. If it is assumed that the spin connection is two dimensional for a planar orbit, the omega sub Z = 0. Computer algebra can be used to solve Eqs. (17) to (19), which are three simultaneous differential equations. I will look for a simple solution by hand. The differential equations are of the type dy / dx = f(x, y)y and so on. I am sure that there are code packages that can integrate such equations (e.g. Maxima, Mathematical,Maple, NAG, IBM ESSL, and so on) . A great deal of new information about precessing planar orbits will emerge from this complete theory, which in general is a new type of cosmology.