**99.91.1 Secrets of 82944 (Iuliano)**

Subject: Secrets of 82944

From: JerryIuliano@aol.com

To: rgrace@rgrace.org

Date: Thu, April 7, 2005 9:03 pm

......the temperament constant from the article below, 2 ^ (1/1200) = 1.00057779...is a function of the gravitational constant :e ^ (Pi+8) = Fermat form..harmonic mean of 37 and 57

G = 6.674241004 *( 10^ -11).....2002 NIST = 6.67420....* (10^-11)

Tm = 2 ^ ( 1/1200 ) = 1.00057779...

94 = 57+ 37 ( 10 ^ 94 ) * ( G ^ 9 ) / Tm = sqrt ( e^ ( Pi +8 ))

G = 6.67421523 * ( 10 ^ -11

Tm =2^ ( 1/ 1200 ) = 1.00057779...

57 / 3 = 19

Tm * ( G^2 ) * ( 10 ^ 19 ) = ( 37 + 57 ) / ( 37 * 57 )

J.Iuliano

_MMD_ (http://mmd.foxtail.com/index.html) _Archives_ (http://mmd.foxtail.com/archives.html) _November 1996_ (http://mmd.foxtail.com/Archives/Digests/199611.html) _1996.11.04_ (http://mmd.foxtail.com/Archives/Digests/199611/1996.11.04.html) 10 _Prev_ (http://mmd.foxtail.com/Archives/Digests/199611/1996.11.04.09.html) _Next_ (http://mmd.foxtail.com/Archives/Digests/199611/1996.11.05.01.html) Piano Tuning Math By _Robbie Rhodes_ (http://mmd.foxtail.com/Archives/Authors/Aut59.html) The logarithmic arithmetic developed by Napier and Briggs in the 17th century was soon applied to tuning the musical scale: the result was the "Equal Temperament Tuning", which was adopted immediately by composers who enjoyed lots of key-changes. True, the new tuning algorithm didn't sound quite as sweet with simple "diatonic" music, and so the Traditionalists continued to compose and perform using older methods of "Just Tuning". Others simply observed: "With the new tuning, now the Klavier sounds equally _bad_ in all keys!" Well, it's not a panacea, it's a compromise, with a sound mathematical description. (Since I enjoy playing with lots of key- and chord-changes myself, I tune my piano with the logarithmic Equal Temperament, like practically everyone else. Perhaps someday I'll get to play a fancy synthesizer, which dynamically adjusts the temperament for the "sweetest sound" for whichever chord (or dischord) I play at the moment!) Here's the mathematics in simple form, and you don't have to worry about logarithms if you have an engineering calculator (or equivalent in a computer "assistant"). The basis is simply that the frequency of each adjacent note on the piano keyboard differs by a constant _ratio_. Since the "octave" of the keyboard has 12 different notes, and since the frequency doubles in each octave, the ration is the twelfth root of two, which is 1.059463094. So, if I define my standard pitch as 220 Hz for the A below middle C, then when I multiply 220 by 1.056... _twelve_ times, I get the next octave higher, which is A = 440 Hz. 220.00 233.08 246.94 261.63 .... 369.9994 391.995 415.30 440.000 The piano tuner also geometrically sub-divides the ratio between adjacent tones into 100 parts, called "Cents". 1 Cent is the twelve-hundredth root of two, which is 1.000577790. Not much of a change, is it! But when I multiply 220.00 Hz by this tiny ratio one hundred times, I get the correct frequency of the next note, A# 233.08 Hz. Suppose, for example, the piano tuner reports that my "new" old piano is 20 Cents flat compared to concert pitch. Is this a lot? Well, since 100 Cents flat would amount to one note (key), the piano is 1/5-note flat. 5 times 12 is 60, so I find the sixtyth root of two, which is 1.0116, and then I divide 440 Hz by 1.0116 to discover that "A" on my piano is really at 434.95 Hz. That's 5 Hz (cycles per second) difference from concert pitch, and I can easily hear the 5 Hz beat frequency when the tuner strikes his A440 tuning fork and the piano key together. So, I instruct the tuner to "wind it up to concert pitch" and then I leave him alone for an hour or so. The result -- a properly tuned piano -- always pleases me! -- Robbie Rhodes (Message sent Tue 5 Nov 1996, 03:58:42 GMT, from time zone GMT-0800.)

Key Words in Subject: _Math_ (http://mmd.foxtail.com/Archives/KWIC/M.html#mat), _Piano_ (http://mmd.foxtail.com/Archives/KWIC/P.html#pia), _Tuning_ (http://mmd.foxtail.com/Archives/KWIC/T.html#tun) The secrets of 82944

TORUS/CYLINDER VOLUME: 2 * Pi * R * ( r^2 ) = v = volume torus/cylinder

R = loop radius to centerline tube = 57 units

r = tube radius = 37.000000005702

pmev = proton energy = 938.272029mev

cosine in radians 82944 ^ ( cos v ) = 10 * pmev

HYDROGEN ATOM: one proton; one electron

emev = electron energy = .510999475

Pi = 3.141592654...

82944 ^ ( emev ^ ( 1 / Pi )) = 10 * pmev

WEAK FORCE BOSONS: W+ and Zo neutrino

W+ = 80.4 Gev

Zo = 91.2028781 Gev

Fd = Feigenbaum delta constant = 4.669201609...

82944 ^ (( Fd / 10 ) ^ ( W+ / Zo / Pi )) = 10 * pmev

FEIGENBAUM DELTA CONSTANT:

Fd = 4.6692043132.., tan^-1 in radians:

tan^-1 (( 100 ^ Pi ) / 82944 ) = Fd

COLLECTIVE UNCONSCIOUS CONSTANT: 37(mod).891891891...

aem = fine-structure constant = 1 /137.0359993...

32 = directives to fly an Indian vimana :: 32 = paths of Kabbalic wisdom

( 10 ^ ( 82944 / 666 / 32.0000026925 )) / 666 = sqrt 1/aem

FINE-STRUCTURE CONSTANT: cosine in radian form:

aem = 1/ 137.036000986

( 82944 ^ ( 1 / Pi )) / 100 = cos 1/aem

FINE-STRUCTURE CONSTANT: cosine radian form:
aem = 1 /137.036000986...

W+ = 80.4 Gev

Zo = 91.203256 Gev

(( Fd / 10 ) ^ ( 2 * W+ / Zo )) * pmev / 666 = cos 1/aem

WEAK FORCE :

Gw = fermi coupling charge

Gw = .00001166412407Gev

emev = .510998986mev

W+ = 80.4 Gev

Zo = 91.203256 Gev

(( Fd / 10 ) ^ ( W+ / Zo )) / pmev / 100 / ( emev ^ ( Zo / W+ )) = Gw

...here the Feigenbaum delta constant ...Fd...has given up one of its deepest secrets with the unification of the four fundamental force constants. The formula unifies the neutrino mystery of the weak force, the W+ and Zo bosons of the fermi-coupling charge, Gf and Gw. The first equation lays out the basic structure:

emev / pmev / Gw

10 = Fd

...there are three universal constants here:

emev = electron energy = .510998986 mev

pmev = proton energy = 938.272029 mev

Gw = fermi-coupling charge = .00001166403038 Gev

W+ = 80.4 Gev

Zo = 91.2027465 Gev

...by forcing 10 into the denominator of the right side of the equation...Fd/10...and re-entering this result into the numerator of the left side of the equation results in the Feigenbaum delta equation itself !

(( Fd / 10 ) ^ ( W+ / Zo )) / pmev / Gw / 10 = Fd

...this answers the question, which came first the chicken or the egg. The Feigenbaum delta constant is both the chicken and egg !

egg = F delta chicken = (( Fd / 10 ) ^ ( W+ / Zo )) / pmev / Gw / 10 = Fd

...the weak force is the connector here, ratio of the two bosonic weak force particles, W+ and Zo off the Fd constant. The fine-structure constant...aem...is angular (A.Young) to the Fd constant:

aem = 1/ 137.03599801..

((( cos 1/aem ) * 666 / pmev ) ^ ( Zo / 2 / W+ )) * 10 = Fd

...the gravitational force ...Gn... is reduced to Fdelta through the W+ and Zo bosons:

Mp = Planck mass = 2.176449594 * ( 10 ^ - 8 ) kilograms

Gn = gravitational constant = 6.67420559 * ( 10 ^ - 11 ) m^3/kg/s^2

Gf = weak force derivative = 3.685861943 * ( 10 ^ - 82 ) Gev

((( Gn^3 )*( Mp^6 )/pmev/Gf )^(Zo/(Zo - W+))) / (10^((Zo + W+)/(Zo - W+))) = Fd

...which can be set into the equality:

( Gn^3 )*( Mp^6 )/pmev / Gf = ( Fd^( 1 - ( W+ / Zo )))*( 10 ^ ( 1 + ( W+ / Zo ))) 91.37398972 = 91.37398957

...the equation above demonstrates that Fd and 10 are of the same "weight" since they both use "theta" factors...sin^2 (1-Z/W ) = theta ...equally. Placing Fd and 10 in ratio with the electron, symmetrically around the proton, strangely has the same effect as the Fd---10 expression ( 1 - ( W+/Zo ) and ( 1 + ( W+/Zo ), this time showing that the electron is mathematically the same as Fd !!!

(( Fd / 10 ) ^ ( W+ / Zo )) / pmev / ( emev ^ ( Zo / W+ )) / 100 = Gw So Fd, the electron and 10 are all transformed by the weak force bosons, W+ and Zo, into the four-fundamental forces. An amazing discovery has been made concerning the integer 57, the paired harmonic with 37 used in many formulas:

( e ^ ( Pi + 7.99999980141)) * (( 1/37 + 1/57 ) ^ 2 ) = 1/ aem

...the collective unconscious form...10 ^ (144/37)...has always been 37's domain because of formulas like this:

( 10 ^ ( 143.999987884 / 37 )) / 666 = sqrt 1/aem

...where the constant.....891891891.... has been known as the collective unconscious number because it is modulo to 37. 57 can also be demonstrated as a collective unconscious generator because of this formula:

( 10 ^ ( 143.999987884 / 37 )) = (( 56.99993566 * 2 * Pi ) ^ - 2 ) * ( 10 ^ 9 )

...such that:

(( 56.99993566 * 2 * Pi ) ^ -2 ) / .000000666 = sqrt 1/aem

...this is important because the iteration formula uses .077963562... as its constant:

Letting x = any real number less than 5, such that: e = natural log = 2.7182818..

10 ^ -((( e ^ x ) * .1 ) +1 ) = x(1)

...keep feeding back x(1) to the left side of the equation...e^x...After several reiterations, x always settles on the constant number ..(.077963562..)

..this is the definition of an iterated fractal:

( log ( .077963562 * ( 10 ^ 5 ))) * 37 = 143.9999919...

...57 is important because in the torus/cylinder structure with loop radius = 57 units and tube radius = 37 units, the cosine in radians of the torus volume to the Pi'th power equals the energy of the electron:

TORUS / CYLINDER VOLUME = 2 * ( Pi ^ 2 ) * R * ( r ^ 2 ) = v

R = 57

r = 37.000000005702...

( cos ^ v ) ^ Pi = emev

TORUS / CYLINDER SURFACE AREA = 4 * ( Pi ^ 2 ) * R * r = s

r = 37

R = 57

Mp = Planck mass = 2.176449594 * ( 10 ^ - 8 ) kilograms

( 4 * ( Pi ^ 2 ) * R * r / ((( Mp ^ 3 ) / ( 4 / Pi / E / ( c ^ 2 )) ^ 4 )) ^ Pi = emev

...however the collective unconscious constant is modulo 37 :: mod .891891891, through R = 57:

(( R * 2 * Pi ) ^ - 2 ) - ( 10 ^ 9 ) = 7796.336076..

...where:

10 ^ ( 143.999950421 / r ) = 7796.336076

...substituting into the electron equation: X= 143.999950421

( 10 ^ ( x / 37 ) - 9 )) ^ (-1/2 ) * 2 * Pi * R / ( Mp ^ 3 ) / ( 10 ^ 28 )) ^ Pi = emev

...reducing to:

1 / ( Mp ^ 2 ) = ( emev^( 1/Pi ))*( 10^28 )*Mp/r/Pi/2/(10^((144/37)-9)) ^(-1/2)

...however:

1/(Mp ^ 2) equals:

Gn * 2 * Pi / h / c = 1 / ( Mp ^ 2 )

...reducing:

...the electron energy ...emev... is spread by Pi over the surface area of a torus that has r = 37 and R = 57 as parameters, with a three dimensional mass...Mp...sitting in the hole of the torus...r = 36.999722222...:

( emev ^ ( 1 / Pi )) * ( Mp ^ 3 ) * ( 10 ^ 28 ) = 4 * ( pi ^ 2 ) * R * r = s

...the collective unconscious constant...log modulo 37 :: .891891891... uses a perfect circle...2 * Pi * r... ( a halo ) to transform into a torus surface area:

x=143.99995042 / 37

( 10 ^ (( - x + 9 ) / 2 )) * 2 * Pi * r = s = 4 * ( Pi ^ 2 ) * R * r

...the electron uses Pi and the Planck mass...Mp... to transform to the torus surface area, while the collective unconscious constant uses a perfect circle ( halo ) to transform to the torus surface area.

...interesting to note, that if you clear out the left side of the collective unconscious equation to it's root, then a perfect circle with 57 as radius results: x = 143.999950421 / 37:

(( 10 ^ (( - x + 9 / 2 ) = 2 * Pi * R

...now this is amazing, the collective unconscious by itself is a perfect circle, with a radius of 57 units. Multiply it by a perfect circle with a radius of 37 and out comes the surface area of a torus/cylinder, that "collects" the energy of the electron when a three dimensional Planck mass sits at the center of the torus. This sheds light on the mystery of the integer 37. If the collective unconscious form is a perfect circle of radius 57, then the integer 37 is the radius of a perfect circle that results when you divide the electron energy charge that exists on a torus surface with centric Planck mass cubed by the collective unconscious form...2 * Pi * R: x = 144.000191686

( emec ^ ( 1 / Pi )) * ( Mp ^ 3 ) * ( 10 ^ 28 ) / (( 10 ^ (( - x + 9 ) / 2 )) = 2 * Pi * r

...this makes the Christhead number (37) understandable as a ring of light or halo. The intoto reaction of physical electronic energy ...emec...stripping energy from the Planck mass cube through the torus surface area, divided by the x minus 9 collective unconscious constant equals a perfect circle whose radius is Christ or 37:

J.Iuliano

(http://physics.nist.gov/cuu/index.html) (http://physics.nist.gov/cuu/Constants/index.html) Constants Topics: _Values_ (http://physics.nist.gov/cuu/Constants/index.html) _Energy Equivalents_ (http://physics.nist.gov/cuu/Constants/energy.html) _Searchable Bibliography_ (http://physics.nist.gov/cuu/Constants/Citations/Search.html) _Background_ (http://physics.nist.gov/cuu/Constants/background.html)

____________________________________

_Constants Bibliography_ (http://physics.nist.gov/cuu/Constants/bibliography.html)

____________________________________

_Constants, Units & Uncertainty home page_ (http://physics.nist.gov/cuu/index.html) Newtonian constant of gravitation Value 6.6742 x 10-11 m3 kg-1 s-2 Standard uncertainty 0.0010 x 10-11 m3 kg-1 s-2 Relative standard uncertainty 1.5 x 10-4 Concise form 6.6742(10) x 10-11 m3 kg-1 s-2 Click _here_ (http://physics.nist.gov/cgi-bin/cuu/CCValue?bg|ShowFirst=Browse) for correlation coefficient of this constant with other constants _Source: 2002 CODATA_ (http://physics.nist.gov/cuu/Constants/bibliography.html) _ recommended values_ (http://physics.nist.gov/cuu/Constants/bibliography.html) _Definition of uncertainty_ (http://physics.nist.gov/cgi-bin/cuu/Info/Constants/definitions.html) _Correlation coefficient with any other constant_ (http://physics.nist.gov/cgi-bin/cuu/CCValue?bg|ShowFirst=Browse) (http://physics.nist.gov/cuu/index.html) (http://physics.nist.gov/cuu/Constants/index.html) Constants Topics: _Values_ (http://physics.nist.gov/cuu/Constants/index.html) _Energy Equivalents_ (http://physics.nist.gov/cuu/Constants/energy.html) _Searchable Bibliography_ (http://physics.nist.gov/cuu/Constants/Citations/Search.html) _Background_ (http://physics.nist.gov/cuu/Constants/background.html)

____________________________________

_Constants Bibliography_ (http://physics.nist.gov/cuu/Constants/bibliography.html)

____________________________________

_Constants, Units & Uncertainty home page_ (http://physics.nist.gov/cuu/index.html) Fermi coupling constant Value 1.166 39 x 10-5 GeV-2 Standard uncertainty 0.000 01 x 10-5 GeV-2 Relative standard uncertainty 8.6 x 10-6 Concise form 1.166 39(1) x 10-5 GeV-2 Click _here_ (http://physics.nist.gov/cgi-bin/cuu/CCValue?gf|ShowFirst=Browse) for correlation coefficient of this constant with other constants _Source: 2002 CODATA_ (http://physics.nist.gov/cuu/Constants/bibliography.html) _ recommended values_ (http://physics.nist.gov/cuu/Constants/bibliography.html) _Definition of uncertainty_ (http://physics.nist.gov/cgi-bin/cuu/Info/Constants/definitions.html) _Correlation coefficient with any other constant_ (http://physics.nist.gov/cgi-bin/cuu/CCValue?gf|ShowFirst=Browse) (http://physics.nist.gov/cuu/index.html) (http://physics.nist.gov/cuu/Constants/index.html) Constants Topics: _Values_ (http://physics.nist.gov/cuu/Constants/index.html) _Energy Equivalents_ (http://physics.nist.gov/cuu/Constants/energy.html) _Searchable Bibliography_ (http://physics.nist.gov/cuu/Constants/Citations/Search.html) _Background_ (http://physics.nist.gov/cuu/Constants/background.html)

____________________________________

_Constants Bibliography_ (http://physics.nist.gov/cuu/Constants/bibliography.html)

____________________________________

_Constants, Units & Uncertainty home page_ (http://physics.nist.gov/cuu/index.html) Click symbol for equation fine-structure constant (http://physics.nist.gov/cgi-bin/cuu/Value?eqalph|search_for=fine-structure) Value 7.297 352 568 x 10-3 Standard uncertainty 0.000 000 024 x 10-3 Relative standard uncertainty 3.3 x 10-9 Concise form 7.297 352 568(24) x 10-3 Click _here_ (http://physics.nist.gov/cgi-bin/cuu/CCValue?alph|ShowFirst=Browse) for correlation coefficient of this constant with other constants _Source: 2002 CODATA_ (http://physics.nist.gov/cuu/Constants/bibliography.html) _ recommended values_ (http://physics.nist.gov/cuu/Constants/bibliography.html) _Definition of uncertainty_ (http://physics.nist.gov/cgi-bin/cuu/Info/Constants/definitions.html) (http://physics.nist.gov/cuu/index.html) (http://physics.nist.gov/cuu/Constants/index.html) Constants Topics: _Values_ (http://physics.nist.gov/cuu/Constants/index.html) _Energy Equivalents_ (http://physics.nist.gov/cuu/Constants/energy.html) _Searchable Bibliography_ (http://physics.nist.gov/cuu/Constants/Citations/Search.html) _Background_ (http://physics.nist.gov/cuu/Constants/background.html)

____________________________________

_Constants Bibliography_ (http://physics.nist.gov/cuu/Constants/bibliography.html)

____________________________________

_Constants, Units & Uncertainty home page_ (http://physics.nist.gov/cuu/index.html) Click symbol for equation Planck mass (http://physics.nist.gov/cgi-bin/cuu/Value?eqplkm|search_for=Planck+mass) Value 2.176 45 x 10-8 kg Standard uncertainty 0.000 16 x 10-8 kg Relative standard uncertainty 7.5 x 10-5 Concise form 2.176 45(16) x 10-8 kg Click _here_ (http://physics.nist.gov/cgi-bin/cuu/CCValue?plkm|ShowFirst=Browse) for correlation coefficient of this constant with other constants _Source: 2002 CODATA_ (http://physics.nist.gov/cuu/Constants/bibliography.html) _ recommended values_ (http://physics.nist.gov/cuu/Constants/bibliography.html) _Definition of uncertainty_ (http://physics.nist.gov/cgi-bin/cuu/Info/Constants/definitions.html) _Correlation coefficient with any other constant_ (http://physics.nist.gov/cgi-bin/cuu/CCValue?plkm|ShowFirst=Browse) (http://physics.nist.gov/cuu/index.html) (http://physics.nist.gov/cuu/Constants/index.html) Constants Topics: _Values_ (http://physics.nist.gov/cuu/Constants/index.html) _Energy Equivalents_ (http://physics.nist.gov/cuu/Constants/energy.html) _Searchable Bibliography_ (http://physics.nist.gov/cuu/Constants/Citations/Search.html) _Background_ (http://physics.nist.gov/cuu/Constants/background.html)

____________________________________

_Constants Bibliography_ (http://physics.nist.gov/cuu/Constants/bibliography.html)

____________________________________

_Constants, Units & Uncertainty home page_ (http://physics.nist.gov/cuu/index.html) Click symbol for equation proton mass energy equivalent in MeV (http://physics.nist.gov/cgi-bin/cuu/Value?eqmpc2mev|search_for=proton+mev) Value 938.272 029 MeV Standard uncertainty 0.000 080 MeV Relative standard uncertainty 8.6 x 10-8 Concise form 938.272 029(80) MeV Click _here_ (http://physics.nist.gov/cgi-bin/cuu/CCValue?mpc2mev|ShowFirst=Browse) for correlation coefficient of this constant with other constants _Source: 2002 CODATA_ (http://physics.nist.gov/cuu/Constants/bibliography.html) _ recommended values_ (http://physics.nist.gov/cuu/Constants/bibliography.html) _Definition of uncertainty_ (http://physics.nist.gov/cgi-bin/cuu/Info/Constants/definitions.html) _Correlation coefficient with any other constant_ (http://physics.nist.gov/cgi-bin/cuu/CCValue?mpc2mev|ShowFirst=Browse) (http://physics.nist.gov/cuu/index.html) (http://physics.nist.gov/cuu/Constants/index.html) Constants Topics: _Values_ (http://physics.nist.gov/cuu/Constants/index.html) _Energy Equivalents_ (http://physics.nist.gov/cuu/Constants/energy.html) _Searchable Bibliography_ (http://physics.nist.gov/cuu/Constants/Citations/Search.html) _Background_ (http://physics.nist.gov/cuu/Constants/background.html)

____________________________________

_Constants Bibliography_ (http://physics.nist.gov/cuu/Constants/bibliography.html)

____________________________________

_Constants, Units & Uncertainty home page_ (http://physics.nist.gov/cuu/index.html) Click symbol for equation electron mass energy equivalent in MeV (http://physics.nist.gov/cgi-bin/cuu/Value?eqmec2mev|search_for=electron+mev) Value 0.510 998 918 MeV Standard uncertainty 0.000 000 044 MeV Relative standard uncertainty 8.6 x 10-8 Concise form 0.510 998 918(44) MeV Click _here_ (http://physics.nist.gov/cgi-bin/cuu/CCValue?mec2mev|ShowFirst=Browse) for correlation coefficient of this constant with other constants _Source: 2002 CODATA_ (http://physics.nist.gov/cuu/Constants/bibliography.html) _ recommended values_ (http://physics.nist.gov/cuu/Constants/bibliography.html) _Definition of uncertainty_ (http://physics.nist.gov/cgi-bin/cuu/Info/Constants/definitions.html) _Correlation coefficient with any other constant_ (http://physics.nist.gov/cgi-bin/cuu/CCValue?mec2mev|ShowFirst=Browse) (http://physics.nist.gov/cuu/index.html) (http://physics.nist.gov/cuu/Constants/index.html) Constants Topics: _Values_ (http://physics.nist.gov/cuu/Constants/index.html) _Energy Equivalents_ (http://physics.nist.gov/cuu/Constants/energy.html) _Searchable Bibliography_ (http://physics.nist.gov/cuu/Constants/Citations/Search.html) _Background_ (http://physics.nist.gov/cuu/Constants/background.html)

____________________________________

_Constants Bibliography_ (http://physics.nist.gov/cuu/Constants/bibliography.html)

____________________________________

_Constants, Units & Uncertainty home page_ (http://physics.nist.gov/cuu/index.html) speed of light in vacuum Value 299 792 458 m s-1 Standard uncertainty (exact) Relative standard uncertainty (exact) Concise form 299 792 458 m s-1 Click _here_ (http://physics.nist.gov/cgi-bin/cuu/CCValue?c|ShowFirst=Browse) for correlation coefficient of this constant with other constants _Source: 2002 CODATA_ (http://physics.nist.gov/cuu/Constants/bibliography.html) _ recommended values_ (http://physics.nist.gov/cuu/Constants/bibliography.html) _Definition of uncertainty_ (http://physics.nist.gov/cgi-bin/cuu/Info/Constants/definitions.html) _Correlation coefficient with any other constant_ (http://physics.nist.gov/cgi-bin/cuu/CCValue?c|ShowFirst=Browse) (http://physics.nist.gov/cuu/index.html) (http://physics.nist.gov/cuu/Constants/index.html) Constants Topics: _Values_ (http://physics.nist.gov/cuu/Constants/index.html) _Energy Equivalents_ (http://physics.nist.gov/cuu/Constants/energy.html) _Searchable Bibliography_ (http://physics.nist.gov/cuu/Constants/Citations/Search.html) _Background_ (http://physics.nist.gov/cuu/Constants/background.html)

____________________________________

_Constants Bibliography_ (http://physics.nist.gov/cuu/Constants/bibliography.html)

____________________________________

_Constants, Units & Uncertainty home page_ (http://physics.nist.gov/cuu/index.html) Planck constant Value 6.626 0693 x 10-34 J s Standard uncertainty 0.000 0011 x 10-34 J s Relative standard uncertainty 1.7 x 10-7 Concise form 6.626 0693(11) x 10-34 J s Click _here_ (http://physics.nist.gov/cgi-bin/cuu/CCValue?h|ShowFirst=Browse) for correlation coefficient of this constant with other constants _Source: 2002 CODATA_ (http://physics.nist.gov/cuu/Constants/bibliography.html) _ recommended values_ (http://physics.nist.gov/cuu/Constants/bibliography.html) _Definition of uncertainty_ (http://physics.nist.gov/cgi-bin/cuu/Info/Constants/definitions.html) _Correlation coefficient with any other constant_ (http://physics.nist.gov/cgi-bin/cuu/CCValue?h|ShowFirst=Browse)

**99.91.2 Re: 37 as integer (Iuliano)**

From: JerryIuliano@aol.com

Date: Sun, 10 Apr 2005 13:00:34 EDT

To: terrypp@aemail4u.com

Subject: 37 as integer

[B] set....

{0}-(B1) mirco-infinite metaphysical universe ( true/pure
nothingness )

{.5}-(B2) mirco-finite quasi-physical universe ( gravity )

{1}-(B3) micro-finite ZPE/vacuum fields/particles or universe (
virtual )

{2{-(B4) micro-finite physical fields/particles or universe (
real )

************************************

[Bb] set....???

AYG:

{0}-(B1) micro-infinite and {1}-(B3) micro-finite could be the Father or Creator (unity), while {.5}-(B2)-micro-finite and {2}-(B4) micro-finite is the actual reality of the Christ-head physical being, of gnomonic growth or root of 5, the golden number:

...( sqrt5 + 1) / 2 = 1.61801339875... = theta....DaVinci code...etc.

The Father (unity) mathematically "shakes" out the Son (37), the Christ-head who becomes "theta" or the golden number, that is ...in the unit (1 = unity) lie the two integers of 37 as the main activator of the whole, proton to electron exchange of the fine-structure constant energy function:

aem = 1/137.03599970078.... = fine-structure constant:

amplitude for photon-electron

exchange

..dimensionless

c = 299792458 meters/second = speed of light:

(( cos( c * aem / .37 )) * 2 ) =

1.6180391773...99.9997% of "theta"

( cos( c * aem / ( .37 ^ 2 ))) = unity = 1

cos( 2 * Pi ) = 1

The importance of "theta" as a "holographic" gnomonic function demonstrated as the "rotation" of Nature .. A.Young ( "angle of the fine-structure constant, everything is angular"..cosine in radians ) of alpha...aem. Of note is Beta's (.37) holographic exchange with c ( lightspeed metric). 37 is a semantic/mathematical/symbolic metaphor for "light". 37's role is as an all encompassing "weight" to theta's rule of "harmonic gnomonic" growth. The integer 37 breaks the cosine barrier of linear to angular transformations. This isn't supposed to mathematically be possible with the cosine function acting as a "shield" to mathematical attacks. To transform angular forms to linear forms is difficult to do with relative accuracy because of the extreme sensitivity of the cosine function to such small changes in angle resulting in large changes of linearity. What is important in the exchanged equations is the parenthesis symbols loading up on either end of the equation and the change of product (*) symbol to exponent (^) symbol in equation substitutions....unexplainable as to why this is allowed.... If 2 times Pi is made into a unit circle then the activator here is : God = sqrt of 2 = radius of a 2*Pi circumference... sqrt 2 = radius of a 2*Pi circle. I believe somebody was once drowned because of proof of knowledge of the sqrt of 2's Pythagorean dillusion.

J.Iuliano

**99.91.3 Fdelta and alpha maximum force (Iuliano)**

Subject: Fdelta and alpha maximum force

From: JerryIuliano@aol.com

To: rgrace@rgrace.org

Date: Sun, April 17, 2005 11:43 am

MP:

" ...... There is a maximum force in Nature. For all systems:

Fmax = maximum force = ( c ^ 4 ) / 4 / Gn = 3.02568971 * ( 10 ^ 43 )

c = speed of light = 299792458 m/s

Gn = gravitational constant = 6.67420559 * ( 10 ^ - 11 ) m^3/kg/s^2

e = natural log = 2.718281828...

" ...the value of the maximum force is the mass-energy of a black hole times its mass. The force limit thus claims that no physical system of a given mass can be concentrated in a region of space-time smaller than a ( non-rotating ) black hole of that mass. It is easily checked that the maximum force is valid for all systems observed in Nature, whether they are microscopic, macroscopic, or astrophysical, neither the gravitational force nor the electro-magnetic or the nuclear interactions are found to ever exceed this limit..." end quote

The Feigenbaum constants can show a form of this limit by a series of stacked natural logs:

Fd = Feigenbaum delta constant ( length ) = 4.66902897...actual 4.669201609...

e ^ ( e ^ ( e ^ ( Fd - Pi ))) = ( c ^ 2 ) / 4 / Gn

E = permittivity of space = 8.854187818 * ( 10 ^ - 12 ) Fm

bl = base leg Cheops pyramid = 763.81 ft

Fd = 4.669201609...exact

e ^ ( e ^ ( Fd - Pi )) = E * ( c ^ 2 ) * .079998364 * bl * ( 57 ^ 2 )

Fa = Feigenbaum alpha constant ( width) = 2.502907875...exact

( e ^ ( Fd - Pi ) = Fa / .024999505..

...the maximum force equation has a similar layered structure:

IN ( IN ( IN (( c ^ 4 ) / 4 / Gn ))) = Fd - Pi

IN ( IN (( c ^ 4 ) / 4 / Gn )) = E * ( c ^ 2 ) * .079998364 *bl * ( 57 ^ 2 )

IN (( c ^ 4 ) / 4 / Gn )) = Fa / .024999505...

Letting:

E = energy flowing through a horizon surface ( black hole )

L = proper length of the moving energy pulse taken in the direction perpendicular to the horizon ( black hole)

a = the surface gravity of the horizon and A its area ( black hole )

...then it can be demonstrated:

E / L / A = e ^ ( e ^ ( e ^ ( Fd - Pi )))

E / a / A = e ^ ( e ^ ( e ^ ( Fd - Pi )))

Fd = ( IN ( IN ( IN ( E * L / A )))) + Pi

Fd = ( IN ( IN ( IN ( E / a / A )))) + Pi

...a compilation of forms:

Fd = 4.66902897....actual = 4.669201609...

Fa = 2.502957386.. actual = 2.502907875...

e = natural log e = 2.718281828...

e ^ ( Fa * 40 ) = e ^ ( e ^ ( e ^ ( Fd - Pi ))) = ( c ^ 4 ) / 4 / Gn

...the Fermat form ...Pi^2 + 8*Pi... is a function of the RATIO of Fdelta to Falpha:

80000 / ((( Pi ^ 2 ) + ( 8.00000666.. * Pi )) ^ 3 ) = 4.669201609 / 2.502907875

...(.37 Beta ) has relationship to the PRODUCT of Fdelta (length) and Falpha (width) using the collective unconscious modulo (37) mod== .891891891...

.37 * 2.89189189189 = 1.07

( 16000 - 1.07 ) / ( 37 ^ 2 ) = 4.669201609 * 2.502907868...

the reference for the maximum force equation:

_http://www.arxiv.org/PS_cache/physics/pdf/0309/0309118.pdf_

(http://www.arxiv.org/PS_cache/physics/pdf/0309/0309118.pdf)

J.Iuliano

**99.91.4 Great Pyramid 44' X 44' Altar (Iuliano)**

Subject: Great Pyramid 44' X 44' Altar

From: JerryIuliano@aol.com

To: rgrace@rgrace.org

Date: Sun, April 20, 2005

Source: www.celticnz.org

THE SIGNIFICANCE OF THE GREAT PYRAMID'S SIDE ANGLE.

Various degree angles have been postulated as the exact angle for the diagonal faces of the Great Pyramid and it is now generally accepted that the intended angle was very close to 51 degrees & 51 minutes. In a decimal rendition, this would equate to 51.85 degrees. The means whereby the angle has been estimated in modern times is based upon the few remaining weather worn casing stones at the base of the pyramid. Thankfully, one solitary course was buried under a high bank of sand during the era when the outer casing stones were being ravaged and plundered to build the city of Cairo.

Figure 4: The few solitary casing stones at the bottom of the Great Pyramid. These too would have been removed were it not for the good fortune that they were covered in tons of sand and inaccessible to those who plundered the Pyramid's stone to build the city of Cairo. These beautiful white limestone casing stones once sheathed the entirety of the Great Pyramid on every face, all the way up to its 44' X 44' flat floor altar on the top of the pyramid.

There are various degree angles given, all in the vicinity of 51.85 degrees, which different scientists have determined represent the intended, finite angle of the Great Pyramid. Because of the weather worn and sand lashed condition of these limestone sheathed surfaces, the exact degree angle will never be resolved, definitively, by averaging the damaged angles of the casing stones themselves. We do, however, know that the architects were aiming for a figure around 51.85 degrees. Happily, the true figure can easily be identified mathematically, as there is only one plausible possibility.

1. The sought after, coded angle was 51.84 degrees...for the following reasons:

2. The number 51.84 is an exact fraction of 25920, the anciently used number that described, in years, the duration of the Precession of the Equinoxes for a complete circuit (51.84 X 500 = 25920).

3. The angle, 51.84 degrees, divided by 2 = 25.92...again coding the appropriate numbers related to the Precession of the Equinoxes.

4. It has been determined, through comparative analysis, that the ancient reed measurement was 10.5 feet or 126 inches. Therefore, given that the true length of the Great Pyramid was 756 feet, which equates to 72 reeds per side, the total area that the pyramid covers is 72 X 72 reeds or 5184 square reeds.

5. It will be shown that the Heel stone at Stonehenge resides 259.20 feet from the exact centre of the site to the outlying face of the stone, The azimuth angle from site centre to the south-western extremity face of the stone was intended to convey 51.84 degrees off North.

Figure 5: A drawing of a surviving casing stone as per the close proximity dimensions given by W. F. Petrie. The extended lines (red) indicate the probable geometric coding that the architects wished to demonstrate in a block, 8' X 12' of base measure and having a rear height of essentially 5 feet. The 6.4 feet of diagonal face alludes to the very important "64" code. If the block were allowed to run to a point where the face diagonal intersected with the rear vertical line, then the distance covered would be 12.96 feet. This number is a very important code of antiquity that relates to the duration of the Precession of the Equinoxes...25920 years Ö 2 = 12960 years. ....end of article....

Discovered 4-19-05....

Concerning the 44 foot by 44 foot altar floor at the top of the pyramid, this equation was noted: e = natural log = 2.718281828...

((( 44.00016823 / 37 ) ^ 4 ) * 10 ) + Pi = e ^ Pi

440 / 37 = 11.891891891... a collective unconscious modulo toÊ37

...concerning the angle of the face wall of the Cheops pyramid ..51.85 degrees...which is noted in sumerian degrees ...360 units...it was discovered that the fine-structure constant ...aem = 1/137.036...transformed the Cheops face angle from degrees toÊ radians:cos in radians

( cos 51.849982814 ) * 1000 = -137.036001....= -1/aem

25920 is Plato's cyclic and is a collective unconscious constant determining fine-structure:

(10 ^ ( 2591.999784 / 666 ) / 666 ) = sqrt 137.036001

J.Iuliano

**99.91.5 Pyramid Side Angle = Hubble expansion factor of space? (Iuliano)**

Subject: Pyramid Side Angle = Hubble expansion factor of space?

From: JerryIuliano@aol.com

To: rgrace@rgrace.org

Date: Tue., April 27, 2005

MP: Some time ago I read that these calculations of the side angle of the Cheops pyramid is equivalent, by some clever mathematics, to the expansion factor of space. Can you possibly demonstrate this amazing concept, if true?

Robert Grace

MP: By the expansion factor you mean the Hubble expansion factor or meters per second per cubic meter, not very accurately measured as of yet ....JI

....Have a look at this strange response to the Cheops face angle article. The picture of the Egyptian standing next to the cut face angle block should be at the bottom.

.......From: SIREBARD

The 'thing' about the geometrical construction of the khufu/cheops great pyramid is the ancient idea of 'squaring the circle'.

I shall outline this encoding, preluding the further discussion, ending with the potential 1D digitalization of the 2D hologramically encrypted information mapped from the 3D geometry of the Platonic Solids.

Consider a square side S and perimeter 4S being equal to the perimeter of a circle in 2pR, where radius R is the height H=R for the semi-octahedron, represented by the great pyramid.

Simple Euclidean geometry now sets the square's diameter as 2D, with the applied Pythagorean Theorem stating: 4D^2=2.(p/2)^2, as S=pR/2.

Therefore D=pR/Sqrt[8] and the face-angle q for the pyramid is tanq=R/(pR/4)=4/p for q=51.85397402 degrees or 51 degrees 51' 14.31".

This precise value is known as the pyramidic p-angle and is formed opposite the height H=R at the midpoint of a side S and the hypotenuse of the right-angled triangle joining this midpoint to the pyramid's apex as the geometrical height h for this particular face of the pyramid.

Rybo wrote in theoryofeverything:

The Cheops pyramid face angle....51.85 degrees...can describe both the fine-structure constant...aem = 1/137.036... and the Feigenbaum delta constant...Fd = 4.669201609...because of the ability for angle transformation that the fine-structure constant does on the face angle: transforming the face angle from degrees Sumerian..360.. to radians ...Pi form.:

aem = fine-structure constant = 1/137.036001... cosine in radians Cheops pyramid face angle = 51.849982814....degrees Sumerian

( cos 51.849982814 ) * ( 10 ^ 4 ) = - 1/137.036001.. = -aem

Incorrect (in degrees), as cos[51.849982814]*(10^4)=6,177.226064=10^4/1.61884961~X=0.618033.

{Note that the angular degree measure approximates Phi=X=(Sqrt[5]-1)/2 as the inverse f angle is given as 51.8539722 degrees or 51 deg. 51' 14.3" in most references and as derived in the introduction.

Now converting this into radians creates a deceptive scenario for a possible link to the alpha finestructure constant, because of the sensitivity of the decimal point for the cosine evaluation.

Proof: (argument in radians, 1 radian=Degrees*180/p)

Golden Mean: cos[51.82729238]*10^4=89.86283361

Zero: cos[51.83627878]*10^4=0

Iuliano: cos[51.849982814]*10^4= angle is given as 51.8539722 degrees or 51 deg. 51' 14.3" in most references and as derived in the introduction.

Now converting this into radians creates a deceptive scenario for a possible link to the alpha finestructure constant, because of the sensitivity of the decimal point for the cosine evaluation.

Proof: (argument in radians, 1 radian=Degrees*180/p)

Golden Mean: cos[51.82729238]*10^4=89.86283361

Zero: cos[51.83627878]*10^4=0

Iuliano: cos[51.849982814]*10^4=-137.0359686 (reverse engineering?!)

Measured Angle: cos[51.8539722]*10^4=-176.9249263

A change in radian measure at the second decimal place changes the calculated cosine value significantly, as 0.02 radians convert to 1.146 degrees, which can change even the sign of the resultant calculation as seen above for a spread of the values spanning from 89.863 for the Golden Mean to -176.925 for the textbook value for the specified angle.

...to arrive at the Feigenbaum delta constant, one must subtract the radian from the Cheops face angle. This is interesting because now the direct connection can be shown as a simple subtraction of the radian...180/pi.. from the face angle, which suggests dimensionlessness.

(( radian - 51.849982814 ) ^ ( 1/4 )) + Pi = Fd = 4.669212726...

This is ok. Also note that the Feigenbaum Delta forms the lower limit for the Shannon-Information Bound ln26/ln2=4.700439718; the latter being upper bounded by the curvature constant 3p/2=4.71238898.

The Shannon-Information bound relates to the lefthanded Bosonic Superstring in 26 dimensions and the Curvature-Bound relates the 4D-Riemann Hypersphere or 3D-Torus volume to the 3D-Sphere in transforming the volume(r^3)-coefficients between 2p^2 for the convex circumscribed sphere to 4p/3 for the concave 'inner doughnut hole' for an observer situated at the toroidal centre.

...a form measured in radian degree equals the Feigenbaum delta constant...4.669201609... this is a complete crossover of dimensionals. Another angular crossover is the equivalency:

( 82944 ^ (( tan 51.85397402 ) / 4 )) / 100 = cos 1/aem

...here tangent is measured in degrees, cosine in radians. This is the derivative:

( 82944 ^ ( 1/ Pi )) / 100 = cos137.036000986

Incorrect for the angular measure, as (82944^[1/Pi]=36.7872976 = NOT&100cos(137.036000986) = -73.17820801.

For radian measure we get 36.7872896, which does approximate ok.

...subtracting modules of Beta ( .37 ) from the Cheops face angle shows several integers modulo to ( 10 ^ 2 ) residue 5.:

51.85 - ( .37 * 5 ) = 50

51.85 - ( .37 * 105 ) = 13

51.85 - ( .37 * ( 105 + 100 ) = -24

51.85 + ( .37 * 95 ) = 87

Ok!

...the Fermat form...e ^ (Pi+8)... generates from the Cheops face angle using Beta ( .37 ):

( sqrt ( e ^ ( Pi + 8 ))) / ( .37 ^ 3 ) = 51.85145318 degrees

This is obscure, because the algebra gives the numerical value of 5,185.145318 not the numerical degree value admittedly equivalent.

...taking the Cheops face angle directly to 1/Pi power results in the strange connection to the Hebrew 32 paths of wisdom or the Hindu 32 smokes of the reality.

(( 51.849982814 ^ ( 1/ Pi )) - 3.199999974 ) * 10 = Pi

True, but where does the 3.199999974 come from to validate this?

Here, we have the potential surface mappings of the polyhedral faces as information holograms of the 3D-volumes. The icosidodecahedron is a semiregular Archimedean Solid with 32 faces, 30 vertices and 60 edges; further described in the endnotes for the Euler Characteristic.

J.Iuliano

Tony B.

After this critique, we proceed to closer examine the seeming arbitrariness of J. Iuliano's work to derive those seemingly ad hoc approximations to the face-pyramid angle and a possible connection between the transcendental p and the finestructure constant Alpha.

We apply our own process of QR's 'reverse engineering' to show the finestructure connection previously discussed in the Alpha-Variation paper.

I refer all readers to that paper for the background data.

Much of Quantum Relativity and its superbrane parameters is based on the finestructuring of fundamental constants, such as Planck's Constant h=lps/2Re.c^3 and Re=10^10.lps/360 as the classical ElectronRadius, related to the Compton Radius in the proportionality given by Alpha as Alpha=Re/Rcompton, Rcompton relating the de Broglie matter wave momentum via p=h/l.

The basic QR parameter is the magnetic permeability constant mo=120p/c defining Maxwell's Constant moeo=1/c^2 in dimensionless (say superconductive form for the Action-Law of Action=Charge^2 and for unitary resistance in the Quantum Hall effect, Josephson Junctions and the Electrical Conductance Quantum 2e^2/h).

The fourfoldedness of the Unified Field of QR (UFoQR) also defines mo=[8p/360][Ne*/Re], where N is a counter for the magnetocharge e*=lps/hc=2Re.c^2.

This allows determination of N=2700/c^3 in unified action units and independent of experimental measurement.

Because N=2700.e/{[ec].c^2}=2700.{e/c^2}/[ec], with [ec] the unified magnetic monopole-mass in superbrane space and the Planck-Length LP defining that superbrane space via the Planck-Length-Oscillation: OLP={e/c^2}=LPSqrt(Alpha); N MUST be the decisive and precise wormhole-perimeter lps=2700/(27x10^24) as the Weyl-Geodesic assuming its linearized form at this threshold between the metricated field equations of General Relativity and its nonmetricated encompassment and quantum substructure described by QR.

This linearization of superstring class I as the Planck-Boson so is physically-metrically manifested in the heterotic superstring class HE(8x8) as the Ng Van Dam macroquantization of the Planck-Scale then further amplified by the ElectronRadius and its associations with the atomic and subatomic realms of the Compton-de Broglie scenarios.

So this linearization from the preBig Bang (preinstanton and preinflaton) epochs of the circularized 'higher' superstring dimensions unfolded the scale-invariance of angular displacement.

This unfolding then crystallizes the 360 factor as a degree-measure, which is NOT arbitrary, but associated with the QR definition for the approximation for the transcendental number p, defining circularity.

This we shall now discuss in some detail.

Draw a circle radius R for x-axis diameter given by coordinates (-R,0) & (R,0) and y-axis diameter given by coordinates (0,-R) & (0,R).

Draw the linesegment (R,0)-(0,R) with length Sqrt[2].R and midpoint (R/2,R/2) for the halfsegment length RR1*=Sqrt[2].R/2.

Now project this midpoint radially to the circle's perimeter as point R1 to form the angle (45+45/2) = 67.5 degrees = ORR1.

This defines the halfangle f1=45/2 degrees as the angle R1*RR1 in cosf1=RR1*/RR1 and sin(2f1) =RR1*/OR=RR1* for the unitsquare OR=1=unitradius.

So sin(2f1)=RR1.cosf1.

Generally, a polygonal line-segment keeps doubling from a square with 4 sides to an octagon with 8 to a hexadecagon with 16 and so on.

The generalized length for the line-segment is R.Rn=sin[2fn]/cos[fn].

The perimeter for the circle then sums the linesegments in n and approaches 2p as n gets larger and larger.

Our Archimedean Circumscription/Inscription approximation for transcendental p then is:

p=2^[n+1].sin{45 degrees/2^[n-1]}/cos{45 degrees/2^n}

For n=1; the approximation is: p(1)=3.061467458...

For n=2; the approximation is: p(2)=3.121445152...

For n=3; the approximation is: p(3)=3.13654849...

For n=14; the approximation is: p(14)=3.141592653...correct to 8 decimal places.

Now express the trigonometric functions as expanded series:

sinx=x-x^3/3!+x^5/5!-.....in odd terms for x and

cosx=1-x^2/2!+x^4/4!-....in even terms for x to form the limit

lim(n->oo){2^[n+1].[45.2^[1-n]-45^3/3!.(2^[n-1])^3+45^5/5!.(2^[n-1])^5-

..]/[1-45^2.2^[2n]/2!+45^4.2^[4n]/4!-....]}

=lim(n->oo){2^[n+1].45.2^[1-n]}=2^2.45=180.

lim(n->oo){1/n}=0, therefore all the trigonometric terms of the form1/2^n vanish.

So we have indeed justified J. Iuliano's bold assumption to simply form the identity 360=2p or p=180 to freely interchange radian measure with the angular degrees.

Of course this works only for the demetricated superbrane scenarios and requires thus a dimensionless setting for the spacetimes as the ontological foundation for mensuration physics.

But the 360 factor in the ElectronRadius definition now becomes the necessary circularization for the wormhole perimeter lps.

Precisely 10^10 wormhole perimeters fit into the linearized and metricated macroquantized wormhole perimeter represented by 2p.Re AS 360.Re circularized.

This also unitizes our fourfolded UFoQR in 8p/360 as the A/4 factor in Stephen Hawking's Black Hole event horizon entropy counter for the information mapped surface area as hologram, measured in Planck-Areas.

In short the entire quantum geometric structures described by QR fall into place.

J.Iuliano's pyramid angle now is justifiably 'reverse engineered'.

Recalling our FineStructure Constant derivations; we have the Universal Wavefunction approximation for AlphaB=1/137.0470721 and the little gamma approximation as Alphag=1/137.0471224.

Using the Iuliano formulations, we then compute the pyramid angle for those two cases as:

arccosB{-137.0470721/10^4}=90.78524646 degrees or (16p+1.584501463) radians=51.84998392 radians and representing 51 degrees 50' 59.94" as the pyramid angle.

arccosg{-137.0471224/10^4}=90.78524675 degrees or

(16p+1.584501468) radians=51.84998393 radians and representing 51 degrees 50' 59.94".

Both values represent J. Iuliano's calculation to that precision in his pyramid face-angle of (51.849982814).

Tony B.

PS.: A further aspect of QR and its foundation on the pentagonal symmetry inherent in the Fibonacci patterns is here indicated.

Kepler used the five Platonic Solids or five Regular and Uniform Polyhedra to model the solar system.

Then there are 13 SemiRegular polyhedra, known as the Archimedean Solids; including for example the Icosidodecahedron of 32 faces (20 triangles and 12 pentagons) and of 60 edges and 30 vertices.

Euler's Theorem for Polyhedra is the Euler Characteristic: V-E+F=2, serving to indicate the topological genus for the polyhedron in connections to manifolds or surfaces.

For V=Number of Vertices, E=Number of Edges and F=Number of Faces; the Icosidodecahedron qualifies as: 30-60+32=2.

The five Platonic Solids are:

1. Tetrahedron: (V=4; E=6; F=4) with 4-6+4=2

2. Cube: (V=8; E=12; F=6) with 8-12+6=2

3. Octahedron: (V=6; E=12; F=8) with 6-12+8=2

4. Dodecahedron: (V=20; E=30; F=12) with 20-30+12=2

5. Icosahedron: (V=12; E=30; F=20) with 12-30+20=2

The interesting thing fromQR's viewpoint is that the superposition of all five Platonic Solids gives V=50=F and E=90.

In view of our dimensional reduction of Moebian connectivity and the mapping of 3D onto 2D as 3D-hologram of Information as inertial mass transformed into magnetocharged electricity as mass-current; this equality for the 2D-faces with the 1D-vertices should point the way for a physical representation of the surface-mappings in a binary-digital representation of QR's subtimespace, say as described in postings as Whitescarver-State-Space or WSS.

Love from the DragonHeart!

As a mathematical physicist, I also study ancient scrolls and the signature can be evaluated on a number of levels; from childishly naive to profoundly esoteric---Tony Whynot, Unicorn of SophiaGnosis !

ARMAGEDDON=DRAGONMADE=ANDROMEDAG=MARRY7=GODNAMEDRA=82 =666+1=1+2+3+...34+35+36+1=1+2.2+3.3+5.5+7.7+11.11+13.13+17.17

http://au.msnusers.com/quantumrelativity

--- JerryIuliano@aol.com wrote:

From: JerryIuliano@aol.com

Date: Sat, 23 Apr 2005 11:53:06 EDT

To: rgrace@aemail4u.com

Subject: Cheops pyramid face angle

Sir:

The Cheops pyramid face angle....51.85 degrees...can describe both the fine-structure constant...aem = 1/137.036... and the Feigenbaum delta constant...Fd = 4.669201609...because of the ability for angle transformation that the fine-structure constant does on the face angle: transforming the face angle from degrees Sumerian..360.. to radians ...Pi form.:

aem = fine-structure constant = 1/137.036001...

cosine in radians

Cheops pyramid face angle = 51.849982814....degrees Sumerian

( cos 51.849982814 ) * ( 10 ^ 4 ) = - 1/137.036001.. = 1/aem

...to arrive at the Feigenbaum delta constant, one must subtract the radian from the Cheops face angle. This is interesting because now the direct connection can be shown as a simple subtraction of the radian...180/pi.. from the face angle, which suggests dimensionlessness.

(( radian - 51.849982814 ) ^ ( 1/4 )) + Pi = Fd = 4.669212726...

...a form measured in radian degree equals the Feigenbaum delta constant...4.669201609... this is a complete crossover of dimensionals. Another angular crossover is the equivalency:

( 82944 ^ (( tan 51.85397402 ) / 4 )) / 100 = cos 1/aem

...here tangent is measured in degrees, cosine in radians. This is the derivative:

( 82944 ^ ( 1/ Pi )) / 100 = cos 137.036000986

...subtracting modules of Beta ( .37 ) from the Cheops face angle shows several integers modulo to ( 10 ^ 2 ) residue 5.:

51.85 - ( .37 * 5 ) = 50

51.85 - ( .37 * 105 ) = 13

51.85 - ( .37 * ( 105 + 100 ) = -24

51.85 + ( .37 * 95 ) = 87

...the Fermat form...e^(Pi+8)... generates from the Cheops face angle using Beta ( .37 ):

( sqrt ( e ^ ( Pi + 8 ))) / ( .37 ^ 3 ) = 51.85145318 degrees

...taking the Cheops face angle directly to 1/Pi power results in the strange connection to the Hebrew 32 paths of wisdom or the Hindu 32 smokes of the reality.

(( 51.849982814 ^ ( 1/ Pi )) - 3.199999974 ) * 10 = Pi

J.Iuliano

THE SIGNIFICANCE OF THE GREAT PYRAMID'S SIDE ANGLE.

Various degree angles have been postulated as ...etc..etc....see Section: 99.91.4

**99.91.6 Beta's (.37) holographic powers (Iuliano)**

Subject: Beta's (.37) holographic powers

From: JerryIuliano@aol.com

To: rgrace@rgrace.org

Date: Fri., April 30, 2005

MP:

An example of Beta's (.37) holographic powers is demonstrated by the plus and minus of unity, divided by Pi as Beta squared is placed first into the numerator of the simplified fine-structure constant equation:

aem = fine-structure constant = 1/ 137.035999701...

log ( 1 / aem * ( .37 ^ 2 )) = 1.273238121...

....and then placed into the denominator of the double unity divided by Pi equation for the equivalency:

(( log (( 1/ aem /Ê( .37 ^ 2 )) - 1 )) + 1 ) / Pi = 1.273238636...

...this means than when Beta squared ( .37 ^ 2 ) is forced across the divisor, the equation automatically adjusts itself to an equivalency by the series of minus and plus unities , divided by Pi. In the act of crossing over, Beta (.37), creates a residue of sum and minus of unity with Pi dividing the entire equation to arrive at an equivalency. 37's connection to the fine-structure constant is accomplished in two ways, as a numerator and as a denominator, to the fine-structure constant. An equivalent analogy is the metric speed of light c's relationship to 37 and cosine of inverse fine-structure constant. In this equation, Beta (.37), demonstrates two effects.. c = 299792458 m/s = light speed metric

(1)...the expression of the Golden Section as one part of a sum equation

cosine in radians: ....theta actual = 1.6180339875...

( cos ( c * aem / .37 )) * 2 = theta = 1.618039177...

(2)....the expression for unity as the second part of a sum equation:

cos ( c * aem / ( .37 ^ 2 )) = unity = 1= cos ( 2 * Pi )Ê..

...here Beta (.37) stays in the denominator in both equations, but has different powers; squared in unity, non-squared in theta, to arrive at equivalencies. Subtracting unity from theta has the odd effect of Beta being withheld from mathematical action because of the cosine parenthesis "block", canceling any further mathematical action. However Beta (.37), uniquely, can "leave" the protection of the cosine block and yet keep its equivalency to theta:

((( cos ( c * aem / .37 )) * 2 - ( cos ( c * aem / ( .37 ^ 2 )) = theta - 1

...in other words, Beta (.37) ...CANCELS...through the blocking action of the cosine parenthesis !!! Not supposed to be able to do this, mathematically wise. Obviously light speed c and the amplitude for electron-photon transformation....aem... are at play here.

J.Iuliano

**99.91.7 Edward Leedskalnin's ratio 7129 / 6105195 and Zeta function (RGrace)**

Subject: Edward Leedskalnin's ratio 7129 / 6105195 and Zeta function

From: rgrace@rgrace.org

To: JerryIuliano@aol.com

Date: Fri., April 30, 2005

Sir:

Would you like to try developing any equations based upon Leedskalnins number 7129 in the Zeta function fractions by reviewing your previous work, reproduced below?

Sections: 99.80.3 / 99.80.4 Edward Leedskalnin's ratio 7129 / 6105195.

Today I have been looking into the details of The Zeta function and found Leedskalnin's number 7129 in the 9th sum of 10 sums:

What is the Zeta function (s)?Very simply, zeta;(s) = Sigma; (1/n)s = (1/1)s + (1/2)s + (1/3)s + (1/4)s + (1/5)s + (1/6)s + (1/7)s + ... an infinite sum of fractions. If you look at zeta;(1), and start adding fractions, you might suspect that it eventually hits some upper limit.

The first 10 sums are:

{1, 3/2, 11/6, 25/12, 137/60, 49/20, 363/140, 761/280,

7129/2520, 7381/2520} or{1., 1.5, 1.83333, 2.08333, 2.28333, 2.45, 2.59286, 2.71786, 2.82897, 2.92897}.

The fractions up to a googol (10^100) sum to about 230.835. There is no upper limit to this sum.

**Section: 90.80.3 Edward Leedskalnin's ratio 7129 / 6105195 (Iuliano)**:

A plaque was found in Ed's bedroom, at Coral Castle.

It read: THE SECRET TO THE UNIVERSE IS 7129 / 6105195.

Sir:

Ed Leedskalnin, the strange man who built the Coral Gables castle in Florida had a plaque in his bedroom that referred to a Theory of Everything as a ratio between two integers...7129 / 6105195...as quoted at the bottom of the following article:

......... One final note: A plaque was found in Ed's bedroom. It read: THE SECRET TO THE UNIVERSE IS 7129 / 6105195. To those of you interested in deciphering this additional mystery: Good Luck!.........end quote.

The integer 37 solves this mysterious ratio...cosine in radians

(( 7129 / 6105195 / -37 ) - 3 ) / 10 = cos ( 6105195 / 7129 ) -0.30000315593 = -0.300003156397

The integer 37 also cracks the ratio to the Feigenbaum constant, t ruler of the mandelbrot fractal, chaos to order phase transitions...F=4.669201609 = Feigenbaum constant...tangent in radians

( tan^-1 ( 6105195 / 7129 / 37 )) + Pi = 4.6692....

The Leedskalnin ratio also clicks to the Cheops constructs through the amplitude for an electron to emit or absorb a photon , the fine-structure constant...a(em) = 137.03599976...1998 NIST

( 6105195 / 7129 / 37 ) ^ - ( ht / 2 / bl ) = cos 137.0359815

when ht = height of Cheops pyramid = 486.256 ft

bl = base leg Cheops pyramid = 763.81 ft

reference Churchill/Massey 1910 expedition to Egypt .....

1/137.0359815 is 99.9999867% of 1998 NIST value

Interesting to note that when Leedskalnin died (1951) the value of the fine-structure was thought to be ....a(em) = 1/137.035978....

Another interesting Cheops constructs form is as follows:

6105195 / 7129 / ( 37^17 ) * ( 10^25) = 10 ^ ( 2*ht/bl )

if ht = 486.2573394...bl = 763.81

J.Iuliano

****************

**Section: 99.80.4 Edward Leedskalnin's ratio 7129 / 6105195 (Lui)**

<< Jerry's solution to Leedskalnin's numbers 7129 / 6105195: >>

Here's another take on it.

Any number can be broken down to single digit.

These two numbers break down to a 1 and an 8, mirror number sequence partners, +1 and -1.

In the Vedic Square the 1 number sequence = 1 2 3 4 5 6 7 8 9. Cycling the 7129 will produce the same sequence.

The Vedic Square and how it works (PDF)

7129 = 1

14258 = 2

21387 = 3 etc

The 8 number sequence is 8 7 6 5 4 3 2 1 9. Cycling the 6105195 will produce this sequence.

The number 37 too expresses a 1. To find the mirror of 37 one could use my mirror number table where they will see it equal to 44, which is the 8. Then add the 37 and 44 and it equals 81. All number sequence pairs equal 9.

37 cps = D

44 cps = F

The interval is that of a Minor 3rd

A chord can be built up using just minor 3rd intervals

D F Ab B = chord of D Diminished

This chord is perfectly symmetrical. It will mirror the other way, from right to left. The center D is the axis:

F Ab B (D) F Ab B

1 cps = C

8 cps = C

81 cps = E

This is a major 3rd interval. A chord can be built using only major third intervals and it too will be perfectly symmetrical.

E Ab (C) E Ab = An augmented triad mirroring to the same augmented triad.

The mirror of 81 = 72 = 153

The mirror of 153 = 144 = 297

The 297 may as well be the 2nd number sequence and the 7th number sequence, mirror pairs in the Vedic square, held together over the 9 axis.

Ab = 52 cps

B = 62 cps

Mirror of 52 = 47

mirror of 62 = 55

52+47 = 99

62+55 = 117 (99 +117 = 216)

47 cps = F#

55 cps = A

F# to A is another minor 3rd interval

99 cps = G

117 cps = Bb

G to Bb is a minor 3rd interval as well.

52 +47 = 99 = Ab F# G

62 + 55 =117 = B A Bb

And on it spews right?!

Lui

© Copyright. Robert Grace. 2004