“STONEHENGE HAS BEEN SOLD TO A TEXAS TYCOON”

A_Texas_Tycoon

Garry Denke 5th November 3:12 pm
https://www.wiltshiretimes.co.uk/news/17197384.eyes-of-the-world-will-be-on-stonehenge/
“STONEHENGE HAS BEEN SOLD TO A TEXAS TYCOON”
They only Stole £144,000 from US, so I guess We are Lucky.
Garry Denke d/b/a
A Texas Tycoon
Last Updated: 5th November 3:22 pm

The_Servant_Queen

Garry Denke 5th November 3:12 pm
https://www.wiltshiretimes.co.uk/news/17197384.eyes-of-the-world-will-be-on-stonehenge/
“STONEHENGE HAS BEEN SOLD TO A TEXAS TYCOON”
They only Stole £144,000 from US, so I guess We are Lucky.
Garry Denke d/b/a
A Texas Tycoon
Last Updated: 5th November 3:22 pm

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Max Planck Society: “Frederic-r2e2”; patent name

Men of Galilei
Men of Galilei

Max Planck Society: “Frederic-r2e2”; patent name
“…O mein! …Das erste Maß! 6.66… x 10 ^ 8
zentimeter ^ 3 / gramm – sekunde ^ 2”
Friedrich Wilhelm Denke, 1888

42 Measurements of Newtonian Constant
of Gravitation using Frederic-r2e2 reader

Newtonian constant of gravitation
G
Value: 6.671 281 903 963 04 x 10-11 m3 kg-1 s-2
Standard uncertainty: 0.00000000000000 099 x 10-11 m3 kg-1 s-2
Relative standard uncertainty: 1.0 x 10-14
Concise form: 6.671 281 903 963 04(099) x 10-11 m3 kg-1 s-2

TABLE I – G=2/c, c=2/G, 2=G*c (natural units):

G = 6.671 281 903 963 04(099) x 10-11 m3 kg-1 s-2 *1977 ASU
G = 6.671 281 903 963 04(099) x 10-11 m3 kg-1 s-2 *1978 POC
G = 6.671 281 903 963 04(100) x 10-11 m3 kg-1 s-2 *1979 POC
G = 6.671 281 903 963 04(098) x 10-11 m3 kg-1 s-2 *1980 POC
G = 6.671 281 903 963 04(099) x 10-11 m3 kg-1 s-2 *1981 POC
G = 6.671 281 903 963 04(098) x 10-11 m3 kg-1 s-2 *1982 POC
G = 6.671 281 903 963 04(100) x 10-11 m3 kg-1 s-2 *1983 POC
G = 6.671 281 903 963 04(100) x 10-11 m3 kg-1 s-2 *1984 POC
G = 6.671 281 903 963 04(099) x 10-11 m3 kg-1 s-2 *1985 DIT
G = 6.671 281 903 963 04(099) x 10-11 m3 kg-1 s-2 **1986 DIT
G = 6.671 281 903 963 04(098) x 10-11 m3 kg-1 s-2 *1987 DIT
G = 6.671 281 903 963 04(098) x 10-11 m3 kg-1 s-2 *1988 DIT
G = 6.671 281 903 963 04(100) x 10-11 m3 kg-1 s-2 *1989 DIT
G = 6.671 281 903 963 04(099) x 10-11 m3 kg-1 s-2 *1990 DIT
G = 6.671 281 903 963 04(100) x 10-11 m3 kg-1 s-2 *1991 DIT
G = 6.671 281 903 963 04(099) x 10-11 m3 kg-1 s-2 *1992 DIT
G = 6.671 281 903 963 04(098) x 10-11 m3 kg-1 s-2 *1993 DIT
G = 6.671 281 903 963 04(098) x 10-11 m3 kg-1 s-2 *1994 DIT
G = 6.671 281 903 963 04(099) x 10-11 m3 kg-1 s-2 *1995 DIT
G = 6.671 281 903 963 04(100) x 10-11 m3 kg-1 s-2 *1996 DIT
G = 6.671 281 903 963 04(099) x 10-11 m3 kg-1 s-2 *1997 DIT
G = 6.671 281 903 963 04(100) x 10-11 m3 kg-1 s-2 **1998 DIT
G = 6.671 281 903 963 04(099) x 10-11 m3 kg-1 s-2 *1999 DIT
G = 6.671 281 903 963 04(100) x 10-11 m3 kg-1 s-2 *2000 DIT
G = 6.671 281 903 963 04(098) x 10-11 m3 kg-1 s-2 *2001 DIT
G = 6.671 281 903 963 04(099) x 10-11 m3 kg-1 s-2 **2002 DIT
G = 6.671 281 903 963 04(100) x 10-11 m3 kg-1 s-2 *2003 DIT
G = 6.671 281 903 963 04(098) x 10-11 m3 kg-1 s-2 *2004 DIT
G = 6.671 281 903 963 04(098) x 10-11 m3 kg-1 s-2 *2005 DIT
G = 6.671 281 903 963 04(100) x 10-11 m3 kg-1 s-2 **2006 DIT
G = 6.671 281 903 963 04(098) x 10-11 m3 kg-1 s-2 *2007 DIT
G = 6.671 281 903 963 04(099) x 10-11 m3 kg-1 s-2 *2008 DIT
G = 6.671 281 903 963 04(098) x 10-11 m3 kg-1 s-2 *2009 DIT
G = 6.671 281 903 963 04(100) x 10-11 m3 kg-1 s-2 **2010 DIT
G = 6.671 281 903 963 04(099) x 10-11 m3 kg-1 s-2 *2011 DIT
G = 6.671 281 903 963 04(100) x 10-11 m3 kg-1 s-2 *2012 DIT
G = 6.671 281 903 963 04(099) x 10-11 m3 kg-1 s-2 *2013 DIT
G = 6.671 281 903 963 04(098) x 10-11 m3 kg-1 s-2 **2014 DIT
G = 6.671 281 903 963 04(098) x 10-11 m3 kg-1 s-2 *2015 DIT
G = 6.671 281 903 963 04(100) x 10-11 m3 kg-1 s-2 *2016 DIT
G = 6.671 281 903 963 04(100) x 10-11 m3 kg-1 s-2 *2017 DIT
G = 6.671 281 903 963 04(099) x 10-11 m3 kg-1 s-2 **2018 DIT

* Year of Measurement
** Definitions Adjustments
ASU – Arizona State University
POC – Pitts Oil Company
DIT – Denoco Inc. of Texas

TABLE II – Graviton Density frequency readings:

NIST-82 6.672 6 0.000 5 08/29/1980 10/10/1980 09/19/1980 42 torsion balance time-of-swing
TR&D-96 6.672 9 0.000 5 04/19/1985 10/19/1995 06/09/1990 3835 torsion balance time-of-swing
LANL-97 6.674 0 0.000 7 01/01/1996 05/31/1996 03/15/1996 151 torsion balance time-of-swing
UW-00 6.674 255 0.000 092 03/10/2000 04/18/2000 03/29/2000 39 torsion balance acceleration servo
BIPM-01s 6.675 53 0.000 40 09/29/2000 11/02/2000 10/16/2000 34 torsion balance electrostatic servo
BIPM-01c 6.675 65 0.000 45 11/25/2000 12/13/2000 12/04/2000 18 torsion balance Cavendish
BIPM-01sc 6.675 59 0.000 27 09/29/2000 12/13/2000 11/02/2000 75 torsion balance Cavendish & servo
UWUP-02 6.674 22 0.000 98 01/12/2001 06/29/2001 03/06/2001 168 two pendulums
MSL-03 6.673 87 0.000 27 03/21/2002 11/01/2002 07/11/2002 225 torsion balance electrostatic servo
HUST-05 6.672 3 0.000 9 08/04/1997 10/15/1997 09/09/1997 72 torsion balance time-of-swing
UZH-06 6.674 25 0.000 12 07/31/2001 08/21/2001 08/21/2001 21 beam balance
HUST-09a 6.673 52 0.000 19 03/21/2007 05/20/2007 04/20/2007 60 torsion balance time-of-swing
HUST-09b 6.673 46 0.000 21 10/08/2008 11/16/2008 10/27/2008 39 torsion balance time-of-swing
JILA-10 6.672 34 0.000 14 05/12/2004 06/06/2004 05/28/2004 25 two pendulums
BIPM-13s 6.675 15 0.000 41 11/08/2007 01/16/2008 12/15/2007 69 torsion balance electrostatic servo
BIPM-13c 6.675 86 0.000 36 08/31/2007 09/10/2007 09/05/2007 10 torsion balance Cavendish
BIPM-13sc 6.675 54 0.000 16 08/31/2007 01/16/2008 10/25/2007 138 torsion balance Cavendish & servo
UCI-14a 6.674 35 0.000 10 10/04/2000 11/11/2000 10/23/2000 38 torsion balance time-of-swing
UCI-14b 6.674 08 0.000 15 03/25/2002 05/12/2002 04/18/2002 48 torsion balance time-of-swing
UCI-14c 6.674 55 0.000 13 04/08/2006 05/14/2006 04/26/2006 36 torsion balance time-of-swing
LENS-14 6.671 91 0.000 99 07/05/2013 07/12/2013 07/08/2013 7 atom interferometer
FWD 6.671 281 903 963 04 0.000 00 04/01/2018 04/01/2018 1 graviton density frequency reader

Newtonian constant of gravitation
G
Value: 6.671 281 903 963 04 x 10-11 m3 kg-1 s-2
Standard uncertainty: 0.00000000000000 099 x 10-11 m3 kg-1 s-2
Relative standard uncertainty: 1.0 x 10-14
Concise form: 6.671 281 903 963 04(099) x 10-11 m3 kg-1 s-2

https://www.nist.gov/news-events/news/2014/10/trouble-capital-g
https://ws680.nist.gov/publication/get_pdf.cfm?pub_id=918564
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4173273/

Table II last entry, G=f^2/D, D=f^2/G,
f=(GD)^1/2, not in the original.

Friedrich Wilhelm Denke
(b. 1864 – d. 1936)
Waldenburg

Gravitation (exact)
Gravitation (exact)

Denke (hbar) is action; Planck (h) is angular;

Universal Magnetic Reversals
Denke (hbar) is action; Planck (h) is angular;

hbar = quantum of action = 9.670554000 x 10^-29 erg-s
h = quantum of angular = 6.626070150 x 10−27 erg-s/rad
hbar = quantum of action = 9.670554000 x 10^-36 kg-m^2/s
h = quantum of angular = 6.626070150 x 10^-34 kg-m^2/s-rad

CGS

k = hbar*c/4π*e^2
k = 9.670554000 x 10^-29 erg-s * 2.997924580 x 10^10 cm/s / 4π * (4.803204712 x 10^-10 esu)^2
k = 1

e^2 = hbar*c/4π*k
e^2 = 9.670554000 x 10^-29 erg-s * 2.997924580 x 10^10 cm/s / 4π * 1
e^2 = (4.803204712 x 10^-10 esu)^2

hbar = 4π*k*e^2/c
hbar = 4π * 1 * (4.803204712 x 10^-10 esu)^2 / 2.997924580 x 10^10 cm/s
hbar = 9.670554000 x 10^-29 erg-s

alpha = 4π*e^2/2*h*c
alpha = 4π * (4.803204712 x 10^-10 esu)^2 / 2.000000000 x 10^0 rad/sr * 6.626070150 x 10−27 erg-s/rad * 2.997924580 x 10^10 cm/s
alpha = 7.297352566 x 10^-3 sr

hbar = 2*h*alpha
hbar = 2.000000000 x 10^0 rad/sr * 6.626070150 x 10−27 erg-s/rad * 7.297352566 x 10^-3 sr
hbar = 9.670554000 x 10^-29 erg-s

alpha = hbar/2*h
alpha = 9.670554000 x 10^-29 erg-s / 2.000000000 x 10^0 rad/sr * 6.626070150 x 10^-27 erg-s/rad
alpha = 7.297352566 x 10^-3 sr

h = hbar/2*alpha
h = 9.670554000 x 10^-29 erg-s / 2.000000000 x 10^0 rad/sr * 7.297352566 x 10^-3 sr
h = 6.626070150 x 10−27 erg-s/rad

MKS

k = hbar*c/4π*e^2
k = 9.670554000 x 10^-36 kg-m^2/s * 2.997924580 x 10^8 m/s / 4π * (1.602176634 x 10^-19 A-s)^2
k = 8.987551787 x 10^9 kg-m^3/4π-A^2-s^4

e^2 = hbar*c/4π*k
e^2 = 9.670554000 x 10^-36 kg-m^2/s * 2.997924580 x 10^8 m/s / 4π * 8.987551787 x 10^9 kg-m^3/4π-A^2-s^4
e^2 = (1.602176634 x 10^-19 A-s)^2

hbar = 4π*k*e^2/c
hbar = 4π * 8.987551787 x 10^9 kg-m^3/4π-A^2-s^4 * (1.602176634 x 10^-19 A-s)^2 / 2.997924580 x 10^8 m/s
hbar = 9.670554000 x 10^-36 kg-m^2/s

alpha = e^2/2*e0*h*c
alpha = (1.602176634 x 10^-19 A-s)^2 / 2.000000000 x 10^0 rad/sr * 8.854187817 x 10^-12 A^2-s^4/kg-m^3 * 6.626070150 x 10^-34 kg-m^2/s-rad * 2.997924580 x 10^8 m/s
alpha = 7.297352566 x 10^-3 sr

hbar = 2*h*alpha
hbar = 2.000000000 x 10^0 rad/sr * 6.626070150 x 10^-34 kg-m^2/s-rad * 7.297352566 x 10^-3 sr
hbar = 9.670554000 x 10^-36 kg-m^2/s

alpha = hbar/2*h
alpha = 9.670554000 x 10^-36 kg-m^2/s / 2.000000000 x 10^0 rad/sr * 6.626070150 x 10^-34 kg-m^2/s-rad
alpha = 7.297352566 x 10^-3 sr

h = hbar/2*alpha
h = 9.670554000 x 10^-36 kg-m^2/s / 2.000000000 x 10^0 rad/sr * 7.297352566 x 10^-3 sr
h = 6.626070150 x 10^-34 kg-m^2/s-rad

SI

Universal Fundamental Physical Constants

Denke constant = e^2*z0
Denke constant = (1.602176634 x 10^-19 A-s)^2 * 3.767303134 x 10^2 kg-m^2/A^2-s^3
Denke constant = 9.670554000 x 10^-36 kg-m^2/s

Denke constant = e^2/e0*c
Denke constant = (1.602176634 x 10^-19 A-s)^2 / 8.854187817 x 10^-12 A^2-s^4/kg-m^3 * 2.997924580 x 10^8 m/s
Denke constant = 9.670554000 x 10^-36 kg-m^2/s

Denke constant = e^2*u0*c
Denke constant = (1.602176634 x 10^-19 A-s)^2 * 1.256637061 x 10^-6 kg-m/A^2-s^2 * 2.997924580 x 10^8 m/s
Denke constant = 9.670554000 x 10^-36 kg-m^2/s

001) inverse Denke radiance = 4.813596094 x 10^-126 s^3-sr/kg
002) inverse Denke irradiance = 6.596359502 x 10^-124 s^3/kg
003) radiant volume = 1.977538829 x 10^-115 m-s^2/kg
004) Denke volume = 1.171649759 x 10^-106 m^3
005) Denke mass volume = 1.777323264 x 10^-98 m^3/kg
006) electric current volume = 2.439308398 x 10^-96 m^2/A
007) electric charge volume = 7.312862605 x 10^-88 m^3/A-s
008) molar volume = 7.055839769 x 10^-83 m^3/mol
009) inertial moment = 1.578446697 x 10^-79 kg-m^2
010) Denke fluidity = 1.211564259 x 10^-71 m-s/kg
011) Denke area = 2.394410115 x 10^-71 m^2
012) inverse Denke luminous intensity = 2.943407580 x 10^-58 /cd
013) electric moment = 7.839884471 x 10^-55 A-s-m
014) Denke capacitance = 4.332594055 x 10^-47 A^2-s^4/kg-m^2
015) magnetic moment = 2.350338236 x 10^-46 A-m^2
016) Denke time = 1.632219516 x 10^-44 s
017) Denke moment = 3.225749595 x 10^-44 kg-m
018) Denke inductance = 6.149065698 x 10^-42 kg-m^2/A^2-s^2
019) absorption-emission = 2.475980295 x 10^-36 s/kg
020) Denke length = 4.893271007 x 10^-36 m
021) Denke constant = 9.670554000 x 10^-36 kg-m^2/s
022) Planck constant = 6.626070150 x 10^-34 kg-m^2/s-rad
023) relative expansion = 2.330292866 x 10^-32 /K
024) electric resistivity = 1.843443520 x 10^-33 kg-m^3/A^2-s^3
025) kinematic viscosity = 1.466965743 x 10^-27 m^2/s
026) inverse Denke electric current = 1.018751292 x 10^-25 /A
027) Avogadro amount of substance = 1.660539068 x 10^-24 mol
028) Boltzmann constant = 1.380649035 x 10^-23 kg-m^2/s^2-K
029) thermal resistance = 1.182211753 x 10^-21 s^3-K/kg-m^2
030) elementary charge = 1.602176634 x 10^-19 A-s
031) first radiation spectral radiance = 1.191042972 x 10^-16 kg-m^4/s^3-sr
032) Denke molality = 2.518939378 x 10^-16 mol/kg
033) first radiation = 3.741771852 x 10^-16 2π-kg-m^4/s^3-rad
034) magnetic flux quantum = 2.067833848 x 10^-15 kg-m^2-sr/A-s^2-rad^2
035) specific heat = 2.094362781 x 10^-15 m^2/s^2-K
036) magnetic flux = 4.135667696 x 10^-15 kg-m^2/A-s^2-rad
037) electric constant = 8.854187817 x 10^-12 A^2-s^4/kg-m^3
038) magnetic exposure = 2.430407023 x 10^-11 A-s/kg
039) magnetic pole strength = 4.803204713 x 10^-11 A-m
040) Newton gravitation constant = 6.671281903 x 10^-11 m^3/kg-s^2
041) atomic permittivity = 1.112650056 x 10^-10 4π-A^2-s^4/kg-m^3
042) molar Planck constant = 3.990312710 x 10^-10 kg-m^2/s-mol-rad
043) density of states = 1.687824209 x 10^-9 s^2/kg-m^2
044) inverse Denke energy = 1.687824209 x 10^-9 s^2/kg-m^2
045) radiant distribution = 3.335640952 x 10^-9 s/m
046) Denke mass = 6.592215290 x 10^-9 kg
047) magnetic constant = 1.256637061 x 10^-6 kg-m/A^2-s^2
048) electric conductance = 3.874045865 x 10^-5 A^2-s^3-rad/kg-m^2
049) conductance quantum = 7.748091731 x 10^-5 A^2-s^3-rad^2/kg-m^2-sr
050) inverse luminous efficacy = 1.464128843 x 10^-3 kg-m^2/cd-sr-s^3
051) Sommerfeld fine-structure = 7.297352566 x 10^-3 sr
052) second radiation = 1.438776841 x 10^-2 m-K/rad
053) Denke fine-structure angle = 1.459470513 x 10^-2 rad
054) Denke spin one-half = 5.000000000 x 10^-1 sr/rad
055) dielectric constant = 1.000000000 x 10^0 sr/sr
056) relative permeability = 1.000000000 x 10^0 rad/rad
057) Denke momentum = 1.976296425 x 10^0 kg-m/s
058) Denke spin two = 2.000000000 x 10^0 rad/sr
059) molar gas constant = 8.314462825 x 10^0 kg-m^2/s^2-mol-K
060) inverse Denke fine-structure angle = 6.851799958 x 10^1 /rad
061) inverse Sommerfeld fine-structure = 1.370359991 x 10^2 /sr
062) impedance of vacuum = 3.767303134 x 10^2 kg-m^2/A^2-s^3
063) luminous efficacy = 6.830000000 x 10^2 cd-sr-s^3/kg-m^2
064) inverse conductance q. = 1.290640373 x 10^4 kg-m^2-sr/A^2-s^3-rad^2
065) von Klitzing constant = 2.581280746 x 10^4 kg-m^2/A^2-s^3-rad
066) Faraday constant = 9.648533208 x 10^4 A-s/mol
067) inverse Denke mass = 1.516940749 x 10^8 /kg
068) speed of light in vacuum = 2.997924580 x 10^8 m/s
069) Denke energy = 5.924787631 x 10^8 kg-m^2/s^2
070) Coulomb constant = 8.987551787 x 10^9 kg-m^3/4π-A^2-s^4
071) luminous energy = 4.046629952 x 10^11 cd-sr-s
072) Josephson quantum = 2.417989242 x 10^14 A-s^2-rad/kg-m^2
073) Josephson constant = 4.835978484 x 10^14 A-s^2-rad^2/kg-m^2-sr
074) molar Denke mass = 3.969924838 x 10^15 kg/mol
075) electric displacement = 3.274244635 x 10^16 A-s/m
076) Denke absorption = 8.987551787 x 10^16 m^2/s^2
077) Denke displacement = 4.493775892 x 10^18 kg-s/m^2
078) magnetic potential = 1.233507207 x 10^19 kg-m/A-s^2
079) thermal conductance = 8.458721523 x 10^20 kg-m^2/s^3-K
080) Avogadro constant = 6.022140758 x 10^23 /mol
081) Denke electric current = 9.815938471 x 10^24 A
082) Denke mass field = 1.347200120 x 10^27 kg/m
083) electric potential = 3.697961576 x 10^27 kg-m^2/A-s^3
084) Denke temperature = 4.291306104 x 10^31 K
085) molar Denke energy = 3.567990507 x 10^32 kg-m^2/s^2-mol
086) electric conductivity = 5.424630531 x 10^32 A^2-s^3/kg-m^3
087) Denke wave number = 2.043622760 x 10^35 /m
088) Denke mass flow rate = 4.038804355 x 10^35 kg/s
089) angular velocity = 8.941631311 x 10^41 rad/s
090) Denke frequency = 6.126626904 x 10^43 /s
091) Denke force = 1.210803085 x 10^44 kg-m/s^2
092) surface concentration = 6.935065375 x 10^46 mol/m^2
093) electric flux density = 6.691320856 x 10^51 A-s/m^2
094) field acceleration = 1.836716539 x 10^52 m/s^2
095) Denke power = 3.629896330 x 10^52 kg-m^2/s^3
096) magnetic flux density = 2.520823403 x 10^54 kg/A-s^2
097) radiant intensity = 4.974264704 x 10^54 kg-m^2/s^3-sr
098) luminous flux = 2.479219194 x 10^57 cd-sr
099) thermal conductivity = 1.728643582 x 10^56 kg-m/s^3-K
100) Denke luminous intensity = 3.397422793 x 10^57 cd
101) magnetic field strength = 2.006007527 x 10^60 A/m
102) absorption rate = 5.506337658 x 10^60 m^2/s^3
103) surface density = 2.753168828 x 10^62 kg/m^2
104) electric field strength = 7.557238443 x 10^62 kg-m/A-s^3
105) inverse Denke area = 4.176393985 x 10^70 /m^2
106) dynamic viscosity = 8.253792503 x 10^70 kg/m-s
107) surface tension = 2.474424742 x 10^79 kg/s^2
108) molar concentration = 1.417265744 x 10^82 mol/m^3
109) angular acceleration = 5.478203895 x 10^85 rad/s^2
110) electric charge density = 1.367453560 x 10^87 A-s/m^3
111) thermal transfer = 3.532695368 x 10^91 kg/s^3-K
112) electric current density = 4.099522638 x 10^95 A/m^2
113) Denke mass density = 5.626438479 x 10^97 kg/m^3
114) Denke density = 8.534973801 x 10^105 /m^3
115) radiant density = 5.056790721 x 10^114 kg/m-s^2
116) luminous density = 3.453788062 x 10^117 cd-sr-s/m^3
117) Denke irradiance = 1.515987720 x 10^123 kg/s^3
118) Denke radiance = 2.077448919 x 10^125 kg/s^3-sr
119) luminous flux density = 1.035419613 x 10^126 cd-sr/m^2
120) Denke luminance = 1.418897612 x 10^128 cd/m^2

(shortened for brevity)

UNITS

Denke time: (hbar*G/c^5)^1/2 = 1.632219516 x 10^-44 s
Denke length: (hbar*G/c^3)^1/2 = 4.893271007 x 10^-36 m
Avogadro substance: [(hbar*c/G)^1/2]/M = 1.660539068 x 10^-24 mol
Denke mass: (hbar*c/G)^1/2 = 6.592215290 x 10^-9 kg
Sommerfeld fine-structure: e^2/2*e0*h*c = 7.297352566 x 10-3 sr
Denke fine-structure angle: e^2/e0*h*c = 1.459470513 x 10^-2 rad
Archimedes constant: π = 3.141592653 x 10^0 π
Denke current: e/[(hbar*G/c^5)^1/2] = 9.815938471 x 10^24 A
Denke temperature: [(hbar*c^5/G)^1/2]/k = 4.291306104 x 10^31 K
Denke intensity: Q/[(hbar*G/c^5)^1/2]alpha = 3.397422793 x 10^57 cd

CGS

alpha ≠ e^2/hbar*c
hbar ≠ e^2/alpha*c
e^2 ≠ hbar*alpha*c

https://www.bipm.org/en/worldwide-metrology/cgpm/
https://www.bipm.org/en/cgpm-2018/

See you there!
G-D

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G. Willy Wally
Wally Hope

Increase A303 Stonehenge Tunnel to 6.12km (3.8mi)
Accept offer. Citizens save £2B … Git Diggin! G-D

https://www.jiscmail.ac.uk/cgi-bin/webadmin?A2=ind1801&L=BRITARCH&F=&S=&P=20894
https://petition.parliament.uk/petitions/202895/sponsors/new?token=FaHZBL5uY3X3MYqoKvYU
https://highwaysengland.citizenspace.com/he/a303-stonehenge-2018/supporting_documents/BED18%200014%20A303%20STONEHENGE%20CONSULTATION%2018%20for%20digita%202433.pdf
http://www.salisburyjournal.co.uk/
http://www.wiltshiretimes.co.uk/

Accept offer. Citizens save £2B.

Petitions UK

Increase A303 Stonehenge Tunnel to 6.12km (3.8mi)
https://petition.parliament.uk/petitions/202895/sponsors/new?token=FaHZBL5uY3X3MYqoKvYU

Garry Denke d/b/a A Texas Tycoon (net worth £1T) has offered to Solely Fund construction of A303 Stonehenge Tunnel provided its length is increased to 6.12km (3.8mi) at no cost to UK Taxpayers. Good Faith deposit is already in National Trust / English Heritage hands. Accept offer. Citizens save £2B.

Majority of stakeholders in Agreement to said increase.

The Cross Arms 1972

Ralph Ferdinand & Garry Denke

Complete History of Stonehenge Excavations 1611. King James I investigated Stonehenge “to see ‘The stone which the builders refused.'” King James Version, 1611 1616. Doctor William Harvey, Gilbert North, and Inigo Jones find horns of stags and oxen, coals, charcoals, batter-dashers, heads of arrows, pieces of rusted armour, rotten bones, thuribulum (censer) pottery, and a large nail. Long, William, 1876, Stonehenge and its Barrows. The Wiltshire Archaeological and Natural History Magazine, Volume 16 1620. George Villiers, 1st Duke of Buckingham, dug a large hole in the ground at the center of Stonehenge looking for buried treasure. (Diary) 1633-52. Inigo Jones conducted the first ‘scientific’ surveys of Stonehenge. Jones, I, and Webb, J, 1655, The most notable antiquity of Great Britain vulgarly called Stone-Heng on Salisbury plain. London: J Flesher for D Pakeman and L Chapman 1640. Sir Lawrence Washington, knight, owner of Stonehenge, fished around Bear’s Stone (named after Washington’s hound dog). Bear’s Stone profile portrait a local 17th century attraction. (G-Diary) The Wiltshire Archaeological and Natural History Magazine, Volumes 15-16 1652. Reverend Lawrence Washington, heir of Stonehenge, commissions Doctor Garry Denke to dig below Bear’s Stone, reveals lion, calf (ox), face as a man, flying eagle, bear (dog), leopard, and hidden relics. Bear’s Stone (96) renamed Hele ‘to conceal, cover, hide’. (G-Diary) 1653-6. Doctor Garry Denke auger cored below Hele Stone ‘The stone which the builders rejected’ on various occasions. Gold, silver, brass, iron, wood, bone, concrete discovered at 1-1/3 ‘yardsticks’ (under flying eagle). Elizabeth Washington, heir of Stonehenge. Denke, G, 1699, G-Diary (German to English by Erodelphian Literary Society of Sigma Chi Fraternity). GDG, 1-666 1666. John Aubrey surveyed Stonehenge and made a ‘Review’. Described the Avenue’s prehistoric pits. (the ‘Aubrey Holes’ discovered by Hawley, not Aubrey). Aubrey, J, 1693 (edited by J Fowles 1982), Monumenta Britannica. Sherborne, Dorset: Dorset Publishing Co 1716. Thomas Hayward, owner of Stonehenge, dug heads of oxen and other beasts. (Diary) 1721-4. William Stukeley surveyed and excavated Stonehenge and its field monuments. Surveyed the Avenue in 1721 extending beyond Stonehenge Bottom to King Barrow Ridge. Surveyed the Cursus in 1723 and excavated. Stukeley, W, 1740, Stonehenge: a temple restor’d to the British druids. London: W Innys and R Manby 1757. Benjamin Franklin observes Bear’s Stone (96) lion, calf (ox), face as a man, flying eagle, bear (dog), leopard, and Hele Stone ‘hidden’ relics below them. (Diary) 1798. Sir Richard Hoare and William Cunnington dug at Stonehenge under the fallen Slaughter Stone 95 and under fallen Stones 56 and 57. The Ancient History of Wiltshire, Volume 1, 1812 1805-10. William Cunnington dug at Stonehenge on various occasions. Cunnington, W, 1884, Guide to the stones of Stonehenge. Devizes: Bull Printer 1839. Captain Beamish excavated within Stonehenge. (Diary) 1874-7. Professor Flinders Petrie produced a plan of Stonehenge and numbered the stones. Petrie, W M F, 1880, Stonehenge: plans, description, and theories. London: Edward Stanford 1877. Charles Darwin digs at Stonehenge to study ‘Sinking of great Stones through the Action of Worms’. Darwin, Charles,1881, The Formation of Vegetable Mould, Through the Action of Worms, with Observations on Their Habits. London: John Murray 1901. Professor William Gowland meticulously recorded and excavated around stone number 56 at Stonehenge. Gowland, W, 1902, Recent excavations at Stonehenge. Archaeologia, 58, 37-82 1919-26. Colonel William Hawley extensively excavated in advance of restoration programmes at Stonehenge for the Office of Works and later for the Society of Antiquaries. Hawley excavated ditch sections of the Avenue, conducted an investigation of the Slaughter Stone and other stones at Stonehenge, and discovered the ‘Aubrey Holes’ (misnamed) through excavation. Hawley, W, 1921, Stonehenge: interim report on the exploration. Antiquaries Journal, 1, 19-41 Hawley, W, 1922, Second report on the excavations at Stonehenge. Antiquaries Journal, 2, 36-52 Hawley, W, 1923, Third report on the excavations at Stonehenge. Antiquaries Journal, 3, 13-20 Hawley, W, 1924, Fourth report on the excavations at Stonehenge, 1922. Antiquaries Journal, 4, 30-9 Hawley, W, 1925, Report on the excavations at Stonehenge during the season of 1923. Antiquaries Journal, 5, 21-50 Hawley, W, 1926, Report on the excavations at Stonehenge during the season of 1924. Antiquaries Journal, 6, 1-25 Hawley, W, 1928, Report on the excavations at Stonehenge during 1925 and 1926. Antiquaries Journal, 8, 149-76 (Diary) Pitts, M, Bayliss, A, McKinley, J, Boylston, A, Budd, P, Evans, J, Chenery, C, Reynolds, A, and Semple, S, 2002, An Anglo-Saxon decapitation and burial at Stonehenge. Wiltshire Archaeological and Natural History Magazine, 95, 131-46 1929. Robert Newall excavated Stone 36. Newall, R S, 1929, Stonehenge. Antiquity, 3, 75-88 Newall, R S, 1929, Stonehenge, the recent excavations. Wiltshire Archaeological and Natural History Magazine, 44, 348-59 1935. Young, W E V, The Stonehenge car park excavation. (Diary) 1950. Robert Newall excavated Stone 66. Newall, R S, 1952, Stonehenge stone no. 66. Antiquaries Journal, 32, 65-7 1952. Robert Newall excavated Stones 71 and 72. (Diary) 1950-64. A major campaign of excavations by Richard Atkinson, Stuart Piggott, and Marcus Stone involving the re-excavation of some of Hawley’s trenches as well as previously undisturbed areas within Stonehenge. Atkinson, R J C, Piggott, S, and Stone, J F S, 1952, The excavations of two additional holes at Stonehenge, and new evidence for the date of the monument. Antiquaries Journal, 32, 14-20 Atkinson, R J C, 1956, Stonehenge. London. Penguin Books in association with Hamish Hamilton. (second revised edition 1979: Penguin Books) 1966. Faith and Lance Vatcher excavated 3 Mesolithic Stonehenge postholes. Vatcher, F de M and Vatcher, H L, 1973, Excavation of three postholes in Stonehenge car park. Wiltshire Archaeological and Natural History Magazine, 68, 57-63 1968. Faith and Lance Vatcher dug geophone and floodlight cable trenches. (Diary) 1974. Garry Denke and Ralph Ferdinand set out to confirm Sir Lawrence Washington, knight and Reverend Lawrence Washington’s revelation (G-Diary). Auger cores 1.2m (4ft) below Heel Stone 96 (under face as a man). Gold, silver, brass, iron, wood, bone, concrete confirmed. No coal in cores. Stonehenge Free Festival. Denke, G W, 1974, Stonehenge Phase I: An Open-pit Coalfield Model; The First Geologic Mining School (Indiana University of Pennsylvania). GDG, 74, 1-56 1978. John Evans re-excavated a 1954 cutting through the Stonehenge ditch and bank to take samples for snail analysis and radiocarbon dating. A well-preserved human burial lay within the ditch fill. Three fine flint arrowheads were found amongst the bones, with a fourth embedded in the sternum. Atkinson, R J C and Evans, J G, 1978, Recent excavations at Stonehenge. Antiquity, 52, 235-6 Evans, J G, 1984, Stonehenge: the environment in the late Neolithic and early Bronze Age, and a Beaker burial. Wiltshire Archaeological and Natural History Magazine, 78, 7-30 (Diary) Alexander Thorn and Richard Atkinson. NE side of Station Stone 94. (Diary) 1979-80. George Smith excavated in the Stonehenge car park on behalf of the Central Excavation Unit. Smith, G, 1980, Excavations in Stonehenge car park. Wiltshire Archaeological and Natural History Magazine, 74/75 (1979-80), 181 (Diary) Mike Pitts excavated along south side of A344 in advance of cable-laying and pipe-trenching. In 1979, discovered the Heel Stone 97 original pit (96 original Altar Stone pit). Survey along the Avenue course identified more pits. In 1980, excavated beside the A344 and discovered a stone floor (a complete prehistoric artifact assemblage retained from the monument). Pitts, M W, 1982, On the road to Stonehenge: Report on investigations beside the A344 in 1968, 1979, and 1980. Proceedings of the Prehistoric Society, 48, 75-132 1981. The Central Excavation Unit excavated in advance of the construction of the footpath through Stonehenge. Bond, D, 1983, An excavation at Stonehenge, 1981. Wiltshire Archaeological and Natural History Magazine, 77, 39-43. 1984. Garry Denke (and Hell’s Angels) seismic survey. Auger cores 1.2m (4ft) below Heel Stone 96 (under lion head). Gold, silver, brass, iron, wood, bone, concrete reconfirmed. No coal in cores. Stonehenge Free Festival. Denke, G, 1984, Magnetic and Electromagnetic Surveys at Heelstone, Stonehenge, United Kingdom (Indiana University of Pennsylvania). GDG, 84, 1-42 1990-6. A series of assessments and field evaluations in advance of the Stonehenge Conservation and Management Programme. Darvill, T C, 1997, Stonehenge Conservation and Management Programme: a summary of archaeological assessments and field evaluations undertaken 1990-1996. London: English Heritage 1994. Wessex Archaeology. Limited Auger Survey. Cleal, R M J, Walker, K E, and Montague, R, 1995, Stonehenge and its landscape: twentieth-century excavations (English Heritage Archaeological Report 10). London: English Heritage. 2008. Timothy Darvill and Geoffrey Wainwright set out to date the construction of the Double Bluestone Circle at Stonehenge and to chart the history of the Bluestones, and their use. Darvill, T, and Wainwright, G, 2008, Stonehenge excavations 2008. The Antiquaries Journal, Volume 89, September 2009, 1-19 (Diary) Mike Parker Pearson, Julian Richards, and Mike Pitts further the excavation of ‘Aubrey Hole’ 7 discovered by William Hawley, 1920. Willis, C, Marshall, P, McKinley, J, Pitts, M, Pollard, J, Richards, C, Richards, J, Thomas, J, Waldron, T, Welham, K, and Parker Pearson, M, 2016, The dead of Stonehenge. Antiquity, Volume 90, Issue 350, April 2016, 337-356 2012-3. Stonehenge A344 road excavated and removed. (Diary) Complete History of Stonehenge Excavations (Master Copy)