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QUINTAL (q) 100,000 GRAMS (g)
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Talk.Origins
2018-10-19 17:49:52 UTC
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QUINTAL (q) 100,000 GRAMS (g)

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 10-9 m3 q-1 s-2
Standard uncertainty: 0.00000000000000 099 x 10-9 m3 q-1 s-2
Relative standard uncertainty: 1.0 x 10-14
Concise form: 6.671 281 903 963 04(099) x 10-9 m3 q-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 10-9 m3 q-1 s-2 *1977 ASU
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *1978 POC
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 *1979 POC
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *1980 POC
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *1981 POC
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *1982 POC
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 *1983 POC
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 *1984 POC
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *1985 DIT
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 **1986 DIT
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *1987 DIT
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *1988 DIT
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 *1989 DIT
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *1990 DIT
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 *1991 DIT
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *1992 DIT
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *1993 DIT
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *1994 DIT
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *1995 DIT
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 *1996 DIT
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *1997 DIT
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 **1998 DIT
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *1999 DIT
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 *2000 DIT
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *2001 DIT
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 **2002 DIT
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 *2003 DIT
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *2004 DIT
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *2005 DIT
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 **2006 DIT
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *2007 DIT
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *2008 DIT
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *2009 DIT
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 **2010 DIT
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *2011 DIT
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 *2012 DIT
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *2013 DIT
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 **2014 DIT
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *2015 DIT
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 *2016 DIT
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 *2017 DIT
G = 6.671 281 903 963 04(099) x 10-9 m3 q-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 10-9 m3 q-1 s-2
Standard uncertainty: 0.00000000000000 099 x 10-9 m3 q-1 s-2
Relative standard uncertainty: 1.0 x 10-14
Concise form: 6.671 281 903 963 04(099) x 10-9 m3 q-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

https://armageddonprospect.wordpress.com/
https://garrydenke.wordpress.com/
https://helestone.wordpress.com/
https://gdenke.wordpress.com/

Talk.Origins
Garry Denke
2018-10-20 12:05:49 UTC
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Post by Talk.Origins
QUINTAL (q) 100,000 GRAMS (g)
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 10-9 m3 q-1 s-2
Standard uncertainty: 0.00000000000000 099 x 10-9 m3 q-1 s-2
Relative standard uncertainty: 1.0 x 10-14
Concise form: 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *1977 ASU
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *1978 POC
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 *1979 POC
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *1980 POC
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *1981 POC
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *1982 POC
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 *1983 POC
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 *1984 POC
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *1985 DIT
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 **1986 DIT
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *1987 DIT
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *1988 DIT
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 *1989 DIT
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *1990 DIT
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 *1991 DIT
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *1992 DIT
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *1993 DIT
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *1994 DIT
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *1995 DIT
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 *1996 DIT
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *1997 DIT
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 **1998 DIT
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *1999 DIT
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 *2000 DIT
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *2001 DIT
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 **2002 DIT
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 *2003 DIT
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *2004 DIT
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *2005 DIT
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 **2006 DIT
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *2007 DIT
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *2008 DIT
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *2009 DIT
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 **2010 DIT
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *2011 DIT
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 *2012 DIT
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *2013 DIT
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 **2014 DIT
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *2015 DIT
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 *2016 DIT
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 *2017 DIT
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 **2018 DIT
* Year of Measurement
** Definitions Adjustments
ASU - Arizona State University
POC - Pitts Oil Company
DIT - Denoco Inc. of Texas
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 10-9 m3 q-1 s-2
Standard uncertainty: 0.00000000000000 099 x 10-9 m3 q-1 s-2
Relative standard uncertainty: 1.0 x 10-14
Concise form: 6.671 281 903 963 04(099) x 10-9 m3 q-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
https://armageddonprospect.wordpress.com/
https://garrydenke.wordpress.com/
https://helestone.wordpress.com/
https://gdenke.wordpress.com/
Talk.Origins
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
__________________________________________________

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

QUINTAL (q) 100,000 GRAMS (g)

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

Newtonian constant of gravitation
G
Value: 6.671 281 903 963 04 x 10-9 m3 q-1 s-2
Standard uncertainty: 0.00000000000000 099 x 10-9 m3 q-1 s-2
Relative standard uncertainty: 1.0 x 10-14
Concise form: 6.671 281 903 963 04(099) x 10-9 m3 q-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 10-9 m3 q-1 s-2 *1977 ASU
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *1978 POC
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 *1979 POC
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *1980 POC
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *1981 POC
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *1982 POC
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 *1983 POC
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 *1984 POC
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *1985 DIT
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 **1986 DIT
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *1987 DIT
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *1988 DIT
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 *1989 DIT
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *1990 DIT
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 *1991 DIT
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *1992 DIT
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *1993 DIT
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *1994 DIT
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *1995 DIT
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 *1996 DIT
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *1997 DIT
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 **1998 DIT
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *1999 DIT
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 *2000 DIT
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *2001 DIT
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 **2002 DIT
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 *2003 DIT
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *2004 DIT
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *2005 DIT
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 **2006 DIT
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *2007 DIT
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *2008 DIT
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *2009 DIT
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 **2010 DIT
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *2011 DIT
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 *2012 DIT
G = 6.671 281 903 963 04(099) x 10-9 m3 q-1 s-2 *2013 DIT
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 **2014 DIT
G = 6.671 281 903 963 04(098) x 10-9 m3 q-1 s-2 *2015 DIT
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 *2016 DIT
G = 6.671 281 903 963 04(100) x 10-9 m3 q-1 s-2 *2017 DIT
G = 6.671 281 903 963 04(099) x 10-9 m3 q-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 10-9 m3 q-1 s-2
Standard uncertainty: 0.00000000000000 099 x 10-9 m3 q-1 s-2
Relative standard uncertainty: 1.0 x 10-14
Concise form: 6.671 281 903 963 04(099) x 10-9 m3 q-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
__________________________________________________

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