Re: Will NIST fix their tables?
- From: "Garry Denke" <GarryDenke@xxxxxxxxxxxxxx>
- Date: 18 May 2005 03:45:19 -0700
The Ghost In The Machine wrote:
> In sci.physics.relativity, Garry Denke
> <GarryDenke@xxxxxxxxxxxxxx>
> wrote
> on 16 May 2005 15:48:56 -0700
> <1116283736.050813.66320@xxxxxxxxxxxxxxxxxxxxxxxxxxxx>:
>
> [snippage]
>
> > Back to the question TGITM. "Will NIST fix their tables?"
> >
> > It's a simple yes or no answer.
> >
>
> You'd have to ask them.
>
> --
> #191, ewill3@xxxxxxxxxxxxx
> It's still legal to go .sigless.
http://www.nist.gov/
Thanks TGITM. I emailed my question to the "Public Inquiries Unit"
inquiries@xxxxxxxx and to the "Feedback/Comments" webmaster@xxxxxxxx
Here is the response from the last.
http://www.scienceforums.com/showthread.php?p=37180#post37180
Have not heard back from the first.
"
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Date: Mon, 16 May 2005 13:25:46 -0700
From: garrydenke@xxxxxxxxxxxxxx
Subject: Will NIST ever fix their tables?
To: webmaster@xxxxxxxx
MIME-Version: 1.0
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<DIV class=RTE><FONT face="Verdana, Geneva, Arial, Sans-serif"
size=2><STRONG>Einstein's nine (9) primary fundamental universal base
unit values</STRONG></FONT></DIV>
<DIV class=RTE><FONT face="Verdana, Geneva, Arial, Sans-serif"
size=2>1)
Einstein intensity: [<EM>(hG/c^5)^1/2</EM>]/sr = 9.8601020(30) x 10^-46
cd</FONT></DIV>
<DIV class=RTE><FONT face="Verdana, Geneva, Arial, Sans-serif"
size=2>2)
Einstein time: <EM>(hG/c^5)^1/2</EM> = 1.3511889(33) x 10^-43
s</FONT></DIV>
<DIV class=RTE><FONT face="Verdana, Geneva, Arial, Sans-serif"
size=2>3)
Einstein length: <EM>(hG/c^3)^1/2</EM> = 4.0507625(15) x 10^-35
m</FONT></DIV>
<DIV class=RTE><FONT face="Verdana, Geneva, Arial, Sans-serif"
size=2>4)
Einstein substance: [<EM>(hc/G)^1/2</EM>]/<EM>M</EM> = 1.6605388(62) x
10^-27 kmol</FONT></DIV>
<DIV class=RTE><FONT face="Verdana, Geneva, Arial, Sans-serif"
size=2>5)
Einstein mass: <EM>(hc/G)^1/2</EM> = 5.4563031(18) x 10^-8
kg</FONT></DIV>
<DIV class=RTE><FONT face="Verdana, Geneva, Arial, Sans-serif"
size=2>6)
Einstein current: <EM>e</EM>/[<EM>(hG/c^5)^1/2</EM>] = 1.1857531(48) x
10^24 A</FONT></DIV>
<DIV class=RTE><FONT face="Verdana, Geneva, Arial, Sans-serif"
size=2>7)
Einstein temperature: [<EM>(hc^5/G)^1/2</EM>]/<EM>k</EM> =
3.5518626(92)
x 10^32 K</FONT></DIV>
<DIV class=RTE><FONT face="Verdana, Geneva, Arial, Sans-serif"
size=2>8)
Einstein relative permeability: <EM>(e0hc)/e^2</EM> = 6.8517999(55) x
10^1 rad</FONT></DIV>
<DIV class=RTE><FONT face="Verdana, Geneva, Arial, Sans-serif"
size=2>9)
Einstein inverse fine-structure: <EM>(2e0hc)/e^2</EM> = 1.3703599(91) x
10^2 sr</FONT></DIV>
<DIV class=RTE><FONT face="Verdana, Geneva, Arial, Sans-serif"
size=2></FONT> </DIV>
<DIV class=RTE><STRONG><FONT face="Verdana, Geneva, Arial, Sans-serif"
size=2>Planck's non-primary fundamental non-universal base unit
values</FONT></STRONG></DIV>
<DIV class=RTE><FONT face="Verdana, Geneva, Arial, Sans-serif"
size=2>1)
Planck intensity: [<EM>(bar-hG/c^5)^1/2</EM>]/sr = 3.9336115(89) x
10^-46 cd</FONT></DIV>
<DIV class=RTE><FONT face="Verdana, Geneva, Arial, Sans-serif"
size=2>2)
Planck time: <EM>(bar-hG/c^5)^1/2</EM> = 5.3904639(43) x 10^-44
s</FONT></DIV>
<DIV class=RTE><FONT face="Verdana, Geneva, Arial, Sans-serif"
size=2>3)
Planck length: <EM>(bar-hG/c^3)^1/2</EM> = 1.6160204(35) x 10^-35
m</FONT></DIV>
<DIV class=RTE><FONT face="Verdana, Geneva, Arial, Sans-serif"
size=2>4)
Planck substance: [<EM>(bar-hc/G)^1/2</EM>]/<EM>M</EM> = 6.6245916(02)
x
10^-28 kmol</FONT></DIV>
<DIV class=RTE><FONT face="Verdana, Geneva, Arial, Sans-serif"
size=2>5)
Planck mass: <EM>(bar-hc/G)^1/2</EM> = 2.1767500(08) x 10^-8
kg</FONT></DIV>
<DIV class=RTE><FONT face="Verdana, Geneva, Arial, Sans-serif"
size=2>6)
Planck current: <EM>e</EM>/[<EM>(bar-hG/c^5)^1/2</EM>] = 2.9722423(67)
x
10^24 A</FONT></DIV>
<DIV class=RTE><FONT face="Verdana, Geneva, Arial, Sans-serif"
size=2>7)
Planck temperature: [<EM>(bar-hc^5/G)^1/2</EM>]/<EM>k</EM> =
1.4169882(01) x 10^32 K</FONT></DIV>
<DIV class=RTE><FONT face="Verdana, Geneva, Arial, Sans-serif"
size=2></FONT> </DIV>
<DIV class=RTE><STRONG><FONT face="Verdana, Geneva, Arial, Sans-serif"
size=2>Legend's </FONT></STRONG><A
href="http://physics.nist.gov/cuu/Constants/";><FONT
face="Verdana, Geneva, Arial, Sans-serif"
size=2><STRONG>http://physics.nist.gov/cuu/Constants/</STRONG></FONT></A></DIV>
<DIV class=RTE><FONT face="Verdana, Geneva, Arial, Sans-serif"
size=2>Planck constant: <EM>h</EM> = 6.6260693(11) x 10^-34
kg-m^2/s</FONT></DIV>
<DIV class=RTE><FONT face="Verdana, Geneva, Arial, Sans-serif"
size=2>Newton constant: <EM>G</EM> = 6.6723635(22) x 10^-11
m^3/kg-s^2</FONT></DIV>
<DIV class=RTE><FONT face="Verdana, Geneva, Arial, Sans-serif"
size=2>speed of light in vacuum: <EM>c</EM> = 2.99792458 x 10^8
m/s</FONT></DIV>
<DIV class=RTE><FONT face="Verdana, Geneva, Arial, Sans-serif"
size=2>Einstein molar mass: <EM>M</EM> = 3.2858629(47) x 10^19
kg/kmol</FONT></DIV>
<DIV class=RTE><FONT face="Verdana, Geneva, Arial, Sans-serif"
size=2>elementary charge: <EM>e</EM> = 1.6021765(31) x 10^-19
A-s</FONT></DIV>
<DIV class=RTE><FONT face="Verdana, Geneva, Arial, Sans-serif"
size=2>Boltzmann constant: <EM>k</EM> = 1.3806504(11) x 10^-23
kg-m^2/s^2-K</FONT></DIV>
<DIV class=RTE><FONT face="Verdana, Geneva, Arial, Sans-serif"
size=2>electric constant: <EM>e0 </EM>= 8.854187817... x 10^-12
A^2-s^4-rad/kg-m^3</FONT></DIV>
<DIV class=RTE><FONT face="Verdana, Geneva, Arial, Sans-serif"
size=2>Planck <EM>h</EM>/2(pi): <EM>bar-h</EM> = 1.0545716(84) x 10^-34
kg-m^2/s</FONT></DIV>
<DIV class=RTE><FONT face="Verdana, Geneva, Arial, Sans-serif"
size=2></FONT> </DIV>
<DIV class=RTE><STRONG><FONT face="Verdana, Geneva, Arial, Sans-serif"
size=2>Will NIST ever fix their tables?</FONT></STRONG></DIV>
<DIV class=RTE><FONT face="Verdana, Geneva, Arial, Sans-serif"
size=2></FONT> </DIV>
<DIV class=RTE><FONT face="Verdana, Geneva, Arial, Sans-serif"
size=2>Garry Denke</FONT></DIV>
"
.
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- From: GarryDenke
- Re: Will NIST fix their tables?
- From: The Ghost In The Machine
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- From: Garry Denke
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