Hbar=e^2/e0c

[infamous]

hbar=e^2u0c = ?

 

NIST recommended values:

e = 1.60217653 x 10^-19 A-s

http://physics.nist.gov/cgi-bin/cuu/Value?e|search_for=elecmag_in!

u0 = 12.566370614... x 10^-7 kg-m/A^2-s^2

http://physics.nist.gov/cgi-bin/cuu/Value?mu0|search_for=universal_in!

c = 299792458 m/s

http://physics.nist.gov/cgi-bin/cuu/Value?c|search_for=universal_in!

 

Solve: hbar=e^2u0c = ?

hbar=[(1.60217653 x 10^-19 A-s)^2](12.566370614... x 10^-7 kg-m/A^2-s^2)(299792458 m/s) = ?

hbar=(2.566969633 x 10^-38 A^2-s^2)(376.7303133 kg-m^2/A^2-s^3) = ?

hbar=(9.670552741 x 10^-36 kg-m^2/s)

 

Compare: e^2u0c ; e^2/e0c

hbar=(9.670552741 x 10^-36 kg-m^2/s) e^2u0c

hbar=(9.670552746 x 10^-36 kg-m^2/s) e^2/e0c

 

Does your cgs system disprove the SI system used by NIST?

Is there any progress on who authored hbar=h/(2 pi) first?

 

Thanks for helping everyone,

 

Garry Denke

 

The figure you are using for (e) 1.60217653 E-19 is the SI value used in (emu), electromagnetic calcultions. To find h-bar you will need to convert this to (esu), eletrostatic dimensions. To do this multiply (e) times ©, speed of light in cgs units and divide by 10.

1.60217653 E-19 * 2.99792458 E+10 / 10 = 4.80320440079 E-10 (cgs)

 

As I've already stated, to solve for h-bar you need to use (esu) units which are compatable with (cgs) units. It is not proper to calculate h-bar with electromagnetic figures unless they are converted as I've shown you in the above demonstration.

 

Now solving for h-bar, e^2/(a*c) = h-bar

in esu and cgs units: h-bar = (4.80320440079 E-10)^2 / (7.29735308 E-3 * 2.99792458 E+10) = 1.054571606 E-27 (cgs)

[Garry Denke]

Here is another link for you Garry, may help explain some things.

http://www.absoluteastronomy.com/encyclopedia/s/st/statcoulomb.htm

Here is a link for you, infamous, what do you think?

 

http://orca.phys.uvic.ca/~tatum/elmag/em16.pdf (PDF)

 

"Few users of CGS esu and emu fully understand the complexity of the system. Those who do so have long abandoned it for SI. CGS units are probably largely maintained by those who work with CGS units in a relatively narrow field and who therefore do not often have occasion to convert from one unit to another in this immensely complicated and physically unrealistic system."

 

http://64.233.187.104/search?q=cache:4Qc0Z7PAoaUJ:orca.phys.uvic.ca/~tatum/elmag/em16.pdf+cgs+electricity+and+magnetism&hl=en (HTML)

 

 

Garry Denke

[Qfwfq]

If you will read my post more closely you will understand that I was not addressing my critism toward Sanctus. In fact, my first comment is: "Thank you Sanctus". I believe you completely misunderstood the point I was trying to make. My critism was in fact directed toward Uncle and nkt. If you will read back thru the posts, you'll notice that although Uncle, nkt, and I agree in principal, I disagree with the choice of words used by both of them to critisize GarryDenke.

Sorry, Infamous, if I misunderstood your words. "Thank you Sanctus" came across as being sarcastic because the whole post seemed directed toward the same poster.

[infamous]

Here is a link for you, infamous, what do you think?

 

 

 

Garry Denke

 

What I think is: This link in no way disagrees with the information that I have given you. In fact, it supports everything that I have been trying to explain. Your results for h-bar are not consistent with CODATA or NIST, even though, you continue to quote these as your source of information. Check out the value for yourself with this link:

 

http://physics.nist.gov/cgi-bin/cuu/Value?hbar|search_for=h-bar

 

One more exercise Garry and I'm going to give up trying to help you with this.

 

Are you familiar with this equation: re=e^2/(me*c^2), this is the classical equation to solve for the radius of the electron.

 

Solve for [e^2 = me*re*c^2] , in cgs units

 

In this equation (e) is represented in statcoulombs, the (esu) standard which works with electrostatic calculations. Do the math in (cgs) units and tell me what your solution for (e) is.

[Garry Denke]

Eureka! I've got it!

 

Lathyrus latifolius

 

 

Thanks Infamous!

[infamous]

Eureka! I've got it!

 

Lathyrus latifolius

 

 

Thanks Infamous!

 

I think this may help also:

 

a = [4pi*eo]^-1 *(e^2/(h-bar*c))

 

This makes it much more difficuilt but figured in SI units:

 

h-bar = (1/(4pi * eo)) * (e^2/(a * c)) are you still with me?

 

h-bar = (1/(12.5663706144 * 8.85418781787 E -12)) * ((1.60217653 E-19)^2 /((.00729735308) * (299792458))

 

h-bar = (8987551787.09) *(2.56696963328 E-38) / 2187691.41675

 

h-bar = 2.3070772515 E-28 / 2187691.41675

 

h-bar = 1.05457160632 E-34 (SI units)

 

h-bar = 1.05457160632 E-27 (cgs units)

 

Now the easy way: in cgs units

 

e = 4.8032068 E-10

 

a = e^2/(h-bar *c)

 

h-bar = e^2/ (a * c)

 

h-bar = (4.8032068 E-10)^2 / (.00729735308 * 2.99792458 E10)

 

h-bar = 1.05457265988 E-27

 

I hope this helps Garry, Good luck

 

The title to this thread should read: h-bar = e^2 / (4pi * eo *a *c)

[Garry Denke]

DENKE vs. PLANCK vs. EINSTEIN

 

--

 

DENKE

 

 

If

 

Denke hbar: h*(2a) = 9.6705527(59) x 10^-36 kg-m^2/s

-------------------------------------------------------

Denke mass: (hbar*c/G)^1/2 = 6.5916805(34) x 10^-9 kg

Denke length: (hbar*G/c^3)^1/2 = 4.8936673(50) x 10^-36 m

Denke time: (hbar*G/c^5)^1/2 = 1.6323517(22) x 10^-44 s

Denke current: [c^6*(4pi)*e0/G)]^1/2 = 3.4793775(44) x 10^25 A

 

then

 

impedance of vacuum: z0 = 2.99792458 x 10^1 kg-m^2/A^2-s^3

electric constant: e0 = 1.1126500(56) x 10^-10 A^2-s^4/kg-m^3

magnetic constant: u0 = 1.00000000 x 10^-7 kg-m/A^2-s^2

 

(false)

 

 

If

 

Denke hbar: h*(2a) = 9.6705527(59) x 10^-36 kg-m^2/s

-------------------------------------------------------

Denke mass: (hbar*c/G)^1/2 = 6.5916805(34) x 10^-9 kg

Denke length: (hbar*G/c^3)^1/2 = 4.8936673(50) x 10^-36 m

Denke time: (hbar*G/c^5)^1/2 = 1.6323517(22) x 10^-44 s

Denke current: e/[(hbar*G/c^5)^1/2] = 9.8151428(37) x 10^24 A

 

then

 

impedance of vacuum: z0 = 3.767303134... x 10^2 kg-m^2/A^2-s^3

electric constant: e0 = 8.854187817... x 10^-12 A^2-s^4/kg-m^3

magnetic constant: u0 = 1.256637061... x 10^-6 kg-m/A^2-s^2

 

(true)

 

 

If

 

Denke hbar: h*(2a) = 9.6705527(59) x 10^-36 kg-m^2/s

-------------------------------------------------------

Denke mass: (hbar*c/G)^1/2 = 6.5916805(34) x 10^-9 kg

Denke length: (hbar*G/c^3)^1/2 = 4.8936673(50) x 10^-36 m

Denke time: (hbar*G/c^5)^1/2 = 1.6323517(22) x 10^-44 s

Denke current: (c^6*e0/G)^1/2 = 9.8151428(37) x 10^24 A

 

then

 

impedance of vacuum: z0 = 3.767303134... x 10^2 kg-m^2/A^2-s^3

electric constant: e0 = 8.854187817... x 10^-12 A^2-s^4/kg-m^3

magnetic constant: u0 = 1.256637061... x 10^-6 kg-m/A^2-s^2

 

(true)

 

--

 

PLANCK

 

 

If

 

Planck hbar: h/(2pi) = 1.0545716(84) x 10^-34 kg-m^2/s

-------------------------------------------------------

Planck mass: (hbar*c/G)^1/2 = 2.1767500(08) x 10^-8 kg

Planck length: (hbar*G/c^3)^1/2 = 1.6160204(35) x 10^-35 m

Planck time: (hbar*G/c^5)^1/2 = 5.3904639(44) x 10^-44 s

Planck current: [c^6*(4pi)*e0/G)]^1/2 = 3.4793775(44) x 10^25 A

 

then

 

impedance of vacuum: z0 = 2.99792458 x 10^1 kg-m^2/A^2-s^3

electric constant: e0 = 1.1126500(56) x 10^-10 A^2-s^4/kg-m^3

magnetic constant: u0 = 1.00000000 x 10^-7 kg-m/A^2-s^2

 

(false)

 

 

If

 

Planck hbar: h/(2pi) = 1.0545716(84) x 10^-34 kg-m^2/s

-------------------------------------------------------

Planck mass: (hbar*c/G)^1/2 = 2.1767500(08) x 10^-8 kg

Planck length: (hbar*G/c^3)^1/2 = 1.6160204(35) x 10^-35 m

Planck time: (hbar*G/c^5)^1/2 = 5.3904639(44) x 10^-44 s

Planck current: e/[(hbar*G/c^5)^1/2] = 2.9722423(67) x 10^24 A

 

then

 

impedance of vacuum: z0 = 4.1082359(06) x 10^3 kg-m^2/A^2-s^3

electric constant: e0 = 8.11993997(36) x 10^-13 A^2-s^4/kg-m^3

magnetic constant: u0 = 1.3703599(93) x 10^-5 kg-m/A^2-s^2

 

(false)

 

 

If

 

Planck hbar: h/(2pi) = 1.0545716(84) x 10^-34 kg-m^2/s

-------------------------------------------------------

Planck mass: (hbar*c/G)^1/2 = 2.1767500(08) x 10^-8 kg

Planck length: (hbar*G/c^3)^1/2 = 1.6160204(35) x 10^-35 m

Planck time: (hbar*G/c^5)^1/2 = 5.3904639(44) x 10^-44 s

Planck current: [c^6*e0/G)]^1/2 = 9.8151428(37) x 10^24 A

 

then

 

impedance of vacuum: z0 = 3.767303134... x 10^2 kg-m^2/A^2-s^3

electric constant: e0 = 8.854187817... x 10^-12 A^2-s^4/kg-m^3

magnetic constant: u0 = 1.256637061... x 10^-6 kg-m/A^2-s^2

 

(true)

 

--

 

EINSTEIN

 

 

If

 

Planck constant: (h) = 6.6260693(11) x 10^-34 kg-m^2/s

--------------------------------------------------------

Einstein mass: (h*c/G)^1/2 = 5.4563031(18) x 10^-8 kg

Einstein length: (h*G/c^3)^1/2 = 4.0507625(15) x 10^-35 m

Einstein time: (h*G/c^5)^1/2 = 1.3511889(33) x 10^-43 s

Einstein current: [c^6*(4pi)*e0/G)]^1/2 = 3.4793775(44) x 10^25 A

 

then

 

impedance of vacuum: z0 = 2.99792458 x 10^1 kg-m^2/A^2-s^3

electric constant: e0 = 1.1126500(56) x 10^-10 A^2-s^4/kg-m^3

magnetic constant: u0 = 1.00000000 x 10^-7 kg-m/A^2-s^2

 

(false)

 

 

If

 

Planck constant: (h) = 6.6260693(11) x 10^-34 kg-m^2/s

--------------------------------------------------------

Einstein mass: (h*c/G)^1/2 = 5.4563031(18) x 10^-8 kg

Einstein length: (h*G/c^3)^1/2 = 4.0507625(15) x 10^-35 m

Einstein time: (h*G/c^5)^1/2 = 1.3511889(33) x 10^-43 s

Einstein current: e/[(h*G/c^5)^1/2] = 1.1857531(48) x 10^24 A

 

then

 

impedance of vacuum: z0 = 2.5812807(51) x 10^4 kg-m^2/A^2-s^3

electric constant: e0 = 1.2922426(01) x 10^-13 A^2-s^4/kg-m^3

magnetic constant: u0 = 8.6102257(81) x 10^-5 kg-m/A^2-s^2

 

(false)

 

 

If

 

 

Planck constant: (h) = 6.6260693(11) x 10^-34 kg-m^2/s

--------------------------------------------------------

Einstein mass: (h*c/G)^1/2 = 5.4563031(18) x 10^-8 kg

Einstein length: (h*G/c^3)^1/2 = 4.0507625(15) x 10^-35 m

Einstein time: (h*G/c^5)^1/2 = 1.3511889(33) x 10^-43 s

Einstein current: (c^6*e0/G)^1/2 = 9.8151428(37) x 10^24 A

 

then

 

impedance of vacuum: z0 = 3.767303134... x 10^2 kg-m^2/A^2-s^3

electric constant: e0 = 8.854187817... x 10^-12 A^2-s^4/kg-m^3

magnetic constant: u0 = 1.256637061... x 10^-6 kg-m/A^2-s^2

 

(true)

 

--

 

DENKE, 1 false, 2 true

PLANCK, 2 false, 1 true

EINSTEIN, 2 false, 1 true

[Garry Denke]

hbar=e^2*z0 ; hbar=e^2/e0*c ; hbar=e^2*u0*c

 

Garry W. Denke, Geologist/Geophysicist

Copyright © 1st April 2002

All rights reserved

 

 

Abstract:

 

hbar = e^2*z0

hbar = [(1.6021765(31) x 10^-19 A-s)^2] * (3.767303134... x 10^2 kg-m^2/A^2-s^3)

hbar = 9.6705527(59) x 10^-36 kg-m^2/s

 

hbar = e^2/e0*c

hbar = [(1.6021765(31) x 10^-19 A-s)^2] / (8.854187817... x 10^-12 A^2-s^4/kg-m^3) * (2.99792458 x 10^8 m/s)

hbar = 9.6705527(59) x 10^-36 kg-m^2/s

 

hbar = e^2*u0*c

hbar = [(1.6021765(31) x 10^-19 A-s)^2] * (1.256637061... x 10^-6 kg-m/A^2-s^2) * (2.99792458 x 10^8 m/s)

hbar = 9.6705527(59) x 10^-36 kg-m^2/s

 

 

Introduction:

 

reduced Planck constant: hbar = 9.6705527(59) x 10^-36 kg-m^2/s

elementary charge: e = 1.6021765(31) x 10^-19 A-s

impedance of vacuum: z0 = 3.767303134... x 10^2 kg-m^2/A^2-s^3

electric constant: e0 = 8.854187817... x 10^-12 A^2-s^4/kg-m^3

speed of light in vacuum: c = 2.99792458 x 10^8 m/s

magnetic constant: u0 = 1.256637061... x 10^-6 kg-m/A^2-s^2

Newtonian constant: G = 6.6723635(22) x 10^-11 m^3/kg-s^2

Boltzmann constant: k = 1.3806504(11) x 10^-23 kg-m^2/s^2-K

Planck constant: h = 6.6260693(11) x 10^-34 kg-m^2/s-rad

molar mass: M = 3.9696032(93) x 10^15 kg/mol

fine-structure constant: a = 7.2973525(68) x 10^-3 sr

 

 

Derivation:

 

1) temperature: [(hbar*c^5/G)^1/2]/k = 4.2909537(19) x 10^31 K

2) electric current: e/[(hbar*G/c^5)^1/2] = 9.8151428(37) x 10^24 A

3) fine-structure angle: e^2/(e0*h*c) = 1.4594705(14) x 10^-2 rad

4) fine-structure constant: e^2/(2*e0*h*c) = 7.2973525(68) x 10-3 sr

5) mass: (hbar*c/G)^1/2 = 6.5916805(34) x 10^-9 kg

6) amount of substance: [(hbar*c/G)^1/2]/M = 1.6605388(62) x 10^-24 mol

7) length: (hbar*G/c^3)^1/2 = 4.8936673(50) x 10^-36 m

8) luminous intensity: [(hbar*G/c^5)^1/2]/a = 2.2369094(91) x 10^-42 cd

9) time: (hbar*G/c^5)^1/2 = 1.6323517(22) x 10^-44 s

 

 

Conclusion:

 

001) radiance = 2.0767757(14) x 10^125 kg/s^3-sr

002) irradiance = 1.5154964(59) x 10^123 kg/s^3

003) radiant density = 5.0551520(52) x 10^114 kg/m-s^2

004) density = 8.5329002(01) x 10^105 /m^3

005) mass density = 5.6246152(16) x 10^97 kg/m^3

006) inverse luminous efficacy = 2.2233614(62) x 10^96 kg-m^2/cd-sr-s^3

007) electric current density = 4.0985263(82) x 10^95 A/m^2

008) thermal transfer = 3.5318406(08) x 10^91 kg/s^3-K

009) electric charge density = 1.3671212(44) x 10^87 A-s/m^3

010) angular acceleration = 5.4773165(63) x 10^85 rad/s^2

011) molar concentration = 1.4169212(39) x 10^82 mol/m^3

012) surface tension = 2.4738232(55) x 10^79 kg/s^2

013) dynamic viscosity = 8.2517861(57) x 10^70 kg/m-s

014) inverse area = 4.1757175(11) x 10^70 /m^2

015) electric field strength = 7.5560138(70) x 10^62 kg-m/A-s^3

016) surface density = 2.7524995(83) x 10^62 kg/m^2

017) absorbed dose rate = 5.5058916(94) x 10^60 m^2/s^3

018) magnetic field strength = 2.0056824(74) x 10^60 A/m

019) thermal conductivity = 1.7283653(07) x 10^56 kg-m/s^3-K

020) radiant intensity = 4.9734583(54) x 10^54 kg-m^2/s^3-sr

021) magnetic flux density = 2.5204149(30) x 10^54 kg/A-s^2

022) power = 3.6293079(10) x 10^52 kg-m^2/s^3

023) field acceleration = 1.8365677(81) x 10^52 m/s^2

024) electric flux density = 6.6902365(97) x 10^51 A-s/m^2

025) surface concentration = 6.9339412(05) x 10^46 mol/m^2

026) force = 1.2106068(09) x 10^44 kg-m/s^2

027) frequency = 6.1261307(02) x 10^43 /s

028) angular velocity = 8.9409071(24) x 10^41 rad/s

029) inverse luminous intensity = 4.4704535(62) x 10^41 /cd

030) mass flow rate = 4.0381496(49) x 10^35 kg/s

031) wave number = 2.0434572(45) x 10^35 /m

032) electric conductivity = 5.4241911(83) x 10^32 A^2-s^3/kg-m^3

033) molar energy = 3.5677015(17) x 10^32 kg-m^2/s^2-mol

034) temperature = 4.2909537(19) x 10^31 K

035) luminance = 9.3407021(33) x 10^28 cd/m^2

036) electric potential = 3.6976618(38) x 10^27 kg-m^2/A-s^3

037) mass field = 1.3469817(34) x 10^27 kg/m

038) luminous flux density = 6.8162396(71) x 10^26 cd-sr/m^2

039) electric current = 9.8151428(37) x 10^24 A

040) Avogadro constant = 6.0221415(04) x 10^23 /mol

041) thermal conductance = 8.4580448(72) x 10^20 kg-m^2/s^3-K

042) magnetic potential = 1.2334072(25) x 10^19 kg-m/A-s^2

043) displacement = 4.4930474(34) x 10^18 kg-s/m^2

044) luminous density = 2.2736528(18) x 10^18 cd-sr-s/m^3

045) absorbed dose = 8.987551787… x 10^16 m^2/s^2

046) electric displacement = 3.2739792(40) x 10^16 A-s/m

047) molar mass = 3.9696032(93) x 10^15 kg/mol

048) Josephson quantum = 4.8359787(99) x 10^14 A-s^2-rad^2/kg-m^2-sr

049) Josephson constant = 2.4179893(99) x 10^14 A-s^2-rad/kg-m^2

050) Coulomb constant = 8.987551787... x 10^9 kg-m^3/A^2-s^4-(4pi)

051) energy = 5.9243070(17) x 10^8 kg-m^2/s^2

052) speed of light in vacuum = 2.99792458 x 10^8 m/s

053) inverse mass = 1.5170638(12) x 10^8 /kg

054) Faraday constant = 9.6485337(83) x 10^4 A-s/mol

055) von Klitzing constant = 2.5812807(44) x 10^4 kg-m^2/A^2-s^3-rad

056) inverse conductance quantum = 1.2906403(72) x 10^4 kg-m^2-sr/A^2-s^3-rad^2

057) impedance of vacuum = 3.767303134… x 10^2 kg-m^2/A^2-s^3

058) inverse fine-structure constant = 1.3703599(91) x 10^2 /sr

059) inverse fine-structure angle = 6.8517999(54) x 10^1 /rad

060) molar gas constant = 8.3144721(43) x 10^0 kg-m^2/s^2-mol-K

061) spin two = 2.00000000 x 10^0 rad/sr

062) momentum = 1.9761361(10) x 10^0 kg-m/s

063) relative permeability = 1.00000000 x 10^0 rad/rad

064) dielectric constant = 1.00000000 x 10^0 sr/sr

065) spin one-half = 5.00000000 x 10^-1 sr/rad

066) fine-structure angle = 1.4594705(14) x 10^-2 rad

067) second radiation = 1.4387752(21) x 10^-2 m-K/rad

068) fine-structure constant = 7.2973525(68) x 10^-3 sr

069) conductance quantum = 7.7480917(34) x 10^-5 A^2-s^3-rad^2/kg-m^2-sr

070) electric conductance = 3.8740458(67) x 10^-5 A^2-s^3-rad/kg-m^2

071) magnetic constant = 1.256637061... x 10^-6 kg-m/A^2-s^2

072) magnetic permeability = 1.256637061... x 10^-6 kg-m/A^2-s^2

073) mass = 6.5916805(34) x 10^-9 kg

074) radiant distribution = 3.335640952... x 10^-9 s/m

075) density of states = 1.6879611(36) x 10^-9 s^2/kg-m^2

076) molar Planck constant = 3.9903127(01) x 10^-10 kg-m^2/s-mol-rad

077) Newtonian constant = 6.6723635(22) x 10^-11 m^3/kg-s^2

078) magnetic pole strength = 4.8032044(04) x 10^-11 A-m

079) magnetic exposure = 2.4306040(36) x 10^-11 A-s/kg

080) electric constant = 8.854187817... x 10^-12 A^2-s^4/kg-m^3

081) electric permittivity = 8.854187817... x 10^-12 A^2-s^4/kg-m^3

082) magnetic flux = 4.1356674(29) x 10^-15 kg-m^2/A-s^2-rad

083) specific heat = 2.0945347(76) x 10^-15 m^2/s^2-K

084) magnetic flux quantum = 2.0678337(14) x 10^-15 kg-m^2-sr/A-s^2-rad^2

085) molality = 2.5191434(16) x 10^-16 mol/kg

086) first radiation spectral radiance = 1.1910428(19) x 10^-16 kg-m^4/s^3-sr

087) first radiation = 5.9552140(93) x 10^-17 kg-m^4/s^3-rad

088) elementary charge = 1.6021765(31) x 10^-19 A-s

089) thermal resistance = 1.1823063(31) x 10^-21 s^3-K/kg-m^2

090) Boltzmann constant = 1.3806504(11) x 10^-23 kg-m^2/s^2-K

091) amount of substance = 1.6605388(62) x 10^-24 mol

092) inverse electric current = 1.0188338(74) x 10^-25 /A

093) kinematic viscosity = 1.4670845(63) x 10^-27 m^2/s

094) electric resistivity = 1.8435928(35) x 10^-33 kg-m^3/A^2-s^3

095) relative expansion = 2.3304842(36) x 10^-32 /K

096) Planck constant = 6.6260693(11) x 10^-34 kg-m^2/s-rad

097) reduced Planck constant = 9.6705527(59) x 10^-36 kg-m^2/s

098) length = 4.8936673(50) x 10^-36 m

099) absorption-emission = 2.4763817(26) x 10^-36 s/kg

100) inductance = 6.1495637(59) x 10^-42 kg-m^2/A^2-s^2

101) luminous intensity = 2.2369094(91) x 10^-42 cd

102) moment = 3.2257491(81) x 10^-44 kg-m

103) time = 1.6323517(22) x 10^-44 s

104) luminous flux = 1.6323517(22) x 10^-44 cd-sr

105) magnetic moment = 2.3505284(57) x 10^-46 A-m^2

106) capacitance = 4.3329449(84) x 10^-47 A^2-s^4/kg-m^2

107) electric moment = 7.8405189(79) x 10^-55 A-s-m

108) area = 2.3947980(13) x 10^-71 m^2

109) fluidity = 1.2118588(40) x 10^-71 m-s/kg

110) inertial moment = 1.5785743(45) x 10^-79 kg-m^2

111) molar volume = 7.0575553(01) x 10^-83 m^3/mol

112) electric charge volume = 7.3146401(91) x 10^-88 m^3/A-s

113) luminous energy = 2.6645721(44) x 10^-88 cd-sr-s

114) electric current volume = 2.4399013(37) x 10^-96 m^2/A

115) luminous efficacy = 4.4976942(22) x 10^-97 cd-sr-s^3/kg-m^2

116) mass volume = 1.7778993(97) x 10^-98 m^3/kg

117) volume = 1.1719344(85) x 10^-106 m^3

118) radiant volume = 1.9781798(64) x 10^-115 m-s^2/kg

119) inverse irradiance = 6.5984977(67) x 10^-124 s^3/kg

120) inverse radiance = 4.8151564(63) x 10^-126 s^3-sr/kg

 

 

Bibliography:

 

1. Whilhelm Frederick Denke, Sr "H-BAR" (1888) GDG

2. William Herman Denke, Sr "H-Bar" (1947) GDG

3. http://physics.nist.gov/cuu/Constants