Bilge wrote:
Garry Denke:

Why do you keep posting the same crap repeatedly? Nothing
better to do with your time?

Your fine-structure constant 7.297352568e-03 alph (for simplicity here)
value is numerology Bilge. What we need to properly answer your first
question is your proof in math symbols of your alph numerology value.
Here is your numerology definition of alph by CODATA and NIST (click on
alph):

CODATA and NIST alph numerology value:
http://physics.nist.gov/cgi-bin/cuu/...h_for=atomnuc!

CODATA and NIST alph definition in SI units:
alph = e^2 / (4pi) * e0 * hbar * c

DENKE alph = 1/(4pi) -math symbol
e = 1.60217653e-19 C
(4pi) = 1.25663706...e+01
e0 = 8.85418781...e-12 F/m
hbar = 9.67055274e-36 J-s
c = 2.99792458e+08 m/s

alph = e^2 / (4pi) * e0 * hbar * c
alph = [(1.60217653e-19 C)^2]/(1.25663706...e+01)(8.85418781...e-12
F/m)(9.67055274e-36 J-s)(2.99792458e+08 m/s)
alph = 1/(4pi) -math symbol

CODATA and NIST alph definition in cgs units:
alph = e^2 / hbar * c

DENKE alph = 1/(4pi) -math symbol
e = 4.80320440e-10 esu
hbar = 9.67055274e-29 erg-s
c = 2.99792458e+10 cm/s
(4pi) = 1.25663706...e+01

alph = e^2 / hbar * c
alph = [(4.80320440e-10 esu)^2]/(9.67055274e-29 erg-s)(2.99792458e+10
cm/s)
alph = 1/(4pi) -math symbol

Hint: alph = .0795774715459... = 1/(4pi) -math symbol
Please prove your alph in math symbol.

Yes Bilge I do have better things to do than to be
correcting Planck's errors and Dirac's errors.

Garry Denke

http://www.garrydenke.com
http://www.denocoinc.com

"Garry Denke" wrote in message
oups.com...
[Garry Denke to Bilge aka David Semon]
Your fine-structure constant 7.297352568e-03 alph (for simplicity here)
value is numerology Bilge. What we need to properly answer your first
question is your proof in math symbols of your alph numerology value.
Here is your numerology definition of alph by CODATA and NIST (click on
alph):

CODATA and NIST alph numerology value:
http://physics.nist.gov/cgi-bin/cuu/...h_for=atomnuc!

CODATA and NIST alph definition in SI units:
alph = e^2 / (4pi) * e0 * hbar * c

DENKE alph = 1/(4pi) -math symbol
e = 1.60217653e-19 C
(4pi) = 1.25663706...e+01
e0 = 8.85418781...e-12 F/m
hbar = 9.67055274e-36 J-s
c = 2.99792458e+08 m/s

alph = e^2 / (4pi) * e0 * hbar * c
alph = [(1.60217653e-19 C)^2]/(1.25663706...e+01)(8.85418781...e-12
F/m)(9.67055274e-36 J-s)(2.99792458e+08 m/s)
alph = 1/(4pi) -math symbol

CODATA and NIST alph definition in cgs units:
alph = e^2 / hbar * c

DENKE alph = 1/(4pi) -math symbol
e = 4.80320440e-10 esu
hbar = 9.67055274e-29 erg-s
c = 2.99792458e+10 cm/s
(4pi) = 1.25663706...e+01

alph = e^2 / hbar * c
alph = [(4.80320440e-10 esu)^2]/(9.67055274e-29 erg-s)(2.99792458e+10
cm/s)
alph = 1/(4pi) -math symbol

Hint: alph = .0795774715459... = 1/(4pi) -math symbol
Please prove your alph in math symbol.

Yes Bilge I do have better things to do than to be
correcting Planck's errors and Dirac's errors.
Garry Denke

[hanson]
Now, that's what I call a healthy dose of self-confidence
and a high degree of enthusiastic self-esteem, Garry.
Carry on. Don't let'em stop ya...... ahahahaha
AHAHAHA.... ahahaha... AHAHAHA... ahahanson

Garry Denke:
Bilge wrote:
Garry Denke:

Why do you keep posting the same crap repeatedly? Nothing
better to do with your time?

Your fine-structure constant 7.297352568e-03 alph (for simplicity here)
value is numerology Bilge. What we need to properly answer your first
question is your proof in math symbols of your alph numerology value.
Here is your numerology definition of alph by CODATA and NIST (click on
alph):

Do you ctually have a point or are just proving that you can
cut and paste the contents of a url into a newsreader and
post it a lot a times for no apparent reason?


CODATA and NIST alph numerology value:
http://physics.nist.gov/cgi-bin/cuu/...h_for=atomnuc!

CODATA and NIST alph definition in SI units:
alph = e^2 / (4pi) * e0 * hbar * c

DENKE alph = 1/(4pi) -math symbol
e = 1.60217653e-19 C
(4pi) = 1.25663706...e+01
e0 = 8.85418781...e-12 F/m
hbar = 9.67055274e-36 J-s
c = 2.99792458e+08 m/s

alph = e^2 / (4pi) * e0 * hbar * c
alph = [(1.60217653e-19 C)^2]/(1.25663706...e+01)(8.85418781...e-12
F/m)(9.67055274e-36 J-s)(2.99792458e+08 m/s)
alph = 1/(4pi) -math symbol

CODATA and NIST alph definition in cgs units:
alph = e^2 / hbar * c

DENKE alph = 1/(4pi) -math symbol
e = 4.80320440e-10 esu
hbar = 9.67055274e-29 erg-s
c = 2.99792458e+10 cm/s
(4pi) = 1.25663706...e+01

alph = e^2 / hbar * c
alph = [(4.80320440e-10 esu)^2]/(9.67055274e-29 erg-s)(2.99792458e+10
cm/s)
alph = 1/(4pi) -math symbol

Hint: alph = .0795774715459... = 1/(4pi) -math symbol
Please prove your alph in math symbol.

Once again in parsable form, please...

Yes Bilge I do have better things to do than to be
correcting Planck's errors and Dirac's errors.

Then why don't you go do them?

who gave you permission to speach, you
incompetent self educated internet moron?

,,,ahaha AHAHA ahaha...

alpha * omega / c
Garry W. Denke
21 June 2005

--
Abstract:

Let alpha = 1 / (4 * pi)
Let omega = (4 * pi) / c

hbar = 9.6705527 E-36 J-s
hbar = 9.6705527 E-29 erg-s
hbar = h * (2 * CODATA fsc)

--
Introduction:

CODATA fsc (fine-structure constant) = 7.2973525 E-03
http://physics.nist.gov/cgi-bin/cuu/Value?alph|search_for=atomnuc!
(2 * CODATA fsc) = 1.4594705 E-02

--
Test 1:

alpha = e^2 / (4 * pi) * e0 * hbar * c

(in SI units)

alpha = 1 / (4 * pi)

e = 1.6021765 E-19 C
(4 * pi) = (4 * pi)
e0 = 8.85418781... E-12 F/m
hbar = 9.6705527 E-36 J-s
c = 2.99792458 E+08 m/s

alpha = e^2 / (4 * pi) * e0 * hbar * c
alpha = [(1.6021765 E-19 C)^2] / (4 * pi) (8.85418781... E-12 F/m)
(9.6705527 E-36 J-s) (2.99792458 E+08 m/s)
alpha = 1 / (4 * pi)

--
Test 2:

alpha = e^2 / hbar * c

(in cgs units)

alpha = 1 / (4 * pi)
e = 4.8032044 E-10 esu
hbar = 9.6705527 E-29 erg-s
c = 2.99792458 E+10 cm/s

alpha = e^2 / hbar * c
alpha = [(4.8032044 E-10 esu)^2] / (9.6705527 E-29 erg-s) (2.99792458
E+10 cm/s)
alpha = 1 / (4 * pi)

--
Test 3:

hbar = e^2 / (4 * pi) * e0 * alpha * c

(in SI units)

hbar = 9.6705527 E-36 J-s
e = 1.6021765 E-19 C
(4 * pi) = (4 * pi)
e0 = 8.85418781... E-12 F/m
alpha = 1 / (4 * pi)
c = 2.99792458 E+08 m/s

hbar = e^2 / (4 * pi) * e0 * alpha * c
hbar = [(1.6021765 E-19 C)^2] / (4 * pi) (8.85418781... E-12 F/m) [1 /
(4 * pi)] (2.99792458 E+08 m/s)
hbar = 9.6705527 E-36 J-s

--
Test 4:

hbar = e^2 / alpha * c

(in cgs units)

hbar = 9.6705527 E-29 erg-s
e = 4.8032044 E-10 esu
alpha = 1 / (4 * pi)
c = 2.99792458 E+10 cm/s

hbar = e^2 / alpha * c
hbar = [(4.8032044 E-10 esu)^2] / [1 / (4 * pi)] (2.99792458 E+10 cm/s)
hbar = 9.6705527 E-29 erg-s

--
Test 5:

alpha = e^2 / (4 * pi) * e0 * (2 * CODATA fsc) * h * c

(in SI units)

alpha = 1 / (4 * pi)
e = 1.6021765 E-19 C
2 = 2
CODATA fsc = 7.2973525 E-03
(4 * pi) = (4 * pi)
e0 = 8.85418781... E-12 F/m
h = 6.6260693 E-34 J-s
c = 2.99792458 E+08 m/s

alpha = e^2 / (4 * pi) * e0 * (2 * CODATA fsc) * h * c
alpha = [(1.6021765 E-19 C)^2] / (4 * pi) (8.85418781... E-12 F/m) [(2)
(7.2973525 E-03] (6.6260693 E-34 J-s) (2.99792458 E+08 m/s)
alpha = 1 / (4 * pi)

--
Test 6:

alpha = e^2 / (2 * CODATA fsc) * h * c

(in cgs units)

alpha = 1 / (4 * pi)
e = 4.8032044 E-10 esu
2 = 2
CODATA fsc = 7.2973525 E-03
h = 6.6260693 E-27 erg-s
c = 2.99792458 E+10 cm/s

alpha = e^2 / (2 * CODATA fsc) * h * c
alpha = [(4.8032044 E-10 esu)^2] / [(2) (7.2973525 E-03)] (6.6260693
E-27 erg-s) (2.99792458 E+10 cm/s)
alpha = 1 / (4 * pi)

--
Test 7:

h = e^2 * k / (2 * CODATA fsc) * alpha * c

(in SI units)

h = 6.6260693 E-34 J-s
e = 1.6021765 E-19 C
k = 8.98755178... E+09 N-m^2/C^2
2 = 2
CODATA fsc = 7.2973525 E-03
alpha = 1 / (4 * pi)
c = 2.99792458 E+08 m/s

h = e^2 * k / (2 * CODATA fsc) * alpha * c
h = [(1.6021765 E-19 C)^2] (8.98755178... E+09 N-m^2/C^2) / [(2)
(7.2973525 E-03)] [(1 / 4 * pi)] (2.99792458 E+08 m/s)
h = 6.6260693 E-34 J-s

--
Test 8:

h = e^2 / (2 * CODATA fsc) * alpha * c

(in cgs units)

h = 6.6260693 E-27 erg-s
e = 4.8032044 E-10 esu
2 = 2
CODATA fsc = 7.2973525 E-03
alpha = 1 / (4 * pi)
c = 2.99792458 E+10 cm/s

h = e^2 / (2 * CODATA fsc) * alpha * c
h = [(4.8032044 E-10 esu)^2] / [(2) (7.2973525 E-03)] (1 / (4 * pi)
(2.99792458 E+10 cm/s)
h = 6.6260693 E-27 erg-s

--
Test 9:

hbar = e^2 * z0

(in SI units)

hbar = 9.6705527 E-36 J-s
e = 1.6021765 E-19 C
z0 = 3.76730313... E+02 ~

hbar = e^2 * z0
hbar = [(1.6021765 E-19 C)^2] (3.76730313... E+02 ~)
hbar = 9.6705527 E-36 J-s

--
Test 10:

hbar = e^2 * (4 * pi) / c

(in cgs units)

hbar = 9.6705527 E-29 erg-s
e = 4.8032044 E-10 esu
(4 * pi) = (4 * pi)
c = 2.99792458 E+10 cm/s

hbar = e^2 * (4 * pi) / c
hbar = [(4.8032044 E-10 esu)^2] (4 * pi) / (2.99792458 E+10 cm/s)
hbar = 9.6705527 E-29 erg-s

--
Test 11:

hbar = e^2 / e0 * c

(in SI units)

hbar = 9.6705527 E-36 J-s
e = 1.6021765 E-19 C
e0 = 8.85418781... E-12 F/m
c = 2.99792458 E+08 m/s

hbar = e^2 / e0 * c
hbar = [(1.6021765 E-19 C)^2] / (8.85418781... E-12 F/m) (2.99792458
E+08 m/s)
hbar = 9.6705527 E-36 J-s

(see Test 4. in cgs units)

--
Test 12:

hbar = e^2 * u0 * c

(in SI units)

hbar = 9.6705527 E-36 J-s
e = 1.6021765 E-19 C
u0 = 1.256637061... E-06 N/A^2
c = 2.99792458 E+08 m/s

hbar = e^2 * u0 * c
hbar = [(1.6021765 E-19 C)^2] (1.256637061... E-06 N/A^2) (2.99792458
E+08 m/s)
hbar = 9.6705527 E-36 J-s

(see Test 10. in cgs units)

--
Conclusion:

alpha = 1 / (4 * pi)
omega = (4 * pi) / c

hbar = 9.6705527 E-36 J-s
hbar = 9.6705527 E-29 erg-s
hbar = h * (2 * CODATA fsc)

(in SI units)

hbar = 9.6705527 E-36 J-s
h = 6.6260693 E-34 J-s
CODATA fsc = 7.2973525 E-03

hbar = h * (2 * CODATA fsc)
hbar = (6.6260693 E-34 J-s) [(2) (7.2973525 E-03)]
hbar = 9.6705527 E-36 J-s

(in cgs units)

hbar = 9.6705527 E-29 erg-s
h = 6.6260693 E-27 erg-s
CODATA fsc = 7.2973525 E-03

hbar = h * (2 * CODATA fsc)
hbar = (6.6260693 E-27 erg-s) [(2) (7.2973525 E-03)]
hbar = 9.6705527 E-29 erg-s

--
alpha * omega / c
Garry W. Denke
21 June 2005

1 / c^2

Bibliography:

1. Denke, Whilhelm F., Sr "H-BAR" (1888) GDG
2. Denke, William H., Sr "H-Bar" (1947) GDG
3. http://physics.nist.gov/cuu/Constants/index.html

Happy Summer Solstice

Are you stoned or just stupid?

Don Giovanni wrote:
who gave you permission to speach, you
incompetent self educated internet moron?

,,,ahaha AHAHA ahaha...

May the Schwartz be with You

http://www.columbia.edu/cu/cusfs/ima...eballs_S99.jpg

May the Schwartz be with You