The quantum of sound is the "sonon" [phonon?]
The quantums of electricity are "electron", "proton", "positron", and
"anti-proton"
The quantums of heat would then be the "thermon" [or "pyron"].
Right??? If not, what is it?? It cannot be the photon or phonon for
reasons described above.
sonon [or phonon] = quantum of sound
Photon = quantum of light.
Electron = quantum of negative electricity
Proton = quantum positive electricity
Positron = quantum of positive equivalent of electron
Anti-proton = quantum negative equivalent of proton**
X = quantum of heat
What is X?
**Is the anti-proton really the negative equivalent of the proton? If
so, wouldn't it be more correct to call it "negaton" rather than
"anti-proton"?
My following questions [of interest] ask about magnetic equivalents of
electricity:
Electric monopoles in electricity = Magnetic monopoles in magnetism
Electric dipoles in electricity = Magnetic dipoles in magnetism
Electric fields in electricity = Magnetic fields in magnetism
Positive electric monopoles in electricity = South magnetic monopoles
in magnetism
NOTE: [positive takes in energy and negative gives out energy]
[negative electrode gives out electrons and positive electrode takes
in electrons]
Negative electric monopoles in electricity = North magnetic monopoles
in magnetism
Negative electric field in electricity = North magnetic field in
magnetism
Positive electric field in electricity = South magnetic field in
magnetism
Electromotive force [i.e. voltage] = Magnetomotive force in magnetism
What is magnetomotive force measured in?
Amperes in electricity = X in magnetism
What is X and what is it measured in?
Coulomb in electricity = Z in magnetism
What is Z and what is it measured in?
Electron in electricity = M- in magnetism
What is M-?
Proton in electricity = M+ in magnetism
What is M+?
Oh, boy.
> The quantum of sound is the "sonon" [phonon?]
"Phonon". Look it up.
> The quantums of electricity are "electron", "proton", "positron", and
> "anti-proton"
No, it's the quantity of _charge_ carried by the above
particles, and others.
> The quantums of heat would then be the "thermon" [or "pyron"].
> Right??? If not, what is it?? It cannot be the photon or phonon for
> reasons described above.
What is heat? At human scales (actually slightly below)
it's consonant with particle velocity. Since all particles
have mass, it ought to be momentum. There's no S.I unit for
momentum.
Do you know the difference between "temperature" and "heat"?
<snip fertilizer>
> My following questions [of interest] ask about magnetic equivalents of
> electricity:
Stop right there. Why do you assume there _are_
equivalents? Did you miss the last couple hundred years?
> Electric monopoles in electricity = Magnetic monopoles in magnetism
There are no magnetic monopoles. Let us know when you
find out about quadrupoles.
<snip more fertilizer>
> NOTE: [positive takes in energy and negative gives out energy]
> [negative electrode gives out electrons and positive electrode takes
> in electrons]
Where did this come from? Go bother Benjamin Franklin for
making a bad guess.
<snip more... you get the idea>
> Electromotive force [i.e. voltage] = Magnetomotive force in magnetism
Uh, no.
> What is magnetomotive force measured in?
>
> Amperes in electricity = X in magnetism
>
> What is X and what is it measured in?
There are textbooks for this kind of thing.
> Coulomb in electricity = Z in magnetism
>
> What is Z and what is it measured in?
>
> Electron in electricity = M- in magnetism
>
> What is M-?
>
> Proton in electricity = M+ in magnetism
>
> What is M+?
Here's a hint; look up "magneton". Notice there are several.
Mark L. Fergerson
I'm not aware that there *is* a quantity called "magnetomotive force."
Electromotive force is the integral of electric field times distance, and
one can consider the integral of magnetic field times distance, but it
doesn't have a special name. Its units would be tesla-meters. According
to Maxwell's equations, its integral around a closed path is always zero,
whereas the integral of electromotive force *can* be non-zero (that's what
drives current around an electric circuit).
>Amperes in electricity = X in magnetism
>
>What is X and what is it measured in?
>
>Coulomb in electricity = Z in magnetism
>
>What is Z and what is it measured in?
There's no such thing as "magnetic charge" as far as we know (from
experiment), so there's no such thing as "magnetic current" either. Do a
Web search on "magnetic monopoles" and you'll probably find stuff about
the unsuccessful attempts to observe the effects of "magnetic charge."
--
Jon Bell <jtbe...@presby.edu> Presbyterian College
Dept. of Physics and Computer Science Clinton, South Carolina USA
[...]
> I'm not aware that there *is* a quantity called "magnetomotive
force."
> Electromotive force is the integral of electric field times
distance, and
> one can consider the integral of magnetic field times distance, but
it
> doesn't have a special name.
MMF has a definition which is analogous to EMF. It is measured in
Ampere-turns. It is used routinely when designing magnets.
FRanz Heymann
A bullshit smell arises.
> The quantums of electricity are "electron", "proton", "positron", and
> "anti-proton"
Agrammatical idiot.
> The quantums of heat would then be the "thermon" [or "pyron"].
> Right??? If not, what is it?? It cannot be the photon or phonon for
> reasons described above.
[snip]
Go crack a physics book. Your bellybutton lint is lying to you.
--
Uncle Al
http://www.mazepath.com/uncleal/
(Toxic URL! Unsafe for children and most mammals)
"Quis custodiet ipsos custodes?" The Net!
Mark Fergerson <mferg...@cox.net> wrote in message :
> What is heat? At human scales (actually slightly below)
> it's consonant with particle velocity. Since all particles
> have mass, it ought to be momentum. There's no S.I unit for
> momentum.
Sure there is. The SI unit of momentum is the 'Fritz'. :-)
http://elifritz.members.atlantic.net/elements.htm#derived
Thomas Lee Elifritz
http://elifritz.members.altantic.net
>X = quantum of heat
>
>What is X?
Phonon, a vibrational excitation of the material.
>Electromotive force [i.e. voltage] = Magnetomotive force in magnetism
>
>What is magnetomotive force measured in?
Gauss per centimeter, I suppose.
>
>Amperes in electricity = X in magnetism
>
>What is X and what is it measured in?
Amperes is a flow of a quantity of electrical charge per unit time. There
is no magnetic charge (no monopoles), so metrics have not been invented
for it.
>
>Coulomb in electricity = Z in magnetism
>
>What is Z and what is it measured in?
Again, no magnetic charge, so no unit was invented for it.
--
"A nice adaptation of conditions will make almost any hypothesis agree
with the phenomena. This will please the imagination but does not advance
our knowledge." -- J. Black, 1803.
Integral H.dl cannot be gauss per centimetre.
The unit is in fact the ampere-turn in the sense in which MMF is used
in magnet design
>
> >
> >Amperes in electricity = X in magnetism
> >
> >What is X and what is it measured in?
>
> Amperes is a flow of a quantity of electrical charge per unit time.
There
> is no magnetic charge (no monopoles), so metrics have not been
invented
> for it.
>
> >
> >Coulomb in electricity = Z in magnetism
> >
> >What is Z and what is it measured in?
>
> Again, no magnetic charge, so no unit was invented for it.
In the old-fashioned approach to magnetostatics, it did not have a
specific name. The pole strength of a magnetic pole was just referred
to as being so many emu.
Franz Heymann