From: mpc755 on
On May 22, 4:10 pm, BURT <macromi...(a)yahoo.com> wrote:
> On May 22, 1:06 pm, mpc755 <mpc...(a)gmail.com> wrote:
>
>
>
> > On May 22, 3:47 pm, BURT <macromi...(a)yahoo.com> wrote:
>
> > > No. Light is dual electric field wave and magnetic.
> > > Which wave is the particle in?
>
> > > Mitch Raemsch
>
> > What part of "The magnetic and electric FIELDS of AN electromagnetic
> > wave...of THE wave" are you incapable of understanding?
>
> >http://science.hq.nasa.gov/kids/imagers/ems/waves2.html
>
> > "Electromagnetic waves are formed when an electric field (shown as
> > blue
> > arrows) couples with a magnetic field (shown as red arrows). The
> > magnetic and electric fields of an electromagnetic wave are
> > perpendicular to each other and to the direction of the wave."
>
> > ...of AN electromagnetic wave...and to the direction of THE wave.
>
> > The 'particle' occupies a very small region of AN electromagnetic
> > wave.
>
> > The 'particle' occupies a very small region of THE wave.
>
> > In a double slit experiment with photons, why is the interference
> > pattern built up over time based upon individual registrations?
>
> > In a double slit experiment with photons, if there is no 'particle'
> > associated with the photon wave, then why isn't the interference
> > pattern
> > created similar to an ocean wave hitting the shore?
>
> >http://www.fas.harvard.edu/
> > ~scidemos/QuantumRelativity/SinglePhotonInterference/
> > SinglePhotonInterfe
> > rence.html
>
> > "Rather than the usual screen, the arrival of individual photons is
> > registered and stored electronically. This alone is evidence for the
> > graininess or particle nature of light."
>
> > The photon 'particle' occupies a very small region of the wave.
>
> The two waves are at right angles. Which wave then is the particle in?
>
> Mitch Raemsch

What part of "The magnetic and electric FIELDS of AN electromagnetic
wave...of THE wave" are you incapable of understanding?

http://science.hq.nasa.gov/kids/imagers/ems/waves2.html

"Electromagnetic waves are formed when an electric field (shown as
blue
arrows) couples with a magnetic field (shown as red arrows). The
magnetic and electric fields of an electromagnetic wave are
perpendicular to each other and to the direction of the wave."

....of AN electromagnetic wave...and to the direction of THE wave.

The 'particle' occupies a very small region of AN electromagnetic
wave.

The 'particle' occupies a very small region of THE wave.

In a double slit experiment with photons, why is the interference
pattern built up over time based upon individual registrations?

In a double slit experiment with photons, if there is no 'particle'
associated with the photon wave, then why isn't the interference
pattern
created similar to an ocean wave hitting the shore?

http://www.fas.harvard.edu/
~scidemos/QuantumRelativity/SinglePhotonInterference/
SinglePhotonInterfe
rence.html

"Rather than the usual screen, the arrival of individual photons is
registered and stored electronically. This alone is evidence for the
graininess or particle nature of light."

The photon 'particle' occupies a very small region of the wave.
From: BURT on
On May 22, 1:18 pm, mpc755 <mpc...(a)gmail.com> wrote:
> On May 22, 4:10 pm, BURT <macromi...(a)yahoo.com> wrote:
>
>
>
>
>
> > On May 22, 1:06 pm, mpc755 <mpc...(a)gmail.com> wrote:
>
> > > On May 22, 3:47 pm, BURT <macromi...(a)yahoo.com> wrote:
>
> > > > No. Light is dual electric field wave and magnetic.
> > > > Which wave is the particle in?
>
> > > > Mitch Raemsch
>
> > > What part of "The magnetic and electric FIELDS of AN electromagnetic
> > > wave...of THE wave" are you incapable of understanding?
>
> > >http://science.hq.nasa.gov/kids/imagers/ems/waves2.html
>
> > > "Electromagnetic waves are formed when an electric field (shown as
> > > blue
> > > arrows) couples with a magnetic field (shown as red arrows). The
> > > magnetic and electric fields of an electromagnetic wave are
> > > perpendicular to each other and to the direction of the wave."
>
> > > ...of AN electromagnetic wave...and to the direction of THE wave.
>
> > > The 'particle' occupies a very small region of AN electromagnetic
> > > wave.
>
> > > The 'particle' occupies a very small region of THE wave.
>
> > > In a double slit experiment with photons, why is the interference
> > > pattern built up over time based upon individual registrations?
>
> > > In a double slit experiment with photons, if there is no 'particle'
> > > associated with the photon wave, then why isn't the interference
> > > pattern
> > > created similar to an ocean wave hitting the shore?
>
> > >http://www.fas.harvard.edu/
> > > ~scidemos/QuantumRelativity/SinglePhotonInterference/
> > > SinglePhotonInterfe
> > > rence.html
>
> > > "Rather than the usual screen, the arrival of individual photons is
> > > registered and stored electronically. This alone is evidence for the
> > > graininess or particle nature of light."
>
> > > The photon 'particle' occupies a very small region of the wave.
>
> > The two waves are at right angles. Which wave then is the particle in?
>
> > Mitch Raemsch
>
> What part of "The magnetic and electric FIELDS of AN electromagnetic
> wave...of THE wave" are you incapable of understanding?
>
> http://science.hq.nasa.gov/kids/imagers/ems/waves2.html
>
> "Electromagnetic waves are formed when an electric field (shown as
> blue
> arrows) couples with a magnetic field (shown as red arrows). The
> magnetic and electric fields of an electromagnetic wave are
> perpendicular to each other and to the direction of the wave."
>
> ...of AN electromagnetic wave...and to the direction of THE wave.
>
> The 'particle' occupies a very small region of AN electromagnetic
> wave.
>
> The 'particle' occupies a very small region of THE wave.
>
> In a double slit experiment with photons, why is the interference
> pattern built up over time based upon individual registrations?
>
> In a double slit experiment with photons, if there is no 'particle'
> associated with the photon wave, then why isn't the interference
> pattern
> created similar to an ocean wave hitting the shore?
>
> http://www.fas.harvard.edu/
> ~scidemos/QuantumRelativity/SinglePhotonInterference/
> SinglePhotonInterfe
> rence.html
>
> "Rather than the usual screen, the arrival of individual photons is
> registered and stored electronically. This alone is evidence for the
> graininess or particle nature of light."
>
> The photon 'particle' occupies a very small region of the wave.- Hide quoted text -
>
> - Show quoted text -

If you have nothing to add don't repeat!
Light waves collapse into matter.

Mitch Raemsch
From: mpc755 on
On May 22, 6:50 pm, BURT <macromi...(a)yahoo.com> wrote:
>
> Light waves collapse into matter.
>

The light wave collapses and is detected as a quantum of matter. The
light wave collapses and is detected as a 'particle' of matter.

In a double slit experiment, when detectors are placed at the exits to
the slits the photon wave collapses and is detected as a quantum of
matter. The ability of the photon wave to collapse and be detected as
a quantum of matter travels a single path. The ability of the photon
wave to collapse and be detected as a quantum of matter travels a
single path and enters and exits a single slit. The ability of the
photon wave to collapse and be detected as a quantum of matter is the
photon 'particle'.

The photon wave enters and exits both slits in a double slit
experiment and creates interference upon exiting the slits which
alters the direction the 'particle' travels. Placing detectors at the
exits to the slits causes the photon wave to collapse which causes
decoherence of the wave and there is no interference.

Light waves collapse into matter is the 'particle' associated with the
photon wave.
From: BURT on
On May 22, 5:11 pm, mpc755 <mpc...(a)gmail.com> wrote:
> On May 22, 6:50 pm, BURT <macromi...(a)yahoo.com> wrote:
>
>
>
> > Light waves collapse into matter.
>
> The light wave collapses and is detected as a quantum of matter. The
> light wave collapses and is detected as a 'particle' of matter.
>
> In a double slit experiment, when detectors are placed at the exits to
> the slits the photon wave collapses and is detected as a quantum of
> matter. The ability of the photon wave to collapse and be detected as
> a quantum of matter travels a single path. The ability of the photon
> wave to collapse and be detected as a quantum of matter travels a
> single path and enters and exits a single slit. The ability of the
> photon wave to collapse and be detected as a quantum of matter is the
> photon 'particle'.
>
> The photon wave enters and exits both slits in a double slit
> experiment and creates interference upon exiting the slits which
> alters the direction the 'particle' travels. Placing detectors at the
> exits to the slits causes the photon wave to collapse which causes
> decoherence of the wave and there is no interference.
>
> Light waves collapse into matter is the 'particle' associated with the
> photon wave.

Light collapsing into electric matter particle is the phenomenon of
absorption.

Mitch Raemsch
From: Sue... on
On May 22, 4:18 pm, mpc755 <mpc...(a)gmail.com> wrote:
> On May 22, 4:10 pm, BURT <macromi...(a)yahoo.com> wrote:
>
>
>
> > On May 22, 1:06 pm, mpc755 <mpc...(a)gmail.com> wrote:
>
> > > On May 22, 3:47 pm, BURT <macromi...(a)yahoo.com> wrote:
>
> > > > No. Light is dual electric field wave and magnetic.
> > > > Which wave is the particle in?
>
> > > > Mitch Raemsch
>
> > > What part of "The magnetic and electric FIELDS of AN electromagnetic
> > > wave...of THE wave" are you incapable of understanding?
>
> > >http://science.hq.nasa.gov/kids/imagers/ems/waves2.html
>
> > > "Electromagnetic waves are formed when an electric field (shown as
> > > blue
> > > arrows) couples with a magnetic field (shown as red arrows). The
> > > magnetic and electric fields of an electromagnetic wave are
> > > perpendicular to each other and to the direction of the wave."
>
> > > ...of AN electromagnetic wave...and to the direction of THE wave.
>
> > > The 'particle' occupies a very small region of AN electromagnetic
> > > wave.
>
> > > The 'particle' occupies a very small region of THE wave.
>
> > > In a double slit experiment with photons, why is the interference
> > > pattern built up over time based upon individual registrations?
>
> > > In a double slit experiment with photons, if there is no 'particle'
> > > associated with the photon wave, then why isn't the interference
> > > pattern
> > > created similar to an ocean wave hitting the shore?
>
> > >http://www.fas.harvard.edu/
> > > ~scidemos/QuantumRelativity/SinglePhotonInterference/
> > > SinglePhotonInterfe
> > > rence.html
>
> > > "Rather than the usual screen, the arrival of individual photons is
> > > registered and stored electronically. This alone is evidence for the
> > > graininess or particle nature of light."
>
> > > The photon 'particle' occupies a very small region of the wave.
>
> > The two waves are at right angles. Which wave then is the particle in?
>
> > Mitch Raemsch
>
> What part of "The magnetic and electric FIELDS of AN electromagnetic
> wave...of THE wave" are you incapable of understanding?
>

=====================

> http://science.hq.nasa.gov/kids/imagers/ems/waves2.html

Do you suppose J.D. Jackson consulted any URLs containing
the word "kids" as he wrote this paper?

"How an antenna launches its input power into
radiation: the pattern of the Poynting vector
at and near an antenna"
http://arxiv.org/abs/physics/0506053

See also:
http://en.wikipedia.org/wiki/Near_and_far_field

Sue..

>
> "Electromagnetic waves are formed when an electric field (shown as
> blue
> arrows) couples with a magnetic field (shown as red arrows). The
> magnetic and electric fields of an electromagnetic wave are
> perpendicular to each other and to the direction of the wave."
>
> ...of AN electromagnetic wave...and to the direction of THE wave.
>
> The 'particle' occupies a very small region of AN electromagnetic
> wave.
>
> The 'particle' occupies a very small region of THE wave.
>
> In a double slit experiment with photons, why is the interference
> pattern built up over time based upon individual registrations?
>
> In a double slit experiment with photons, if there is no 'particle'
> associated with the photon wave, then why isn't the interference
> pattern
> created similar to an ocean wave hitting the shore?
>
> http://www.fas.harvard.edu/
> ~scidemos/QuantumRelativity/SinglePhotonInterference/
> SinglePhotonInterfe
> rence.html
>
> "Rather than the usual screen, the arrival of individual photons is
> registered and stored electronically. This alone is evidence for the
> graininess or particle nature of light."
>
> The photon 'particle' occupies a very small region of the wave.