From: Sam Wormley on
On 2/27/10 7:45 PM, mpc755 wrote:
> On Feb 27, 8:23 pm, Sam Wormley<sworml...(a)gmail.com> wrote:
>> On 2/27/10 7:10 PM, mpc755 wrote:
>>
>>> Mass-less energy does not convert back to mass.
>>
>> Photon momentum
>> p = hν/c = h/λ
>>
>> Photon Energy
>> E = hν
>>
>> http://en.wikipedia.org/wiki/Pair_production
>>
>> "Pair production refers to the creation of an elementary particle and
>> its antiparticle, usually from a photon (or another neutral boson). This
>> is allowed, provided there is enough energy available to create the pair
>> – at least the total rest mass energy of the two particles – and that
>> the situation allows both energy and momentum to be conserved (though
>> not necessarily on shell). All other conserved quantum numbers (angular
>> momentum, electric charge) of the produced particles must sum to zero —
>> thus the created particles shall have opposite values of each (for
>> instance, if one particle has strangeness +1 then another one must have
>> strangeness −1)".
>
> Did you notice there is a photon being fired at a nucleus? The nucleus
> has mass.
>
> Show me where mass-less energy and only mass-less energy 'converts to'
> mass.
>

http://en.wikipedia.org/wiki/Matter_creation

"First calculations of rate of e+/e- pair production in photon-photon
collision was done by Lev Landau in 1934.[1] It was predicted that the
process of e+/e- pair creation (via collisions of photons) dominates in
collision of ultrarelativistic charged particles — because those photons
are radiated in narrow cones along the direction of motion of original
particle greatly increasing photon flux".

"In high-energy particle colliders, matter creation events have yielded
a wide variety of exotic heavy particles precipitating out of colliding
photon jets (see two-photon physics). Currently, two-photon physics
studies creation of various fermion pairs both theoretically and
experimentally (using particle accelerators, air showers, radioactive
isotopes, etc)".





From: mpc755 on
On Feb 27, 9:18 pm, Sam Wormley <sworml...(a)gmail.com> wrote:
> On 2/27/10 7:45 PM, mpc755 wrote:
>
>
>
> > On Feb 27, 8:23 pm, Sam Wormley<sworml...(a)gmail.com>  wrote:
> >> On 2/27/10 7:10 PM, mpc755 wrote:
>
> >>> Mass-less energy does not convert back to mass.
>
> >>     Photon momentum
> >>       p = hν/c = h/λ
>
> >>     Photon Energy
> >>       E = hν
>
> >>http://en.wikipedia.org/wiki/Pair_production
>
> >> "Pair production refers to the creation of an elementary particle and
> >> its antiparticle, usually from a photon (or another neutral boson). This
> >> is allowed, provided there is enough energy available to create the pair
> >> – at least the total rest mass energy of the two particles – and that
> >> the situation allows both energy and momentum to be conserved (though
> >> not necessarily on shell). All other conserved quantum numbers (angular
> >> momentum, electric charge) of the produced particles must sum to zero —
> >> thus the created particles shall have opposite values of each (for
> >> instance, if one particle has strangeness +1 then another one must have
> >> strangeness −1)".
>
> > Did you notice there is a photon being fired at a nucleus? The nucleus
> > has mass.
>
> > Show me where mass-less energy and only mass-less energy 'converts to'
> > mass.
>
> http://en.wikipedia.org/wiki/Matter_creation
>
> "First calculations of rate of e+/e- pair production in photon-photon
> collision was done by Lev Landau in 1934.[1] It was predicted that the
> process of e+/e- pair creation (via collisions of photons) dominates in
> collision of ultrarelativistic charged particles — because those photons
> are radiated in narrow cones along the direction of motion of original
> particle greatly increasing photon flux".
>
> "In high-energy particle colliders, matter creation events have yielded
> a wide variety of exotic heavy particles precipitating out of colliding
> photon jets (see two-photon physics). Currently, two-photon physics
> studies creation of various fermion pairs both theoretically and
> experimentally (using particle accelerators, air showers, radioactive
> isotopes, etc)".

As I have previously stated when a photon collapses a quantum of
mather is detected. The collapsing of the photon is the compression of
the directed/pointed wave in the aether.
From: Sam Wormley on
On 2/27/10 8:28 PM, mpc755 wrote:
> On Feb 27, 9:18 pm, Sam Wormley<sworml...(a)gmail.com> wrote:
>> On 2/27/10 7:45 PM, mpc755 wrote:
>>
>>
>>
>>> On Feb 27, 8:23 pm, Sam Wormley<sworml...(a)gmail.com> wrote:
>>>> On 2/27/10 7:10 PM, mpc755 wrote:
>>
>>>>> Mass-less energy does not convert back to mass.
>>
>>>> Photon momentum
>>>> p = hν/c = h/λ
>>
>>>> Photon Energy
>>>> E = hν
>>
>>>> http://en.wikipedia.org/wiki/Pair_production
>>
>>>> "Pair production refers to the creation of an elementary particle and
>>>> its antiparticle, usually from a photon (or another neutral boson). This
>>>> is allowed, provided there is enough energy available to create the pair
>>>> – at least the total rest mass energy of the two particles – and that
>>>> the situation allows both energy and momentum to be conserved (though
>>>> not necessarily on shell). All other conserved quantum numbers (angular
>>>> momentum, electric charge) of the produced particles must sum to zero —
>>>> thus the created particles shall have opposite values of each (for
>>>> instance, if one particle has strangeness +1 then another one must have
>>>> strangeness −1)".
>>
>>> Did you notice there is a photon being fired at a nucleus? The nucleus
>>> has mass.
>>
>>> Show me where mass-less energy and only mass-less energy 'converts to'
>>> mass.
>>
>> http://en.wikipedia.org/wiki/Matter_creation
>>
>> "First calculations of rate of e+/e- pair production in photon-photon
>> collision was done by Lev Landau in 1934.[1] It was predicted that the
>> process of e+/e- pair creation (via collisions of photons) dominates in
>> collision of ultrarelativistic charged particles — because those photons
>> are radiated in narrow cones along the direction of motion of original
>> particle greatly increasing photon flux".
>>
>> "In high-energy particle colliders, matter creation events have yielded
>> a wide variety of exotic heavy particles precipitating out of colliding
>> photon jets (see two-photon physics). Currently, two-photon physics
>> studies creation of various fermion pairs both theoretically and
>> experimentally (using particle accelerators, air showers, radioactive
>> isotopes, etc)".
>
> As I have previously stated when a photon collapses a quantum of
> mather is detected. The collapsing of the photon is the compression of
> the directed/pointed wave in the aether.

You said, "Mass-less energy does not convert back to mass". Now I
see you are back peddling... as is true with many of your nonsense
postings.


From: mpc755 on
On Feb 27, 9:40 pm, Sam Wormley <sworml...(a)gmail.com> wrote:
> On 2/27/10 8:28 PM, mpc755 wrote:
>
>
>
> > On Feb 27, 9:18 pm, Sam Wormley<sworml...(a)gmail.com>  wrote:
> >> On 2/27/10 7:45 PM, mpc755 wrote:
>
> >>> On Feb 27, 8:23 pm, Sam Wormley<sworml...(a)gmail.com>    wrote:
> >>>> On 2/27/10 7:10 PM, mpc755 wrote:
>
> >>>>> Mass-less energy does not convert back to mass.
>
> >>>>      Photon momentum
> >>>>        p = hν/c = h/λ
>
> >>>>      Photon Energy
> >>>>        E = hν
>
> >>>>http://en.wikipedia.org/wiki/Pair_production
>
> >>>> "Pair production refers to the creation of an elementary particle and
> >>>> its antiparticle, usually from a photon (or another neutral boson). This
> >>>> is allowed, provided there is enough energy available to create the pair
> >>>> – at least the total rest mass energy of the two particles – and that
> >>>> the situation allows both energy and momentum to be conserved (though
> >>>> not necessarily on shell). All other conserved quantum numbers (angular
> >>>> momentum, electric charge) of the produced particles must sum to zero —
> >>>> thus the created particles shall have opposite values of each (for
> >>>> instance, if one particle has strangeness +1 then another one must have
> >>>> strangeness −1)".
>
> >>> Did you notice there is a photon being fired at a nucleus? The nucleus
> >>> has mass.
>
> >>> Show me where mass-less energy and only mass-less energy 'converts to'
> >>> mass.
>
> >>http://en.wikipedia.org/wiki/Matter_creation
>
> >> "First calculations of rate of e+/e- pair production in photon-photon
> >> collision was done by Lev Landau in 1934.[1] It was predicted that the
> >> process of e+/e- pair creation (via collisions of photons) dominates in
> >> collision of ultrarelativistic charged particles — because those photons
> >> are radiated in narrow cones along the direction of motion of original
> >> particle greatly increasing photon flux".
>
> >> "In high-energy particle colliders, matter creation events have yielded
> >> a wide variety of exotic heavy particles precipitating out of colliding
> >> photon jets (see two-photon physics). Currently, two-photon physics
> >> studies creation of various fermion pairs both theoretically and
> >> experimentally (using particle accelerators, air showers, radioactive
> >> isotopes, etc)".
>
> > As I have previously stated when a photon collapses a quantum of
> > mather is detected. The collapsing of the photon is the compression of
> > the directed/pointed wave in the aether.
>
>    You said, "Mass-less energy does not convert back to mass". Now I
>    see you are back peddling... as is true with many of your nonsense
>    postings.

A photon propagates as a directed/pointed wave in the aether (i.e.
uncompressed mather). When the photon is detected the wave collapses
into a quantum of mather. If the photon stays compressed then it is
matter.
From: Sam Wormley on
On 2/27/10 8:44 PM, mpc755 wrote:

> A photon propagates as a directed/pointed wave in the aether (i.e.
> uncompressed mather). When the photon is detected the wave collapses
> into a quantum of mather. If the photon stays compressed then it is
> matter.

What happens when a photon is absorbed by the human eye?