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From: mpc755 on 24 Feb 2010 22:07 On Feb 24, 9:52 pm, Sam Wormley <sworml...(a)gmail.com> wrote: > On 2/24/10 8:16 PM, mpc755 wrote: > > > > > On Feb 24, 8:57 pm, Sam Wormley<sworml...(a)gmail.com>  wrote: > >> On 2/24/10 5:55 PM, mpc755 wrote: > > >>> On Feb 24, 6:41 pm, Sam Wormley<sworml...(a)gmail.com>   wrote: > >>>> On 2/24/10 11:15 AM, mpc755 wrote: > > >>>>> Mass of electron: 9.10938215(45)Ã10-31 kg > >>>>> Mass of photon: 0 > > >>>>    Photon momentum > >>>>     p = hν/c = h/λ > > >>> Photon momentum, yes. But what happened to the mass associated with > >>> the electron? It isn't 'lost'. > > >>   Bottom Center of > >>    http://www.astro.wisc.edu/~heroux/images/Particle_chart.jpg > > > Now you're adding in a virtual Z boson and a virtual photon and still > > not accounting for the mass. The image represents the physical effects > > of the electron and position transitioning to aether. > >   Remember E^2 = p^2c^2 + m_0^2c^4 > >   And, also >   Photon Energy >    E = hν > >   The question is... are you smart enough to plugin electron (and >   positron masses and their momenta, and come up with the energy >   and assign it to one or more photons resultant in the annihilation? > >   Methinks not. The question is, what happens to the mass? The positron and electron mass still exist in nature, as aether. The transitioning of the positron and electron to aether and the physical effect the increase in volume the material which is the matter occupies as it transitions to aether has on the neighboring matter and aether is energy. Do you have a more correct explanation as to what occurs physically in nature to the mass and what causes the energy to physically exist in E=mc^2? Meknows not.
From: mpc755 on 25 Feb 2010 00:22 On Feb 24, 10:07 pm, mpc755 <mpc...(a)gmail.com> wrote: > On Feb 24, 9:52 pm, Sam Wormley <sworml...(a)gmail.com> wrote: > > > > > On 2/24/10 8:16 PM, mpc755 wrote: > > > > On Feb 24, 8:57 pm, Sam Wormley<sworml...(a)gmail.com>  wrote: > > >> On 2/24/10 5:55 PM, mpc755 wrote: > > > >>> On Feb 24, 6:41 pm, Sam Wormley<sworml...(a)gmail.com>   wrote: > > >>>> On 2/24/10 11:15 AM, mpc755 wrote: > > > >>>>> Mass of electron: 9.10938215(45)Ã10-31 kg > > >>>>> Mass of photon: 0 > > > >>>>    Photon momentum > > >>>>     p = hν/c = h/λ > > > >>> Photon momentum, yes. But what happened to the mass associated with > > >>> the electron? It isn't 'lost'. > > > >>   Bottom Center of > > >>    http://www.astro.wisc.edu/~heroux/images/Particle_chart.jpg > > > > Now you're adding in a virtual Z boson and a virtual photon and still > > > not accounting for the mass. The image represents the physical effects > > > of the electron and position transitioning to aether. > > >   Remember E^2 = p^2c^2 + m_0^2c^4 > > >   And, also > >   Photon Energy > >    E = hν > > >   The question is... are you smart enough to plugin electron (and > >   positron masses and their momenta, and come up with the energy > >   and assign it to one or more photons resultant in the annihilation? > > >   Methinks not. > > The question is, what happens to the mass? The positron and electron > mass still exist in nature, as aether. The transitioning of the > positron and electron to aether and the physical effect the increase > in volume the material which is the matter occupies as it transitions > to aether has on the neighboring matter and aether is energy. > > Do you have a more correct explanation as to what occurs physically in > nature to the mass and what causes the energy to physically exist in > E=mc^2? Meknows not. Matter and aether are different states of mather. When mather transitions from matter to aether the increase in volume of the mather and the physical effects this expansion has on the neighboring mather is energy.
From: mpc755 on 25 Feb 2010 00:56 On Feb 25, 12:22 am, mpc755 <mpc...(a)gmail.com> wrote: > On Feb 24, 10:07 pm, mpc755 <mpc...(a)gmail.com> wrote: > > > > > On Feb 24, 9:52 pm, Sam Wormley <sworml...(a)gmail.com> wrote: > > > > On 2/24/10 8:16 PM, mpc755 wrote: > > > > > On Feb 24, 8:57 pm, Sam Wormley<sworml...(a)gmail.com>  wrote: > > > >> On 2/24/10 5:55 PM, mpc755 wrote: > > > > >>> On Feb 24, 6:41 pm, Sam Wormley<sworml...(a)gmail.com>   wrote: > > > >>>> On 2/24/10 11:15 AM, mpc755 wrote: > > > > >>>>> Mass of electron: 9.10938215(45)Ã10-31 kg > > > >>>>> Mass of photon: 0 > > > > >>>>    Photon momentum > > > >>>>     p = hν/c = h/λ > > > > >>> Photon momentum, yes. But what happened to the mass associated with > > > >>> the electron? It isn't 'lost'. > > > > >>   Bottom Center of > > > >>    http://www.astro.wisc.edu/~heroux/images/Particle_chart.jpg > > > > > Now you're adding in a virtual Z boson and a virtual photon and still > > > > not accounting for the mass. The image represents the physical effects > > > > of the electron and position transitioning to aether. > > > >   Remember E^2 = p^2c^2 + m_0^2c^4 > > > >   And, also > > >   Photon Energy > > >    E = hν > > > >   The question is... are you smart enough to plugin electron (and > > >   positron masses and their momenta, and come up with the energy > > >   and assign it to one or more photons resultant in the annihilation? > > > >   Methinks not. > > > The question is, what happens to the mass? The positron and electron > > mass still exist in nature, as aether. The transitioning of the > > positron and electron to aether and the physical effect the increase > > in volume the material which is the matter occupies as it transitions > > to aether has on the neighboring matter and aether is energy. > > > Do you have a more correct explanation as to what occurs physically in > > nature to the mass and what causes the energy to physically exist in > > E=mc^2? Meknows not. > > Matter and aether are different states of mather. When mather > transitions from matter to aether the increase in volume of the mather > and the physical effects this expansion has on the neighboring mather > is energy. Wave-particle duality: A moving particle of mather has an associated mather wave.
From: mpc755 on 25 Feb 2010 01:01 On Feb 25, 12:56 am, mpc755 <mpc...(a)gmail.com> wrote: > On Feb 25, 12:22 am, mpc755 <mpc...(a)gmail.com> wrote: > > > > > On Feb 24, 10:07 pm, mpc755 <mpc...(a)gmail.com> wrote: > > > > On Feb 24, 9:52 pm, Sam Wormley <sworml...(a)gmail.com> wrote: > > > > > On 2/24/10 8:16 PM, mpc755 wrote: > > > > > > On Feb 24, 8:57 pm, Sam Wormley<sworml...(a)gmail.com>  wrote: > > > > >> On 2/24/10 5:55 PM, mpc755 wrote: > > > > > >>> On Feb 24, 6:41 pm, Sam Wormley<sworml...(a)gmail.com>   wrote: > > > > >>>> On 2/24/10 11:15 AM, mpc755 wrote: > > > > > >>>>> Mass of electron: 9.10938215(45)Ã10-31 kg > > > > >>>>> Mass of photon: 0 > > > > > >>>>    Photon momentum > > > > >>>>     p = hν/c = h/λ > > > > > >>> Photon momentum, yes. But what happened to the mass associated with > > > > >>> the electron? It isn't 'lost'. > > > > > >>   Bottom Center of > > > > >>    http://www.astro.wisc.edu/~heroux/images/Particle_chart.jpg > > > > > > Now you're adding in a virtual Z boson and a virtual photon and still > > > > > not accounting for the mass. The image represents the physical effects > > > > > of the electron and position transitioning to aether. > > > > >   Remember E^2 = p^2c^2 + m_0^2c^4 > > > > >   And, also > > > >   Photon Energy > > > >    E = hν > > > > >   The question is... are you smart enough to plugin electron (and > > > >   positron masses and their momenta, and come up with the energy > > > >   and assign it to one or more photons resultant in the annihilation? > > > > >   Methinks not. > > > > The question is, what happens to the mass? The positron and electron > > > mass still exist in nature, as aether. The transitioning of the > > > positron and electron to aether and the physical effect the increase > > > in volume the material which is the matter occupies as it transitions > > > to aether has on the neighboring matter and aether is energy. > > > > Do you have a more correct explanation as to what occurs physically in > > > nature to the mass and what causes the energy to physically exist in > > > E=mc^2? Meknows not. > > > Matter and aether are different states of mather. When mather > > transitions from matter to aether the increase in volume of the mather > > and the physical effects this expansion has on the neighboring mather > > is energy. > > Wave-particle duality: A moving particle of mather has an associated > mather wave. In a double slit experiment the mather particle enters and exits a single slit while the associated mather wave enters and exits the available slits.
From: PD on 25 Feb 2010 11:25
On Feb 24, 5:55 pm, mpc755 <mpc...(a)gmail.com> wrote: > On Feb 24, 6:41 pm, Sam Wormley <sworml...(a)gmail.com> wrote: > > > On 2/24/10 11:15 AM, mpc755 wrote: > > > > Mass of electron: 9.10938215(45)Ã10-31 kg > > > Mass of photon: 0 > > >   Photon momentum > >    p = hν/c = h/λ > > Photon momentum, yes. But what happened to the mass associated with > the electron? It isn't 'lost'. It doesn't vanish or disappear. The > mass still exists as aether. The photon has momentum because of the > expansion matter transitioning has on the surrounding aether and > matter. The transition of matter to aether creates directed/pointed > waves in the aether which when detected collapse into a quantum of > aether. The quanta of aether detected are the photons. Light does not disappear when it is absorbed. The light still exists as pixies. Pixies are invisible, but the fact that light is conserved is the evidence that pixies exist. This is a better description of nature than the absurd nonsense that light is absorbed and ceases to exist, or is emitted and created from nothing. |