Negative Energy
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From: HardySpicer on 5 Apr 2010 09:51 How is it related to anti-matter? does En=-mc^2? Hardy
From: Androcles on 5 Apr 2010 10:45 "HardySpicer" <gyansorova(a)gmail.com> wrote in message news:5871d95a-08e0-4976-b6a6-a0e031b91dfd(a)q23g2000yqd.googlegroups.com... > How is it related to anti-matter? does En=-mc^2? > > > Hardy Anti-matter only has opposite charge, it still has positive gravity. Positrons do not fall up. What you need is complex-matter, sqrt(E) = (im). (-c) where i = sqrt(-1) and (-c)^2 = c^2.
From: Sam Wormley on 5 Apr 2010 10:49 On 4/5/10 8:51 AM, HardySpicer wrote: > How is it related to anti-matter? does En=-mc^2? A little background for Hardy. http://en.wikipedia.org/wiki/Dirac_sea Be careful, Hardy, not to tale the term "negative energy" out of context!
From: bert on 5 Apr 2010 12:10 On Apr 5, 10:45 am, "Androcles" <Headmas...(a)Hogwarts.physics_x> wrote: > "HardySpicer" <gyansor...(a)gmail.com> wrote in message > > news:5871d95a-08e0-4976-b6a6-a0e031b91dfd(a)q23g2000yqd.googlegroups.com... > > > How is it related to anti-matter? does En=-mc^2? > > > Hardy > > Anti-matter only has opposite charge, it still has positive gravity. > Positrons do not fall up. > What you need is complex-matter, sqrt(E) = (im). (-c) where i = sqrt(-1) > and (-c)^2 = c^2. You left out opposite spin. TreBert
From: bert on 5 Apr 2010 12:23
On Apr 5, 10:49 am, Sam Wormley <sworml...(a)gmail.com> wrote: > On 4/5/10 8:51 AM, HardySpicer wrote: > > > How is it related to anti-matter? does En=-mc^2? > > A little background for Hardy. > http://en.wikipedia.org/wiki/Dirac_sea > > Be careful, Hardy, not to tale the term "negative energy" out > of context! Sam How about virtual photons for negative charge. How about gravity being negative?/ TreBert |