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#1
August 28th 11, 12:45 PM
posted to sci.astro,sci.physics
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Playing with E=m.c^2
If E=m.c^2
then can we say that if lightspeed was to decrease, and energy in the universe was neither added nor removed, so constant, that then mass HAS to be created? Or expanding on that, could it be that the redshift we see, comes from a decreasing speed of light, creating mass for the objects in the universe? Ollie 
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#2
August 28th 11, 03:44 PM
posted to sci.astro,sci.physics
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Playing with E=m.c^2
On Aug 28, 7:45*am, Ollie B Bimmol wrote:
If E=m.c^2 then can we say that if lightspeed was to decrease, and energy in the universe was neither added nor removed, so constant, that then mass HAS to be created? Or expanding on that, could it be that the redshift we see, comes from a decreasing speed of light, creating mass for the objects in the universe? Ollie Light(photons) do not change their speed. Photons don't bounce. All this comes out of imperial bad thinking. I have better thinking than they. TreBert
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#3
August 28th 11, 04:01 PM
posted to sci.astro,sci.physics
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Playing with E=m.c^2
On Aug 28, 7:45*am, Ollie B Bimmol wrote:
If E=m.c^2 then can we say that if lightspeed was to decrease, and energy in the universe was neither added nor removed, so constant, that then mass HAS to be created? Or expanding on that, could it be that the redshift we see, comes from a decreasing speed of light, creating mass for the objects in the universe? Ollie It comes from a star moving away from us.(red) Redder if the star is dense and large. Photons don't slow down. Their wave gets longer. Gamma and red go at the same speed.White a mix of colors all go at same speed
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#4
August 28th 11, 04:23 PM
posted to sci.astro,sci.physics
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Playing with E=m.c^2
On 28/08/2011 7:45 AM, Ollie B Bimmol wrote:
If E=m.c^2 then can we say that if lightspeed was to decrease, and energy in the universe was neither added nor removed, so constant, that then mass HAS to be created? I don't see how a decrease in light speed would lead to mass being created. What has one got to do with the other? Or expanding on that, could it be that the redshift we see, comes from a decreasing speed of light, creating mass for the objects in the universe? A decrease (or an increase for that matter) cannot be detected by us. The speed of light is what determines both time and distance for us. If light speed was changing, then time and distance would change equally for us, and it would look like the exact same speed to us all over again. We cannot detect light speed changing while we're inside the universe itself, we could only detect it if we were outside of the universe looking in somehow. Yousuf Khan
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#5
August 28th 11, 07:18 PM
posted to sci.astro,sci.physics
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Playing with E=m.c^2
On a sunny day (Sun, 28 Aug 2011 11:23:31 -0400) it happened Yousuf Khan
wrote in : On 28/08/2011 7:45 AM, Ollie B Bimmol wrote: If E=m.c^2 then can we say that if lightspeed was to decrease, and energy in the universe was neither added nor removed, so constant, that then mass HAS to be created? I don't see how a decrease in light speed would lead to mass being created. What has one got to do with the other? In the above formula, for E is constant, and m increasing, then c must decrease. Or expanding on that, could it be that the redshift we see, comes from a decreasing speed of light, creating mass for the objects in the universe? A decrease (or an increase for that matter) cannot be detected by us. The speed of light is what determines both time and distance for us. If light speed was changing, then time and distance would change equally for us, and it would look like the exact same speed to us all over again. We cannot detect light speed changing while we're inside the universe itself, we could only detect it if we were outside of the universe looking in somehow. Could you elaborate a bit on why that is so? Yousuf Khan
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#6
August 29th 11, 09:21 AM
posted to sci.astro,sci.physics
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Playing with E=m.c^2
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#7
August 29th 11, 09:29 AM
posted to sci.astro,sci.physics
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Playing with E=m.c^2
Paul Cardinale wrote:
On Aug 28, 4:45*am, Ollie B Bimmol wrote: If E=m.c^2 then can we say that if lightspeed was to decrease, and energy in the universe was neither added nor removed, so constant, that then mass HAS to be created? Or expanding on that, could it be that the redshift we see, comes from a decreasing speed of light, creating mass for the objects in the universe? Ollie Your question amounts to: 'If the universe changed into a different kind of universe, what would be different?' Thank you so much for giving me this deep insight. Now I wonder if I am really in the different universe, and you in the other one, because I have read there are many universes. We can communicate from one universe to to other universe via Usenet it seems. This brings up the question of information loss and FTL communication. Does each universe has a number (so you can dial it) or perhaps an IP address, so you can email to it? Ollie
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#8
August 29th 11, 09:35 AM
posted to sci.astro,sci.physics
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Playing with E=m.c^2
Byron Forbes wrote:
In article , says... If E=m.c^2 then can we say that if lightspeed was to decrease, and energy in the universe was neither added nor removed, so constant, that then mass HAS to be created? Quite simply, if it's not traveling at c then it's not light, it's mass. No no, they have slowed down light, and also light travels slower if not in a vacuum. Or expanding on that, could it be that the redshift we see, comes from a decreasing speed of light, creating mass for the objects in the universe? Ollie Yeah, I like slow light but it speeds up and is all observed at c when it gets here. The redshift meant it was once slower relative to us and gained wavelength as it sped up in the aether. Then if we remove the aether then light can move faster? Ollie
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#9
August 29th 11, 11:45 AM
posted to sci.astro
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Playing with E=m.c^2
Then if we remove the aether then light can move faster?
I think this matter has long been taken care of ;-)
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#10
August 29th 11, 01:02 PM
posted to sci.astro,sci.physics
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Playing with E=m.c^2
On Aug 29, 4:35*am, Ollie B Bimmol wrote:
Byron Forbes wrote: In article , says.... If E=m.c^2 then can we say that if lightspeed was to decrease, and energy in the universe was neither added nor removed, so constant, that then mass HAS to be created? * * * *Quite simply, if it's not traveling at c then it's not light, it's mass. No no, they have slowed down light, and also light travels slower if not in a vacuum. Or expanding on that, could it be that the redshift we see, comes from a decreasing speed of light, creating mass for the objects in the universe? Ollie * * * *Yeah, I like slow light but it speeds up and is all observed at c when it gets here. The redshift meant it was once slower relative to us and gained wavelength as it sped up in the aether. Then if we remove the aether then light can move faster? Ollie Once aether is removed please store it in a gravity well. O ya TreBert
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