Dynamotime Posted December 1, 2011 Posted December 1, 2011 (edited) If anyone can help me, I am looking for the %s of the dark matter, atoms and "dark energy or/and photons" in a 6x10^9 years old universe. I need the %s to verify my calculations: 50.165% Dark Matter, 40.28% Dark Energy/photons and 9.552% Atoms Plz note I need the % of Atoms and % dark matter been separated from the % of photons and neutrinos. In the Cosmology standard model, Dark Energy only appeared 7billion years ago, but I have hard time to believe it, Dark Energy cannot just appeared out of nowhere. So I came up with a hypothesis where Dark Energy existed from the beginning of the universe and photons aka light or/and matter with no mass conceal the presence of Dark Energy; in other words we cannot see Dark Energy in the early universe because the size of it at the time, the light did hide it. Size does "matter", It is like when 2 objects are really close to each other and you cannot see what it is between same but once you move the objects away from each other (aka expansion) you realize something is (exist) between same. And that something is dark matter and dark energy, and again I have a hard time with dark energy appearing from the nothingness of space, it does not make a lot sense to me, you cannot get anything from nothing…0+ 0≠1 I am no Albert Einstein, I am just asking questions. I understand your skepticism but science is about discovery too, and imagination leads to discovery. Albert Einstein quote: "Imagination is more important than knowledge. For knowledge is limited to all we now know and understand, while imagination embraces the entire world, and all there ever will be to know and understand." Thanks Edited December 1, 2011 by Dynamotime
Dynamotime Posted December 3, 2011 Author Posted December 3, 2011 NASA did come up with % photons/neutrinos separated from the % of atoms; check image below the chart for the 380 000 years old universe…. Wilkinson Microwave Anisotropy Probe image http://map.gsfc.nasa.gov/media/080998/index.html
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