A Beginner's View of Our Electric Universe - New
A Beginner's View of Our Electric Universe - New
A Beginner's View of Our Electric Universe - New
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To expand a little on the ‘intrinsic’ component <strong>of</strong><br />
redshift, I will follow on from the description <strong>of</strong><br />
quasars begun in chapter three where I mentioned<br />
redshift as well. The EU model’s explanation for<br />
quasars as distinct bodies is that they are yet another<br />
aspect <strong>of</strong> powerful electrical energy interacting with<br />
plasma, this time on a galactic scale. I ask you here<br />
to accept that Birkeland currents continue to flow into<br />
the cores <strong>of</strong> galaxies to maintain their operation and<br />
structure, and through a subordinate network internal<br />
to the galaxies themselves, the stars within them.<br />
A pair <strong>of</strong> quasars being emitted from an AGN © author<br />
The Birkeland currents that focus at the core <strong>of</strong> a galaxy, those which originally produced it and go on to<br />
maintain its central plasmoid, will be subject over time to fluctuations that are likely to cause the build-up <strong>of</strong><br />
excess ionised matter and EM energy within the galaxy’s plasmoid core. The result, just as with stars, will be for<br />
those over-stressed cores to eject some <strong>of</strong> that accumulated plasma. This it would seem is how quasars are born<br />
[6-36] . When a galaxy ejects material it does so in a single action that involves ionised material being expelled as<br />
spinning blobs from both its ‘top and bottom sides’. The material expelled then spins away in opposite directions,<br />
probably along the axis <strong>of</strong> the two incoming Birkeland currents. This is why quasars are <strong>of</strong>ten observed as<br />
if they are organised in strings that lead away from<br />
the centres <strong>of</strong> galaxies that have a powerful active<br />
nucleus or AGN - this is the reference commonly used<br />
to represent a galaxy with an Active Galaxy Nucleus.<br />
How ‘z’ is associated with quasar development © author<br />
<strong>New</strong>born quasars have very high redshift ‘z’ values<br />
while their parent galaxies have relatively low values.<br />
This is a further clear reason to disbelieve the claim that<br />
redshift represents distance. In terms <strong>of</strong> quasars, the<br />
‘intrinsic’ component <strong>of</strong> redshift is instead accepted as<br />
a measure <strong>of</strong> their youthfulness. Redshift is also found<br />
to have associated with it, a spread <strong>of</strong> distinct z values<br />
122 | The <strong>Electric</strong> <strong>Universe</strong> answers I see