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distribution and density of galaxies matches dot pattern of plutoniumatom, Chp 10; #179; Atom Totality theory
Chapter 10, the distribution and density of galaxies
Referring to this mapp of the cosmos of galaxies and especially the Sloan Great Wall and the other Great Wall http://www.astro.princeton.edu/~mjur...rse/all100.gif This is chapter (10) in this 3rd edition Observational and experimental support (10) density and distribution of all galaxies Of all the books I will write this is my most important one and I suspect this is my most important chapter and should have it perfected sometime in the future in the 4th edition, as I improve it with each new edition. And of all the chapters this is probably my most favorite in that I can see the order of laying out the most convincing evidence starting with the distribution and density of galaxies. The distribution and density of galaxies is the very most convincing evidence in favor of the Atom Totality and the ruination of the Big Bang theory. The Big Bang cannot explain why the density of galaxies is most dense near these two great walls and yet thins out the further away one gets from these two great walls. The Atom Totality says this density is exactly the same as the dot density of the electron in a electron-dot-cloud for the element plutonium. So as one looks at the Princeton mapping of the two great walls one could easily say they are looking at the electron-dot-cloud pattern of 231Pu atom of its 5f6 electron orbital. Note also the Great Attractor of astronomy in the above Princeton mapping. This is important also since the Nucleus of the Atom Totality is the Great Attractor, where nearby galaxies are all heading and plunging in the direction of the Great Attractor. The Atom Totality predicts that as we penetrate further beyond the Sloan Great Wall that we will find an even denser Wall beyond the Sloan. And the Atom Totality predicts that in the opposite direction of Sloan Great Wall to planet Earth that the number of galaxies thins out enormously. And ditto for the reverse direction. Let me do a sort of diagram of a chemistry textbook dot cloud arrangement of the p orbital or the d orbital or f orbital of an electron. And a line drawn from the nucleus of the atom outward into the electron space has a large density of dots near the nucleus but those dots diminish in density the further this line is drawn. So is there a name for this line in math or physics. That it is dense with dots near the nucleus but tapers off as the distance further away on this line. It would be nice if math or physics has a name for such a density-line. Perhaps gradient is the concept. And the use of that density-line with the Sloan Great Wall and the other Great-Wall is that sometime in the near future will be discovered a further Great-Wall that lies closer to the Nucleus and is sandwiched in between the Sloan Great Wall and the nucleus of the Atom Totality. Let me call this future discovery the Plutonium Great Wall. And this would be the schemata of that discovery: where N = nucleus of Atom Totality, PGW = Plutonium Great Wall, SGW = Sloan Great Wall, GW = Great Wall In the 1990s we had this schemata of the Universe: ??(GW)............................................ ......we in the MilkyWay galaxy Then in 2003 of the discovery of Sloan Great Wall we had this schemata: (SGW) (GW) .....................................we in MilkyWay galaxy Today, I am happy to announce that in the near future there will be further discoveries of even more dense galaxies the closer we observe to where the Nucleus of the Atom Totality 231Plutonium resides and thus our schemata will look like this: (N) (PGW) (SGW) (GW)..............................we in MilkyWay galaxy And, then even more into the distant future we will find an even greater density of galaxies between the Plutonium Great Wall and the Nucleus of the Atom Totality. So what is the math or physics name for a concept of a line which is dense and by increasing the distance from that line the density diminishes. Is the term that I seek "gradient"? Density gradient? And, can the Schrodinger Wave Equation estimate what the density of dots of the electron-dot-cloud should be in the f-orbital of an electron, and would that density match the galaxy density in the Sloan Great Wall, given of course a scaling up. Archimedes Plutonium www.iw.net/~a_plutonium whole entire Universe is just one big atom where dots of the electron-dot-cloud are galaxies |
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distribution and density of galaxies matches dot pattern ofplutonium atom, Chp 10; #179; Atom Totality theory
Archimedes Plutonium wrote:
Chapter 10, the distribution and density of galaxies Referring to this mapp of the cosmos of galaxies and especially the Sloan Great Wall and the other Great Wall http://www.astro.princeton.edu/~mjur...rse/all100.gif This is chapter (10) in this 3rd edition Observational and experimental support (10) density and distribution of all galaxies Of all the books I will write this is my most important one and I suspect this is my most important chapter and should have it perfected sometime in the future in the 4th edition, as I improve it with each new edition. And of all the chapters this is probably my most favorite in that I can see the order of laying out the most convincing evidence starting with the distribution and density of galaxies. The distribution and density of galaxies is the very most convincing evidence in favor of the Atom Totality and the ruination of the Big Bang theory. The Big Bang cannot explain why the density of galaxies is most dense near these two great walls and yet thins out the further away one gets from these two great walls. The Atom Totality says this density is exactly the same as the dot density of the electron in a electron-dot-cloud for the element plutonium. So as one looks at the Princeton mapping of the two great walls one could easily say they are looking at the electron-dot-cloud pattern of 231Pu atom of its 5f6 electron orbital. Note also the Great Attractor of astronomy in the above Princeton mapping. This is important also since the Nucleus of the Atom Totality is the Great Attractor, where nearby galaxies are all heading and plunging in the direction of the Great Attractor. The Atom Totality predicts that as we penetrate further beyond the Sloan Great Wall that we will find an even denser Wall beyond the Sloan. And the Atom Totality predicts that in the opposite direction of Sloan Great Wall to planet Earth that the number of galaxies thins out enormously. And ditto for the reverse direction. Let me do a sort of diagram of a chemistry textbook dot cloud arrangement of the p orbital or the d orbital or f orbital of an electron. And a line drawn from the nucleus of the atom outward into the electron space has a large density of dots near the nucleus but those dots diminish in density the further this line is drawn. So is there a name for this line in math or physics. That it is dense with dots near the nucleus but tapers off as the distance further away on this line. It would be nice if math or physics has a name for such a density-line. Perhaps gradient is the concept. And the use of that density-line with the Sloan Great Wall and the other Great-Wall is that sometime in the near future will be discovered a further Great-Wall that lies closer to the Nucleus and is sandwiched in between the Sloan Great Wall and the nucleus of the Atom Totality. Let me call this future discovery the Plutonium Great Wall. And this would be the schemata of that discovery: where N = nucleus of Atom Totality, PGW = Plutonium Great Wall, SGW = Sloan Great Wall, GW = Great Wall In the 1990s we had this schemata of the Universe: ??(GW)............................................ ......we in the MilkyWay galaxy Then in 2003 of the discovery of Sloan Great Wall we had this schemata: (SGW) (GW) .....................................we in MilkyWay galaxy Today, I am happy to announce that in the near future there will be further discoveries of even more dense galaxies the closer we observe to where the Nucleus of the Atom Totality 231Plutonium resides and thus our schemata will look like this: (N) (PGW) (SGW) (GW)..............................we in MilkyWay galaxy And, then even more into the distant future we will find an even greater density of galaxies between the Plutonium Great Wall and the Nucleus of the Atom Totality. So what is the math or physics name for a concept of a line which is dense and by increasing the distance from that line the density diminishes. Is the term that I seek "gradient"? Density gradient? And, can the Schrodinger Wave Equation estimate what the density of dots of the electron-dot-cloud should be in the f-orbital of an electron, and would that density match the galaxy density in the Sloan Great Wall, given of course a scaling up. Archimedes Plutonium www.iw.net/~a_plutonium whole entire Universe is just one big atom where dots of the electron-dot-cloud are galaxies Are you even human? --Ward Hardman "The older I get the more I admire and crave competence, Just simple competence, in any field from adultery to zoology." - H.L. Mencken |
#3
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distribution and density of galaxies matches dot pattern ofplutonium atom, Chp 10; #179; Atom Totality theory
Ward Hardman wrote:
Archimedes Plutonium wrote: Chapter 10, the distribution and density of galaxies Referring to this mapp of the cosmos of galaxies and especially the Sloan Great Wall and the other Great Wall http://www.astro.princeton.edu/~mjur...rse/all100.gif This is chapter (10) in this 3rd edition Observational and experimental support (10) density and distribution of all galaxies Of all the books I will write this is my most important one and I suspect this is my most important chapter and should have it perfected sometime in the future in the 4th edition, as I improve it with each new edition. And of all the chapters this is probably my most favorite in that I can see the order of laying out the most convincing evidence starting with the distribution and density of galaxies. The distribution and density of galaxies is the very most convincing evidence in favor of the Atom Totality and the ruination of the Big Bang theory. The Big Bang cannot explain why the density of galaxies is most dense near these two great walls and yet thins out the further away one gets from these two great walls. The Atom Totality says this density is exactly the same as the dot density of the electron in a electron-dot-cloud for the element plutonium. So as one looks at the Princeton mapping of the two great walls one could easily say they are looking at the electron-dot-cloud pattern of 231Pu atom of its 5f6 electron orbital. Note also the Great Attractor of astronomy in the above Princeton mapping. This is important also since the Nucleus of the Atom Totality is the Great Attractor, where nearby galaxies are all heading and plunging in the direction of the Great Attractor. The Atom Totality predicts that as we penetrate further beyond the Sloan Great Wall that we will find an even denser Wall beyond the Sloan. And the Atom Totality predicts that in the opposite direction of Sloan Great Wall to planet Earth that the number of galaxies thins out enormously. And ditto for the reverse direction. Let me do a sort of diagram of a chemistry textbook dot cloud arrangement of the p orbital or the d orbital or f orbital of an electron. And a line drawn from the nucleus of the atom outward into the electron space has a large density of dots near the nucleus but those dots diminish in density the further this line is drawn. So is there a name for this line in math or physics. That it is dense with dots near the nucleus but tapers off as the distance further away on this line. It would be nice if math or physics has a name for such a density-line. Perhaps gradient is the concept. And the use of that density-line with the Sloan Great Wall and the other Great-Wall is that sometime in the near future will be discovered a further Great-Wall that lies closer to the Nucleus and is sandwiched in between the Sloan Great Wall and the nucleus of the Atom Totality. Let me call this future discovery the Plutonium Great Wall. And this would be the schemata of that discovery: where N = nucleus of Atom Totality, PGW = Plutonium Great Wall, SGW = Sloan Great Wall, GW = Great Wall In the 1990s we had this schemata of the Universe: ??(GW)............................................ ......we in the MilkyWay galaxy Then in 2003 of the discovery of Sloan Great Wall we had this schemata: (SGW) (GW) .....................................we in MilkyWay galaxy Today, I am happy to announce that in the near future there will be further discoveries of even more dense galaxies the closer we observe to where the Nucleus of the Atom Totality 231Plutonium resides and thus our schemata will look like this: (N) (PGW) (SGW) (GW)..............................we in MilkyWay galaxy And, then even more into the distant future we will find an even greater density of galaxies between the Plutonium Great Wall and the Nucleus of the Atom Totality. So what is the math or physics name for a concept of a line which is dense and by increasing the distance from that line the density diminishes. Is the term that I seek "gradient"? Density gradient? And, can the Schrodinger Wave Equation estimate what the density of dots of the electron-dot-cloud should be in the f-orbital of an electron, and would that density match the galaxy density in the Sloan Great Wall, given of course a scaling up. Archimedes Plutonium www.iw.net/~a_plutonium whole entire Universe is just one big atom where dots of the electron-dot-cloud are galaxies Are you even human? --Ward Hardman "The older I get the more I admire and crave competence, Just simple competence, in any field from adultery to zoology." - H.L. Mencken [honour restored] |
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distribution and density of galaxies matches dot pattern ofplutonium atom, Chp 10; #179; Atom Totality theory
On Nov 13, 7:09*pm, the "RMCReep" troll, posing as
"Ward Hardman, etc" but posting from email address "ward.hardmanaI(AT)gmail.com," via IP Address "88.208.236.35" wrote: [troll trash deleted] The Network Solutions "Whois" facility shows: 88.208.236.35 Record Type: IP Address OrgName: RIPE Network Coordination Centre OrgID: RIPE Address: P.O. Box 10096 City: Amsterdam StateProv: PostalCode: 1001EB Country: NL And the RIPE Network's own internal "Whois" facility shows: inetnum: 88.208.236.0 - 88.208.236.255 netname: FASTHOSTS-UK-NETWORK descr: UK's largest web hosting company based in Gloucester descr: England country: GB admin-c: MW8691-RIPE tech-c: GD8691-RIPE status: ASSIGNED PA "status:" definitions mnt-by: AS15418-MNT remarks: report abuse to remarks: All reports via other channels will be ignored. remarks: INFRA-AW source: RIPE # Filtered person: Mark Wood address: Fasthosts Internet Limited address: Suite 7, Discovery Court address: 154 Southgate Street address: Gloucester, GL1 2EX phone: +44 1452 541251 fax-no: +44 1452 541633 nic-hdl: MW8691-RIPE mnt-by: AS15418-MNT source: RIPE # Filtered person: George Daly address: Fasthosts Internet Limited address: Discovery House address: 154 Southgate Street address: Gloucester, GL1 2EX phone: +44 1452 541251 fax-no: +44 1452 541633 nic-hdl: GD8691-RIPE mnt-by: AS15418-MNT source: RIPE # Filtered % Information related to '88.208.192.0/18AS15418' route: 88.208.192.0/18 descr: FasthostInternet Ltd origin: AS15418 mnt-by: AS15418-MNT source: RIPE # Filtered This is a FAKE "Ward Hardman." (The real one posts out of California, USA.) The "RMCReep" troll is a REAL sexual pervert. His favorite topic is zoophilic sex with farm animals. - Anti-Troll-01 |
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