Difference between revisions of "Talk:2100: Models of the Atom"
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We can assume that in the 538 model the statistics was done on atoms comprising few Hydrogene, e.g. only the earth's mantle. In heavier elements the ratio n/p > 1. Sebastian --[[Special:Contributions/172.68.110.70|172.68.110.70]] 07:39, 18 January 2019 (UTC) | We can assume that in the 538 model the statistics was done on atoms comprising few Hydrogene, e.g. only the earth's mantle. In heavier elements the ratio n/p > 1. Sebastian --[[Special:Contributions/172.68.110.70|172.68.110.70]] 07:39, 18 January 2019 (UTC) | ||
| − | What are the numbers? Is 173 an error for 137, the fine structure constant? | + | What are the numbers? Is 173 an error for 137, the fine structure constant? [[User:Sabik|Sabik]] ([[User talk:Sabik|talk]]) 10:36, 18 January 2019 (UTC) |
Revision as of 10:36, 18 January 2019
No mention of the Platonic solid model? DanielLC (talk) 05:56, 18 January 2019 (UTC)
Not yet. My favorite of those 5 is the double cube, AKA the Octahedron. Haph (talk) 06:35, 18 January 2019 (UTC)
- My good sir DanielLC: I presume that Randall neglected to mention it because the first evidence-based atom theory didn't come until 1810 and John Dalton. The atom theories of the ancient Greeks were mostly philosophical posturing, in my opinion.
- We seem to be missing the [Acorm Atom] as well. Kazzie (talk) 10:16, 18 January 2019 (UTC)
According to [lecture notes by the astronomer Neil Trentham], mass in the universe ist 75% H (mostly 1p+0n=1) and 25% He (mostly 2p+2n=4). As He is 4 times as heavy and 3 times as seldom, there is 12 times more H than He => The ratio n/p is 1/7. We can assume that in the 538 model the statistics was done on atoms comprising few Hydrogene, e.g. only the earth's mantle. In heavier elements the ratio n/p > 1. Sebastian --172.68.110.70 07:39, 18 January 2019 (UTC)
What are the numbers? Is 173 an error for 137, the fine structure constant? Sabik (talk) 10:36, 18 January 2019 (UTC)
