Talk:Isotopes of polonium

Latest comment: 20 days ago by AndrewLakes in topic Incorrect Decay Modes

210Po toxicity

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One microgram is not enough to kill anyone. I estimate the committed dose to a 91 kg man for a microgram of 210Po would be around 0.08 Sv. That would not be enough to kill anybody. However a milligram would work just fine. It would deposit a committed 4 Gy dose equivalent to 82 Sv. The lethal quantity of one microgram should be changed in the text.
This was calculated using the half-life of 210Po, the biological half-life of 50 days, and the absorption into the body of about 75% of that ingested.Pionade (talk) 16:00, 7 November 2014 (UTC)Reply

The RSC article on Po210 indicates a fatal dose of a microgram, not a milligram. Since the dose has now been altered to a milligram in the article, should not the relative toxicity compared to cyanide be edited down to 250, not 250000? Chrisj1948 (talk) 17:09, 31 July 2015 (UTC)Reply

Po-210 Specific Activity

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Po-210 has a half life 4223 times shorter than Ra-226 (365.25/138.376)*1600. So that a certain number of atoms say 2.868E+18 (1mg) would produce the same decay rate (166.3GBq) as 1.211E+22 (4.546g) Ra-226 atoms. This checks C. R. Hammond's value given in the Handbook of Chemistry and Physics (as 5g). Darian2 (talk) 23:06, 2 October 2012 (UTC)Reply

Z column

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The Z column in the table is redundant. By definition, the polonium nucleus contains 84 protons. Axl ¤ [Talk] 19:18, 31 July 2014 (UTC)Reply

Yes, but what's wrong with a little reminder? Double sharp (talk) 06:14, 25 September 2015 (UTC)Reply
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Magic numbers

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The following discussion is closed. Please do not modify it. Subsequent comments should be made on the appropriate discussion page. No further edits should be made to this discussion.


If Po210 has a magic number of neutrons and Po209 doesn't, then why is Po209 more stable than Po210? 32ieww (talk) 00:18, 19 February 2017 (UTC)Reply

@32ieww: Magic numbers don't tell the whole story. Tin-100 is very unstable despite being doubly magic.--Jasper Deng (talk) 02:23, 1 March 2017 (UTC)Reply
The discussion above is closed. Please do not modify it. Subsequent comments should be made on the appropriate discussion page. No further edits should be made to this discussion.

This is actually an interesting question, since 210Po, unlike 100Sn, falls exactly on the beta-stability line. I suspect this may be due to the loose binding of the valence protons in 210Po; the nucleons forming the alpha particle are also already spin-paired in the decay of 210Po to 206Pb, unlike that of 209Bi to 205Tl, and because this is an even-even decay the decay is not forbidden. Double sharp (talk) 11:31, 21 May 2017 (UTC)Reply

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How to edit the footnotes to the table?

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For example, the line "Bold italics symbol as daughter – Daughter product is nearly stable." cannot be edited by me because I cannot see it when I click on any of the edit links on the article page. Polar Apposite (talk) 17:18, 15 August 2023 (UTC)Reply

The phrase "nearly stable" seems unclear.

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In "Bold italics symbol as daughter – Daughter product is nearly stable.", how about substituting "has an extremely long half-life." or "is for all practical purposes stable" for "is nearly stable"? It's not clear what nearly stable means. It could mean, to some readers, that it has a short half-life due to an unlikely set of circumstances. Polar Apposite (talk) 17:24, 15 August 2023 (UTC)Reply

How to edit the small table title?

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The small table with the title "Isotopes of polonium (84Po)" is actually a table of the three important isotopes of polonium, and so I'd like to edit the title to say something to that effect, but I can't see how to that. Also, would that be a good idea? Polar Apposite (talk) 17:27, 15 August 2023 (UTC)Reply

Alpha decay energies of isotopes of polonium

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Isotopes Alpha decay energy (MeV) Note
186Po 8.50
187Po 7.97
188Po 8.08
189Po 7.69
190Po 7.69
191Po 7.49
192Po 7.32
193Po 7.12
194Po 6.99
195Po 6.70
196Po 6.66
197Po 6.38
198Po 6.31
199Po 6.07
200Po 5.98
201Po 5.80
202Po 5.70
203Po 5.50
204Po 5.48
205Po 5.32
206Po 5.33
207Po 5.22
208Po 5.22
209Po 4.98
210Po 5.41 Beta-stable with 126 neutrons
211Po 7.59 Beta-stable with 127 neutrons
212Po 8.95 Beta-stable with 128 neutrons
213Po 8.54 Beta-stable with 129 neutrons
214Po 7.83 Beta-stable with 130 neutrons
215Po 7.53
216Po 6.91 Beta-stable with 132 neutrons
217Po 6.66
218Po 6.11
219Po 5.91
220Po 5.37
221Po 5.11
222Po 4.61
Continutation according to this table:
Isotopes Alpha decay energy (MeV)
173Po 11.12
174Po 10.78
175Po 10.26
176Po 10.21
177Po 10.22
178Po 9.87
179Po 9.47
180Po 9.34
181Po 9.17
182Po 8.87
183Po 8.63
184Po 8.55
185Po 8.39
186Po 8.29
... ...
222Po 3.42
223Po 2.94
224Po 2.68
225Po 2.50
226Po 2.23
227Po 2.01
228Po 1.82
229Po 1.70
230Po 1.46
231Po 1.23
232Po 1.12
233Po 1.02
234Po 0.82
235Po 0.57
236Po 0.44
237Po 0.20
238Po -0.06
239Po -0.35
240Po -0.41
241Po -0.36
242Po -0.67
243Po -0.93
244Po -1.03
129.104.241.218 (talk) 06:17, 15 March 2024 (UTC)Reply

Possible double beta minus decay of 216Po

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216Po is potentially capable of double beta minus decay, although the estimated half-life should be very long. 129.104.241.214 (talk) 11:35, 28 November 2023 (UTC)Reply

Do you have a source for this statement? Dirac66 (talk) 22:28, 28 November 2023 (UTC)Reply
Nothing special. It's just a comparison of the mass of the two nuclides. 129.104.241.242 (talk) 04:12, 29 November 2023 (UTC)Reply
Wikipedia would only include that sort of prediction if it were published in the scientific literature. Otherwise we would be doing original research without reliable sources, which is not allowed. See WP:NOR. Dirac66 (talk) 02:06, 30 November 2023 (UTC)Reply
OK, thanks for your reply. 129.104.241.214 (talk) 02:39, 30 November 2023 (UTC)Reply
It is listed in this source. Double sharp (talk) 08:39, 13 December 2023 (UTC)Reply
@Double sharp. Thank you for this source. I have now added this information as a comment below the List of isotopes. We could insert the comment instead in the line for 216Po, but I was not able to figure out how to do that. Dirac66 (talk) 22:38, 24 December 2023 (UTC)Reply
It seems that we can't insert a reference into a comment line. 129.104.241.214 (talk) 21:29, 27 December 2023 (UTC)Reply
I've directly added this to the table because the double beta minus decay of 216Po is already mentioned in NUBASE2020. 129.104.241.214 (talk) 14:35, 28 December 2023 (UTC)Reply

212Po as a naturally existing nuclide

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212Po has the shortest half-life (294.4 ns) and highest decay energy (8.95412 MeV) among the decay products of primordial 232Th, 235U, 238U. 214Rn has larger decay energy (9.2084 MeV), but it does not exist in nature.

212Po is followed by 215At (100 μs), 214Po (164.3 μs), 215Po (1.781 ms), 218Rn (35 ms), 216Po (145 ms), 211Po (511 ms) among the decay products.

212Po is very similar to 8Be as α + doubly-magic nuclei that have the lowest energies (so they look stable a priori) and yet are the least stable among their isobars (8He and 212Pb are more stable by respectively 15 and 11 orders of magnitude). 129.104.241.242 (talk) 10:39, 4 December 2023 (UTC)Reply

I now have a strong urge to salute Otto Hahn for identifying 212Po as far back as 1906. O_O Double sharp (talk) 13:54, 28 December 2023 (UTC)Reply
Agreed :) 129.104.241.214 (talk) 14:36, 28 December 2023 (UTC)Reply

Why would NUBASE not list the 8+ state of 212Po as an isomer?

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Its half-life is 14.6 ns, so it qualifies to be an isomer. 129.104.241.242 (talk) 03:05, 3 May 2024 (UTC)Reply

According to page 030001-2 of NUBASE2020, only isomers with half-life >100 ns will be listed. Nucleus hydro elemon (talk) 04:51, 3 May 2024 (UTC)Reply
Ah, thanks! 129.104.241.242 (talk) 12:58, 3 May 2024 (UTC)Reply
A convention not very fair for 212Po: the g.s. half-life is only 294.4 ns, so 14.6 ns is not so short for deserving its own place in the isotope table. In fact, considering the alpha intensity of 3%, this isomer has even longer alpha half-life than the ground state :) 2A04:CEC0:10F4:BE6A:84C0:A2B0:36F4:AFE6 (talk) 17:08, 7 May 2024 (UTC)Reply
Unfortunately, if we add this isomer of 212Po, we also have to add a 89.3 ns state of 19F, a 21.8 ns state of 98Mo, a 35 ns state of 145Pm, a 35 ns state and a 78 ns one of 151Sm, a 25.6 ns state of 161Dy, a 18.7 ns state of 212At, many states of 212Rn, and a 42 ns state of 243Cm. 14.52.231.91 (talk) 00:17, 16 August 2024 (UTC)Reply

Double alpha decay of 212Po

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Page 7 of this article mentions 7.3×1010 years as half-life of symmetric double alpha decay of 212Po. 14.52.231.91 (talk) 01:39, 16 August 2024 (UTC)Reply

These are theoretical predictions for a decay mode which has never been observed in any nucleus. –LaundryPizza03 (d) 02:26, 28 August 2024 (UTC)Reply
Of course, sorry if I meant the slightest indication of the contrary. 14.52.231.91 (talk) 09:05, 28 August 2024 (UTC)Reply

Incorrect Decay Modes

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The decay modes show a few instances of β+ (combined electron capture positron emission) with Po-206, Po-209, but NuDat3 does not contain datasets showing e+ positron emission, only electron capture upon spot checks. See NuDat3 Decay Radiation for Po-206, for instance. AndrewLakes (talk) 18:36, 30 October 2024 (UTC)Reply