Top edits to an page
All edits made to a page by one user, in chronological order.
| Page | Alpha particle (Log · Page History) |
| User | Gah4 (Edit Counter· Top Edits) |
| Total edits | 9 |
| Minor edits | 0 (0%) |
| (Semi-)automated edits | 2 (22.2%) |
| Reverted edits | 0 (0%) |
| atbe1 | 77.7 |
| Added (bytes)2 | 61 |
| Deleted (bytes) | -206 |
Minor edits
·
0 (0%)
Major edits
·
9 (100%)
(Semi-)automated edits
·
2 (22.2%)
Manual edits
·
7 (77.8%)
Reverted edits
·
0 (0%)
Unreverted edits
·
9 (100%)
1 Average time between edits (days)
2 Added text is any positive addition that wasn't reverted (approximate)
| Date | Links | Size | Edit summary |
|---|---|---|---|
| 2022-08-31 23:19 | Diff · History | 27 | Undid revision 1107765855 by 130.126.255.180 (talk) Identical particles are a very important part of quantum mechanics. In the case of an alpha particle, after it slows down enough it will find some electrons, and so actually be a helium nucleus. |
| 2021-01-26 13:26 | Diff · History | -100 | →History of discovery and use: they will get electrons as soon as they hit some other atom. The spark is needed to generate the spectrum. |
| 2021-01-26 13:10 | Diff · History | -50 | Undid revision 1002877939 by 41.45.23.228 (talk) ??? |
| 2020-11-24 18:43 | Diff · History | 14 | →Accelerators: make it even more obvious that they are ions. |
| 2020-11-24 18:42 | Diff · History | -53 | →Accelerators: {{clarify}} that this is a naming convention. They are called helium ions, as it says already. (Even though they all originated from alpha decay.) |
| 2020-11-24 18:39 | Diff · History | 2 | ''If'' sounds like there is a question about it. With the high ionization energy, it will grab electrons from whatever is nearby. |
| 2020-11-24 18:23 | Diff · History | -3 | →Mechanism of production in alpha decay: ''certain time'' sounds like there is a specific time, not a probabilistic decay rate. |
| 2020-11-24 18:18 | Diff · History | 18 | →Sources of alpha particles: link Dalton_(unit) |
| 2020-10-02 01:16 | Diff · History | 0 | closer to 4.3, rounds to 4. That is, u is about 931MeV not 1000MeV |
All times are in UTC.