2719: Hydrogen Isotopes - Revision history

82.132.238.245: /* Explanation */ Doing a search, and most results of "tetartium" point to pages on or regerencing this very wiki, the top-ranked site being yet another fan-type wiki. There seems no official wish (or need) to name Hydrogen-4 in an official manner.

2026-03-05T13:29:07Z

‎Explanation: Doing a search, and most results of "tetartium" point to pages on or regerencing this very wiki, the top-ranked site being yet another fan-type wiki. There seems no official wish (or need) to name Hydrogen-4 in an official manner.

112.200.231.5 at 08:41, 5 March 2026

2026-03-05T08:41:15Z

1234231587678 at 17:23, 18 March 2024

2024-03-18T17:23:53Z

Xurkitree10: /* Explanation */

2023-01-22T19:03:14Z

‎Explanation

172.70.91.78: /* Explanation */ unnecessary comma

2023-01-09T21:37:59Z

‎Explanation: unnecessary comma

162.158.90.102: /* Explanation */ move more anchor

2023-01-09T17:43:46Z

‎Explanation: move more anchor

162.158.90.102: /* Explanation */ move anchor text

2023-01-09T17:42:41Z

‎Explanation: move anchor text

172.69.33.45: /* Explanation */ basically always

2023-01-09T17:41:11Z

‎Explanation: basically always

172.70.214.243: /* Explanation */ unnecessary comma

2023-01-09T17:39:10Z

‎Explanation: unnecessary comma

172.70.214.242: /* Explanation */ Oxford comma flows better here

2023-01-09T17:38:30Z

‎Explanation: Oxford comma flows better here

@@ Line 51: / Line 51: @@
 The title text provides three other names for Oops, All Neutrons:
-# "Neutral Quadrium": {{w|Isotopes_of_hydrogen#Hydrogen-4|Quadrium}} is the extremely rare artificial isotope tetartium, with a proton and three neutrons.[https://www.chem.ccu.edu.tw/~hu/Web_Lib/articles/Muonium+H2_Science_2011.pdf][https://www.lenr-canr.org/acrobat/GodesRcontrolled.pdf] The proton and electron have been replaced with neutrons.
+# "Neutral Quadrium": {{w|Isotopes_of_hydrogen#Hydrogen-4|Quadrium}} is the extremely rare and unstable artificial isotope (with the possible 'real' Greek-rooted name of "tetartium") that has a proton and three neutrons.[https://www.chem.ccu.edu.tw/~hu/Web_Lib/articles/Muonium+H2_Science_2011.pdf][https://www.lenr-canr.org/acrobat/GodesRcontrolled.pdf] But, here, the expected nucleic proton and orbital electron (both charged, but exactly cancelling each other out in a normal neutral atom) have been replaced with (or merged into) a neutron located ''in the electron's shell''.
 # "Nydnonen" is the word "hydrogen" with three consonants replaced by the letter 'n' so that it has four of them, representing the four neutrons.
 # "Goth Tritium": All the particles in the depiction are black, resembling typical {{w|gothic fashion}}, and in the same configuration as the particles of tritium.

@@ Line 51: / Line 51: @@
 The title text provides three other names for Oops, All Neutrons:
-# "Neutral Quadrium": {{w|Isotopes_of_hydrogen#Hydrogen-4|Quadrium}} is the extremely rare artificial isotope hydrogen-4, with a proton and three neutrons.[https://www.chem.ccu.edu.tw/~hu/Web_Lib/articles/Muonium+H2_Science_2011.pdf][https://www.lenr-canr.org/acrobat/GodesRcontrolled.pdf] The proton and electron have been replaced with neutrons.
+# "Neutral Quadrium": {{w|Isotopes_of_hydrogen#Hydrogen-4|Quadrium}} is the extremely rare artificial isotope tetartium, with a proton and three neutrons.[https://www.chem.ccu.edu.tw/~hu/Web_Lib/articles/Muonium+H2_Science_2011.pdf][https://www.lenr-canr.org/acrobat/GodesRcontrolled.pdf] The proton and electron have been replaced with neutrons.
 # "Nydnonen" is the word "hydrogen" with three consonants replaced by the letter 'n' so that it has four of them, representing the four neutrons.
 # "Goth Tritium": All the particles in the depiction are black, resembling typical {{w|gothic fashion}}, and in the same configuration as the particles of tritium.

@@ Line 47: / Line 47: @@
 |Oops, All Neutrons
 |Extremely unlikely
-|This fictional form consists of four neutrons, with one orbiting around a group of three. As the existence of {{w|tetraneutron|tetraneutrons}} is still uncertain, their possible configurations are unknown but the depicted configuration is very unlikely given the characteristics of the fundamental forces. The name is probably a reference to an American breakfast cereal called {{w|Cap'n Crunch#Variations|Oops! All Berries}}, which has also been referenced in [[2256]].
+|This fictional form consists of four neutrons, with one orbiting around a group of three. As the existence of {{w|tetraneutron|tetraneutrons}} is still uncertain, their possible configurations are unknown but the depicted configuration is very unlikely given the characteristics of the fundamental forces. The name is probably a reference to an American breakfast cereal called {{w|Cap'n Crunch#Variations|Oops! All Berries}}, which has been previously referenced in [[2256: Bad Map Projection: South America]].
 |}

← Older revision		Revision as of 19:03, 22 January 2023
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	==Explanation==		==Explanation==
−	~~{{incomplete\|Created by a BREAK ROOM DE BROGLIE MICROWAVE USER. Do NOT delete this tag too soon.}}~~
−
	{{W\|Hydrogen}} is the simplest of the chemical atoms, usually consisting of an electron orbiting a lone proton, but it has two other naturally occurring {{w\|isotope}}s. This comic shows real and humorously fictional forms of hydrogen, generally depicted according to the {{w\|Discovery of the neutron#Proton–neutron model of the nucleus\|Chadwick model}} of the atom; see [[2100: Models of the Atom]] for details.		{{W\|Hydrogen}} is the simplest of the chemical atoms, usually consisting of an electron orbiting a lone proton, but it has two other naturally occurring {{w\|isotope}}s. This comic shows real and humorously fictional forms of hydrogen, generally depicted according to the {{w\|Discovery of the neutron#Proton–neutron model of the nucleus\|Chadwick model}} of the atom; see [[2100: Models of the Atom]] for details.

@@ Line 41: / Line 41: @@
 |Instant hydrogen (ready in 15 minutes)
 |Yes, but rare[https://radioactivity.eu.com/phenomenon/neutronic_radiation]
-|This is just a single neutron. An unbound neutron will decay into a proton, an electron, and an antineutrino after a mean lifetime of just under fifteen minutes. While the free proton is technically a positive hydrogen ion, the emitted proton and electron will only form into an atom together [https://van.physics.illinois.edu/ask/listing/1207 about four times in a million]. The name is likely a reference to "instant" food, such as noodles, which are reduced for convenience and can be quickly reconstituted when required.
+|This is just a single neutron. An unbound neutron will decay into a proton, an electron and an antineutrino after a mean lifetime of just under fifteen minutes. While the free proton is technically a positive hydrogen ion, the emitted proton and electron will only form into an atom together [https://van.physics.illinois.edu/ask/listing/1207 about four times in a million]. The name is likely a reference to "instant" food, such as noodles, which are reduced for convenience and can be quickly reconstituted when required.
 |-
 |Hydrogen (maximum strength)

@@ Line 45: / Line 45: @@
 |Hydrogen (maximum strength)
 |No
-|This fictional isotope consists of an electron, a proton and [https://imgs.xkcd.com/comics/hydrogen_isotopes_2x.png what appear to be at least 15] neutrons. The heaviest {{w|Isotopes of hydrogen#List of isotopes|hydrogen isotope known}} at present is <sup>7</sup>H, with six neutrons. All isotopes heavier than <sup>3</sup>H decay almost immediately, most likely by {{w|Nuclear drip line|dripping}} neutrons and emitting a large amount of energy. "Maximum strength" may be a reference to over-the-counter medicines that contain the largest permitted quantity of active ingredients.
+|This fictional isotope consists of an electron, a proton and [https://imgs.xkcd.com/comics/hydrogen_isotopes_2x.png what appear to be at least 15 neutrons]. The heaviest {{w|Isotopes of hydrogen#List of isotopes|hydrogen isotope known}} at present is <sup>7</sup>H, with six neutrons. All isotopes heavier than <sup>3</sup>H decay almost immediately, most likely by {{w|Nuclear drip line|dripping}} neutrons and emitting a large amount of energy. "Maximum strength" may be a reference to over-the-counter medicines that contain the largest permitted quantity of active ingredients.
 |-
 |Oops, All Neutrons

@@ Line 21: / Line 21: @@
 |Hydrogen
 |Yes
-|Hydrogen-1 is the most common isotope of hydrogen, with one proton and one electron, ordinarily depicted with the electron orbiting the central proton. It is also occasionally known as protium.
+|Hydrogen-1 is the most common isotope of hydrogen, with one proton and one electron, depicted with the electron orbiting the central proton. It is also occasionally known as protium.
 |-
 |Deuterium