Difference between revisions of "3200: Chemical Formula"
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These numbers are large, but they are not nameless. Using the [https://en.wikipedia.org/wiki/Long_and_short_scales short scale] powers of ten number naming system from the game [https://egg-inc.fandom.com/wiki/Order_of_Magnitude Egg, Inc.'s] order of magnitudes, these numbers can be described as: | These numbers are large, but they are not nameless. Using the [https://en.wikipedia.org/wiki/Long_and_short_scales short scale] powers of ten number naming system from the game [https://egg-inc.fandom.com/wiki/Order_of_Magnitude Egg, Inc.'s] order of magnitudes, these numbers can be described as: | ||
| − | * Ten quattuorvigintillion carbon atoms | + | * C<sub>10<sup>76</sup></sub> - Ten quattuorvigintillion carbon atoms |
| − | * One hundred quinvigintillion hydrogen atoms | + | * H<sub>10<sup>80</sup></sub> - One hundred quinvigintillion hydrogen atoms |
| − | * Ten unvigintillion actinium atoms | + | * Ac<sub>10<sup>67</sup></sub> - Ten unvigintillion actinium atoms |
| − | * One duovigintillion silver atoms | + | * Ag<sub>10<sup>69</sup></sub> - One duovigintillion silver atoms |
| − | * One quattuorvigintillion aluminium atoms | + | * Al<sub>10<sup>75</sup></sub> - One quattuorvigintillion aluminium atoms |
| − | * One hundred septillion americium atoms | + | * Am<sub>10<sup>26</sup></sub> - One hundred septillion americium atoms |
| − | * One quattuorvigintillion argon atoms | + | * Ar<sub>10<sup>75</sup></sub> - One quattuorvigintillion argon atoms |
| − | * Ten duovigintillion arsenic atoms | + | * As<sub>10<sup>70</sup></sub> - Ten duovigintillion arsenic atoms |
| − | * One hundred quattuordecillion astatine atoms | + | * At<sub>10<sup>47</sup></sub> - One hundred quattuordecillion astatine atoms |
| − | * One duovigintillion gold atoms | + | * Au<sub>10<sup>69</sup></sub> - One duovigintillion gold atoms |
| − | * One hundred duovigintillion boron atoms | + | * B<sub>10<sup>71</sup></sub> - One hundred duovigintillion boron atoms |
| − | * Ten duovigintillion barium atoms | + | * Ba<sub>10<sup>70</sup></sub> - Ten duovigintillion barium atoms |
| − | * Unknown quantanty of beryllium atoms | + | * Be - Unknown quantanty of beryllium atoms |
==Transcript== | ==Transcript== | ||
Revision as of 21:14, 28 January 2026
| Chemical Formula |
 Title text: Some of the atoms in the molecule are very weakly bound. |
Explanation
|
This is one of 60 incomplete explanations: This page was created by the carbon in the universe . Don't remove this notice too soon. If you can fix this issue, edit the page! |
The supposed "chemical formula for the universe" merely lists the numbers of atoms of each element. As is common practice for real compounds that contain organic structures or substructures, the numbers of atoms of carbon and hydrogen are listed before all of the others; the others are listed in alphabetical order. There are estimated to be 1080 atoms of hydrogen (H), by far the most common element in the universe. The next most common element, helium (He), is a long way to the right in the list, and out of view.
These numbers are large, but they are not nameless. Using the short scale powers of ten number naming system from the game Egg, Inc.'s order of magnitudes, these numbers can be described as:
- C1076 - Ten quattuorvigintillion carbon atoms
- H1080 - One hundred quinvigintillion hydrogen atoms
- Ac1067 - Ten unvigintillion actinium atoms
- Ag1069 - One duovigintillion silver atoms
- Al1075 - One quattuorvigintillion aluminium atoms
- Am1026 - One hundred septillion americium atoms
- Ar1075 - One quattuorvigintillion argon atoms
- As1070 - Ten duovigintillion arsenic atoms
- At1047 - One hundred quattuordecillion astatine atoms
- Au1069 - One duovigintillion gold atoms
- B1071 - One hundred duovigintillion boron atoms
- Ba1070 - Ten duovigintillion barium atoms
- Be - Unknown quantanty of beryllium atoms
Transcript
|
This is one of 40 incomplete transcripts: Don't remove this notice too soon. If you can fix this issue, edit the page! |
- [A long panel with a chemical formula trailing off the right side]
- C1076 H1080 Ac1067 Ag1069 Al1075 Am1026 Ar1075 As1070 At1047 Au1069 B1071 Ba1070 Be
- [Caption below the panel:] The approximate chemical formula for the universe
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I'm disappointed that it wasn't scrollable. 2001:41D0:8:5062:0:0:0:1 20:20, 28 January 2026 (UTC)
- +1 And funny to think that the universe contains less than a few hundred mol of Americium. --2001:16B8:CC03:E100:8552:6543:7CF4:9AE7 20:57, 28 January 2026 (UTC)
- Time for a campaign to Make Americium Greater? 82.13.184.33 09:32, 29 January 2026 (UTC)
If anyone's interested in an accessible resource for getting more data like this, may I suggest https://ptable.com/#Properties/Abundance/Universe (which I believe derives data from IUPAC sources) Dextrous Fred (talk) 20:37, 28 January 2026 (UTC)
surprised to see so much Astatine, he himself declared, that stuff doesnt want to exist so I expected yet a few powers of ten less 2a00:6020:479f:6c00:d587:ac2a:d1e2:26a9 (talk) 21:08, 28 January 2026 (UTC) (please sign your comments with ~~~~)
This does make me curious: how would neutronium be represented in a chemical formula? Or would it be? My impression is it kind of exists 'outside' of chemistry... -Kalil 147.81.60.76 21:12, 28 January 2026 (UTC)
- Neutron stars would be represented with n with various mass numbers. And there are no more than 1 mmol (6.02214076×1020) of neutron stars. 2001:4C4E:1C09:EC00:7932:264E:A9E0:8ED0 21:38, 28 January 2026 (UTC)
What about adding mass numbers? For example, most of the hydrogen is 1H, with small amounts of 2H and trace amounts of 3H. 2001:4C4E:1C09:EC00:7932:264E:A9E0:8ED0 21:38, 28 January 2026 (UTC)
Oh look, it's the 3200th comic! Yay I guess! --DollarStoreBa'alConverse 22:46, 28 January 2026 (UTC)
An unregistered user (198.48.180.159) added a note that the chemical formula "C11H15NO2" (i.e. C11H15NO2) "has 302 registered isomers". I don't know the source for that number or where those isomers are registered. (It's the formula for MDMA, which is, as noted, "not good to eat".) Would that be the CAS registry? BunsenH (talk) 23:20, 28 January 2026 (UTC)
- Don't know if this works, but here's a site that does immediately return 302 compounds: https://pubchemlite.lcsb.uni.lu/compounds?query=C11H15NO2 8.17.60.225 04:19, 29 January 2026 (UTC)
10^26 atoms of americium is about 40 kg. But it looks like humans produced tons of americium: https://isis-online.org/uploads/isis-reports/documents/np_237_and_americium.pdf . If there are other civilizations in the observable Universe, then the amount of americium in the Universe is even higher. So I guess the formula counts only naturally produced elements. But even then it seems underestimated. Alexei Kopylov (talk) 23:45, 28 January 2026 (UTC)
- In everything that I've checked (I expanded the "list of names" into a table), I could not discover any universal quantity of americium that was close to Randall's apparent source. Can't exclude the possibility that artificially nucleogenesis played a part in his figures (while mine are from how much was created 'naturally'), but I've just had to go along with it being a completely wrong figure (for the ultimate universal ranking). Much as boron might be given slightly mismagnituded.
- However, if anyone thinks they have the same source that led to the comic's values (and can reconfirm beryllium's estimated order of magnitude, which is the only reason I decided to start on compiling this amount of extended data, which is actually for all 118 humanly known elements), then you're welcome to correct anything that I left in an incorrect state. 81.179.199.253 00:16, 29 January 2026 (UTC)
...but what if you had a mole of universes? 99.109.3.237 (talk) 00:50, 29 January 2026 (UTC) (please sign your comments with ~~~~)
In the explanation, towards the end of the formula for the universe, it says U₁₀². Would that mean that there are only about 100 uranium atoms in the whole universe? That seems way too low. Did the explainer confuse the powers of 10 with rankings (in reverse)? --208.59.176.206 03:48, 29 January 2026 (UTC)
- I'm not sure where the error came from, but about half the numbers are drastically too low. Remember, a mole is 6.02*10^23. 174.94.104.215 05:34, 29 January 2026 (UTC)
- Fixed. The powers were just in descending order, one by one. The current values reflect the actual amounts, give or take one or two orders of magnitude. --1234231587678 (talk) 06:04, 29 January 2026 (UTC)
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