This Element Doesn't Fit the Periodic Table

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What I was most surprised to learn is that H+ ions are literally just a single proton floating around like “look at me, I’m an atom too!”

"There are at least three credible places you can stick it" will be my new fave insult.

Feels like the periodic table is like a Mercator projection and Hydrogen is at one of the poles.

It reminds me of the argument about whether or not 1 is a prime number

Hydrogen should be all on its own IMO. Being a single proton makes it extremely unique and more over it's a primordial element.

I've heard of sticking with both the alkali metals and the halogens, never with group 14. But when you say the outer shell is half full in both, then it makes sense.

Its probably worth noting that the properties of a chemical metal actually come from electron degeneracy which is a function of both temperature pressure and technically electron density. To get a metal you just need there to be more electrons than can/will settle into an energetically stable energy configuration. If you change the temperature and pressure within the equation of state this will allow you to change the properties of an element making nearly every element able to behave as a metal for example. The metallic luster, the high thermal and electrical conductivities, and even the near incompressibility are all properties of the Fermi sea that forms around a metal.
On that note the element Beryllium also breaks a bunch of rules namely that it really only behaves as a metal in a pure state otherwise it prefers to bond covalently and has a strong grip on its valence electrons second only to Helium which makes sense when you realize it has two full s orbital shells.
It should be noted that Florine is only the most electronegative element in its electrically neutral valence state Helium and Neon are the two most electronegative elements if missing a valence electron able to basically steal an electron from anything else on the periodic table. This is one of the ways alpha particles cause so much damage as they more or less steal the first two electrons they come across. Nothing but Helium can steal an electron from helium if you want to ionize Helium you need to use high energy ionizing radiation. Helium also has a net spin state of zero meaning it tends to act like a boson particularly under low temperatures. So rule breaking is pretty much a thing for all the really light elements.

Many years ago, when I was first learning Science (1965), the Noble gases were classified into Group 0 (at that time, there were VERY few compounds of these gases, so their valency was believed to be 0). Later, this was changed to Group 8, now 18. So now we have an unused Group 0. Put both Hydrogen and Helium in there, since Helium does not completely share the properties of the Inert - sorry - Noble gases and stick them top middle. This should at least keep the astronomers happy...

Hydrogen walks into a bar and asked sodium hypobromite for a date. Sodium hypobromite said: NaBrO.

"There are at least three credible places that you can stick it". Wasn't expecting that this time of night...! 🤣

3:22 my chemistry teacher went one better - he turned the lights off, dropped MAGNESIUM into a beaker of water, and warned us to not look directly at the beaker because the blindingly white flashing light could literally blind us - just not in that order X-D
This guy also lit a hydrogen balloon on fire with a candle that he had glued onto the end of a meterstick - in the classroom, no less - and placed a certain chemical which reacts spectacularly with hydrochloric acid into a beaker of hydrochloric acid and some carcinogenic dish soap (leftover from before the government banned carcinogenic soaps and the school stopped using it for cleaning), placed a ceramic jack-o-lantern over it, and said, "this is why you don't eat the chemicals" (paraphrasing) as the jack-o-lantern vomited so hard it came out its nose and eyes! Loved this guy!

I always liked checking the different versions of the periodic table, and the one thing that always stood out to me is just how... nobody would (or could, even) agree where to place hydrogen. My favourite by far was the one version that just gave up and put it literally *_on the border_* (on the top left corner), a little away from all other rows and columns of the table.

I think we should treat hydrogen like an element of it's own class. No one element is exactly like it, and is the first element, the building block if you will. Slap it up in the middle above the rest, on it's own, in it's singular superiority.

Giving up and letting graphic designers "do their thing" is also why we often end up with Lutetium and Lawrencium, which are transition metals, being stuck out there with the Lanthanides and Actinides. Although unlike Hydrogen, there isn't an accompanying debate concerning their chemical properties.

My wife says ,when I'm in my element . I don't belong either.

The periodic tables back when I was doing high school chemistry just had hydrogen sitting above left of fluorine to show that it was kind of similar to the halogens but not the same. Something else to note is that the transition metals (the light pink in your periodic chart) and the lanthanide and actinide series don't really behave in a periodic fashion either. And one final thing, the electron shells are actually probability orbits and are usually shaded in a particular way with the darker areas being where the electrons are most likely to be if you were to look for them at any particular point in time.

Rather than moving Hydrogen, I'd suggest moving the noble gases to the left of all the alkali metals. It'd be like starting to count from zero instead of counting from 1 - when you consider the nobles as fully empty s orbital, not a full p orbital. Then H is all alone, which it really should be.
This makes sense with thr many wrap-around depictions of the Table also.

I'm certain I was never taught the periodic table's meaning/purpose; I just learned more than I did in 5 years of secondary school.

Great episode. I
I've seen that chart many times and tried to figure out why things are where they are. You've given me whole year of chemistry in 8 minutes. This will also be one I'll come back to when I get confused about something. Thanks so much for stuffing my brain with more stuff.

"There are at least three credible places you can stick it." is a great nerdy clap back.

The placement of Hydrogen in Group one is based on its electron configuration rather than its metallic characteristics. The term 'Alkali Metals' would seem to serve as a collective nickname for the elements within the group, as it highlights the obvious (their shared characteristic of forming alkaline solutions when reacting with water), but even if Hydrogen doesn’t exhibit such a trait, it doesn’t discount it from the group, as the actual name for the group is just 'group one'.
I could, of course, be wrong, but that's my interpretation on this matter.

In astronomy, anything besides hydrogen and helium is considered a metal.
Also the shells are Hamiltonian for the Schrodinger equation, which gets messier as you add more protons
Edit: matthewhafner in the comments pointed out that the Hamiltonian gets messy beyond h-1 (1 proton and 1 electron) as adding anything else creates a n-body problem which has to be solved numerically

6:14 Awesome Video! I do want to mention however that on this periodic table you are missing the most recent additions that have been known for a few years now, like Oganesson being element 118, etc.

Very good topic. Bravo. Its good to see Scishow still has unexplored topics 🎉

My perspective, understanding and knowledge of these dynamics all really just took a big bump upwards, with this breakdown/elucidation - BIG thanks for this gem. 👍

What about a big merged cell like a whole line of H
Is this just a formatting problem? 🙆🏻‍♂️
Rules of the table mean that H has to go before everything else so a line maybe dashed border ☺️
Edit: this would be above He

"There are at least three credible places you can stick it"

That graphic of the periodic table at 1:00 confirmed that I'm not just gaslighting myself, within my 18 yearlife there did in fact use to be a bunch of elements without names

3:12 yeah no my hs chemistry teacher ignored our complaints about the classroom smelling like gas and left us unattended when lighting Bunsen burners… surprised nothing ever went wrong in that class

As someone in chemistry teachers education, i was physically hurt by the graphic at 1:52, please fix that, it gives a very wring impression of how ionic compounds work and is a mental picture we actively want to prevent!
Arguing for including it in the halogen group on the bounds that it "can form an H- Ion" is also bizarre. Hydrogen barely ever does that, and even Sodium *can* form a negative Ion. The chemical behaviour argument is way more solid imo

We did a project in high school AP chemistry where we re-arranged the Periodic table into a more circular, spiral shape, with hydrogen at the center. Which allowed hydrogen to be connected to all three groups.

This is something I remembered from elementary school, but completely forgot the details.
It was great to be reminded of, so thank you!
Great video!

“There are at least three credible places you can stick it.”
That’s what she said.

Thanks!

"There are 3 credible places you can stick it" lol,that made me giggle

In 8th grade I objected to dissociation of water, complaining that H+ is a subatomic particle. Mr Rose studied me carefully for a moment then proceeded to explain about the Hydronium ion. Made an impression on him, he took me far beyond the regular lessons LOL.

You guys should do a video on neutronium. The former(?) Element Zero

Only now does it finally occur to me why it's called a _periodic_ table. The repeating pattern of of the orbitals.

SciShow is one of my favourites. Great science, explained well. 👍

I have always thought that helium was the element in the wrong position.

Hey SciShow, can you do a video about the alternate types of graphics for organizing the elements?

"There are at least three credible places you can stick it."
- Hydrogen, the rudest crudest element

The real reason it’s in the very top-left corner is because it would look ugly anywhere else.

I wonder if the periodic table will have to change shape to more of a circular design around the hydrogen? Or some other arrangement.

I love how humans keep trying to define the universe and it keeps defying definition.

Hydrogen moment

Fantastic video

And I continue to love your flamingo shirt!

Well, not to mention humorously, done!

This video reminds me of why I struggled with chemistry so much.

That's because there's room for two electrons in the s shell, and six electrons in the p shell... and ten in d, and fourteen in f. So Hydrogen, with one out of two electrons, has one extra from zero (like lithium), is missing one from two (like fluorine) and has as many extra as it is missing, since one is half of two (like carbon, because four is half of eight, two plus six, because the s and p shells are both going in its row). The d shell makes the transition metals, and the f shell makes the rare earths, so it's not like the shape of the periodic table only changes for Hydrogen.

Nice video, but a couple of comments (from a chemist): (1) There is really no such thing in chemistry as a H+ ion floating around, as that would be simply a proton. What we call "hydrogen ions" are usually solvated species. e.g. a "hydrogen ion" attaches itself covalently to a water molecule to form a hydronium ion, H3O+. (2)The periodic table is organized into blocks, according to where the outermost electron is found. The alkali and alkali earth metals are in the "s" block, the transition elements are in the "d" block, the lanthanides and actinides are in the "f" block, and the (mostly) non-metals to the right of the table are in the "p" block. The misfit is not so much hydrogen as it is helium. Helium is usually lumped with the other "inert gases" because it is, well, inert. But Ne, Ar, Kr, etc are p-block elements, whereas helium has no p-electrons: its electron configuration is 1s2. One could then argue that if H (1s1) is to be placed above lithium (2s1) based on electron configuration, then helium (1s2) should be placed above beryllium (2s2) beside hydrogen in the s block.

@SciShow - while I know a little humour should be allowed: What is going on with elements 110 to 115 @1:00 in this video?

I have a doctorate and even though I knew what he was going to say, I came just to close my eyes and listen to white Neil DeGrasse Tyson

I love and absolutely want that Flamingo Shirt.

It’s just organized by energy level and orbitals. Hydrogen is the least filled 1s valence element, so it’s on the left. Helium is the most filled 1s valence element, so it’s on the right. The trends on the table are helpful but the placements are not due to extrinsic properties of the elements

Fits perfectly. The beautiful symmetry of one proton and one electron is a very belonging element at the beginning that we see how it's symmetry is broken with all its isotopes and all other elements following it. Hydrogen is the mother of Periodic table

Hydrogen is the single duplo block. You can pit it anywhere.

If you layed on a big concrete block that was on top of 100 mattresses, would it be softer than laying on the concrete on the ground? You would still be laying on concrete so would you feel lighter on the one with the mattresses underneath?

I mean, these are just combinatorial problems in a way. the s-Orbital is special in that there is only one "orientation" of it (it's spherically symmetric, so the corresponding orientation is just "does not apply") so there are fewer possibilities than for all higher orbitals which *do* have multiple possible orientations (px, py, pz for the next shell, each orthogonal to the others)
In terms of electrons, hydrogen is sorta its own opposite partner (in the same sense as, like, Lithium and Fluorite being opposite, one loving to give away its electron, the other being super electron greedy) which also is why it ends up *in the middle* between those two groups in terms of how much it likes to give or take electrons.
It's "more symmetric" than all other atoms in that combinatorial sense, so there are fewer *unique* ways of connecting up to it than with anything else.
So imo the "right" answer would essentially be a Venn-diagram between those three groups, where there are *no* elements in two groups (those parts of the venn are just empty) but hydrogen is in the middle with all three.
Of course, that's tricky to design for in an otherwise really neat table. Though I like the fully expanded helical wraparound version of that table. Perhaps in that version, which is embedded into 3D space anyways, the hydrogen atom could essentially "cap off" the top of that table such that it's connected to all three groups.

Solution: Put hydrogen in the middle and colour it in 3 different colours to show that it can be in the alkaline halogens and carbon groups.

Hydrogen is under no obligation to make sense to us.

I lol'd at "electrons fill the shells in specific patterns". Back in the school my chemistry teacher, a retired researcher, taught me a "bus seating rule" which perfectly described these specific patterns. Later at the university, during the quantum mechanics crash course, I got very ill and spent almost a month recovering. So our prof decided to get me up to speed during the lab, she called me to the chalkboard and tasked me with finding out the electronic formula of Thorium.
I had no idea in the slightest how to, but after a quick look at the periodic table in the lab I remembered my chemistry classes and, with a little bit of math just wrote the damned formula down. The prof was shocked, then she complained about "those blasted chemists who just can't learn" and we spent till the end of the class solving equations to come to the same formula. She also demanded me to teach her this "bus seating rule". I came out of that class feeling enlightened. Good times.

Thanks, I will use this vider as a revision of Periodicity in elements

I AM SO SORRY TO TELL YOU, THIS VIDEO HAS 56 VIEWS AND I AM NOT FIRST!!

So the stick that is (in the graphic)vbetween the elements is a bond, which is the sharing of an electron between the two? The swapping on electrons must also be simultaneous as well, because taking an electron out of the atom produces certain reactions, such as radiation etc.

Hydride ions are fairly rare, as chemists do experiments where water is a solvent or reagent, in which case we're talking about H+ (the hydrogen ion or Brønsted-Lowry acid ion). However, it is correct that hydrogen is the odd man out as it only has one orbital to fill electrons; the 1S orbital. However, hydrogen alone can act as an acid or base, and often is found with period 2 non-metal atoms with covalent bonds; beryllium hydride (BeH2), methane; CH4, ammonia NH3, water H2O and the extremely potent mineral acid, hydrofluoric acid HF. The weird thing is that the extremely common water is quite stable and relatively unreactive next to highly caustic ammonia and the even more powerfully reactive (and dangerous to handle) hydrofluoric acid. Hydrogen is by far the most abundant atom in your body and the most abundant element in the universe.

I'm not convinced hydrogen is an element. It's a lone, wandering proton that picked up an electron buddy (which is very easy to do in our universe). "Hydrogen" is how protons act left to their own devices.

Also carbon. What even is carbon?

I think hovering it above carbon with dotted lines to Groups 1 and 17 makes the most sense functionally but also prolly the lease sense visually. I think hovering over Group 1 (but not touching) makes the most sense visually.

I watched a video a while back that said the original periodic table was more of an expanding spiral, and trying to arrange that into a rectangular grid doesn't fully capture it's relation to the elements around it. I see hydrogen as kinda stretching across the entire periodic table over to helium.

About 01:45
_All chemical reactions are just electrons swapping places._
No. This only holds for the redox reactions where "ox" stands for oxidation i.e. one partner giving electrons partly or wholly away and "red" stands for reduction i.e. another partner taking them partly or wholly.
There are still other reactions like protolysis where protons are exchanged.

Ah, my high school textbook, 20 years ago, had a really crafty solution: H was in the upper period, of course... but it was in the middle, as it was being used as the example of what the different numbers and symbols around each element meant, and so it needed the extra space. And it wasn't centered, so hydrogen didn't quite fall within any group.

Something I’ve learned through my limited years of science is the fact humans greatest weakness is the need to put everything in neat categories.
Hydrogen is the best example. None of us can accept that hydrogen definition without fighting that it’s not mentioning something important.
Science just boils down to “this is the easiest way for us to do something. So that’s how we do it” which is why hydrogen ions (and basic electrons) just show up in every type of science.
Hydrogen deserves its own cataglory. Not because it can’t fit into a single definition, but because we are so obsessed with defining things that hydrogen is limited by our ability to define it.
We need to accept things are multifaceted. And if we need a defintion, we need to describe “this is the practical (insert science) definition” and elaborate on it.

Fact: Schrödinger’s cat was named Hydrogen.

I knew that Hydrogen was both listed sometimes above the Halogens instead of Alkali metals, but I didn’t know people were also suggesting trying to put it above Carbon. It’s definitely a bit weird, but totally makes sense

0:42 I've tried that argument before. Didn't work too well.

Great video. I never heard any of this and I even failed college chemistry.

You had me at "there are three credible places you can stick it."

So due to its monomeric nature, hydrogen is very much a chemical Uno (pun somewhat intended) _wildcard_ - much like the number _one_ is the ground-level mathematical wildcard, the most singular/indivisible ('atomic') constituent - the singular point which/where all integers boil down to/reduce down to, whether we're looking at/defining that "boiling down" in differing terms of _this_ or _that_ characteristic pattern - like, say, maybe the fact of being prime numbers (reducing down to "1"), or the fact of their pattern being one of orders of magnitude (be they geometric or exponential, they all are sets of values which, at their respective minimum quantities, reduce/boil down to "1")... BUT, it's really just that there are certain patterns that our monomeric "1" doesn't fit into - just like hydrogen NOT behaving in a way that makes it able to sit atop just ANY column in that Periodic/behavioral/functional Table - no, only like, 3 columns or whatever... But the point would be that that mere fact is, itself, uniquely damn impressive, MUCH LIKE how impressive it is that the number/value "1" can fit into/form the ground floor of MANY variously-defined patterns of increasing numbers - but ONLY, of course, those patterns/strings/sets of values that are comprised of _whole_ numbers, divisible by _one,_ ALL the way down to "1" itself... And so, like hydrogen, limited to those ("double"-filtered, as it were) remaining patterns (periodic columns).
Anybody vibe with what I'm getting at? Does it make proper sense when looked at that way, I mean? Validate me, here...

Hydrogen is strange for a bunch of reasons but what gets me is that it was the first element. Which forces are responsible that allowed Hydrogen to exist in the first place? Was it just a bunch of subatomic particles that happened to stick in that arrangement? We can easily explain where every element came from, how to change it to another element by slamming more protons and neutrons into it or what it will decay into, but Hydrogen we really aren't sure how that first element came about. I feel we're missing something about its nature.

Actually on my highschool table of elements H and He sat at the top in the middle, like a King and Queen :D

This was really interesting.

The Law of Small Numbers strikes again

I mean it would be kind of weird putting it anywhere else. It should go above all the S orbitals with 1 electron (where it is at). You dont make groups based on properties, the groups are based on orbital configs which happen to give similar properties.

You should use the WQuantum Periodic Table. The 4 parameters that determine the properties of an element: The size of the ion. the charge, relatin between the former anmd finally the type of electon orbital involved.

"You have a whole row! might as well fill all of it yourself!"

if you think of it in a physics perspective, its (at least by my understanding) obvious to put it in column 1 since the periodic table is made based on electron config rather than reactivity

I prefer the idea of H being alone, set apart from the other groups. There’s no sense in trying to cram it in where it doesn’t belong. We can understand it being special because of its status as the simplest of elements.

One of the first things we had to do for AP chemistry was memorize most of the periodic table (think anything after like uranium or lead forget which was basically extra credit) and as the year went on I realized how important it was and yeah, hydrogen is definitely a weird element.

It makes intuitive sense to put it at 14. Hydrogen is just chill like that, and it's closer to its organic buddies.
But I think it belongs in group 1. For chemistry it makes the most sense. It likes going +1 and it's in good company there. Helium is also weird this way, having a full shell but still being in s-block, but for all its behaviours it belongs with the noble gases. That's physics' problem, though.

In the past month I've seen soooooooo many Häagen-Dazs® commercials on CZcams it makes me sick.
I like Häagen-Dazs® just fine, but when they try to shove it down my throat, I protest.

Astronomers have an extremely simple periodic table. There's just 3 groups:
1) Hydrogen
2) Helium
3) Metals
Metals, according to this astronomical group, is any atom with at least 3 protons.
So it seems to me that Hydrogen and Helium are both quite unique elements on the periodic table, with Hydrogen being even more unique than Helium.

you should be doing voice -overs for animated movies

I thought this video would either be about technician (the only isolated radioactive element) or neutonium (atomic number 0 and debatable whether or not it even should be considered an element)

I have a teaching model sized periodic table in my room. It's always gonna be there!!

Seems like the logical solution is to move it to the top center, above all the rest, so that it is obvious it doesn't belong to any group as it is the foundation for all of them.

Hydrogen. Its electron setup is so small that it fits into multiple categories and therefore shows characteristics from different cats.
Lose one electron and you got H+ like alkali metal and gain one you got H- like Halogens. After all the innermost orbit has only 2 vacants.
Comparing it with carbon group is something I don't understand. However due to the double characteristics of hydrogen the link between C and H come in covalent bond instead of ionic bond. You can't really tell C or H actually got that electron but thanks to this specialty this bond is a lot harder to break than other element bonds. You can get rid of the Cl on CH3CH2Cl to make ethylene but you can't do that with ethane. (You can make ethane with ethylene and hydrogen but not in reverse)

Anyone else say "Giggity!" Out loud when he said "There are at least 3 credible places where you can stick it."? 🤔 No...? Just me...? Ok...