Editing 2913: Periodic Table Regions

{{comic
| number    = 2913
| date      = March 29, 2024
| title     = Periodic Table Regions
| image     = periodic_table_regions_2x.png
| imagesize = 740x501px
| noexpand  = true
| titletext = Cesium-133, let it be. Cesium-134, let it be even more.
}}

==Explanation==
The {{w|periodic table}} is used to arrange {{w|chemical element}}s based on their properties. This comic groups them together into regions with labels humorously reflecting their properties, characteristics, or uses.

=== Table Sections ===

{| class=wikitable
! scope="col" | Section
! scope="col" | Real table
! scope="col" | Elements contained
! scope="col" | Explanation
|-
| Slightly fancy protons || Hydrogen || Hydrogen || Most hydrogen atoms (specifically of the isotope H-1, making up 99.9844% of all hydrogen on Earth) are a proton and an electron. Since the electron can be removed (so only a proton remains) and you can call that a H<sup>+</sup> ion, [[Randall]] calls hydrogen atoms "slightly fancy protons".
|-
| Weird dirt || Lighter alkali and alkaline earth metals || Lithium, Beryllium || Lithium and beryllium, as some of the lightest elements, have unusual properties compared to heavier metals. Lithium, for instance, is the least dense metal on the periodic table, and is used in applications such as [https://www.rsc.org/periodic-table/element/3/lithium rechargeable batteries] and as a {{w|Lithium_(medication)|psychiatric medication}}. Beryllium is both toxic and transparent to x-rays, but also keeps its shape and stiffness over a wide range of temperatures, leading to its use in the primary mirrors of the [https://webb.nasa.gov/content/observatory/ote/mirrors/index.html#3 James Webb Space Telescope]. It was also used in F1, both in brake calipers and {{w|Beryllium#Applications|internal engine parts}}, before being outlawed (due to its toxicity).
|-
| Regular dirt || Middle alkali and alkaline earth metals || Sodium, Magnesium, Potassium, Calcium || Despite being metals, these are listed as "dirt" rather than "metal." Perhaps this is because they are commonly found in dirt, as they are essential nutrients for plant life and for many other forms of life, including humans.
|-
| Ends in a number, let it slumber. Ends in a letter, not much better. || Heavier alkali and alkaline earth metals || Rubidium, Strontium, Cesium<!-- Let's not have an edit war, after all, Randall is American. Also title text's spelling. -->, Barium, Francium, Radium || Highly reactive metals, some of which are commonly used as radioactive isotopes (which are known by a number; e.g. radium-223).<br/>The title text mentions cesium-133 and cesium-134, with the former being the only stable isotope of cesium. The phrase, "cesium-133, let it be," in the title text is a reference to the mnemonic used to remind one how to identify and to avoid {{w|poison ivy}}: "leaves of 3, let it be". Cesium-134 however isn't the most notorious radioactive isotope. That would likely be cesium-137.
|-
| Boring alloy metals. Probably crucial to the spark plug industry or something. (But one of them is radioactive so stay on your toes.) || The left transition metals || Scandium, Titanium, Vanadium, Chromium, Manganese, Yttrium, Zirconium, Niobium, Molybdenum, Technetium, Ruthenium, Hafnium, Tantalum, Tungsten, Rhenium, Osmium || Not actually so boring, but they tend to be used as constituents (sometimes as a small but vital trace) in alloys with specific uses, including {{w|stainless steel}}, {{w|Electric light|bulb filaments}} and {{w|Superconductivity|superconductors}}.<br/>A {{w|spark plug}} may use {{w|austenitic stainless steel}}, which includes chromium and (in some cases) molybdenum, for heat and oxidation resistance.<br/>{{w|Technetium}} is the lightest element that has no stable isotope and is thus radioactive. Technetium is commonly used in medical imaging.
|-
| Regular metals || The top transition metals || Titanium, Manganese, Iron, Cobalt, Nickel, Copper, Zinc, Aluminum<!-- Let's not have an edit war, after all, Randall is American. -->, Silicon || Commonly known metals (and one metalloid, silicon). These all have important uses in construction and other major industries. Titanium is extremly light weight and creates bright white sparks. Iron is a common building material. Its used in almost everything from bridges to buildings. Nickel and Zinc are both found in American coins (Zinc makes up 97.5% of the {{w|Penny (United States coin)|penny}}). Copper is part of Gold's family and is used mostly in wires because of its conducting properties. Aluminum is also extremly light weight like Titanium. Its used in high stress but light weight applications such as bike frames and airplanes. 
|-
| $$$$ || The platinum group || Rhodium, Palladium, Silver, Osmium, Iridium, Platinum, Gold || Rare and highly prized metals. The most expensive of these, osmium, is worth about $1,600 per gram as of when the comic was posted, despite not being appropriate for jewellery due to forming osmium tetroxide upon contact with air, which can irreversibly stain the human cornea, leading to blindness.
|-
| Weird metals || The "ordinary metals" and some transition metals || Gallium, Germanium, Cadmium, Indium, Tin, Mercury || These are more obscure than the other metals (except tin and mercury) and tend to have fewer or more specialized uses. Mercury is also the only metal that is liquid at room temperature, and gallium melts just above that at 30 °C (86 °F). Indium is one of the only metals able to be chewed like bubble gum. This is because it is non-toxic and extremely soft.
|-
| Boron (fool's carbon) || Boron || Boron || Just as like how {{w|pyrite}} is commonly called "fool's gold", Randall calls {{w|boron}} "fool's carbon" due to its similarities in  the way both elements can make stable {{w|covalently bonded}} molecules. Many of boron's {{w|allotropes}} are also analogous with those of carbon.
|-
| You are here || Nonmetals || Carbon, Nitrogen, Oxygen, Phosphorus || Other than hydrogen, these are all the elements required to make {{w|DNA}}, and they make up the majority of atoms in other biological molecules, thus placing you over here.
|-
| Murder weapons || Ordinary metals and metalloids || Arsenic, Antimony, Tellurium, Thallium, Lead, Bismuth, Polonium || Arsenic, thallium, lead, and polonium are highly toxic and have been involved in many notorious poisoning cases. Antimony and tellurium are also hazardous, though to a lesser degree. Lead is also by far the most common metal used for making bullets, for which purpose it may be used by itself or alloyed with other metals (usually a small amount of tin, and an even smaller amount of antimony) and/or coated (most often with copper); for the reason, the term "lead poisoning", while originally referring to long term lead accumulation in the body (also called "{{w|saturnism}}", and known for more than 2000 years) is sometimes used as a euphemism (often with an element of dark humor) for gunshot wounds when discussing someone's cause of death. Bismuth is the odd one out, having little toxicity at all, but it is used in lead-free bullets and shot (although if this is the intention, iron really ought to be included for its own (very common) use in lead-free shot (of the variety commonly referred to as "steel shot"), in addition to its various other lethal uses).
|-
| Safety goggles required || The lighter halogens + some of group 16 || Fluorine, Sulfur, Chlorine, Selenium, Bromine || These elements are highly reactive, so safety goggles are required. Randall has previously mentioned the nasty properties of {{w|bromine}} at room temperature in [https://what-if.xkcd.com/50/ Extreme Boating] and the awful things you can do with {{w|fluorine}} in [https://what-if.xkcd.com/40/ Pressure Cooker].
|-
| Very specific health problems || Iodine and Radon || Iodine, Radon || {{w|Radon}} gas is formed in the radioactive decay series of uranium and thorium, which occur in trace levels in many common minerals. The gravel and concrete used in construction include such minerals, and the radon is released into air via pores and cracks in the stone and concrete. The relatively poor ventilation in underground spaces such as basements and cellars can cause the radon to accumulate rather than being released into the environment. Eventually, the radon itself decays into other elements, which are also radioactive. Radon is chemically very inert and doesn't bind to anything, but it can still be inhaled, and its daughter elements can bind to dust particles. The radioactive materials, when inhaled, can cause damage to cells, especially in the lungs, with lung cancers as a possible long-term consequence. Iodine is a required nutrient that humans need in trace amounts to remain healthy, with an iodine deficiency typically causing thyroid problems such as goitre. Radioactive iodine is easily taken into the body, deliberately to counteract hyperthyroidism (by giving the thyroid gland radiation damage) or uncontrollably due to exposure to material in nuclear fallout/accidents. Giving high doses of 'normal' iodine would ideally flush out the problematic isotope. Even comparing the two radioactive effects, these two specific health problems are entirely unrelated, and it is only by coincidence that they are corner-to-corner on the periodic table.
|-
| Lawful Neutral || Noble gases || Helium, Neon, Argon, Krypton, Xenon || These elements are mostly unreactive, and are referred to as 'noble' as they typically do not associate with other elements. (The first three don't form chemical compounds at all, apart from things like unstable ionic complexes. The other two do form a few compounds, but these are rather difficult to synthesize and are quite reactive.)
Lawful Neutral is a reference to the {{w|Dungeons & Dragons}} alignment chart, which gives moral categories for characters. The chart goes from Lawful to Chaotic on one axis, and Good to Evil on another. Lawful Neutral means following the law without any bias towards Good or Evil, which could be exemplified by the unreactivity of the noble gases. See also: [[2251: Alignment Chart Alignment Chart]].
|-
| Don't bother learning their names – they're not staying long || Astatine and Period 7 from Rutherfordium onwards || Astatine, Rutherfordium, Dubnium, Seaborgium, Bohrium, Hassium, Meitnerium, Darmstadtium, Roentgenium, Copernicum, Nihonium, Flerovium, Moscovium, Livermorium, Tennessine, Oganesson || These elements are hard to produce in large quantities and decay within hours or less... in some cases, milliseconds. (Their names haven't exactly been stable, either, with previous multiple systems of placeholder names. For example, dubnium has been called nielsbohrium, hahnium, joliotium, unnilpentium, and eka-tantalum.)
|-
| Whoever figures out a better way to fit these up there gets the next Nobel Prize || The internal transition metals || Lanthanum, Cerium, Praseodymium, Neodymium, Promethium, Samarium, Europium, Gadolinium, Terbium, Dysprosium, Holmium, Erbium, Thulium, Ytterbium, Lutetium, Actinium, Thorium, Protactinium, Uranium, Neptunium, Plutonium, Americium, Curium, Berkelium, Californium, Einsteinium, Fermium, Mendelevium, Nobelium, Lawrencium|| The {{w|lanthanide}}s and {{w|actinide}}s are usually placed disconnected from the main periodic table, largely because putting then where they "should" be would [https://ptable.com/image/periodic-table-wide.svg make the chart very long]. Other {{w|types of periodic tables}} that arrange the elements exist; with the seventh period filled out the hunt is on for the eighth period which is expected to {{w|Extended periodic table|contain an extra 18 groups (columns)}}, making a redesign even more prudent than ever.
|}

The periodic table of elements has previously been the subject in [[2214: Chemistry Nobel]], [[2639: Periodic Table Changes]], and [[2723: Outdated Periodic Table]].  It is also referred to or indirectly referenced in a number of other comics, such as [[18: Snapple]], [[821: Five-Minute Comics: Part 3]], and [[1052: Every Major's Terrible]].

==Transcript==
{{incomplete transcript|Do NOT delete this tag too soon.}}

:[A periodic table with regions labeled. Regions are marked with shapes that have rounded edges and sometimes a chemical element can be partially in two regions.]

:[Hydrogen:]
:Slightly fancy protons
:[Lithium and beryllium:]
:Weird dirt
:[4 elements below:]
:Regular dirt
:[6 elements further below:]
:Ends in a number, let it slumber
:ends in a letter, not much better
:[Left side of the transition metals group:]
:Boring alloy metals
:Probably critical to the spark plug industry or something
:(but one of them is radioactive so stay on your toes)
:[Most of the top row of the transition metals + aluminum:]
:Regular metals
:[Below the rightmost "regular metals":]
:Weird metals
:[Between "boring alloy metals" and "weird metals":]
:$$$$
:[Boron:]
:Boron (fool's carbon)
:[Top-center of p-block:]
:You are here
:[Top-right of p-block, excluding the rightmost column:]
:Safety goggles required
:[5 uppermost elements of the rightmost column:]
:Lawful neutral
:[Iodine and radon:]
:Very specific health problems
:[Below and to the right of "weird metals":]
:Murder weapons
:[Bottom row from the fourth column onwards:]
:Don't bother learning their names - they're not staying long
:[The lanthanides and actinides below the rest of the table, two rows of fifteen elements, arrow pointing to a conspicuous gap in the third column of the main table where the fifteenth would ordinarily be:]
:Whoever figures out a better way to fit these up there gets the next Nobel Prize

{{comic discussion}}

[[Category:Chemistry]]
[[Category:Nobel Prize]]