Every Single Element In The Periodic Table Explained!

All the timestamps are in the description

Scientifical

Carbon isn't cheap when it comes to diamonds but that's partly due to BeBeers control on the release of them as it owns the industry with a tight fist controlling the price.

alunchurcher

5:03 Imagine just breathing air and then someone just pops up and says 'That'll be ¤0.50.' (¤ = insert currency sign here)

TheOne_

Thank you for making this video! I was trying to find something like this, and I'm so glad that you made it!

FizzinupYT

As a Student who is about to move up to 5th Grade in August, me myself is very excited to learn some of the Periodic Elements since I'd want to learn some of these before my school does, Because why not😀? I appreciate for you researching and editing every phase of this video, And you might help some students surpass the Periodic table😁

Sincerely,
SebastianLovesDoges

YEEZYSKeptical

Thank you for the video, it is much easier to mnemonically learn elements if you know something about all of them

lorenzofedeli

I really enjoyed this, and i'm really sorry about everyone being so rude and nit-picky about the TTS. (to audience: they made an hour-long video, they probably didnt want to ruin their throat, or they just didnt want their voice online.)

epsilon_null

Fun fact, Francium is the largest atom by volume to have been discovered. It being an alkali metal, and in S-block, this makes it the largest. Theoretically, element 119 will be the largest also being in s-block. Size of atoms increase going left and bottom. Size of atoms decrease going up and right. So helium is smallest, and hydrogen is second smallest. The leftmost element on a period is the largest throughout that period, no matter what.

carölusrex.

I love this video it helped so much thank you Scientifical for making this 1 hour video.

igrtpsh

Highly underrated channel, u put in a great deal of effort and just earned a loyal sub, keep it up!

AutumnTheGuy

only 1k subs? bro u deserve like a million subs

RandomGuyFromSomewhere-ei

I find it crazy how short some of these element’s half lives are!!!

PlushAmongUs

Helium casually having an almost absolute zero melting point

bobczech

I thought it was pronounced Lead not Leed. Silly me.

isiso.speenie

> Cu
No. Cu-64 is radioactive and rare. The reason its mass number is 64 is because it is around equal parts Cu-63 and Cu-65. You cannot just round its mass number to infer its most common isotope :P

EDIT: Yea probably lots of other elements have similar problem. In general after nitrogen if the neutron number is odd you can expect it to NOT be the most common isotope... ESPECIALLY if the proton number is also odd. This is because ALL odd-odd proton neutron combination other than H-2, Li-6, B-10, and N-14 are all radioactive (the only exception is Ta-180m which is very, VERY rare)

EDIT 2: I'm surprised this was not included but zirconium is highly used in nuclear due to its transparency to neutrons. It is also very hard to separate from its chemically similar heavier sibling hafnium and is a cause of headache for nuclear applications. Yea if it is not obvious at this point I am a nuclear engineering major :P

EDIT 3: Another fun fact applicable to all of the radioactive elements, the most stable isotope is not necessarily the most common at least on earth... this is because sometimes the less stable isotopes are easier to make. This is the case for Tc-99 (instead of 98), Pm-147 (instead of 145), Po-210 (instead of 209), Pu-239 (instead of 244), Am-241 (instead of 243), Cm-244 (instead of 247), and Bk-248 (instead of 247). This is also the case to most elements beyond fermium which are only possible to be made atom per atom via particle accelerators; mostly because the more stable isotopes are expected to be heavier than the isotopes we can make.

-EDIT 4: Okay this one I won't let go. Lutetium is not a lanthanide.- Ok I was wrong the definition of lanthanide as it turns out includes it even though Lu is d-block

EDIT 5: Oh. Okay. You got polonium's most common right. Respek.

EDIT 6: If thorium based reactor is ever going to become a reality, Pa-233 will see some use.

EDIT 7: Mentioned this in EDIT 3, but yea all elements after Fm can only be made in particle accelerators as of now, and have never been made in macroscopic quantity (and even Fm itself have never been made macroscopically in pure form); this is because of the "Fermium Gap", the fact that Fm-258, 259, and 260 all have very short spontaneous fission half life and does not beta decay to the next element unlike the previous elements; so this means neutron bombardment can no longer be used to synthesize Md and beyond. Instead of properties it is more interesting to discuss the stories behind the synthesis of those elements as well as the politics with their namings; in particular IIRC elements between Rf and Bh were all contested in cold war politics as American and Soviet teams competed with each other to see who can synthesize them first... until the German team beat them for elements 108-110... and then 113 was made by Japan's RIKEN.

Anonymous-jono

what is the most expensive non radioactive element?

AnnymousAce

Emerald, a type of barrel crystal that contains beryllium as a contaminant is slightly sweet, but don't suck on it because beryllium is poisonous

mmmmhotsoda

Respect 🫡 for the man who edited this one hour video

luvs_cimmy

I failed my test because i didnt know the 8th element in the periodic table so this really helps me. Thank you!

sdosfyw

Element Names from 1-117: 😃
Element Names beyond 117: 💀

John_Gillman