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This was fantastically written! I specifically like the description of how neutrons help distribute the protons to prevent them from overcoming the strong nuclear force. Simon, there was a time long ago when I was worried that your broad diversification could negatively impact the quality of your work. That worry was clearly unfounded, thank you and your team for the well researched, well written, and entertaining content!
By the way, when Mendeleev made his periodic table, he didn't know that the second space below Manganese was also empty. (People were discovering rare earths which confused everything). In 1908 Masataka Ogawa announced he had discovered element 43 and named it Nipponium. Of course it wasn't element 43. For some reason, it never occurred to anybody to check if it was element 75, which is the second element under Manganese. That element was officially discovered in 1925, seventeen years after Ogawa probably found and misidentified it. (The evidence is disputed but I lean on the side that he did.) This is one of of the reasons element 113 was named Nihonium, named for another form of the Japanese name for Japan. It was explicitly to honor Ogawa. (They couldn't reuse nipponium since it had been used for another element; although neptunium is the third use of the name and that was okay.) One of the things I love about Bismuth is that the three elements to the left of it in the periodic table are deadly poisonous, as are the two above (antimony less than arsenic) and the next six are all deathly radioactive. And of course Bismuth is hardly toxic or radioactive at all and we use it for stomach aches and to substitute for lead in some things. And it's pretty.
Some of them, its not so much that they are less useful, its that they only exist for microseconds and then only under very controlled conditions. So they exist but sometimes only technically. If I understand this correctly and I may very well NOT, the idea is to get to this predicted "island of stability" where these elements will become more stable and last longer and THEN they may become useful. But we have to get there first and these other elements are like stepping stones to get to them.
Watching shows like this reminds me of being a kid in school. The science teacher was always telling me to learn that on my own time. This was pre-Internet time too.
I was in a study hall one day, the room was one of the two science classrooms in the building with basic lab space and they were connected back to back via a small storage room. The Chem/Physics teacher came through the connecting door carrying a small bowl. He placed the bowl on the desk, lit it on fire, and it instantly turned into a pillar of smoke and flame before quickly winking out of existence. He looked at the class and said _"That was just sugar"_ and walked back to his own room, adding ""..and one other thing"_ .
@@OnlyMeee-gb5vvin my experience it's mostly guidance. When your parents value a pair of $300 Nikes more than a $30 basic chemistry kit what we see is no surprise.
The periodic table isn't something I expected Simon to get excited about, but I'm happy he is as it's a whole lot more fun to listen to someone that's as excited about a subject as you are! :)
I know Simon is a watch guy, a brand called Czapek made a watch with a crystallized osmium dial called the Frozen Star S. Their CEO showed up to a watch show with a $6,000,000 rock he bought that they were making the dials from. Its incredible.
@@Anuchan There's a lot of things people might find incredible about such a watch. I find it incredible for a multitude of reasons, primarily its beauty and craftsmanship (and price) but I get the impression the word of the day might be incredulous.
My first experience with Osmium was via a minecraft mod. It was a few years later that I learned it was an actual element and not just made up for the mod.
I had a similar experience with Deuterium. I found it mentioned in one of the Ringworld novels by Larry Niven and assumed it was fictional like Star Trek's Dilithium, partly because I'd never heard of it before and partly because it was used in the ship's fusion reactor and since we don't have fusion yet that is still sci-fi. Then one day I encountered Heavy Hydrogen, most likely via Heavy Water, and said "OH! It IS real!".
Terbium is one property that makes it bizarre: it changes shape almost instantly in a magnetic field. So if you create an oscillating magnetic field, you can use it to make things into loudspeakers, such as tabletops, walls and windows. I suspect it will also do this to human skulls but since I don't want to be dead (if I test it on myself) or in jail (if I try it on someone else), I won't test this myself. By the way, terbium/dysprosium alloy is great for sonar, so terbium is indeed useful despite being bizarre.
Always love your show you never disappoint, I just wish my brain works as well as yours because in less than a minute I will forget what it's all about. I have had far to many brain concussions. But I still try to learn things that I didn't know and you do such a great job I will keep coming back
Simon doesn't actually know all this stuff. He has a team of writers who are more specialized in different fields. I can tell this by how frequently he mispronounces jargon (like the names of some of the elements in this video). The whole can be greater than the sum of its parts - and deliver knowledge and be entertaining at the same time.
@@markmuir7338 Yeah he certainly doesn't 'know' half the stuff he presents - he understands it just like we do as it's well-written, but he's no expert.
Simon is capable of reading from a teleprompter, that's the extent of his brain involvement in these videos. Proof is his mispronunciation of names of people and elements. Still, he's a good presenter so we continue watching his 16 million channels (and counting).
Osmium tetroxide is a very useful, and commonly used doing electron microscopy. It is a widely used in both TEM and SEM. It's also used not only as a stain, but a chemical fixative for preparing biological samples for microscopy. Osmium is rare, but it's got quite important uses.
@@O4FUXACHE I used to be an electron microscopist, before jumping into battery R&D; it's the first thing I think of when I hear osmium mentioned anywhere hah
The channel Bobbybroccoli has done some really great videos on this kind of thing, focusing on stories and scandals in the physics/science community that are really well made
It’s a crazy world when we get atomic. Even more disturbing when we split those little buggers. My main question is, what are quarks and string made from and why?
15:40 this "island of stability" is beyond an asymptote, like the graph of y=1/x^2. We would need to find a way to cross the barrier. This is the "exotic matter" that is always referenced in theoretical physics and sci-fi.
Atoms are made up of a positive electrical charge surrounded by a shell (Hydrogen) or shells (all other elements) of negative electrical charge which give them certain properties and allow them to interact with other atoms. In effect, everything is made of nothing and sometimes it explodes. I’ve never quite recovered from my first nuclear chemistry class back in 1978.
Technetium is pronounced Tek-nee-shee-uhm. There is also a Technetium-99m which is a meta-stable state of technetium-99 (essentially just an excited technetium-99 nucleus). Good stuff. It is hard to clean up if it contaminates outside soil. It loves water, so every time it rains, it seeps deeper into the ground.
Osmium tetroxide is used in some chemical syntheses, but its use is mostly limited by its ridiculously high toxicity and high price. And the price is so prohibitively high that no one would think of intentionally poisoning someone with it.
It used to be used to detect fingerprints since it changes to osmium dioxide on contact with the residues we leave behind when we touch things. I presume this wasn't good for the health of the detectives.
13:37 those last elements have names, formerly Uut, Uup, Uus and Uuo. They're called, respectively: Nihonium (Nh), Moscovium (Mc), Tennessine (Ts) and Oganesson (Og)
Lil confidence booster for Simon: people are saying you pronounced things wrong but of the ones I've heard of, I've never heard them pronounced differently than Simon's way!🤗 Keep on being awesome, Fact Boi😎👍
Not just pronounced, but misspelled them as well... Caesium? Whatever happened to Cesium? Probably on the same shelf as the bottle of MEEEEE-thane and the hunk of "Aluminiumumum"... If Brits invented the English language, why do they have so much trouble using it?
Cyclotrons described sigmoid structure of the energy path. They are still the standard for particle acceleration, and are more of a general concept than particular type of machine.
Imagine a universe an insanely long time in the future. Where everything has spread out soo much that even currently stable elements start to decay at our size perspective.
i think honorable mention should include gold (its color comes from the effects of special relativity on inner electrons, very high ductility and electrical conductivity), phosphorus in its white, red, and black forms, and mercury for being a liquid metal in room temperature and pressure its just they are well-known
While GPS satellites are “slower” by 7 microseconds per day due to their speed, they are also “faster” by 45 microseconds due to the reduced gravity with a net effect of 38 microseconds.
If anyone likes the looks of bismuth there's a guy known online as the bismuth Smith who makes awesome stuff out of it just for decorations which look awesome if you like that cheesy rainbow hew
I remember watching the Rick and Morty episode "Rick Night Shyamalan", where Rick hands over the formula for concentrated dark matter: 2 parts cesium, 1 part plutonic quartz, and bottled water. I started laughing immediately because it was an outstanding science joke, and I knew it would end badly when the ingredients were combined.
Sherlock Holmes had the chemical table of elements on the wall. Watson asked, "what is this chart?". Sherlock Holmes answered "elements my dear Watson".
Would the environment surrounding the higher numbered elements effect their longevity? Forming within stars with heavier elements around it vs a lab. Pressure and magnetic fields may allow the nucleus to remain intact.
Depends, but that's not useful to us at all. And we can't experiment with an element if it's currently stuck in the core of a star. There is also the issue that as soon as you remove it from whatever environment is keeping its stable, the elements will most likely shred itself from the nuclear forcds trying to rip it apart, gravity, What have you and also the fact that the higher you get in the periodic table the far more radioactive and really Really wanting to come apart a atom becomes.
No. It is a popular misconception that you will find heavy elements in main sequence stars. Since heavy elements cannot "form" in a star, and the decay of elements is not tied to the environment around it, this is not possible. To keep it very simple - Heavy elements are generally created in supernovae or during neutron star collisions as the conditions to fuse those elements don't exist in a main sequence star. There is also a process (s-process) that allows a certain class of stars, in their post-main-sequence evolution, to create elements up to element 82 (which is lead). We have not found any element heavier than Plutonium (94) in nature/space. Theoretically neutron star collisions/mergers could create elements heavier than Plutonium, the half-life of these elements are simply too short to be found in any new star created in the vicinity. Hope that this clears up why the environment of the elements does not effect the rate of decay, and why these elements would never be found in stars :)
Like measuring light speed it's impossible to measure 'time' as we don't know our relative motion in the universal frame of reference. Now i wil play the above video 👍
I thought I had found element 43, wrote a paper on it, uploaded it to the physics preprint archive, and then realized it wasn't element 43 but Movie 43. Worst day of my life.
You should film at 60 fps. I only say this because I notice how not-at-least-60-fps your videos are all the time. Audiences used to be thrown off by moving pictures that weren't 24 fps but times have changed.
13:10 dropped the lead there.. this time dilation demonstrates that time is flexible, and that two objects can experience it differently. Some satellites are experiencing time slower than others, or you could say that they are "in the past" or that another is "in the future" with respect to your own frame of reference. In other words, Time travel *IS* possible, albeit in a very, VERY limited way. Superman flying around the earth super fast to slow down or reverse time has a very small kernel of truth to it.
If we still defined the second as a fraction of a day, would the second get longer as the rotation of the earth slows over time? Furthermore, how would we ever know if cesium atoms begin to wobble more slowly?🤔
This is why so many science fiction works involve going to the far reaches of the universe in search of "Unobtainium"... so many different stories have featured this fictitious element that it has become an inside joke in entertainment. But hey, if it's not in the periodic table of known elements, then of course it can only be found on Pandora, right? While you're there, bring me back some bioluminiscent flowers for my mom, would ya? Much obliged... Na-noo-na-noo, and the answer is forty-five...
Given that there are 4 *known* Electron Shells & 7 *known* rows, each with a number of subshells equal to the shell number of the shell containing them, there are theoretically 156. Proof: The first subshell contains 2 electrons, 2nd contains 6, 3rd contains 10 & Last contains 14 7*2 + 6*6 + 5*10 + 4*14 = 14 + 36 + 50 + 56 = 156
I seriously doubt there will be a joint US-Russia anything in the near future unless it's nuclear fisticuffs. Aside... fascinating video. It's the first time I've heard a reasonable explanation of the instability above a certain atomic number.
The cesium oscillators aboard the GPS satellites differ from earthbound oscillators due to two relativistic effects. Gravity and the velocity of the satellites. The gravity field is weaker the further from the center of the earth it is operated. Both of these factors must be considered to allow correct GPS locations to be obtained by the system.
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bb!bm.
Fascinating eggskull
This was fantastically written! I specifically like the description of how neutrons help distribute the protons to prevent them from overcoming the strong nuclear force. Simon, there was a time long ago when I was worried that your broad diversification could negatively impact the quality of your work. That worry was clearly unfounded, thank you and your team for the well researched, well written, and entertaining content!
Agreed. Him and his team really made that digestible.
Here here, I am impressed.
How often do we see a video about the elements? Periodically!!
😂😂
😆
Simon has a way of bringing things to the table.
Well it's not particularly advanced stuff - you study the periodic table at elementary school 😁
Damn
By the way, when Mendeleev made his periodic table, he didn't know that the second space below Manganese was also empty. (People were discovering rare earths which confused everything). In 1908 Masataka Ogawa announced he had discovered element 43 and named it Nipponium. Of course it wasn't element 43. For some reason, it never occurred to anybody to check if it was element 75, which is the second element under Manganese. That element was officially discovered in 1925, seventeen years after Ogawa probably found and misidentified it. (The evidence is disputed but I lean on the side that he did.) This is one of of the reasons element 113 was named Nihonium, named for another form of the Japanese name for Japan. It was explicitly to honor Ogawa. (They couldn't reuse nipponium since it had been used for another element; although neptunium is the third use of the name and that was okay.)
One of the things I love about Bismuth is that the three elements to the left of it in the periodic table are deadly poisonous, as are the two above (antimony less than arsenic) and the next six are all deathly radioactive. And of course Bismuth is hardly toxic or radioactive at all and we use it for stomach aches and to substitute for lead in some things. And it's pretty.
😅
0:45 - Chapter 1 - Technetium
3:10 - Mid roll ads
4:40 - Back to the video
6:05 - Chapter 2 - Osmium
8:30 - Chapter 3 - Bismuth
10:25 - Chapter 4 - Caesium
13:25 - Chapter 5 - Beyond the periodic table
I always like to view the less used elements as just not useful -yet- and we will eventually find something for them down the road.
100% agreed on that
Kind of like a middle child named Jan.
@@harrisonbergeron9764 Mercury! Mercury! Mercury!
Some of them, its not so much that they are less useful, its that they only exist for microseconds and then only under very controlled conditions. So they exist but sometimes only technically. If I understand this correctly and I may very well NOT, the idea is to get to this predicted "island of stability" where these elements will become more stable and last longer and THEN they may become useful. But we have to get there first and these other elements are like stepping stones to get to them.
@@theoptimisticskepticone element at a time
Watching shows like this reminds me of being a kid in school. The science teacher was always telling me to learn that on my own time. This was pre-Internet time too.
I was in a study hall one day, the room was one of the two science classrooms in the building with basic lab space and they were connected back to back via a small storage room. The Chem/Physics teacher came through the connecting door carrying a small bowl. He placed the bowl on the desk, lit it on fire, and it instantly turned into a pillar of smoke and flame before quickly winking out of existence. He looked at the class and said _"That was just sugar"_ and walked back to his own room, adding ""..and one other thing"_ .
@@OnlyMeee-gb5vvin my experience it's mostly guidance. When your parents value a pair of $300 Nikes more than a $30 basic chemistry kit what we see is no surprise.
Congratulations on filming your one Millionth episode Simon.
You win a cookie.
I thought it was his 1.2 millionth one.....I'll have to start counting again, damn!
And totally focused. None of his monkey-minded tangents. Is this the difference between the proper use of, versus the abuse of, Adderal?
@@troyevitt2437 Who needs Adderal when you have cocaine.... allegedly...
This VLOG is 812K
Osmium is also used in electron microscopy to coat items via osmium tetroxide
I'll take your word for it 🤥
2:25 Check out Oppenheimer with his pipe in the top middle. Legend.
The periodic table isn't something I expected Simon to get excited about, but I'm happy he is as it's a whole lot more fun to listen to someone that's as excited about a subject as you are! :)
Good Job presenting this complicated material. Very interesting
I agree.
I know Simon is a watch guy, a brand called Czapek made a watch with a crystallized osmium dial called the Frozen Star S. Their CEO showed up to a watch show with a $6,000,000 rock he bought that they were making the dials from. Its incredible.
I have a two dollar watch, my grandfathers. I works well.
Is the incredible thing that a company made it or that people were fascinated by seeing it?
@@Anuchan There's a lot of things people might find incredible about such a watch. I find it incredible for a multitude of reasons, primarily its beauty and craftsmanship (and price) but I get the impression the word of the day might be incredulous.
My first experience with Osmium was via a minecraft mod. It was a few years later that I learned it was an actual element and not just made up for the mod.
I had a similar experience with Deuterium. I found it mentioned in one of the Ringworld novels by Larry Niven and assumed it was fictional like Star Trek's Dilithium, partly because I'd never heard of it before and partly because it was used in the ship's fusion reactor and since we don't have fusion yet that is still sci-fi. Then one day I encountered Heavy Hydrogen, most likely via Heavy Water, and said "OH! It IS real!".
Mekanism?
I still have that with Starfield. I've actually started looking up new elements I find in game, really fun.
@@BaronVonQuiplyMy first encounter was on a nuclear sub where lithium *deuteride* is used as the ignition fuel for hydrogen bombs.
Good old GregTech….my favorite. It has been years since I’ve played that impossible mod!! 😮
Terbium is one property that makes it bizarre: it changes shape almost instantly in a magnetic field. So if you create an oscillating magnetic field, you can use it to make things into loudspeakers, such as tabletops, walls and windows. I suspect it will also do this to human skulls but since I don't want to be dead (if I test it on myself) or in jail (if I try it on someone else), I won't test this myself. By the way, terbium/dysprosium alloy is great for sonar, so terbium is indeed useful despite being bizarre.
I have a chunk of bismuth and it looks beautiful, you can also write with it like lead
It's also replacing lead for a lot of uses since it's practically non-toxic.
@@sydhenderson6753 we we already don't use lead in our modern pencils. They're made of graphite and clay
Always love your show you never disappoint, I just wish my brain works as well as yours because in less than a minute I will forget what it's all about. I have had far to many brain concussions. But I still try to learn things that I didn't know and you do such a great job I will keep coming back
you are building new neurons
Simon doesn't actually know all this stuff. He has a team of writers who are more specialized in different fields. I can tell this by how frequently he mispronounces jargon (like the names of some of the elements in this video). The whole can be greater than the sum of its parts - and deliver knowledge and be entertaining at the same time.
@@markmuir7338 Yeah he certainly doesn't 'know' half the stuff he presents - he understands it just like we do as it's well-written, but he's no expert.
Simon is capable of reading from a teleprompter, that's the extent of his brain involvement in these videos. Proof is his mispronunciation of names of people and elements. Still, he's a good presenter so we continue watching his 16 million channels (and counting).
12:25 - 12:28 since it is metric system time, then usa probably will use their own version of time because of course they do.
Great to hear about Tecnetium, I've had this used on me for nuclear isotope testing.
😎👍🏼
Osmium tetroxide is a very useful, and commonly used doing electron microscopy. It is a widely used in both TEM and SEM. It's also used not only as a stain, but a chemical fixative for preparing biological samples for microscopy.
Osmium is rare, but it's got quite important uses.
Beat me to it 👍
@@O4FUXACHE I used to be an electron microscopist, before jumping into battery R&D; it's the first thing I think of when I hear osmium mentioned anywhere hah
@@AdkAqua Ditto . . . used an EM for years.
@@O4FUXACHEI wish it paid better haha, was a lot of fun but other lab work pays much better and you can't pay for anything with happy thoughts
Isn't that a compound though, not an element
Awesome work, thanks, I was fascianted all the way through.
I used Osmium tetroxide in my final year of university. It is used to coat or stain samples for electron microscopy
The channel Bobbybroccoli has done some really great videos on this kind of thing, focusing on stories and scandals in the physics/science community that are really well made
It’s a crazy world when we get atomic. Even more disturbing when we split those little buggers. My main question is, what are quarks and string made from and why?
Thanks for the hard work team fact boi.
15:40 this "island of stability" is beyond an asymptote, like the graph of y=1/x^2. We would need to find a way to cross the barrier. This is the "exotic matter" that is always referenced in theoretical physics and sci-fi.
Great to see chemistry Simon. But.... I'm having palpitations over some of the pronunciations!
More please. More explanations of all those elements we never heard of.
When Simon says, "Well, that's exciting" 😜
I remember getting injected with technetium for some kind of medical test a few years ago. Interesting stuff.
Glad to see Technetium getting some attention. It's my favorite element.
Mine, too. I make my living handling Tc-99m in a nuclear pharmacy.
Atoms are made up of a positive electrical charge surrounded by a shell (Hydrogen) or shells (all other elements) of negative electrical charge which give them certain properties and allow them to interact with other atoms. In effect, everything is made of nothing and sometimes it explodes.
I’ve never quite recovered from my first nuclear chemistry class back in 1978.
"... predicted by Einstein in 1905"? That was the Special Theory of Relativity; the General Theory didn't come until ten years later.
You can buy watches that get radio signals to keep them accurate from an atomic clock, if you like that sort of thing.
Technetium is pronounced Tek-nee-shee-uhm. There is also a Technetium-99m which is a meta-stable state of technetium-99 (essentially just an excited technetium-99 nucleus). Good stuff. It is hard to clean up if it contaminates outside soil. It loves water, so every time it rains, it seeps deeper into the ground.
Technetium 99m is the isotope used in medicine.
Osmium tetroxide is used in some chemical syntheses, but its use is mostly limited by its ridiculously high toxicity and high price. And the price is so prohibitively high that no one would think of intentionally poisoning someone with it.
It would be quite the billionaire sociopath flex if somebody were to though. Instant Casual Criminalist episode right there.
@@mikehawke2374you should pitch that!
Osmium sells for about $ 20,000 per ounce.
It used to be used to detect fingerprints since it changes to osmium dioxide on contact with the residues we leave behind when we touch things. I presume this wasn't good for the health of the detectives.
Except Vlad (the poisoner) Putin
Outstanding! Love your videos!
Fascinating… fascinating… stuff
🙏🏾
Ah -The element of surprise... 😅
Damn you for being faster! 😂
B-5 Ra-226 In-114.82 S-32.065
13:37 those last elements have names, formerly Uut, Uup, Uus and Uuo. They're called, respectively: Nihonium (Nh), Moscovium (Mc), Tennessine (Ts) and Oganesson (Og)
4:37 you know... I'm glad I can skip ads (premium) but the funny thing is I kinda still watch them. I do also love my wallet.
Lil confidence booster for Simon: people are saying you pronounced things wrong but of the ones I've heard of, I've never heard them pronounced differently than Simon's way!🤗 Keep on being awesome, Fact Boi😎👍
Not just pronounced, but misspelled them as well... Caesium? Whatever happened to Cesium? Probably on the same shelf as the bottle of MEEEEE-thane and the hunk of "Aluminiumumum"...
If Brits invented the English language, why do they have so much trouble using it?
Mr. Mendeleev looks like a serial killer
He should have been a mad Russian monk.
If Osmium were a band, it would be Heavy Metal....
Not likely. Donnie and Marie Osmium.
Is Polonium were a band, it would be death metal 😂
Cyclotrons described sigmoid structure of the energy path. They are still the standard for particle acceleration, and are more of a general concept than particular type of machine.
The caesium-133 atom doesn't oscillate. Its outermost electron does.
Love a good Vsauce video, thanks Michael!
7:30 - Anyone else have an OCD fit wondering how he would separate the chemical from the dirt or was it just me¿?
Intressant! 😅
Heyyy was that a Periodic Videos clip for Caesium??? (If not, well, that's ok, still a cool clip)
You know what, Mendelev looks like a guy who stacks atoms on his free time.🤣
Osmium mirrors?
Flat erfers can't understand where the NASA's budget goes, but there's the answer.
Imagine a universe an insanely long time in the future. Where everything has spread out soo much that even currently stable elements start to decay at our size perspective.
New stars are formed all the time
i think honorable mention should include gold (its color comes from the effects of special relativity on inner electrons, very high ductility and electrical conductivity), phosphorus in its white, red, and black forms, and mercury for being a liquid metal in room temperature and pressure
its just they are well-known
Tech-neesh-ium. Not tech-net-ium. Ask any nuclear physicist. It is the common radioactive element used in medicine.
I love this content Simon
The most unexpected one was the element of surprise
While GPS satellites are “slower” by 7 microseconds per day due to their speed, they are also “faster” by 45 microseconds due to the reduced gravity with a net effect of 38 microseconds.
we use time dilation in the future to nail down most of the higher numbers.
how does this man makes 5 videos per day on multiple channels and multiple topics by himself?
He doesn't do it by himself. There's a team of people with him.
@@Mark_BridgesSeveral teams.
@@murrayscott9546 sounds cool, but it sounds cooler if we choose to believe he does everything by himself
@@PokettoMusic like Santa Claus but even he had his el elves
If anyone likes the looks of bismuth there's a guy known online as the bismuth Smith who makes awesome stuff out of it just for decorations which look awesome if you like that cheesy rainbow hew
I remember watching the Rick and Morty episode "Rick Night Shyamalan", where Rick hands over the formula for concentrated dark matter: 2 parts cesium, 1 part plutonic quartz, and bottled water. I started laughing immediately because it was an outstanding science joke, and I knew it would end badly when the ingredients were combined.
1:04 mendeleev jumpscare
Burnt Titanium ftw 🔥
Sherlock Holmes had the chemical table of elements on the wall. Watson asked, "what is this chart?". Sherlock Holmes answered "elements my dear Watson".
13:10 are you saying eletroseconds?
I might be among few lucky individuals to possess a miligram sized sample of Tc. That glass vial emits steady soft xrays from all those beta particles
Technetium has several long-lived isotopes, too, so it could be around for a few million years (or hundred thousand years for isotope 99).
Would the environment surrounding the higher numbered elements effect their longevity? Forming within stars with heavier elements around it vs a lab. Pressure and magnetic fields may allow the nucleus to remain intact.
Depends, but that's not useful to us at all. And we can't experiment with an element if it's currently stuck in the core of a star.
There is also the issue that as soon as you remove it from whatever environment is keeping its stable, the elements will most likely shred itself from the nuclear forcds trying to rip it apart, gravity, What have you and also the fact that the higher you get in the periodic table the far more radioactive and really Really wanting to come apart a atom becomes.
"Would the environment surrounding the higher numbered elements effect their longevity? " Perhaps, you meant to say "affect".
@Shinzon23 not pointless. the point is a thought experiment with the result in creating an artificial equivalent within the lab.
No. It is a popular misconception that you will find heavy elements in main sequence stars.
Since heavy elements cannot "form" in a star, and the decay of elements is not tied to the environment around it, this is not possible.
To keep it very simple - Heavy elements are generally created in supernovae or during neutron star collisions as the conditions to fuse those elements don't exist in a main sequence star.
There is also a process (s-process) that allows a certain class of stars, in their post-main-sequence evolution, to create elements up to element 82 (which is lead).
We have not found any element heavier than Plutonium (94) in nature/space.
Theoretically neutron star collisions/mergers could create elements heavier than Plutonium, the half-life of these elements are simply too short to be found in any new star created in the vicinity.
Hope that this clears up why the environment of the elements does not effect the rate of decay, and why these elements would never be found in stars :)
8:32 BISMUTO
Like measuring light speed it's impossible to measure 'time' as we don't know our relative motion in the universal frame of reference.
Now i wil play the above video 👍
13:38 elements 113, 115, 117, and 118 were named in 2016. This periodic table, with placeholders, is way out of date.
You're gonna have to write a new song. 🎶😆
I thought I had found element 43, wrote a paper on it, uploaded it to the physics preprint archive, and then realized it wasn't element 43 but Movie 43. Worst day of my life.
9:01 - I wonder if this element lead to the famous staircases by M.C. Escher...
10:20 you could say it's -270°C cool 😎
Personally I'm just waiting for science to finally synthesize a single atom of jumbonium. That'll be sweet.
Cesium has a radioactive isotope that is commonly used in medical diagnostic devices and industrial nuclear instrumentation.
Osmium is highly useful in organic chemistry as a hydrogenation catalyst.
You should film at 60 fps. I only say this because I notice how not-at-least-60-fps your videos are all the time. Audiences used to be thrown off by moving pictures that weren't 24 fps but times have changed.
All very cool, thanks Simon! :)
Simon, please do a video on element 115
The dad jokes are amazing
13:10 dropped the lead there.. this time dilation demonstrates that time is flexible, and that two objects can experience it differently. Some satellites are experiencing time slower than others, or you could say that they are "in the past" or that another is "in the future" with respect to your own frame of reference. In other words, Time travel *IS* possible, albeit in a very, VERY limited way. Superman flying around the earth super fast to slow down or reverse time has a very small kernel of truth to it.
If we still defined the second as a fraction of a day, would the second get longer as the rotation of the earth slows over time? Furthermore, how would we ever know if cesium atoms begin to wobble more slowly?🤔
So Ozmium is officially heavier than Black Sabbath lol 😂🤘🏻😎🤘🏻
Was Danny Osmond made of osmium? Or Ozzy maybe?
I'm curious what element enables Simon to have so many channels and so much content. TH-camium perhaps?
This is why so many science fiction works involve going to the far reaches of the universe in search of "Unobtainium"... so many different stories have featured this fictitious element that it has become an inside joke in entertainment. But hey, if it's not in the periodic table of known elements, then of course it can only be found on Pandora, right? While you're there, bring me back some bioluminiscent flowers for my mom, would ya? Much obliged...
Na-noo-na-noo, and the answer is forty-five...
Is that goldielax zone of stability potentially a black hole?
The first purple chart you put up is by costarican chemistry scientist Gil Chaverri
The stability of electron orbitals should not be confused with the stability of the nucleus
This video is turning me into one of the element enthusiast nerds
Given that there are 4 *known* Electron Shells & 7 *known* rows, each with a number of subshells equal to the shell number of the shell containing them, there are theoretically 156.
Proof: The first subshell contains 2 electrons, 2nd contains 6, 3rd contains 10 & Last contains 14
7*2 + 6*6 + 5*10 + 4*14 = 14 + 36 + 50 + 56 = 156
Os is very useful for organic chemists. 😉
I seriously doubt there will be a joint US-Russia anything in the near future unless it's nuclear fisticuffs.
Aside... fascinating video. It's the first time I've heard a reasonable explanation of the instability above a certain atomic number.
The cesium oscillators aboard the GPS satellites differ from earthbound oscillators due to two relativistic effects. Gravity and the velocity of the satellites. The gravity field is weaker the further from the center of the earth it is operated. Both of these factors must be considered to allow correct GPS locations to be obtained by the system.
I'm disappointment the periodically table used when talking about elements past what we know had the old symbols for 117 and 118
3:00 So why didn't it ignite in the original factory ? Or as he transported it back overseas 🤷 they weren't airtight back then so this doesn't add up
It was sealed or stored under oil.
Wait a sec... How can anything last longer than the universe it exists in? Simon!