@@yaykruser Yes, I have seen 2 people do it by starting with CsCl which is a cheap source of cesium. They used lithium as a reducer. They also used a distillation setup under vacuum to collect the cesium gas and condense back to liquid. It is probably the same for other alkali metals and earth metals. The salts are a cheaper source for the element.
Honestly one of the most impressive things about this is how steady you are able to keep your hand to drop a tiny droplet perfectly onto a tiny lump of caesium
THIS is the Perfect way to present an explosion! From beginning to end, constant slow-mo speed, constant camera angle, no fluff. This way you allow the viewer to take in the experience, not push a "cinematic" experience onto them. Thank you for the pleasure!
"Existence is pain." - Cesium An element so angry putting it in ammonia makes it tear off electrons hard enough you can see them with the naked eye. I dearly wish my Chemistry class had been more practical and demonstrative, I may have payed attention.
I appreciate the amount of effort you put into that intro, lol. Was awesome. Also, it's hard to overstate the production quality of your videos. They're undoubtedly getting much better (and they were never bad to begin with). You will certainly reach 1M subscribers rather quickly :-D
I don't think I'll ever stop being amazed with the ease with which this man handles absurdly dangerous chemicals safely. Including while combining them in the specific ways that make them exceptionally dangerous in the first place. My hat is off to you, good sir!
cesium is very reactive, but is not actually that dangerous on its own. you might be thinking of the radioactive isotope of it, 137. THAT is a great source of gamma radiation.
cesium is chemically safe. What makes it dangerous are radioactive isotopes like cesium 137. Cesium 133 is non-radioactive, so its like copper or aluminium
I've only ever had cesium combust in air by itself once and that was when I was bottling 10g and spilled it. But it spread out a LOT and I think that the high surface area was what caused it to catch fire. I just dumped a bunch of mineral oil on it and extinguished it quickly and was able to save around 4g.
R-I-g-h-t, and you just happened to have some mineral oil near by Mr. Fumblefist, hope you were removed from your position for being too clumsy with dangerous chemicals.
I'd love to see you do a Collab with Gav & Dan, or Destin. The quality of their slow-mo, paired with your chemistry knowledge, would be an amazing combination.
Some of these reactions start very slowly, showing little to no effect for several seconds after contact, and then explode in less than a millisecond. To me this is a great display of the explosive power of the exponential function. Even when the base is only slightly above 1, you only get a limited time before the function explodes. (Try plotting y=1.001^x in something like Desmos and then zoom out until you see anything happen.)
I think part of why it reacts so violently in water (more than potassium, for example) is because of its actual reactivity, but part of it is it’s dense enough to sink below the surface before bursting. That means that instead of blowing up into the air it blows into more water completing the reaction.
And another part of the explosiveness comes from cesium’s low melting point, turning into a liquid with minimal heating from room temperature. The said liquid then gets its electrons ripped off by H2O and causes a Coulomb explosion where bits of positively charged alkali metal particles violently repel one another. This is exactly the reason why NaK explodes like cesium does, sodium produces delayed explosions (if it does explode at all), and lithium simply does not explode when thrown into water.
This video shows what is so fantastic about youtube. We get to see you actually doing what we have dreamed of doing all our lives! Incredible quality too.
By far the best quality video on caesium and its reactions I’ve ever seen. The violet of the caesium-tainted hydrogen flame with water is clearly visible, and the solvation in ammonia is a revelation. Slo-mo filming makes all the difference.
Cesium bismuth amalgam has some pretty interesting properties. I would love to see a beautiful bismuth Crystal dissolved in some gold cesium. The aliens are sure to come after such alchemy.
This video was absolutely incredible, but I feel like I would've enjoyed more commentary on why certain things were the way they were. Like the pinkish purple smoke, or how slow the liquid combination was to come out of the tube. That being said, this video was absolutely fantastic, and I'm overjoyed that I got the opportunity to watch it
Hello ChemicalForce! Traditional soaps use NaOH and KOH as bases and LiOH is used to make lubricating grease. I wonder what happens if more exotic forms of base such as RbOH or CsOH were used instead. What kind of "soap" would they produce? Perhaps this could be an interesting idea for a future video.
I would like to see this too! I’d like to see what kinds of soaps RbOH and CsOH would make. And for that matter, FrOH and 119OH/UueOH if they ever manage to make element 119.
@@129140163 If only Francium was stable enough to do chemistry with. It would've probably looked like extremely reactive dark metal liquid (or almost) at room temp
The only two metals that are gold in color are the most reactive(cesium), and the least reactive (gold). Gold doesn’t ever corrode outside of laboratory conditions
I swear I learn more about chemistry from youtube than I ever did in chemistry class. Absolutely incredible to see this stuff in the safest environment possible. At my house hiding behind a computer screen lol.
this channel is unhinged. it has some of the most expensive and dangerous chemical demonstrations available online and every single video has completely unnecessarily tense orchestral music
If by "unhinged" you mean awesome! "most expensive and dangerous chemical demonstrations available online"... "Unnecessarily tense"... Think about that for a second. I think you'll find saying those two things in conjunction doesn't really make sense. I bet the tense music helps to call the casual (non-chemically-inclined) viewer's attention to how expensive and dangerous the chemical demonstrations are, at least subconsciously.
I actually had to catch my breath. Usually I watch in awe, but this time other people in the house could hear me yelling OMG. What a treat it is. Thank you my friend!
Dude I'm so jealous, I wish I could lay my hands on some wonderful chemical compounds like you and make things blow... I'm a chemistry student and I'm so freaking excited to have my own lab someday :'D
@@MrJef06 Cesium is rare but very expensive to produce! Would've been cool if he recycled the cesium he destroyed!! But that's absolutely tedious and might not be even worth doin'! If I was him, I would store it and periodically show it to people just to prove I'm expert in chem coz I got access to a rare reagent! 😂😂😂
Cesium is so interesting compared to the rest of the alkaline metals. I wonder if you could show some of the soluble cesium compounds to show why the radioactive isotopes are so dangerous?
this is not the radioactive isotope of cesium (137). you can only get that as a byproduct of nuclear reactors, and no regular citizen can own it without special permits. cs137 is a heavy gamma emitter, which is what makes it so dangerous. you would not be storing it in glass ampules :)
Honestly this channel is like a wikipedia rabbit hole come to life. All the weirdest reactions, it allows for a certain "appreciation" that the equations lack. And by appreciation I mostly mean me like shiny fire metal go boom!
If only my class in high school was this interesting we’d have so many more kids my age interested in chemistry and science. Im not bashing our teachers. It just seems like the ones I have are just there for the paycheck. No excitement, no passion. Just the Peanuts teacher basically. That purple smoke towards the end was BEAUTIFUL!
The shock waves we could see on a few reactions were awesome. Some particles got to surf the shock wave a few times. It looked amazing in slo-mo. The cinematography here just keeps on being amazing.
amazing! I miss my labs classes at the university. But this is way far from what we used to see in the first grades. Thanks for share it. Beautiful and quality imagens
Sometimes I look back at history and say "a mere 200yrs, we've gone from 15-30min exposures on daggeurotypes, to 1000-100k FPS cameras" and that advancement is itself truly amazing; what we capture with it is a million times more.
Watching stuff violently explode to epic music is very satisfying. My best chemistry teacher in high school did show us similar videos (on VHS, before RUclips was popular) and I loved it, but yours are way better, ChemicalForce. It's amazing how far content on this platform has come when it can easily surpass professionally made videos in quality.
And while it can and does get stupid expensive for crazy frame rate... That would be my *only* ask. Some of these reactions... Haha like the nitric here... No other way to see what is really happening with some of them. Not to mention on so many, that's where the beauty lies as well. That said no I'm not complaining. It's excellent even as it sits. Nobody else does anything like what he's got going on here.
Such spectacular and beautiful reactions. I particularly liked the Fluorosulfonic acid and Bromine reactions where you didn't drop it right on top and allowed just the tiniest bit to contact to show the reaction a bit slower and emphasize just how little of the stuff you need for a violent reaction.
I loved this video. I can not imagine a more FASCINATING episode, and the introduction was very professional! Really, your videos always look like a million dollars. What a surprise it was to see beautiful golden cesium turn black and ugly so quickly.
Amazing! Thank you for giving us the opportunity to watch dangerous substances from a safe distance. One would also like to see a "making-of-video" to learn how you managed to film this without damaging yourself or your equipment.
Thats a LOT of damage! An excellent videa as always! Especially the chloroform reaction I’ve never heard of before. Might try it after I get around to make some cesium.
I didn't understand a word of it all 😅🤪 but I was as amazed as when I was a kid, 40 something years ago, and was watching fireworks ! And the camera work is simply 😍😍😍
Good music, good slo mo, cool looking reactions, nice. I'd love to hear a little tiny bit more of what is happening in the reactions too. The reaction with the purple gas looked to have frozen the dish, but I wasn't sure.
Knew this video was going to be great but man it was even better. The quality is insane. Hope you can continue showing us high quality footage of cool reactions for 100 or more videos!
Wow, if an ampule of cesium had no danger it would make for a great toy. Forming and melting crystals by hand heat.
If I trusted myself enough, I'd certanly buy an ampoule.
@@poppedweasel It cost about 100 to 150US$ for a 1 g ampoule. I just like my mercury ampoule.
@@louistournas120 Yeah, making that stuff yourself is much cheaper.
@@yaykruser Yes, I have seen 2 people do it by starting with CsCl which is a cheap source of cesium. They used lithium as a reducer. They also used a distillation setup under vacuum to collect the cesium gas and condense back to liquid.
It is probably the same for other alkali metals and earth metals. The salts are a cheaper source for the element.
Gallium is non-toxic, and has a similar melting point.
The quality of these videos is incredible
Brutally unbelievable ! The early videos were also fantastic but now the exquisite quality of this videos puts then up there in the top 5%
I still have a lot of low-quality footages. Now I don't know what to do with it 🥲
@@ChemicalForce Montage? Or maybe as part of some "year of" type deal?
I agree. Top notch
@@ChemicalForce make a second channel
Honestly one of the most impressive things about this is how steady you are able to keep your hand to drop a tiny droplet perfectly onto a tiny lump of caesium
lol was thinking the same thing!
08:00 he missed.
@@kaanylmaz4080 Tss, dont be rude.
define missing?@@kaanylmaz4080
@@kaanylmaz4080rude
THIS is the Perfect way to present an explosion!
From beginning to end, constant slow-mo speed, constant camera angle, no fluff.
This way you allow the viewer to take in the experience, not push a "cinematic" experience onto them.
Thank you for the pleasure!
"Existence is pain." - Cesium
An element so angry putting it in ammonia makes it tear off electrons hard enough you can see them with the naked eye.
I dearly wish my Chemistry class had been more practical and demonstrative, I may have payed attention.
Fist you pay, then you play.
Putting any alkali metal in ammonia produces solvated electrons though. Even the group 2 metals do that, and even some others.
Any alkali metal does that, stop it with the cheesy comments
@@BackYardScience2000 I would argue that all the group 1 and 2 elements share the philosophy of Cesium that existence is, in fact, pain.
he just like me fr
I appreciate the amount of effort you put into that intro, lol. Was awesome.
Also, it's hard to overstate the production quality of your videos. They're undoubtedly getting much better (and they were never bad to begin with).
You will certainly reach 1M subscribers rather quickly :-D
Whole heatedly agree!
Thanks 😀
Couldn't agree more. This channel is the very definition of a hidden gem. I await every video.
overdramatic and slow; hard -> touh; will -> shall
@@alysdexia what?...
7:55 Just casually the much requested reaction with fluorosulfonic acid. This is the best chemistry channel on RUclips and will continue to grow.
I sure hope so, this channel is a hidden gem.
Word. Love this channel
I don't think I'll ever stop being amazed with the ease with which this man handles absurdly dangerous chemicals safely. Including while combining them in the specific ways that make them exceptionally dangerous in the first place. My hat is off to you, good sir!
cesium is very reactive, but is not actually that dangerous on its own. you might be thinking of the radioactive isotope of it, 137. THAT is a great source of gamma radiation.
cesium is chemically safe. What makes it dangerous are radioactive isotopes like cesium 137. Cesium 133 is non-radioactive, so its like copper or aluminium
Yeah he's probably responsible for some of the bombs that's gone off in America.
I've only ever had cesium combust in air by itself once and that was when I was bottling 10g and spilled it. But it spread out a LOT and I think that the high surface area was what caused it to catch fire. I just dumped a bunch of mineral oil on it and extinguished it quickly and was able to save around 4g.
I hope it wasn't in your backyard.
@@nocturnhabeo actually.....
M
R-I-g-h-t, and you just happened to have some mineral oil near by Mr. Fumblefist, hope you were removed from your position for being too clumsy with dangerous chemicals.
@@robertlangley258whiny little baby
I'd love to see you do a Collab with Gav & Dan, or Destin. The quality of their slow-mo, paired with your chemistry knowledge, would be an amazing combination.
I second that 100%
Some of these reactions start very slowly, showing little to no effect for several seconds after contact, and then explode in less than a millisecond. To me this is a great display of the explosive power of the exponential function. Even when the base is only slightly above 1, you only get a limited time before the function explodes. (Try plotting y=1.001^x in something like Desmos and then zoom out until you see anything happen.)
ibb.co/mDc64Dq 😀
Ya, that's because all the reactions are in slowmo....
@@koreyhayden1368damn, sometimes just be quiet cause you’re wrong
The amount of effort put into these videos is insane, this is for sure one of the most underrated channels on yt :)
I think part of why it reacts so violently in water (more than potassium, for example) is because of its actual reactivity, but part of it is it’s dense enough to sink below the surface before bursting. That means that instead of blowing up into the air it blows into more water completing the reaction.
And another part of the explosiveness comes from cesium’s low melting point, turning into a liquid with minimal heating from room temperature. The said liquid then gets its electrons ripped off by H2O and causes a Coulomb explosion where bits of positively charged alkali metal particles violently repel one another. This is exactly the reason why NaK explodes like cesium does, sodium produces delayed explosions (if it does explode at all), and lithium simply does not explode when thrown into water.
But the effect is quite different if compared to a Na/K alloy.
I love how your bromine drop mostly missed Cs, but the energy managed to throw it around through the air.
With fluorosulfonic acid the miss was quite a happy accident. It was beautiful
I'm glad RUclipss algorithm pointed me to your channel! Very Interesting, educational and fun! Subscribed!
WOW!
I don't think I've ever seen so much caesium in one place before!
The quality of these videos is awesome
cesium is used as a drilling fluid, it isn't that uncommon.
The videos always amaze me. Loved the second to last "cesium in ammonia and iodine monochloride" those colours.
Mesmerizing colors. I loved jt
This video shows what is so fantastic about youtube. We get to see you actually doing what we have dreamed of doing all our lives! Incredible quality too.
The reaction with HSO3F and the Iodine compound (that purple cloud was so beautiful) are simply awesome, such a great video quality, keep going!
By far the best quality video on caesium and its reactions I’ve ever seen. The violet of the caesium-tainted hydrogen flame with water is clearly visible, and the solvation in ammonia is a revelation. Slo-mo filming makes all the difference.
Thanks a lot! 😏
I'm sure that ammonia combo boiling everywhere smelled great, but that's what fume hoods are for of course.
A whole lot of chloroform being exploded in every direction must've also been quite an experience
Cesium bismuth amalgam has some pretty interesting properties. I would love to see a beautiful bismuth Crystal dissolved in some gold cesium. The aliens are sure to come after such alchemy.
Nice try, alien cleric xD
It reacts violently with bismeuth forming a wierd dark reddish intermetallic material. Mercury reaction is similar to that of sodium. 🤓
Aliens aren't real
Thanks for the advice, was about to go and transfer my vast caesium stash to my chloroform storage unit! So glad someone told me!
This video was absolutely incredible, but I feel like I would've enjoyed more commentary on why certain things were the way they were. Like the pinkish purple smoke, or how slow the liquid combination was to come out of the tube.
That being said, this video was absolutely fantastic, and I'm overjoyed that I got the opportunity to watch it
Very much agree!
Hello ChemicalForce!
Traditional soaps use NaOH and KOH as bases and LiOH is used to make lubricating grease.
I wonder what happens if more exotic forms of base such as RbOH or CsOH were used instead.
What kind of "soap" would they produce? Perhaps this could be an interesting idea for a future video.
I would like to see this too! I’d like to see what kinds of soaps RbOH and CsOH would make.
And for that matter, FrOH and 119OH/UueOH if they ever manage to make element 119.
@@129140163 If only Francium was stable enough to do chemistry with. It would've probably looked like extremely reactive dark metal liquid (or almost) at room temp
Feliks hasn't only inscenated his 100th video, he celebrated it - congratulations!
This very precious metal was worth it!
Wow that near instant reaction with the Fuming nitric acid was incredible.
I cannot stress how much I enjoy these videos! They are works of art!
agree this videos are superb
You're showing THE chemistry you sometimes think of like: wow that'd be awesome, but so dangerous 😂 SO AWESOME!!
This is so cool! I love seeing cesium reactions, and bromine is one of my favorite elements, so seeing them both react together is amazing!
The only two metals that are gold in color are the most reactive(cesium), and the least reactive (gold). Gold doesn’t ever corrode outside of laboratory conditions
I swear I learn more about chemistry from youtube than I ever did in chemistry class. Absolutely incredible to see this stuff in the safest environment possible. At my house hiding behind a computer screen lol.
Bro, you continue to impress. I love your content. I hope you are well :)
My dad is a retired chemist, and he absolutely loved this video.
this channel is unhinged. it has some of the most expensive and dangerous chemical demonstrations available online and every single video has completely unnecessarily tense orchestral music
If by "unhinged" you mean awesome!
"most expensive and dangerous chemical demonstrations available online"... "Unnecessarily tense"...
Think about that for a second. I think you'll find saying those two things in conjunction doesn't really make sense.
I bet the tense music helps to call the casual (non-chemically-inclined) viewer's attention to how expensive and dangerous the chemical demonstrations are, at least subconsciously.
The tense orchestral music is VERY necessary, thank you.
12:51 That's one of the most beautful chemical reactions I've ever seen.
If science class were this cool, we'd have so many more scientists.
The ones that survived would be very skilled
@lightingnerd we need more teachers like that.
Chemistry+Halo music+hi-speed camera=nerd bliss for me! Superb content.
You could turn some of the stills from your high speed footage into art.
I actually had to catch my breath. Usually I watch in awe, but this time other people in the house could hear me yelling OMG. What a treat it is. Thank you my friend!
Dude I'm so jealous, I wish I could lay my hands on some wonderful chemical compounds like you and make things blow... I'm a chemistry student and I'm so freaking excited to have my own lab someday :'D
Never give up on reaching your goal :D
That was a fun intro. Loved the video as usual, but the iodide cloud was particularly awesome. You never disappoint, my friend.
Destroying those cesium is really heartbreaking for a poor chemist like me!
By the way the vid is as always extraordinary!!!!
I wouldn't even want to break the nice 99.99% ampules, they're beautiful ;-) but it is in the name of science!
@@MrJef06 Cesium is rare but very expensive to produce! Would've been cool if he recycled the cesium he destroyed!! But that's absolutely tedious and might not be even worth doin'! If I was him, I would store it and periodically show it to people just to prove I'm expert in chem coz I got access to a rare reagent! 😂😂😂
@@heisenbergstayouttamyterri1508 I've looked at it for many years. Now I feel better 😅
@@ChemicalForceHaha nice! 👍👍👍
Next level video. Nicely done! Please never stop !
thanks, I'll try to keep the brand 😅
Cesium is so interesting compared to the rest of the alkaline metals. I wonder if you could show some of the soluble cesium compounds to show why the radioactive isotopes are so dangerous?
this is not the radioactive isotope of cesium (137). you can only get that as a byproduct of nuclear reactors, and no regular citizen can own it without special permits. cs137 is a heavy gamma emitter, which is what makes it so dangerous. you would not be storing it in glass ampules :)
@@thomasneal9291 People from Goiania would agree with you...
Stunning!!! This is something i've never seen!! Thanks for the Amazing video!!
Honestly this channel is like a wikipedia rabbit hole come to life. All the weirdest reactions, it allows for a certain "appreciation" that the equations lack. And by appreciation I mostly mean me like shiny fire metal go boom!
If only my class in high school was this interesting we’d have so many more kids my age interested in chemistry and science. Im not bashing our teachers. It just seems like the ones I have are just there for the paycheck. No excitement, no passion. Just the Peanuts teacher basically. That purple smoke towards the end was BEAUTIFUL!
The shock waves we could see on a few reactions were awesome. Some particles got to surf the shock wave a few times. It looked amazing in slo-mo. The cinematography here just keeps on being amazing.
Coolest footage I have seen in a long while. Thanks!
Beautiful video, the Cesium in ammonia reacting with ICl was amazing.
amazing! I miss my labs classes at the university. But this is way far from what we used to see in the first grades. Thanks for share it. Beautiful and quality imagens
Sometimes I look back at history and say "a mere 200yrs, we've gone from 15-30min exposures on daggeurotypes, to 1000-100k FPS cameras"
and that advancement is itself truly amazing; what we capture with it is a million times more.
Watching stuff violently explode to epic music is very satisfying. My best chemistry teacher in high school did show us similar videos (on VHS, before RUclips was popular) and I loved it, but yours are way better, ChemicalForce. It's amazing how far content on this platform has come when it can easily surpass professionally made videos in quality.
These reactions are so beautiful! Especially the iodine ones
The WORLD was not ready to see that gorgeous ICl reduction reaction !
Holy crap !
Wow i've always wondered what cesium looked like, thanks for doing all those reactions!
The Timelapse Cuts were super Awesome and astonishing OwO
Great Video!
Just epic cinematically wise!
The utterly and entirely mad reactions are as satisfying as they could be aswell.
Cheers.
WOOOWW I LOVE YOUR STUFFS MAAAN !! THIS VIDEO IS SO GOOD THANK YOU !!!
I do love the cinematography of these videos. They're a real treat for the eye.
And while it can and does get stupid expensive for crazy frame rate... That would be my *only* ask. Some of these reactions... Haha like the nitric here...
No other way to see what is really happening with some of them. Not to mention on so many, that's where the beauty lies as well.
That said no I'm not complaining. It's excellent even as it sits. Nobody else does anything like what he's got going on here.
Beautiful reactions with iodine cloride again! Thanks!
I could watch the purple smoke all day.
For the first video I've seen absolutely amazing!!! Why have I never seen cesium react to things before, great work with the camera!!!!
Amazing video! Those reactions are so beautiful in slow motion!
that opening was sick
12:51 is my favourite! Who knew such a dangerous reaction can produce such a beautiful display of colours!!
Reactions looks litteraly beautiful.....❤
Such spectacular and beautiful reactions.
I particularly liked the Fluorosulfonic acid and Bromine reactions where you didn't drop it right on top and allowed just the tiniest bit to contact to show the reaction a bit slower and emphasize just how little of the stuff you need for a violent reaction.
Stunning 😮 the slow motion was mesmerising ❤️👍👍👍
The purple smoke is beautiful.
This is what I call Quality Content.
The cesium in liquid ammonia and Iodine monochloride reaction was my favorite, the otherworldly purple smoke was just awesome!
Absolutely fantastic, the slow photography is top class, the colours are beautiful
I loved this video. I can not imagine a more FASCINATING episode, and the introduction was very professional! Really, your videos always look like a million dollars. What a surprise it was to see beautiful golden cesium turn black and ugly so quickly.
It is a most beautiful chemical video I ever seen!
10:47 the purple cloud and the drop appearing from vapor looked fantastic
Your videos never fail to amaze me! It's so cool to see such exotic chemicals reacting together. Your production quality is next level too!
Magnificent! This is inarguably purest state of art.
Amazing! Thank you for giving us the opportunity to watch dangerous substances from a safe distance. One would also like to see a "making-of-video" to learn how you managed to film this without damaging yourself or your equipment.
Might be the best slow mo I've ever watched. Thumbs up
This masterpiece is worthy of the 100th video, you've outdone yourself, kudos :D
This was a beautiful demonstration, thank you. Chemistry is so amazing
i work with these chemicals every working day and the things you show are incredibly interesting and your videos are well made. congrats!
The slow motion footage is so beautiful.
Thank you.
This has both impressive videography and chemical reactions. Nicely done!
Best chemistry channel on youtube!
Every video gets better and better! Keep up the good work!
Thats a LOT of damage!
An excellent videa as always! Especially the chloroform reaction I’ve never heard of before. Might try it after I get around to make some cesium.
I love the purple smoke
That purple smoke was downright beautiful!
I didn't understand a word of it all 😅🤪 but I was as amazed as when I was a kid, 40 something years ago, and was watching fireworks ! And the camera work is simply 😍😍😍
Good music, good slo mo, cool looking reactions, nice. I'd love to hear a little tiny bit more of what is happening in the reactions too. The reaction with the purple gas looked to have frozen the dish, but I wasn't sure.
That practical effects intro ... amazing stuff!
This video was spectacular! I never would have seen most of this. 🤘😍🤘
Cesium is one of my favorite elements and seeing this video made me as happy as a kid on Christmas day.
Worth every second. I commend you sir 👍😎
It's unbelievable!
Just the essence of magic
😉💥🤘⚡️ to the moon 🌝 AWESOME!!!
Knew this video was going to be great but man it was even better. The quality is insane. Hope you can continue showing us high quality footage of cool reactions for 100 or more videos!