if you create a regular sized dice that contains a googol numbers, it'll be a sphere with sides so small it breaks the law of physics (probably, I haven't tried)
Technically, no 3D dice can be made of a googol 2D sides since the sides won't line up with each other. The dice with the most possible equal sides is one composed of hexagons. 2nd place would be the 20-sided dice made of triangles.
If I rolled all those dice, the odds of those dice landing on the same number is still greater than: •plugging in the USB correctly first try •having a test without double sided papers •finding happiness in life
I knew it was going to be a huge chunk but I'd never imagine it'd be much bigger than the observable universe. The magnificence of greater numbers are insane.
If you travelled by the zettaverse, the probability of finding our universe and inside our universe find earth and in earth find your house, is still higher than yall finding your lost pegh-
2:07 By this point, if that amount of dice were just floating next to each other in the middle of space somewhere, gravity would have rounded them into a planet
i dont think so. i dont think dice are dense enough. it would be more like one of those asteroids that are actually just a giant ball of dust floating in space.
@@the_Acaman i know you weren't replying to me but just so you know dice would not form a planet. planets form when particles and materials are attracted to young stars via gravity. overtime the particles accumulate to form planets. dice would not have anywhere near enough gravity to form a planet, and their small size and shape would not facilitate the accretion process required for planet formation.
@c i think you're slightly mistaken. planets form from the accumulation of dust and gas over a long period of time. the giant balls of dust and gas that form into planets have a huge gravitational pull, because the particles of gas are so small they can be packed tightly together which makes these balls of dust and gas extremely dense. dice would not be able to have a high enough gravitational pull because in a solid form they can't increase their density like a ball of gas can. when gas particles come close to each other, they can effectively occupy a smaller volume, resulting in higher density and a stronger overall gravitational field. solid objects like dice have a fixed shape and size, which limits their ability to increase density by simply being placed closer together. gas particles in protoplanetary disks can undergo a process known as gravitational collapse. Under the influence of gravity, the gas particles can collapse inward, creating regions of higher density and eventually leading to the formation of protoplanetary cores. if you still think im wrong please let me know why.
When counting the volume of a cube, the amount of units also raises to the 3rd power: 🎲 size: 16 mm 🎲 volume: 16³ mm³ = 4096 mm³ Same with "37 quad. cubic light years", which should also be raised to 3rd power.
@@Bober26681 The unit is cubed, but the number is not. 37 quadrillion light years - that's the side length of a cube made of 10^100 🎲. (16 mm x cube root of 10^100). The volume should be 4.84 x 10^46 cubic light years.
0:55 When American use metric system. At left, you have 4 cube of 1 cubic meter, so it makes 4 cubic meters At the center, you also have 4 cubic meter, not 1.6 cubic meter. Because a cube with a side of 1.6 meters is 1.6*1.6*1.6=4 cubic meters.
for my calculations it'd probably just be 3.7x10^16ly to the power of 3.7x10^16ly which is probably about a number with quadrillions or quintillions of zeroes
I always thought that a island full of plastic would be bad for the ocean, but something tells me that a googol dice would probably not fit in the oceans. (Edit: wait 100 likes in 3 weeks ayyyoooooo)
Or if you were counting the numbers that the dice would have, you can get a extremelly high poly sphere and make it big. Then place the numbers in each polygon. Boom, you made a googol dice that you can actually use, you just need an extremelly powerful pc
I am going to cry and have a mental break down from this, I feel EVERY EMOTION that human beings have ever felt wrapped into one!!! I want to cry tears of ecstasy, horror, victory, defeat, anger, and sadness all AT ONCE. The sizes of these volumes make me have ALL of these emotions for so many different reasons.
okay, so it'd just be a sphere yeah? The sides would be of such miniscule size that they'd like be indistinguishable from one another except underneath micro-lenses. More still, the color of the damn thing would probably be gray, or at least some manner of off white. Edit: Referring to a googol-sided die
Good visualization! I can't even imagine the horror of what Graham's Number of dice would look like in the same way. Or even the number of zeroes in it. (for comparison, Googol has 100 of zeroes, they can be represented by 5x5x4 dice, but Graham's Number is totally different)
@@GunZnRifles Yes, that would be the next level probably ) But right now, how can it even begin to be calculated? In comparison, Graham's Number is calculatable, you just need enough memory to store its digits or at least its order, i.e. number of digits in it, or at least the number of digits in its order, ot at least the number of, lets say, digits in the height of its power tower, and so on. And its calculation can be done in steps, where every next step requires exponentially more memory (in fact this amount grows much more quickly than exponentially) to store the result, so it is possible to stop at some point and begin to have an idea about the requirement for the next 1 or 2 steps, or at least something to metaphorically compare the result in the next step to. The Three(3) by comparison is not yet calculatable at all.
As a cookie clicker player. Seeing tredecillions of tiny dice visually packed together, I can't even imagine what the cubic size of tredecillions of cookies would look like.
At 0:12 I think you mean the average die is 16x16x16 mm, which is 4096 mm3. A 16 mm3 die would have 2,5 mm sides, which would be hard to use. With 16 mm sides you would indeed get about 63 in a meter.
for perspective, if you took two different decks of playing cards and combined them then there would be more than a googol ways to shuffle the big deck
The Cube Would Be More Than 169.12 Sexvigintillion Cubic Light Years In Volume (Less Than A Googol Meters Containing 100 Duotrigintillion Dice On Each Side…), Which Would Be More Than 6 Unseptuagintillion Times Bigger Than The Known Observable Universe / About 46 Tresexagintillion Times Larger Than The Complete “Cosmic Inflation” Universe… (All Of The Stacked Dice Would Be Less Than 345 Paper Folds In Length, Which Is Why 5.25 < 7.58, Or The Estimated Amount Of Duotrigintillion Meters For Each Of Them…)
I was shocked seeing that we got to the observable universe without at 10^100 I could imagine some random number like 100000^100000000 and would be lost where it would go😂
I can't find any estimates of how many dice have ever been manufactured in the history of the world. Obviously it would be a massive understatement to say that it isn't even close to a googol, but the question still popped up in my head while watching this and now the curiosity's gonna bug me.
i need to sleep but i also needs answers
y=u×122
U= 52! What is y
This is proof that all humans are the same
@dddivievery number is the same distance from infinity
@@phrimphrao54 52 factorial or just 52?
SAME
if you create a regular sized dice that contains a googol numbers, it'll be a sphere with sides so small it breaks the law of physics (probably, I haven't tried)
It actually would break physics, the faces would be smaller than the Planck length, where physics break down.
The observable universe doesn't have a googol atoms
Just make the dice really big
@@ericgolightly8450 that's just a sphere honestly
@@KirikkSiSqdidn’t say it did
I was gonna ask what a Googol-Sided dice would look like. Then realized that's called a sphere.
YOU CRAZY
YOU ERROR NAME
A googolhedron!
Technically, no 3D dice can be made of a googol 2D sides since the sides won't line up with each other. The dice with the most possible equal sides is one composed of hexagons. 2nd place would be the 20-sided dice made of triangles.
No, a shape with a perfectly smooth surface can't exist
Watching a humongonongologongous dice in space with dramatic epic music at 4am without any sleep is making me struggle to not laugh. 🤣
Full of much humongousness.🤪
I honestly lost it when it got to the local group. Like it's so insanely incomprehensibly large I just burst out laughing
There's a actually such number.Googol is a really small number,it's just first from the googol numbers.@@hansignals9593
You laugh you win a googol dice.
How bro felt like after saying Humongonongologongous: 😈😈🧠🗣️🗣️💯💯💯😈😈😈🧐🧐🧐
Huge shoutout to the factory workers who had to make all those dice!
"dices"
Dice is actually the plural term. The singular term is "die"@@CherryBrown-iq1uq
True
@BOT_CORP Well, yes, but the word "dice" can also be used as the singular. It usually changes based on where you're from.
@@NomchipomPlays oh, ok
Props to everyone for helping to stack all those dice
They used math
AND NO, DO *_NOT_* HARASS ME FOR NOT UNDERSTANDING WHAT A JOKE IS
@@carythestickmanimagine if they did stack the dice :0
and they would have to be really rich to afford all the dice
@@carythestickmanr/woooosh
my arms are tired
If I rolled all those dice, the odds of those dice landing on the same number is still greater than:
•plugging in the USB correctly first try
•having a test without double sided papers
•finding happiness in life
And all of them combined?
Man how I relate to that last part lmfao😂😭😔
@@MrMedia2024Offical OH MY GOD WHY DO PEOPLE DO THE MATH FOR THIS-
@@MrMedia2024Offical i dont think itll be close to a googolplex
@@MrMedia2024Offical Ok its actually 10^600
Minecraft steve could probably carry a stack of inventory of that thing
He could carry a full inventory of shulkers full to the brim of stacks of these.
@@MDE_never_dieshe could carry a whole inventory of shulker filled with shulkers filled with shulkers filled with shulkers filled with these dice
Honestly it's not too far off although this is still far greater.
@@astragaming6947 you can't put a shulker inside a shulker
@@Nufetto exactly
Graham's number:
Hold my beer.
I love how when numbers get too big it just turns into months
septillion
octillion
nonillion
decillion
Didn’t realize that,
Jantillion
Febtillion
Martillion
*May*tillion
These are some months in the light year.
@@LSkipperGamer aprtillion
That’s because months were based off numbers
@@Dr.Funk8864specifically Latin numbers!
I’ve been watching for 4 years & you never fail to make good videos. Thanks Yenji!
Giant sun 🌞🌞🌞🌞🌞🌞🌞🌞🌞🌞🌞🌞🌞🌞🌞🌞🌞🌞🌞🌻🌞🌻🌞🌻🌞🌻🌞🌞🌞🌞🌞🌞🌞🌞🌞🌞🌞🌞🌞🌞🌞🌞 8
@@nicholaslionel6471what are you talking about?
4 years?! You know you can change the playback speed to "normal", right?
Ohhh dude you just have the video loop on
^^ yall are too clever XD
I knew it was going to be a huge chunk but I'd never imagine it'd be much bigger than the observable universe. The magnificence of greater numbers are insane.
If you rolled each dice, the probability that they all land on a six is still higher than the probability that you would get a girlfriend
If you travelled by the zettaverse, the probability of finding our universe and inside our universe find earth and in earth find your house, is still higher than yall finding your lost pegh-
(joke)
Then that mean i am only aleph null +1 luckiest person in world
Damn... Why and how do you know this and why did you make me remember that I don't get butches 😭😭
Omg 😂😂😂
I Could Imagine The Pain Of All Those Dice Falling The Person Who Made It Would Be Devestated
Now this is cosmic horror.
Horror of simple mathematic.
This isn't Cosmic Horror, it's existentialism. Cosmic Horror is the horror of the vast and Infinite unknown, not gigantic die.
When you realize getting more dice just makes the outside appearance infinity flatter
At first I was a lil disappointed that it wasn't a die with a googol faces but now blown away with big it quickly got lmao!
that would be a ball wouldnt it
@@Àáârminkäãā Pretty much lol
Lesson: Never underestimate large numbers.
log()s
@@ErdemtugsC 💀
Googol plex... (Googol×Googol)
@@yuanfurbax no it’s googol^10
@@ErdemtugsC oh ok. Good to know
The burning question is if that were a Rubik's cube how long would it take to solve it?
Your life x1000000000000000000000
Simple: one googol life. See ya!
that one asian kid in your class will do it in 20 seconds
@@rubub8455 nowadays this is considered racism. You should not use these lines...
@@pwr4 What does this have to do?
Imagine, they have all been lined up properly. All of the dice facing the same way, except one.
2:07 By this point, if that amount of dice were just floating next to each other in the middle of space somewhere, gravity would have rounded them into a planet
i dont think so. i dont think dice are dense enough. it would be more like one of those asteroids that are actually just a giant ball of dust floating in space.
actually it would happen at the previous stage
@@the_Acaman i know you weren't replying to me but just so you know dice would not form a planet. planets form when particles and materials are attracted to young stars via gravity. overtime the particles accumulate to form planets. dice would not have anywhere near enough gravity to form a planet, and their small size and shape would not facilitate the accretion process required for planet formation.
@c be more specific, what part of what i wrote do you think is wrong?
@c i think you're slightly mistaken. planets form from the accumulation of dust and gas over a long period of time. the giant balls of dust and gas that form into planets have a huge gravitational pull, because the particles of gas are so small they can be packed tightly together which makes these balls of dust and gas extremely dense. dice would not be able to have a high enough gravitational pull because in a solid form they can't increase their density like a ball of gas can. when gas particles come close to each other, they can effectively occupy a smaller volume, resulting in higher density and a stronger overall gravitational field. solid objects like dice have a fixed shape and size, which limits their ability to increase density by simply being placed closer together. gas particles in protoplanetary disks can undergo a process known as gravitational collapse. Under the influence of gravity, the gas particles can collapse inward, creating regions of higher density and eventually leading to the formation of protoplanetary cores. if you still think im wrong please let me know why.
It's always a good day when Yenji Jem (the folding paper guy) uploads
Yes! Agreed, I love his videos. I’ve been watching him for 4 years. He never fails to make good videos. Thanks Yenji!
Props to everyone who stacked all these dice.
@@OH-STUNNERNobody did.
@@MatthewConnellan-xc3oj If you count god as nobody then you are right
@@MatthewConnellan-xc3oj it's literally a joke
When counting the volume of a cube, the amount of units also raises to the 3rd power:
🎲 size: 16 mm
🎲 volume: 16³ mm³ = 4096 mm³
Same with "37 quad. cubic light years", which should also be raised to 3rd power.
Isn't IT already raised to the 3rd power? It said cubic light years after all
@@Bober26681 The unit is cubed, but the number is not.
37 quadrillion light years - that's the side length of a cube made of 10^100 🎲. (16 mm x cube root of 10^100).
The volume should be 4.84 x 10^46 cubic light years.
Should have more faces, not an exact cubic shape
This video creates a scale in our minds and makes incomprehensible numbers comprehensible.😊
I guarantee you have no comprehension of even the size of our solar system lol. It is crazy to put numbers in perspective like this though.
0:55 When American use metric system.
At left, you have 4 cube of 1 cubic meter, so it makes 4 cubic meters
At the center, you also have 4 cubic meter, not 1.6 cubic meter.
Because a cube with a side of 1.6 meters is 1.6*1.6*1.6=4 cubic meters.
Props to the cameraman for filming this!
(And the guys who stacked all those dices)
Now for a googolplex dice! What we have just seen would be tiny in comparison! Thank you for sharing an interesting video!
If 10^100 is larger than the observable universe, then 10^(10^100) is unfathomable.
@@jazzabighits4473 not just larger TRILLIONS of times larger
@@Mohdaman13googol times larger
Yes
for my calculations it'd probably just be 3.7x10^16ly to the power of 3.7x10^16ly which is probably about a number with quadrillions or quintillions of zeroes
props to the guy who stacked them all
The people who made the dice were very resourceful in finding all the materials for this project
The TRUE let’s go gambling moment
now we need a googolplex dice
Here’s what happens
The computer turns into a nuke
Are you crazy 💀☠️
@@robloxrules4524 Nuclear detonation imminent
Have you heard about Ungoogol
Ungoogol Is 10²⁰⁰ or 10^200
Fun fact: The opposite sides of a dice would always add up to 7
*6
@@michaeldreemurrandhisaus2165 actually it’s 7. Since there is a 6 the other side would have to be at least 1.
Fun fact: The opposite sides of the googolplex dice would always add up to googolplex+
I don’t understand
viva el 7
'This is a die' 💀💀💀💀💀💀💀 (0:08)
Die is = to dice
I said the same thing too
@@opguyrobloxme too lol
youngpeopleyoutube
It’s not that funny
4:13 Every dice = 1% of how much I love god
10 untrigintillion (100%=1)
oof
Sorry but in this case you can’t go over 100%
L Like beggar
i think you would fucking explode on the spot if this was true
if you guys are wondering what 1:04 what number that is thats 1 and 9 zeros
I always thought that a island full of plastic would be bad for the ocean, but something tells me that a googol dice would probably not fit in the oceans. (Edit: wait 100 likes in 3 weeks ayyyoooooo)
Correct.
Yes I think there might be slightly too many
The gravitational field strength is stronger than the gravitational field strength of earth so it will pull the earth into it and become a black hole
@@noiceooooo4731 the mass energy would be more than the universe probably lol
@@jazzabighits4473 many times more, like putting that thing anywhere near the observable universe would not be good for us
Credits to whoever had to manufacture a googol dice for this video!
**spins**
huh i got…..
Yenji Jem finally made a beyond universe comparison, xD
Bro the thumbnail looked like a minecraft block 💀
respects to cameraman for going this far
Or if you were counting the numbers that the dice would have, you can get a extremelly high poly sphere and make it big. Then place the numbers in each polygon. Boom, you made a googol dice that you can actually use, you just need an extremelly powerful pc
Just pick a random number between 10¹⁰⁰ and 6×10¹⁰⁰
Saved your PC for you
@@Unofficial2048tiles oh good, more incomprehensible math
@@Unofficial2048tiles not uniformly random, but the idea is right
Establish
jarty
1:18 avg minecraft block
I was expecting it to end with a "your mama" joke
Imma go and buy some board games to replicate this video.
ive always known it but its cool to show how a duotrigintillion is VERY close to a googol (10x smaller)
10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000
Dugtriogintillion
That's an interesting thing to have always known
That isn't close at all. The difference between them is still 9 duotrigintillions. That's a huge gap!
Dice it wouldn't be the size of the universe Googleplex of dice probably who Volume of r earth give or take a quarter lol
This is so cool!
Look's cool! I might do this but with Pokemon.
BTW Did you see my request from the Every number is interesting video?
Huh
Ok, now I need a representation of what would be like to see giants stacks of dices in the sky.
So useful. Thank you for finally giving us the answer. I can die, now.
2:58 the way how the 10⁶⁹ just pops up from nowhere
It was there all along 😢
this just proves how rediculously big 1 googol is
Now It's Time For a Graham's Number Dice.
I am going to cry and have a mental break down from this, I feel EVERY EMOTION that human beings have ever felt wrapped into one!!! I want to cry tears of ecstasy, horror, victory, defeat, anger, and sadness all AT ONCE. The sizes of these volumes make me have ALL of these emotions for so many different reasons.
The new diceiverse has arrived
okay, so it'd just be a sphere yeah? The sides would be of such miniscule size that they'd like be indistinguishable from one another except underneath micro-lenses. More still, the color of the damn thing would probably be gray, or at least some manner of off white.
Edit: Referring to a googol-sided die
the sides would be so small that they would basically break physics
Good visualization! I can't even imagine the horror of what Graham's Number of dice would look like in the same way.
Or even the number of zeroes in it. (for comparison, Googol has 100 of zeroes, they can be represented by 5x5x4 dice, but Graham's Number is totally different)
How about Tree(3) amount of dice?
@@GunZnRifles Yes, that would be the next level probably ) But right now, how can it even begin to be calculated?
In comparison, Graham's Number is calculatable, you just need enough memory to store its digits or at least its order, i.e. number of digits in it, or at least the number of digits in its order, ot at least the number of, lets say, digits in the height of its power tower, and so on. And its calculation can be done in steps, where every next step requires exponentially more memory (in fact this amount grows much more quickly than exponentially) to store the result, so it is possible to stop at some point and begin to have an idea about the requirement for the next 1 or 2 steps, or at least something to metaphorically compare the result in the next step to.
The Three(3) by comparison is not yet calculatable at all.
I think it can only be reached by using power tower recursion. Even taking the log base googol wouldn’t do sh#t.
How about a googolplexian@@michaellv426
The maxium we could throw with those dices is like 6x10*106,
am i right?
I suppose if you’re summing them, it would be 6 googol, or 60 duotrigintillion.
@@YenjiJem o
@@YenjiJemand it’s 1/6 googol chance it lands on the same number
No just 6x10^100
@theresa.y5221 nope, (1/6)^google or in other words, 1 in 6^(10^100). A much much smaller chance.
I thought the question was what would a D-Googol would look like. Lol
As a cookie clicker player. Seeing tredecillions of tiny dice visually packed together, I can't even imagine what the cubic size of tredecillions of cookies would look like.
imagine if someone knocked that cube over….
*giant person appears to do so*
*There is no more universe. Only dice.*
of faqk
3:03 nice
Yes
@@Camnico_ono
@someoneidk177 last words from jtard:
1:50 bro humans would lag if that collapsed
true tbh@someoneidk177
0:08
"This is a d i e"
At 0:12 I think you mean the average die is 16x16x16 mm, which is 4096 mm3. A 16 mm3 die would have 2,5 mm sides, which would be hard to use.
With 16 mm sides you would indeed get about 63 in a meter.
for perspective, if you took two different decks of playing cards and combined them then there would be more than a googol ways to shuffle the big deck
3969 dice more like 3969 nice
6969
@@YenjiJem nice
There is one question:
What will a centillion dice look like?
The Cube Would Be More Than 169.12 Sexvigintillion Cubic Light Years In Volume (Less Than A Googol Meters Containing 100 Duotrigintillion Dice On Each Side…), Which Would Be More Than 6 Unseptuagintillion Times Bigger Than The Known Observable Universe / About 46 Tresexagintillion Times Larger Than The Complete “Cosmic Inflation” Universe… (All Of The Stacked Dice Would Be Less Than 345 Paper Folds In Length, Which Is Why 5.25 < 7.58, Or The Estimated Amount Of Duotrigintillion Meters For Each Of Them…)
1.00Cn (1.00 centillion)
179UCn (179 uncentillion / 1024-bit integer limit)
NO THNK YOU.
Yeah but like, what are if i sneezed on it and caused a universal extinction?
Music is on point with this video
but what happens if i just remove a dice from the base and it starts raining dices?
it’s raining dices from out of the sky 💀 dices no need to ask why 💀💀☠️☠️💀💀☠️☠️
@@WhitePikm1n Just open your mouth and close your eyes its raining dices
@@nala_zain open your mouth, its raining dices
@ShoddySleet74lettuce and chows, cheese and meat, its raining tacos yum yum yum yum yummity yum
What about a googolplex dice?
Today is June 10th, which means:
Happy birthday, Yenji Jem!
Milky Way when the freaking duovigintillion dice walks in
Imagine kicking that thing and it all just comes down
We would die
At this point this much dice would have it's own gravitational pull.
It's now a black hole
everything has its own gravitational pull.
@@yournotgully gravitational pull that's noticeable to people
Who thought he meant a dice with a googol sides
Me
Me also, I was disappointed but stunned in shock.
I was shocked seeing that we got to the observable universe without at 10^100
I could imagine some random number like 100000^100000000 and would be lost where it would go😂
That's Pentecillion
These numbers can get really big if you just keep adding 0's.
what would be the biggest number besides infinity
@@WhitePikm1n what's the smallest positive rational number?
0.00000000000000000000000000000000000000000…
this video saved my life more than once.
the dice factory must have had fun with this one
3:45 OH NO
Now, the biggest question...
If we rolled them all, how much would we get?
i think about 4.83 x 10^271
or 4.37 x 10^248
0 probably we cant count that much
@@mr.beatboxer757 bruh how the hell woud it be 0 my guy
@@loganross2677 i suck at math :P
i love how he says "die"
Yeah one dice is a die
@@CornbreadFish that was 7 months ago
@@PlutodatGDgameris there a law against replying to old comments or did you just have a bad day?
its cool when you make a awesome video about a random object
You know shit gets serious when the calculation starts getting planetary
1:40 i always made fun on the number
💀💀💀☠️💀☠️
i liked my own comment
😮
i lost my mind when it hit the observable universe i couldn't stop laughing
"Aw shucks looks like i got 58 Septillion."
cant imagine feeling smaller than an incomprehensible amount of stacked dice
I bet it was dangerous filming the Dodecahedron! Big props!
props to the cameraman for going beyond the multiverse for our sake.
Yes! Finally! The answer to question everybody was asking themselves everyday!
Average amount of Dice in a 40K game
The dramatic music on a dice size comparison video made me laugh
Props to the person who bought and stacked the Dice
I can't find any estimates of how many dice have ever been manufactured in the history of the world. Obviously it would be a massive understatement to say that it isn't even close to a googol, but the question still popped up in my head while watching this and now the curiosity's gonna bug me.
if every electron in the observable universe were turned into a dice, they could only form a tiny fraction of this googol dice.
I remember watching this
This calculation defied my mind, i cant calculate that fast, yet there is answers to it