It's not quite enough to say "it's infinite therefore it must contain this thing" like the idea that pi being irrational, it must contain every combination of numbers is not true.
A good way to think about this is you might have an infinite series of numbers and see the first 400 and it could be totally random and you might assume the idea that it needs to contain every combination but what if after 401 it starts going 1111... It would still be infinite.
Pi being irrational means it can’t just be 111, however it could just completely stop using up to 8 numbers forever, as in just 1 and 0 in such a way that never fully repeats.
Yes I know, I was using the irrational property of infinite decimal expansion. I wasn't talking about pi when I said it could just be 1111 I was talking about a general infinite series of numbers. Sorry if that was unclear.
but since a morbillion is guaranteed to be a positive integer (due to english grammer only allowing -illion on units of 10^3n) it must be inside the list of integers somewhere, provided the integer definition is complete.
You cannot dispute the fact that one Madawebillion is higher than one Morbillion
1 Morbillion was discovered in 2022
1 Madawebillion was discovered in 2024
Thus, one Morbillion was discovered on the path to count up to one Madawebillion, making one Morbillion less than one Madawebillion. QED!
I don't know enough about math to disprove this statement, have a morbillion upvotes
It's not quite enough to say "it's infinite therefore it must contain this thing" like the idea that pi being irrational, it must contain every combination of numbers is not true. A good way to think about this is you might have an infinite series of numbers and see the first 400 and it could be totally random and you might assume the idea that it needs to contain every combination but what if after 401 it starts going 1111... It would still be infinite.
Pi being irrational means it can’t just be 111, however it could just completely stop using up to 8 numbers forever, as in just 1 and 0 in such a way that never fully repeats.
It could be 1111 at some point.
But not forever like the original guy was saying
[удалено]
Because that’s the definition of an irrational number
Yes I know, I was using the irrational property of infinite decimal expansion. I wasn't talking about pi when I said it could just be 1111 I was talking about a general infinite series of numbers. Sorry if that was unclear.
but since a morbillion is guaranteed to be a positive integer (due to english grammer only allowing -illion on units of 10^3n) it must be inside the list of integers somewhere, provided the integer definition is complete.
Just because something contains -illion, doesn’t mean it has to be a representation of 10^3n. Also, I present to you, 1 thousand.
Petition to call 10\^69\^69 a Morbillion (have sex reference) and 10\^69\^69\^69 a Mortrillion and so forth (10\^69 is already taken)
Why, what’s 10^69?
A Mormillion
That must have been the number of people who bought tickets for the musical “The Book Of Mormon”
It's mormin' time
Duovigintillion
We can have a Morbillion/Morbilliard schism too!
Why not 10^(10\^69)? Like how a googolplex is 10^googol
That could be a Madamwebillion
i thought they already qualified it as the biggest real number back when the movie released
You cannot dispute the fact that one Madawebillion is higher than one Morbillion 1 Morbillion was discovered in 2022 1 Madawebillion was discovered in 2024 Thus, one Morbillion was discovered on the path to count up to one Madawebillion, making one Morbillion less than one Madawebillion. QED!
well it is, idiot
It's morbin time.
Morbillion could be an imaginary number.