Can the successor function be applied to N itself? ( With ' N' denoting the set of natural numbers) The 2019 Stack Overflow Developer Survey Results Are InSet theory, property of addition of natural numbers in the cardinal wayshowing the natural numbers exist from axioms (help with making sense of book)Natural numbers in set theory is 0,1,2,…?Is the set of Natural Numbers equal to first infinte ordinal?Discrete math - Set theory - Symmetric difference: Proof for a given number.Why isn't the set of real numbers countable?Defining natural numbers as the posterity of 0Why natural set is an infinite set with each element a finite number?Set of natural and rational numbersDoes a function that maps from (almost) any natural number to its set of prime factors is surjective?
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Can the successor function be applied to N itself? ( With ' N' denoting the set of natural numbers)
The 2019 Stack Overflow Developer Survey Results Are InSet theory, property of addition of natural numbers in the cardinal wayshowing the natural numbers exist from axioms (help with making sense of book)Natural numbers in set theory is 0,1,2,…?Is the set of Natural Numbers equal to first infinte ordinal?Discrete math - Set theory - Symmetric difference: Proof for a given number.Why isn't the set of real numbers countable?Defining natural numbers as the posterity of 0Why natural set is an infinite set with each element a finite number?Set of natural and rational numbersDoes a function that maps from (almost) any natural number to its set of prime factors is surjective?
$begingroup$
I don't think my question leads to anything, but does it have an answer?
My question is: I am allowed to form the set
N U N ,
that is the set :
0, 1, 2 ,3 ............................... 0,1,2,3 ....... ,
applying the successor function S to N itself, where S(x) = x U x ?
Remark: I'm not asking whether N is itself a natural number, that would be forbidden, I think, by the rule according to which no set can be a member of itself.
elementary-set-theory
edited Mar 31 at 11:59
Andrés E. Caicedo
65.9k8160252
asked Mar 30 at 18:01
Ray LittleRockRay LittleRock
9610
$endgroup$
add a comment |
$begingroup$
I don't think my question leads to anything, but does it have an answer?
My question is: I am allowed to form the set
N U N ,
that is the set :
0, 1, 2 ,3 ............................... 0,1,2,3 ....... ,
applying the successor function S to N itself, where S(x) = x U x ?
Remark: I'm not asking whether N is itself a natural number, that would be forbidden, I think, by the rule according to which no set can be a member of itself.
elementary-set-theory
edited Mar 31 at 11:59
Andrés E. Caicedo
65.9k8160252
asked Mar 30 at 18:01
Ray LittleRockRay LittleRock
9610
$endgroup$
3
$begingroup$
In set theory yes. See Von Neumann definition of ordinal.
$endgroup$
– Mauro ALLEGRANZA
Mar 30 at 18:06
$begingroup$
Thanks. May I ask you whether this set is of any interest? Could it qualify as a number of some sort?
$endgroup$
– Ray LittleRock
Mar 30 at 18:08
$begingroup$
@ Mauro Allegranza. Thanks for the link.
$endgroup$
– Ray LittleRock
Mar 30 at 18:12
3
$begingroup$
Yes, it can qualify as a number... it's the ordinal number $omega + 1$.
$endgroup$
– mjqxxxx
Mar 30 at 18:14
add a comment |
$begingroup$
I don't think my question leads to anything, but does it have an answer?
My question is: I am allowed to form the set
N U N ,
that is the set :
0, 1, 2 ,3 ............................... 0,1,2,3 ....... ,
applying the successor function S to N itself, where S(x) = x U x ?
Remark: I'm not asking whether N is itself a natural number, that would be forbidden, I think, by the rule according to which no set can be a member of itself.
elementary-set-theory
edited Mar 31 at 11:59
Andrés E. Caicedo
65.9k8160252
asked Mar 30 at 18:01
Ray LittleRockRay LittleRock
9610
$endgroup$
I don't think my question leads to anything, but does it have an answer?
My question is: I am allowed to form the set
N U N ,
that is the set :
0, 1, 2 ,3 ............................... 0,1,2,3 ....... ,
applying the successor function S to N itself, where S(x) = x U x ?
Remark: I'm not asking whether N is itself a natural number, that would be forbidden, I think, by the rule according to which no set can be a member of itself.
elementary-set-theory
elementary-set-theory
edited Mar 31 at 11:59
Andrés E. Caicedo
65.9k8160252
asked Mar 30 at 18:01
Ray LittleRockRay LittleRock
9610
edited Mar 31 at 11:59
Andrés E. Caicedo
65.9k8160252
asked Mar 30 at 18:01
Ray LittleRockRay LittleRock
9610
edited Mar 31 at 11:59
Andrés E. Caicedo
65.9k8160252
edited Mar 31 at 11:59
Andrés E. Caicedo
65.9k8160252
edited Mar 31 at 11:59
Andrés E. Caicedo
65.9k8160252
65.9k8160252
asked Mar 30 at 18:01
Ray LittleRockRay LittleRock
9610
asked Mar 30 at 18:01
Ray LittleRockRay LittleRock
9610
asked Mar 30 at 18:01
Ray LittleRockRay LittleRock
9610
9610
3
$begingroup$
In set theory yes. See Von Neumann definition of ordinal.
$endgroup$
– Mauro ALLEGRANZA
Mar 30 at 18:06
$begingroup$
Thanks. May I ask you whether this set is of any interest? Could it qualify as a number of some sort?
$endgroup$
– Ray LittleRock
Mar 30 at 18:08
$begingroup$
@ Mauro Allegranza. Thanks for the link.
$endgroup$
– Ray LittleRock
Mar 30 at 18:12
3
$begingroup$
Yes, it can qualify as a number... it's the ordinal number $omega + 1$.
$endgroup$
– mjqxxxx
Mar 30 at 18:14
add a comment |
3
$begingroup$
In set theory yes. See Von Neumann definition of ordinal.
$endgroup$
– Mauro ALLEGRANZA
Mar 30 at 18:06
$begingroup$
Thanks. May I ask you whether this set is of any interest? Could it qualify as a number of some sort?
$endgroup$
– Ray LittleRock
Mar 30 at 18:08
$begingroup$
@ Mauro Allegranza. Thanks for the link.
$endgroup$
– Ray LittleRock
Mar 30 at 18:12
3
$begingroup$
Yes, it can qualify as a number... it's the ordinal number $omega + 1$.
$endgroup$
– mjqxxxx
Mar 30 at 18:14
3
3
$begingroup$
In set theory yes. See Von Neumann definition of ordinal.
$endgroup$
– Mauro ALLEGRANZA
Mar 30 at 18:06
$begingroup$
In set theory yes. See Von Neumann definition of ordinal.
$endgroup$
– Mauro ALLEGRANZA
Mar 30 at 18:06
$begingroup$
Thanks. May I ask you whether this set is of any interest? Could it qualify as a number of some sort?
$endgroup$
– Ray LittleRock
Mar 30 at 18:08
$begingroup$
Thanks. May I ask you whether this set is of any interest? Could it qualify as a number of some sort?
$endgroup$
– Ray LittleRock
Mar 30 at 18:08
$begingroup$
@ Mauro Allegranza. Thanks for the link.
$endgroup$
– Ray LittleRock
Mar 30 at 18:12
$begingroup$
@ Mauro Allegranza. Thanks for the link.
$endgroup$
– Ray LittleRock
Mar 30 at 18:12
3
3
$begingroup$
Yes, it can qualify as a number... it's the ordinal number $omega + 1$.
$endgroup$
– mjqxxxx
Mar 30 at 18:14
$begingroup$
Yes, it can qualify as a number... it's the ordinal number $omega + 1$.
$endgroup$
– mjqxxxx
Mar 30 at 18:14
add a comment |
1 Answer
1
active
oldest
votes
$begingroup$
For any set $X,$ the axiom of pairing implies $X$ is a set, and then applied again, says $X,X$ is a set, and then the axiom of union says $cupX,X=XcupX$ is a set. (This is only one way to construct it... there are lots of ways.) So the successor operation is defined for any set (although it's really only called the successor operation when it's used on ordinals).
So if $mathbb N$ is a set, then we can form the successor set. Almost always, we define $mathbb N$ to be $omega,$ the first infinite ordinal, which is obtained as the closure of the empty set under the successor operation (this closure exists by the axiom of infinity). The successor of $omega,$ $omegacupomega,$ is the next ordinal, denoted $omega+1.$ Applying it again we get $omega+2,$ $omega + 3$ and so on.
answered Mar 30 at 20:23
spaceisdarkgreenspaceisdarkgreen
34k21754
$endgroup$
$begingroup$
Is $omega-1$ a well defined element of $mathbbN$?
$endgroup$
– Count Iblis
Mar 30 at 20:30
1
$begingroup$
@CountIblis no, subtraction for infinite ordinals is usually left undefined
$endgroup$
– Holo
Mar 30 at 20:31
$begingroup$
@CountIblis This certainly isn't a natural or an ordinal. There are some exotic systems that make sense of it though, such as the surreal numbers.
$endgroup$
– spaceisdarkgreen
Mar 30 at 20:59
add a comment |
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1 Answer
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$begingroup$
For any set $X,$ the axiom of pairing implies $X$ is a set, and then applied again, says $X,X$ is a set, and then the axiom of union says $cupX,X=XcupX$ is a set. (This is only one way to construct it... there are lots of ways.) So the successor operation is defined for any set (although it's really only called the successor operation when it's used on ordinals).
So if $mathbb N$ is a set, then we can form the successor set. Almost always, we define $mathbb N$ to be $omega,$ the first infinite ordinal, which is obtained as the closure of the empty set under the successor operation (this closure exists by the axiom of infinity). The successor of $omega,$ $omegacupomega,$ is the next ordinal, denoted $omega+1.$ Applying it again we get $omega+2,$ $omega + 3$ and so on.
answered Mar 30 at 20:23
spaceisdarkgreenspaceisdarkgreen
34k21754
$endgroup$
$begingroup$
Is $omega-1$ a well defined element of $mathbbN$?
$endgroup$
– Count Iblis
Mar 30 at 20:30
1
$begingroup$
@CountIblis no, subtraction for infinite ordinals is usually left undefined
$endgroup$
– Holo
Mar 30 at 20:31
$begingroup$
@CountIblis This certainly isn't a natural or an ordinal. There are some exotic systems that make sense of it though, such as the surreal numbers.
$endgroup$
– spaceisdarkgreen
Mar 30 at 20:59
add a comment |
$begingroup$
For any set $X,$ the axiom of pairing implies $X$ is a set, and then applied again, says $X,X$ is a set, and then the axiom of union says $cupX,X=XcupX$ is a set. (This is only one way to construct it... there are lots of ways.) So the successor operation is defined for any set (although it's really only called the successor operation when it's used on ordinals).
So if $mathbb N$ is a set, then we can form the successor set. Almost always, we define $mathbb N$ to be $omega,$ the first infinite ordinal, which is obtained as the closure of the empty set under the successor operation (this closure exists by the axiom of infinity). The successor of $omega,$ $omegacupomega,$ is the next ordinal, denoted $omega+1.$ Applying it again we get $omega+2,$ $omega + 3$ and so on.
answered Mar 30 at 20:23
spaceisdarkgreenspaceisdarkgreen
34k21754
$endgroup$
$begingroup$
Is $omega-1$ a well defined element of $mathbbN$?
$endgroup$
– Count Iblis
Mar 30 at 20:30
1
$begingroup$
@CountIblis no, subtraction for infinite ordinals is usually left undefined
$endgroup$
– Holo
Mar 30 at 20:31
$begingroup$
@CountIblis This certainly isn't a natural or an ordinal. There are some exotic systems that make sense of it though, such as the surreal numbers.
$endgroup$
– spaceisdarkgreen
Mar 30 at 20:59
add a comment |
$begingroup$
For any set $X,$ the axiom of pairing implies $X$ is a set, and then applied again, says $X,X$ is a set, and then the axiom of union says $cupX,X=XcupX$ is a set. (This is only one way to construct it... there are lots of ways.) So the successor operation is defined for any set (although it's really only called the successor operation when it's used on ordinals).
So if $mathbb N$ is a set, then we can form the successor set. Almost always, we define $mathbb N$ to be $omega,$ the first infinite ordinal, which is obtained as the closure of the empty set under the successor operation (this closure exists by the axiom of infinity). The successor of $omega,$ $omegacupomega,$ is the next ordinal, denoted $omega+1.$ Applying it again we get $omega+2,$ $omega + 3$ and so on.
answered Mar 30 at 20:23
spaceisdarkgreenspaceisdarkgreen
34k21754
$endgroup$
For any set $X,$ the axiom of pairing implies $X$ is a set, and then applied again, says $X,X$ is a set, and then the axiom of union says $cupX,X=XcupX$ is a set. (This is only one way to construct it... there are lots of ways.) So the successor operation is defined for any set (although it's really only called the successor operation when it's used on ordinals).
So if $mathbb N$ is a set, then we can form the successor set. Almost always, we define $mathbb N$ to be $omega,$ the first infinite ordinal, which is obtained as the closure of the empty set under the successor operation (this closure exists by the axiom of infinity). The successor of $omega,$ $omegacupomega,$ is the next ordinal, denoted $omega+1.$ Applying it again we get $omega+2,$ $omega + 3$ and so on.
answered Mar 30 at 20:23
spaceisdarkgreenspaceisdarkgreen
34k21754
answered Mar 30 at 20:23
spaceisdarkgreenspaceisdarkgreen
34k21754
answered Mar 30 at 20:23
spaceisdarkgreenspaceisdarkgreen
34k21754
answered Mar 30 at 20:23
spaceisdarkgreenspaceisdarkgreen
34k21754
34k21754
$begingroup$
Is $omega-1$ a well defined element of $mathbbN$?
$endgroup$
– Count Iblis
Mar 30 at 20:30
1
$begingroup$
@CountIblis no, subtraction for infinite ordinals is usually left undefined
$endgroup$
– Holo
Mar 30 at 20:31
$begingroup$
@CountIblis This certainly isn't a natural or an ordinal. There are some exotic systems that make sense of it though, such as the surreal numbers.
$endgroup$
– spaceisdarkgreen
Mar 30 at 20:59
add a comment |
$begingroup$
Is $omega-1$ a well defined element of $mathbbN$?
$endgroup$
– Count Iblis
Mar 30 at 20:30
1
$begingroup$
@CountIblis no, subtraction for infinite ordinals is usually left undefined
$endgroup$
– Holo
Mar 30 at 20:31
$begingroup$
@CountIblis This certainly isn't a natural or an ordinal. There are some exotic systems that make sense of it though, such as the surreal numbers.
$endgroup$
– spaceisdarkgreen
Mar 30 at 20:59
$begingroup$
Is $omega-1$ a well defined element of $mathbbN$?
$endgroup$
– Count Iblis
Mar 30 at 20:30
$begingroup$
Is $omega-1$ a well defined element of $mathbbN$?
$endgroup$
– Count Iblis
Mar 30 at 20:30
1
1
$begingroup$
@CountIblis no, subtraction for infinite ordinals is usually left undefined
$endgroup$
– Holo
Mar 30 at 20:31
$begingroup$
@CountIblis no, subtraction for infinite ordinals is usually left undefined
$endgroup$
– Holo
Mar 30 at 20:31
$begingroup$
@CountIblis This certainly isn't a natural or an ordinal. There are some exotic systems that make sense of it though, such as the surreal numbers.
$endgroup$
– spaceisdarkgreen
Mar 30 at 20:59
$begingroup$
@CountIblis This certainly isn't a natural or an ordinal. There are some exotic systems that make sense of it though, such as the surreal numbers.
$endgroup$
– spaceisdarkgreen
Mar 30 at 20:59
add a comment |
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$begingroup$
In set theory yes. See Von Neumann definition of ordinal.
$endgroup$
– Mauro ALLEGRANZA
Mar 30 at 18:06
$begingroup$
Thanks. May I ask you whether this set is of any interest? Could it qualify as a number of some sort?
$endgroup$
– Ray LittleRock
Mar 30 at 18:08
$begingroup$
@ Mauro Allegranza. Thanks for the link.
$endgroup$
– Ray LittleRock
Mar 30 at 18:12
3
$begingroup$
Yes, it can qualify as a number... it's the ordinal number $omega + 1$.
$endgroup$
– mjqxxxx
Mar 30 at 18:14