Is Every Set Containing a Countably Infinite Subset Uncountable?

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siifuthun
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This is the question, and we're supposed to answer if it's true or false:

If A is a countably infinite set, and A is a proper subset of another set B,
then B is uncountable.

I thought this was false, because if A is infinite and countable, then B should also be infinite and countable in the same way A is if it's a proper subset of B. Could we list elements of A, then elements of B that are not contained in A?
 
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Which of \mathbb{N}, \mathbb{Z}, \mathbb{Q}, \mathbb{R} are contained in which? Which ones are countable? :smile:
 
Data said:
Which of \mathbb{N}, \mathbb{Z}, \mathbb{Q}, \mathbb{R} are contained in which? Which ones are countable? :smile:

If A is the set containing natural numbers, and B is the set containing real numbers, then B would have to be uncountable right?
 
siifuthun said:
If A is the set containing natural numbers, and B is the set containing real numbers, then B would have to be uncountable right?

But what if A is the natural numbers and B is the integers?
 
d_leet said:
But what if A is the natural numbers and B is the integers?

That's a good point. In that case it would be countable. So I guess in that case the answer is false, seeing that B can be countable or uncountable.

Thanks.
 
The defining property of infinite sets is that they have proper subsets of the same cardinality as the set.
 
StatusX said:
The defining property of infinite sets is that they have proper subsets of the same cardinality as the set.

So, since B is infinite (and it should be if A is, correct?), then it should have the same cardinality as A - and we know the cardinality of A because it's countable, meaning that B would be countable in that case?
 
Not necessarily. It just means that for any infinite set B, there exists a proper subset A of B with the same cardinality as B. Thus if B is countably infinite, it has a countably infinite proper subset A, and so these form a counterexample to the statement in your first post. It doesn't mean that all sets containing A are countably infinite, as for example, the reals contain the integers, but are not countable.
 

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