Limit Points of Unbounded Interval

OhMyMarkov · Oct 16, 2012

Hello everyone!

I'm trying to prove that the closure of $A = [-\infty,0)$ is $[-\infty,0]$. So far, I have proved that all points in $[-\infty, 0)$ are limit points of A, then I have proved that $\sup A = 0$, so it is in the closure, so $[-\infty, 0]$ subsets the closure.

But how do I know that it is equal to the closure?

Amer · Oct 17, 2012

OhMyMarkov said:

Hello everyone!

I'm trying to prove that the closure of $A = [-\infty,0)$ is $[-\infty,0]$. So far, I have proved that all points in $[-\infty, 0)$ are limit points of A, then I have proved that $\sup A = 0$, so it is in the closure, so $[-\infty, 0]$ subsets the closure.

But how do I know that it is equal to the closure?

you have to prove that the closure is subset of $[-\infty, 0]$
In general if want to prove that
$A = B $
we have to prove the subset in both sides
A subset of B
B subset of A
how ? the easiest way ( usually ) let x in A prove it is in B this give A subset of B
and let x in B prove it is in A this give B subset of A
x arbitrary element

Limit Points of Unbounded Interval

Related to Limit Points of Unbounded Interval

1. What is the definition of a limit point of an unbounded interval?

2. How do you determine whether a point is a limit point of an unbounded interval?

3. Can an unbounded interval have multiple limit points?

4. Are limit points of an unbounded interval always included in the interval?

5. What is the relationship between limit points and open sets in an unbounded interval?

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