The closure of a connected set is connected

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SUMMARY

The discussion centers on proving that the closure of a connected subset A in a topological space X is also connected. The approach involves using a discrete valued map d: cl(A) -> D and leveraging the properties of connected spaces. The key argument is that if A is connected, any discrete valued map on A will be constant, which implies that the closure cl(A) must also be connected. The challenge lies in defining a continuous and onto function f: A -> cl(A) to complete the proof.

PREREQUISITES
  • Understanding of topological spaces and their properties.
  • Familiarity with the concept of connectedness in topology.
  • Knowledge of discrete valued maps and their implications in topology.
  • Basic understanding of continuous functions and their role in topology.
NEXT STEPS
  • Study the properties of continuous functions in topology, specifically in relation to connected spaces.
  • Explore the concept of closure in topological spaces and its implications for connectedness.
  • Investigate discrete valued maps and their significance in proving properties of topological spaces.
  • Review examples of connected and disconnected spaces to solidify understanding of the concepts discussed.
USEFUL FOR

Mathematics students, particularly those studying topology, as well as educators seeking to understand proofs related to connectedness in topological spaces.

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Homework Statement



Let X be a topological space. Let A be a connected subset of X, show that the closure of A is connected.
Note: Unlike regular method, my professor wants me to prove this using an alternative route.

Homework Equations



a) A discrete valued map, d: X -> D, is a map from a topological space X to a discrete space D.
b) A topological space X is connected if and only if every discrete valued map on X is constant.
c) Suppose X is connected and f:X -> Y is continuous and onto. Then Y is connected.

The Attempt at a Solution



My intuition tells me that if I can use the combination of a), b) and c) I should be able to arrive at the solution. Here is my rough idea (note that cl(A) means closure):

Let A be a connected subset of X.
Let f: A -> cl(A) be a continuous and onto function.
Take a arbitrary discrete valued map d: cl(A) -> D.
Consider (composition) d\circf: A -> D which is a discrete valued map on X.
By b) since A is connected, d\circf is constant.
This shows that d is constant.
Again by b), since d is a constant, this implies that cl(A) is connected.

To me, the most troubling problem is when defining such f.
Am I allowed to simply define an f that is continuous and onto, even if I do not explicit show it is continuous and onto?

Thanks.
 
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f isn't going to exist in general. For example, if you put the indiscrete topology on N, and look at the closure of {1}, the closure has a larger cardinality even
 
Ok, so I cannot just define the existence of such function.

So can you give a hint or point a direction on how to work on my problem?
 

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