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Let  X ⊂ R. A subset S ⊂ X is called dense in X if any real number can be arbitrarily well-approximated by elements of S example, the rational numbers Q are dense in R, since every real number has rational numbers that are arbitrarily close to it

Formally, S C X is dense in X if, for any ∈ > 0 and x ∈ X, there is some s ∈ S such that |x - s| < ∈. An equivalent definition is that S is dense in X if, for any x ∈ X, there is a sequence {xn} ⊂ S such that

Dense Sets - Topology, CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET


The image to the right shows this visually. There is a set X that is the big rectangle. There is subset S that can be said to be dense in X. This is because for any point x ∈ X, in this case a random point x in the larger set X, one could draw a circle around x using a random s ∈ S as the radius and some element of that circle will be in S.

Dense Sets - Topology, CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET

Examples of Dense Sets

The canonical example of a dense subset of R is the set of rational numbers Q:

EXAMPLE

Take x∈R. We may write x = n + r, where n∈Z and 0 < r < 1. Consider the decimal expansion
r = Q.r1r2r3....
Setting

xk = n + 0.r1r2 ...rk,
we see that each xk is rational and

Dense Sets - Topology, CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET


In fact, for any irrational number xk, the set

Sα = {a + 6α | a, b ∈ Z}

is dense in R. This is harder to prove than the above example, and requires clever use of the pigeonhole principle.

EXAMPLE

For any irrational α∈R, the set Sa is dense in R.

Assume α > 0. The proof when α < 0 is entirely analogous.

Let {x} denote the fractional part of x. First, we claim that the set 
Rα = {{nα} | n∈Z}

is dense in [0,1].

Choose  Dense Sets - Topology, CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET and pick an integer  such that Dense Sets - Topology, CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET Divide the unit interval [0.1] in to m subintervals, each of length the pigeonhole principle, some two of the numbers Dense Sets - Topology, CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET must be in the same subinterva there exist integers  Dense Sets - Topology, CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET

ButDense Sets - Topology, CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET there is some Dense Sets - Topology, CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET such that  Dense Sets - Topology, CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET We may then pick an integer  such that

Dense Sets - Topology, CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET

so that Dense Sets - Topology, CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET

Now, for any  Dense Sets - Topology, CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET . Since Rα is dense in [0,1], there is b ∈ N such tha Dense Sets - Topology, CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET It follows that

Dense Sets - Topology, CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET

Since Dense Sets - Topology, CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET, we conclude Sα is dense in R. 


Dense Sets in General Metric Spaces

One may define dense sets of general metric spaces similarly to how dense subsets of R were defined.

DEFINITION

Suppose (M, d) is a metric space. A subset S ⊂ M is called dense in M if for every ∈ > 0 and x ∈ M, there is some such that d(x, s) < ∈.


For example, let C[a, b] denote the set of continuous functions f : [a, 6] → R. One may give C[a, b] the structure of a metri by defining

Dense Sets - Topology, CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET

By the extreme value theorem, this maximum exists for any two f,g ∈ C[a,b], so the distance function is well-defined. One easily check that d satisfies the axioms of a metric space.

Let P ⊂ C[a, b] be the subset consisting of polynomial functions. The Stone-Weierstrass theorem states that P is dense in Intuitively, this means any continuous function on a closed interval is well-approximated by polynomial functions!

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FAQs on Dense Sets - Topology, CSIR-NET Mathematical Sciences - Mathematics for IIT JAM, GATE, CSIR NET, UGC NET

1. What is the definition of a dense set in topology?
Ans. In topology, a set A is said to be dense in a topological space X if every point in X either belongs to A or is a limit point of A.
2. How is the concept of dense sets relevant in the context of CSIR-NET Mathematical Sciences exam?
Ans. The concept of dense sets is a fundamental topic in topology, which is an important branch of mathematics covered in the CSIR-NET Mathematical Sciences exam. Understanding dense sets is crucial for analyzing the properties of topological spaces and solving problems related to continuity, convergence, and compactness.
3. What are the properties of dense sets in topology?
Ans. Some important properties of dense sets in topology include: - Every non-empty open subset of X contains a point of A. - The closure of A is equal to the entire space X. - The intersection of A with any open set is non-empty. - If B is a dense subset of A, then B is also dense in X.
4. How are dense sets related to the concept of limit points?
Ans. Dense sets and limit points are closely related. A set A is dense in a topological space X if and only if every point in X is either in A or is a limit point of A. In other words, a dense set ensures that there are no isolated points in X, as every point is either part of the set or can be arbitrarily close to the set.
5. Can you provide an example of a dense set in a topological space?
Ans. Yes, consider the set of rational numbers Q in the real number line R. Q is a dense set in R because every real number either belongs to Q or is a limit point of Q. This means that between any two real numbers, there exists a rational number, making Q dense in R.
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