Math 440, Fall 2014, Assignment 3
By one of those caprices of the mind, which we are perhaps most subject to in early youth, I at once gave up my former occupations; set down natural history and all its progeny as a deformed and abortive creation; and entertained the greatest disdain for a would-be science, which could never even step within the threshold of real knowledge. In this mood of mind I betook myself to the mathematics, and the branches of study appertaining to that science, as being built upon secure foundations, and so, worthy of my consideration.
- - Mary Shelley, Frankenstein
Carefully define the following terms, then give one example and one non-example of each:
- Nhood (of a point $x$ in a topological space $(X,\tau)$).
- Nhood system (at a point $x$ in a topological space $(X,\tau)$).
- Nhood base (at a point $x$ in a topological spae $(X,\tau)$).
- Basic nhood (of $x$).
- Base (for a topology).
- Basic open set (in $X$).
- Subbase (for a topology).
Carefully state the following theorems (you do not need to prove them):
- Theorem characterizing nhood systems (Theorem 4.2).
- Theorem characterizing nhood bases (Theorem 4.5).
- Theorem characterizing bases (Theorem 5.3).
- Theorem characterizing subbases (Theorem 5.6).
Solve the following problems:
- Problems 4A, 4D, 4F, 5A, and 5B.
Questions:
Solutions:
Definitions:
- Nhood of a Point in a Topological Space:
Let \((X,\tau)\) be a topological space, and \(x \in X\). A neighborhood of \(X\) is a set \(U\subseteq X\) which contains \(x\) and which contains an open set containing \(x\). So \(x \in V \subseteq U \subseteq X\), and \(V \in \tau\).
Example:
In \(\mathbb{R}^2\), the open unit square centered at \((0,0)\) is a neighborhood of \((0,0)\).
Non-Example:
- Nhood System at a Point in a Topological Space:
Let \((X,\tau)\) be a topological space, and \(x \in X\). A neighborhood system of \(x\) is the set of all neighborhoods of \(x\).
Example:
In \(\mathbb{R}^2\), the neighborhood system of \((0,0)\) is every set \(P\) such that \(P\) has a non-empty intersection with some open disk centered at \((0,0)\).
Non-Example:
- Nhood Base at a Point in a Topological Space:
A neighborhood base at \(x \in X\) is a collection \(B\) of open sets containing \(x\), such that every open set containing \(x\) is a superset of a member of \(B\).$$ \forall S \in tau: x \in S \rightarrow \exists B_{lambda} \in B: B_{\lambda} \subseteq S $$
Example:
The set of all open disks centered at \((0,0)\) with radius less than 1 is a neighborhood base at \((0,0)\).
Non-Example:
- Basic Nhood of \(x\):
If \(B\) is a neighborhood base of \(x\), then an element of \(B\) is a basic neighborhood of \(x\).
Example:
In the previous example, he open half-disk would be a basic neighborhood of \((0,0)\).
Non-Example:
- Base for a Topology:
A base for a topological space \((X,\tau)\) is a collection of set \(\mathscr{B}\) such that:$$ \bigcup_{B\in\mathscr{B}} B = X $$
If \(B_1\) and \(B_2\) are in \(\mathscr{B}\) and \(p\in B_1 \cap B_2\), then there is some \(B_3\) such that \(p \in B_3 \subseteq B_1 \cap B_2\)
If a set is open in \(\tau\), then it must be a union of members of \(\mathscr{B}\).Example:
The set of all open disks of radius less than 1 is a base for \(\mathbb{R}^2\) with the Euclidean metric topology (? Proper terminology?)
Non-Example:
- Basic Open Set:
If \(\mathscr{B}\) is a base for \(\tau\), then a basic open set is a member of \(\mathsrc{B}\).
Example:
Non-Example:
- Subbase for a Topology:
A subbase for \(\tau\) is a collection of sets which, when closed under finite intersections, is a base for \(\tau\).
Example:
Non-Example:
