Set edits

Advanced/Size of Sets/parts/5 dense.tex

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+\section{Dense Orderings}
+
+\definition{}
+An \textit{ordered set} is a set with an \say{order} attached to it. \par
+A few examples are below:
+\begin{itemize}
+	\item $\mathbb{Z}$ is an ordered set under $<$.
+	\item $\{\texttt{A}, \texttt{B}, ..., \texttt{Z}\}$ is an ordered set under $\diamond$,\par
+	Where $\alpha \diamond \beta$ holds iff the letter $\alpha$ comes before letter $\beta$ in the alphabet.
+\end{itemize}
+
+
+\definition{}
+We say an ordered set $A$ is \textit{dense} if for any $a, b \in A$ there is a $c \in A$ so that $a < c < b$.\par
+Intuitively, this means that there is an element of $A$ between any two elements of $A$.
+
+\problem{}
+Show that the ordered set $(\mathbb{Q}, <)$ is dense.\par
+\hint{Elements of $\mathbb{Q}$ are defined as fractions $\frac{p}{q}$, where $p$ and $q$ are integers.}
+\vfill
+
+\problem{}
+Show that the ordered set $(\mathbb{R}, <)$ is dense.\par
+\hint{We can define a \say{real number} as a decimal, finite or infinite.}
+\vfill
+
+\problem{}
+Show that there is a real number between every two rationals.
+\vfill
+
+\problem{}
+Show that there is a rational number between every two reals.
+\vfill
+
+\pagebreak