User:Jon Awbrey/TEST

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The following Tables develop these ideas in more detail.


\(\text{Table 8.} ~~ \text{Simple Qualifiers of Propositions (Version 1)}\)
\(\begin{matrix}u\!:\\v\!:\end{matrix}\) \(\begin{matrix}1100\\1010\end{matrix}\) \(f\)

\(\texttt{(} \ell_{11} \texttt{)}\)
\(No ~ u\)

\(is ~ v\)

\(\texttt{(} \ell_{10} \texttt{)}\)
\(No ~ u\)

\(is ~ \texttt{(} v \texttt{)}\)

\(\texttt{(} \ell_{01} \texttt{)}\)
\(No ~ \texttt{(} u \texttt{)}\)

\(is ~ v\)

\(\texttt{(} \ell_{00} \texttt{)}\)
\(No ~ \texttt{(} u \texttt{)}\)

\(is ~ \texttt{(} v \texttt{)}\)

\(\ell_{00}\)
\(Some ~ \texttt{(} u \texttt{)}\)

\(is ~ \texttt{(} v \texttt{)}\)

\(\ell_{01}\)
\(Some ~ \texttt{(} u \texttt{)}\)

\(is ~ v\)

\(\ell_{10}\)
\(Some ~ u\)

\(is ~ \texttt{(} v \texttt{)}\)

\(\ell_{11}\)
\(Some ~ u\)

\(is ~ v\)
\(f_{0}\) \(0000\) \(\texttt{(~)}\) 1 1 1 1 0 0 0 0
\(f_{1}\) \(0001\) \(\texttt{(} u \texttt{)(} v \texttt{)}\) 1 1 1 0 1 0 0 0
\(f_{2}\) \(0010\) \(\texttt{(} u\texttt{)} ~ v\) 1 1 0 1 0 1 0 0
\(f_{3}\) \(0011\) \(\texttt{(} u \texttt{)}\) 1 1 0 0 1 1 0 0
\(f_{4}\) \(0100\) \(u ~ \texttt{(} v \texttt{)}\) 1 0 1 1 0 0 1 0
\(f_{5}\) \(0101\) \(\texttt{(} v \texttt{)}\) 1 0 1 0 1 0 1 0
\(f_{6}\) \(0110\) \(\texttt{(} u \texttt{,} v \texttt{)}\) 1 0 0 1 0 1 1 0
\(f_{7}\) \(0111\) \(\texttt{(} u ~ v \texttt{)}\) 1 0 0 0 1 1 1 0
\(f_{8}\) \(1000\) \(u ~ v\) 0 1 1 1 0 0 0 1
\(f_{9}\) \(1001\) \(\texttt{((} u \texttt{,} v \texttt{))}\) 0 1 1 0 1 0 0 1
\(f_{10}\) \(1010\) \(v\) 0 1 0 1 0 1 0 1
\(f_{11}\) \(1011\) \(\texttt{(} u ~ \texttt{(} v \texttt{))}\) 0 1 0 0 1 1 0 1
\(f_{12}\) \(1100\) \(u\) 0 0 1 1 0 0 1 1
\(f_{13}\) \(1101\) \(\texttt{((} u \texttt{)} ~ v \texttt{)}\) 0 0 1 0 1 0 1 1
\(f_{14}\) \(1110\) \(\texttt{((} u \texttt{)(} v \texttt{))}\) 0 0 0 1 0 1 1 1
\(f_{15}\) \(1111\) \(\texttt{((~))}\) 0 0 0 0 1 1 1 1


\(\text{Table 9.} ~~ \text{Simple Qualifiers of Propositions (Version 2)}\)
\(\begin{matrix}u\!:\\v\!:\end{matrix}\) \(\begin{matrix}1100\\1010\end{matrix}\) \(f\)

\(\texttt{(} \ell_{11} \texttt{)}\)
\(No ~ u\)

\(is ~ v\)

\(\texttt{(} \ell_{10} \texttt{)}\)
\(No ~ u\)

\(is ~ \texttt{(} v \texttt{)}\)

\(\texttt{(} \ell_{01} \texttt{)}\)
\(No ~ \texttt{(} u \texttt{)}\)

\(is ~ v\)

\(\texttt{(} \ell_{00} \texttt{)}\)
\(No ~ \texttt{(} u \texttt{)}\)

\(is ~ \texttt{(} v \texttt{)}\)

\(\ell_{00}\)
\(Some ~ \texttt{(} u \texttt{)}\)

\(is ~ \texttt{(} v \texttt{)}\)

\(\ell_{01}\)
\(Some ~ \texttt{(} u \texttt{)}\)

\(is ~ v\)

\(\ell_{10}\)
\(Some ~ u\)

\(is ~ \texttt{(} v \texttt{)}\)

\(\ell_{11}\)
\(Some ~ u\)

\(is ~ v\)
\(f_{0}\) \(0000\) \(\texttt{(~)}\) 1 1 1 1 0 0 0 0
\(f_{1}\) \(0001\) \(\texttt{(} u \texttt{)(} v \texttt{)}\) 1 1 1 0 1 0 0 0
\(f_{2}\) \(0010\) \(\texttt{(} u\texttt{)} ~ v\) 1 1 0 1 0 1 0 0
\(f_{4}\) \(0100\) \(u ~ \texttt{(} v \texttt{)}\) 1 0 1 1 0 0 1 0
\(f_{8}\) \(1000\) \(u ~ v\) 0 1 1 1 0 0 0 1
\(f_{3}\) \(0011\) \(\texttt{(} u \texttt{)}\) 1 1 0 0 1 1 0 0
\(f_{12}\) \(1100\) \(u\) 0 0 1 1 0 0 1 1
\(f_{6}\) \(0110\) \(\texttt{(} u \texttt{,} v \texttt{)}\) 1 0 0 1 0 1 1 0
\(f_{9}\) \(1001\) \(\texttt{((} u \texttt{,} v \texttt{))}\) 0 1 1 0 1 0 0 1
\(f_{5}\) \(0101\) \(\texttt{(} v \texttt{)}\) 1 0 1 0 1 0 1 0
\(f_{10}\) \(1010\) \(v\) 0 1 0 1 0 1 0 1
\(f_{7}\) \(0111\) \(\texttt{(} u ~ v \texttt{)}\) 1 0 0 0 1 1 1 0
\(f_{11}\) \(1011\) \(\texttt{(} u ~ \texttt{(} v \texttt{))}\) 0 1 0 0 1 1 0 1
\(f_{13}\) \(1101\) \(\texttt{((} u \texttt{)} ~ v \texttt{)}\) 0 0 1 0 1 0 1 1
\(f_{14}\) \(1110\) \(\texttt{((} u \texttt{)(} v \texttt{))}\) 0 0 0 1 0 1 1 1
\(f_{15}\) \(1111\) \(\texttt{((~))}\) 0 0 0 0 1 1 1 1


\(\text{Table 10.} ~~ \text{Relation of Quantifiers to Higher Order Propositions}\)
\(\mathrm{Mnemonic}\) \(\mathrm{Category}\) \(\mathrm{Classical~Form}\) \(\mathrm{Alternate~Form}\) \(\mathrm{Symmetric~Form}\) \(\mathrm{Operator}\)
\(\mathrm{E}\)
\(\mathrm{Exclusive}\)
\(\mathrm{Universal}\)
\(\mathrm{Negative}\)
\(\mathrm{All} ~ u ~ \mathrm{is} ~ \texttt{(} v \texttt{)}\)   \(\mathrm{No} ~ u ~ \mathrm{is} ~ v\) \(\texttt{(} \ell_{11} \texttt{)}\)
\(\mathrm{A}\)
\(\mathrm{Absolute}\)
\(\mathrm{Universal}\)
\(\mathrm{Affirmative}\)
\(\mathrm{All} ~ u ~ \mathrm{is} ~ v\)   \(\mathrm{No} ~ u ~ \mathrm{is} ~ \texttt{(} v \texttt{)}\) \(\texttt{(} \ell_{10} \texttt{)}\)
    \(\mathrm{All} ~ v ~ \mathrm{is} ~ u\) \(\mathrm{No} ~ v ~ \mathrm{is} ~ \texttt{(} u \texttt{)}\) \(\mathrm{No} ~ \texttt{(} u \texttt{)} ~ \mathrm{is} ~ v\) \(\texttt{(} \ell_{01} \texttt{)}\)
    \(\mathrm{All} ~ \texttt{(} v \texttt{)} ~ \mathrm{is} ~ u\) \(\mathrm{No} ~ \texttt{(} v \texttt{)} ~ \mathrm{is} ~ \texttt{(} u \texttt{)}\) \(\mathrm{No} ~ \texttt{(} u \texttt{)} ~ \mathrm{is} ~ \texttt{(} v \texttt{)}\) \(\texttt{(} \ell_{00} \texttt{)}\)
    \(\mathrm{Some} ~ \texttt{(} u \texttt{)} ~ \mathrm{is} ~ \texttt{(} v \texttt{)}\)   \(\mathrm{Some} ~ \texttt{(} u \texttt{)} ~ \mathrm{is} ~ \texttt{(} v \texttt{)}\) \(\ell_{00}\)
    \(\mathrm{Some} ~ \texttt{(} u \texttt{)} ~ \mathrm{is} ~ v\)   \(\mathrm{Some} ~ \texttt{(} u \texttt{)} ~ \mathrm{is} ~ v\) \(\ell_{01}\)
\(\mathrm{O}\)
\(\mathrm{Obtrusive}\)
\(\mathrm{Particular}\)
\(\mathrm{Negative}\)
\(\mathrm{Some} ~ u ~ \mathrm{is} ~ \texttt{(} v \texttt{)}\)   \(\mathrm{Some} ~ u ~ \mathrm{is} ~ \texttt{(} v \texttt{)}\) \(\ell_{10}\)
\(\mathrm{I}\)
\(\mathrm{Indefinite}\)
\(\mathrm{Particular}\)
\(\mathrm{Affirmative}\)
\(\mathrm{Some} ~ u ~ \mathrm{is} ~ v\)   \(\mathrm{Some} ~ u ~ \mathrm{is} ~ v\) \(\ell_{11}\)