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| author | Simon-Kor <52245124+Simon-Kor@users.noreply.github.com> | 2024-09-04 15:17:50 +0200 |
|---|---|---|
| committer | Simon-Kor <52245124+Simon-Kor@users.noreply.github.com> | 2024-09-04 15:17:50 +0200 |
| commit | 68716d1ab46dee3dfc1b03089f941dbb6883cdcd (patch) | |
| tree | 7539b439e1407b8ec02a97006adfd039b12c9ccf /library/numbers.tex | |
| parent | c57360cf062805c86fed5d1f3f4adbf52c05f9ff (diff) | |
Mismatched Assume in Induction
Unexpeced Mismatch in line 99 and 109 or the pair
100 and 108. Parsing works with line 99 and 108 or with
the lines 100 and 109.
zf: MismatchedAssume (TermSymbol (SymbolPredicate (PredicateNoun (SgPl {sg = [Just (Word "natural"),Just (Word "number")], pl = [Just (Word "natural"),Just (Word "numbers")]}))) [TermVar (NamedVar "n")]) (Connected Implication (TermSymbol (SymbolPredicate (PredicateRelation (Command "in"))) [TermVar (NamedVar "n"),TermSymbol (SymbolMixfix [Just (Command "naturals")]) []]) (TermSymbol (SymbolPredicate (PredicateVerb (SgPl {sg = [Just (Word "has"),Just (Word "cardinality"),Nothing], pl = [Just (Word "ha"),Just (Word "cardinality"),Nothing]}))) [TermSymbol (SymbolMixfix [Just (Command "seq"),Just InvisibleBraceL,Nothing,Just InvisibleBraceR,Just InvisibleBraceL,Nothing,Just InvisibleBraceR]) [TermSymbol (SymbolMixfix [Just (Command "emptyset")]) [],TermVar (NamedVar "n")],TermSymbol (SymbolMixfix [Just (Command "suc"),Just InvisibleBraceL,Nothing,Just InvisibleBraceR]) [TermVar (NamedVar "n")]]))
Diffstat (limited to 'library/numbers.tex')
| -rw-r--r-- | library/numbers.tex | 40 |
1 files changed, 40 insertions, 0 deletions
diff --git a/library/numbers.tex b/library/numbers.tex index f7f6c2c..cb3d5cf 100644 --- a/library/numbers.tex +++ b/library/numbers.tex @@ -747,9 +747,49 @@ Laws of the order on the reals $x$ is the supremum of $X$ iff $x$ is a greatest lower bound of $X$. \end{definition} +\begin{definition}\label{minimum} + $\min{X} = \{x \in X \mid \forall y \in X. x \leq y \}$. +\end{definition} + + +\begin{definition}\label{maximum} + $\max{X} = \{x \in X \mid \forall y \in X. x \geq y \}$. +\end{definition} + + +\begin{definition}\label{intervalclosed} + $\intervalclosed{a}{b} = \{x \in \reals \mid a \leq x \leq b\}$. +\end{definition} + + +\begin{definition}\label{intervalopen} + $\intervalopen{a}{b} = \{ x \in \reals \mid a < x < b\}$. +\end{definition} +\begin{definition}\label{m_to_n_set} + $\seq{m}{n} = \{x \in \naturals \mid m \leq x \leq n\}$. +\end{definition} + +\begin{axiom}\label{abs_behavior1} + If $x \geq \zero$ then $\abs{x} = x$. +\end{axiom} + +\begin{axiom}\label{abs_behavior2} + If $x < \zero$ then $\abs{x} = \neg{x}$. +\end{axiom} +\begin{definition}\label{realsminus} + $\realsminus = \{r \in \reals \mid r < \zero\}$. +\end{definition} + +\begin{definition}\label{realsplus} + $\realsplus = \reals \setminus \realsminus$. +\end{definition} + +\begin{definition}\label{epsilon_ball} + $\epsBall{x}{\epsilon} = \intervalopen{x-\epsilon}{x+\epsilon}$. +\end{definition} |