Algebra of sets and git flashcards.
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"venn-diagram-union.png",
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"venn-diagram-intersection.png",
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"venn-diagram-rel-comp.png",
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"venn-diagram-abs-comp.png"
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"_journal/2024-05/2024-05-21.md": "f20e4dd94ea22fcb26049de128bc944e",
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"set/algebra.md": "a6877ceca952c417b52ea637716addbf"
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},
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},
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"fields_dict": {
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"fields_dict": {
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"Basic": [
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"Basic": [
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@ -7,3 +7,7 @@ title: "2024-05-22"
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- [ ] Sheet Music (10 min.)
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- [ ] Sheet Music (10 min.)
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- [ ] Go (1 Life & Death Problem)
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- [ ] Go (1 Life & Death Problem)
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- [ ] Korean (Read 1 Story)
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- [ ] Korean (Read 1 Story)
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* Read "Chapter 8. The Trouble with Distributed Systems" in "Designing Data-Intensive Applications".
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* Begin taking notes/creating flashcards on the [[algebra|algebra of sets]].
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* Additional flashcards on git branching.
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@ -517,6 +517,30 @@ Reference: Scott Chacon, *Pro Git*, Second edition, The Expert’s Voice in Soft
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<!--ID: 1709674569928-->
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<!--ID: 1709674569928-->
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END%%
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END%%
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%%ANKI
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Basic
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How many parents does an initial commit have?
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Back: Zero.
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Reference: Scott Chacon, *Pro Git*, Second edition, The Expert’s Voice in Software Development (New York, NY: Apress, 2014).
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<!--ID: 1716397645567-->
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END%%
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%%ANKI
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Basic
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How many parents does a "normal" commit have?
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Back: One.
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Reference: Scott Chacon, *Pro Git*, Second edition, The Expert’s Voice in Software Development (New York, NY: Apress, 2014).
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<!--ID: 1716397645568-->
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END%%
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%%ANKI
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Basic
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How many parents does a "merge" commit have?
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Back: Two or more.
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Reference: Scott Chacon, *Pro Git*, Second edition, The Expert’s Voice in Software Development (New York, NY: Apress, 2014).
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<!--ID: 1716397645570-->
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END%%
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## Tags
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## Tags
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Tags are (possibly indirect) pointers to a git object. They *usually* point to a commit but aren't required to. There are two types of tags:
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Tags are (possibly indirect) pointers to a git object. They *usually* point to a commit but aren't required to. There are two types of tags:
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@ -0,0 +1,120 @@
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---
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title: Algebra of Sets
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TARGET DECK: Obsidian::STEM
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FILE TAGS: algebra::set set
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tags:
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- algebra
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- set
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---
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## Overview
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The study of the operations of union ($\cup$), intersection ($\cap$), and set difference ($-$), together with the inclusion relation ($\subseteq$), goes by the **algebra of sets**.
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%%ANKI
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Basic
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What three operators make up the algebra of sets?
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Back: $\cup$, $\cap$, and $-$.
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Reference: Herbert B. Enderton, *Elements of Set Theory* (New York: Academic Press, 1977).
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<!--ID: 1716396060602-->
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END%%
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%%ANKI
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Basic
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What *relation* is relevant in the algebra of sets?
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Back: $\subseteq$
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Reference: Herbert B. Enderton, *Elements of Set Theory* (New York: Academic Press, 1977).
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<!--ID: 1716396060605-->
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END%%
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## Laws
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The algebra of sets obey laws reminiscent (but not exactly) of the algebra of real numbers.
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%%ANKI
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Cloze
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{$\cup$} is to algebra of sets whereas {$+$} is to algebra of real numbers.
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Reference: Herbert B. Enderton, *Elements of Set Theory* (New York: Academic Press, 1977).
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<!--ID: 1716396060607-->
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END%%
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%%ANKI
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Cloze
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{$\cap$} is to algebra of sets whereas {$\cdot$} is to algebra of real numbers.
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Reference: Herbert B. Enderton, *Elements of Set Theory* (New York: Academic Press, 1977).
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<!--ID: 1716396060609-->
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END%%
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%%ANKI
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Cloze
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{$-$} is to algebra of sets whereas {$-$} is to algebra of real numbers.
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Reference: Herbert B. Enderton, *Elements of Set Theory* (New York: Academic Press, 1977).
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<!--ID: 1716396060611-->
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END%%
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%%ANKI
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Cloze
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{$\subseteq$} is to algebra of sets whereas {$\leq$} is to algebra of real numbers.
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Reference: Herbert B. Enderton, *Elements of Set Theory* (New York: Academic Press, 1977).
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<!--ID: 1716396060614-->
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END%%
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### Commutative Laws
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For any sets $A$ and $B$, $$\begin{align*} A \cup B & = B \cup A \\ A \cap B & = B \cap A \end{align*}$$
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%%ANKI
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Basic
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The commutative laws of the algebra of sets apply to what operators?
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Back: $\cup$ and $\cap$
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Reference: Herbert B. Enderton, *Elements of Set Theory* (New York: Academic Press, 1977).
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<!--ID: 1716396060616-->
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END%%
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%%ANKI
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Basic
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What does the union commutative law state?
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Back: For any sets $A$ and $B$, $A \cup B = B \cup A$.
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Reference: Herbert B. Enderton, *Elements of Set Theory* (New York: Academic Press, 1977).
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<!--ID: 1716396060618-->
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END%%
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%%ANKI
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Basic
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What does the intersection commutative law state?
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Back: For any sets $A$ and $B$, $A \cap B = B \cap A$.
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Reference: Herbert B. Enderton, *Elements of Set Theory* (New York: Academic Press, 1977).
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<!--ID: 1716396060620-->
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END%%
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### Associative Laws
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For any sets $A$ and $B$, $$\begin{align*} A \cup (B \cup C) & = (A \cup B) \cup C \\ A \cap (B \cap C) & = (A \cap B) \cap C \end{align*}$$
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%%ANKI
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Basic
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The associative laws of the algebra of sets apply to what operators?
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Back: $\cup$ and $\cap$
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Reference: Herbert B. Enderton, *Elements of Set Theory* (New York: Academic Press, 1977).
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<!--ID: 1716396060622-->
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END%%
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%%ANKI
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Basic
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What does the union associative law state?
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Back: For any sets $A$, $B$, and $C$, $A \cup (B \cup C) = (A \cup B) \cup C$.
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Reference: Herbert B. Enderton, *Elements of Set Theory* (New York: Academic Press, 1977).
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<!--ID: 1716396060624-->
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END%%
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%%ANKI
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Basic
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What does the intersection associative law state?
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Back: For any sets $A$, $B$, and $C$, $A \cap (B \cap C) = (A \cap B) \cap C$.
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Reference: Herbert B. Enderton, *Elements of Set Theory* (New York: Academic Press, 1977).
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<!--ID: 1716396060625-->
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END%%
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## Bibliography
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* Herbert B. Enderton, *Elements of Set Theory* (New York: Academic Press, 1977).
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@ -359,6 +359,15 @@ Reference: Herbert B. Enderton, *Elements of Set Theory* (New York: Academic Pre
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<!--ID: 1715900348153-->
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END%%
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END%%
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%%ANKI
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Basic
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What set operation is shaded green in the following venn diagram?
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![[venn-diagram-union.png]]
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Back: $A \cup B$
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Reference: Herbert B. Enderton, *Elements of Set Theory* (New York: Academic Press, 1977).
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<!--ID: 1716395245855-->
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END%%
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### General Form
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### General Form
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For any set $A$, there exists a set $B$ whose elements are exactly the members of the members of $A$: $$\forall A, \exists B, \forall x, x \in B \Leftrightarrow (\exists b \in B, x \in b)$$
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For any set $A$, there exists a set $B$ whose elements are exactly the members of the members of $A$: $$\forall A, \exists B, \forall x, x \in B \Leftrightarrow (\exists b \in B, x \in b)$$
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<!--ID: 1716309007864-->
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END%%
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END%%
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%%ANKI
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Basic
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What kind of mathematical object is the absolute complement of set $A$?
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Back: A class.
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Reference: Herbert B. Enderton, *Elements of Set Theory* (New York: Academic Press, 1977).
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<!--ID: 1716395245860-->
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END%%
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%%ANKI
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Basic
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What kind of mathematical object is the relative complement of set $B$ in $A$?
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Back: A set.
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Reference: Herbert B. Enderton, *Elements of Set Theory* (New York: Academic Press, 1977).
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<!--ID: 1716395245862-->
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END%%
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%%ANKI
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Cloze
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{1:Classes} are to {2:absolute} complements whereas {2:sets} are to {1:relative} complements.
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Reference: Herbert B. Enderton, *Elements of Set Theory* (New York: Academic Press, 1977).
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<!--ID: 1716395245866-->
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END%%
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%%ANKI
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Basic
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What contradiction arises when arguing the absolute complement of set $A$ is a set?
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Back: The union of the complement with $A$ is the *class* of all sets.
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Reference: Herbert B. Enderton, *Elements of Set Theory* (New York: Academic Press, 1977).
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<!--ID: 1716395245868-->
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END%%
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%%ANKI
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Basic
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Why is the absolute complement of sets rarely useful in set theory?
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Back: The absolute complement of a set isn't a set.
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Reference: Herbert B. Enderton, *Elements of Set Theory* (New York: Academic Press, 1977).
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<!--ID: 1716395245870-->
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END%%
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%%ANKI
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Basic
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What set operation is shaded green in the following venn diagram?
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![[venn-diagram-abs-comp.png]]
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Back: The absolute complement of $A$.
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Reference: Herbert B. Enderton, *Elements of Set Theory* (New York: Academic Press, 1977).
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<!--ID: 1716397645564-->
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END%%
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## Power Set Axiom
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## Power Set Axiom
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For any set $a$, there is a set whose members are exactly the subsets of $a$: $$\forall a, \exists B, \forall x, (x \in B \Leftrightarrow x \subseteq a)$$
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For any set $a$, there is a set whose members are exactly the subsets of $a$: $$\forall a, \exists B, \forall x, (x \in B \Leftrightarrow x \subseteq a)$$
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<!--ID: 1716309007881-->
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END%%
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END%%
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%%ANKI
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Basic
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What set operation is shaded green in the following venn diagram?
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![[venn-diagram-intersection.png]]
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Back: $A \cap B$
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Reference: Herbert B. Enderton, *Elements of Set Theory* (New York: Academic Press, 1977).
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<!--ID: 1716395245873-->
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END%%
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%%ANKI
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Basic
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What set operation is shaded green in the following venn diagram?
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![[venn-diagram-rel-comp.png]]
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Back: $A - B$
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Reference: Herbert B. Enderton, *Elements of Set Theory* (New York: Academic Press, 1977).
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<!--ID: 1716395245875-->
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END%%
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## Bibliography
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## Bibliography
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* Herbert B. Enderton, *Elements of Set Theory* (New York: Academic Press, 1977).
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* Herbert B. Enderton, *Elements of Set Theory* (New York: Academic Press, 1977).
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