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Deck 17: Axiom Systems
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Deck 17: Axiom Systems
1
True or False
-There are complete and consistent axiom systems for both sentential and predicate logic.
-There are complete and consistent axiom systems for both sentential and predicate logic.
True
2
True or False
-There is a complete and consistent axiom system for arithmetic.
-There is a complete and consistent axiom system for arithmetic.
False
3
True or False
-It is possible to construct an inconsistent axiom system for arithmetic in which all truths of arithmetic would be derivable.
-It is possible to construct an inconsistent axiom system for arithmetic in which all truths of arithmetic would be derivable.
True
4
True or False
-There are decision procedures both for sentential and predicate logic.
-There are decision procedures both for sentential and predicate logic.
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5
True or False
-Truth table analysis constitutes a decision procedure for sentential logic.
-Truth table analysis constitutes a decision procedure for sentential logic.
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6
True or False
-There can be no decision procedure for any consistent formulation of arithmetic.
-There can be no decision procedure for any consistent formulation of arithmetic.
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7
True or False
-An axiom system for predicate logic is complete if either every well-formed formula or its negation is derivable as a theorem.
-An axiom system for predicate logic is complete if either every well-formed formula or its negation is derivable as a theorem.
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8
True or False
-An axiom system for arithmetic is complete if either every well-formed formula or its negation is derivable as a theorem.
-An axiom system for arithmetic is complete if either every well-formed formula or its negation is derivable as a theorem.
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9
Theory
-If an axiom system is not complete, can we say whether it is consistent? (Defend your answer.)
-If an axiom system is not complete, can we say whether it is consistent? (Defend your answer.)
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10
Theory
-Can we say that an axiom system for predicate logic is complete if every formula or its negation is derivable as a theorem? If so, why? If not, why not?
-Can we say that an axiom system for predicate logic is complete if every formula or its negation is derivable as a theorem? If so, why? If not, why not?
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11
Theory
-a. Roughly, how does one prove that a given consistent axiom system is consistent?
b. Roughly, how does one prove that a given inconsistent axiom system is inconsistent?
-a. Roughly, how does one prove that a given consistent axiom system is consistent?
b. Roughly, how does one prove that a given inconsistent axiom system is inconsistent?
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