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One given example, two questions, two ideas:

∃t ∀s learn(s, t, a) and not distracted(s) => passExam(s, a)

1) What means that in natural language?

There is a t(opic), when a s(tudent) learns that t(opic) in a(rtificial intelligence) and is not distracted, this s(tudent) pass the exam in a(i)

2) What is the CNF of it?

not learn(G(x), F(x)) or distracted(G(x)) or passExam(G(x), a)

What do you think?

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closed as off topic by Oliver Charlesworth, kapep, KatieK, Shoe, Eric J. Jan 14 '13 at 18:26

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up vote 1 down vote accepted

1) It greatly depends how the functions and variables are defined, but I'll assume learn(a,b,c) := a learns topic b in area c and the other 2 defined as per what would be assumed. You basically have it right, you just forgot the and aren't distracted:

"There exists a topic such that all students who learn this topic in Artificial Intelligence and aren't distracted will pass the Artificial Intelligence exam."

2) ... all disjunctions of literals are in CNF. So this means the example is already in CNF.

share|improve this answer
Thank you for your reply. But in the example we have learn(s, t, a) and not distracted(s) and an implication as well as two quantors. They should be eliminated (Skolemization), I thought. – Michael Dorner Jan 15 '13 at 11:46
@MichaelDorner I'm not too familiar with Skolemization, but the way I see it, it converts there exists to get the one that exists, which doesn't really seem to apply in this case. – Dukeling Jan 15 '13 at 11:58

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