a) Express the logic circuits in Figure 1 and Figure 2 as logical ex- pressions. Use your knowledge of the Laws of Logical Equivalence to show these two expressions are the same, stating which laws you are using at each point. AND R NOT AND OR NOT AND NOT Figure 1: Circuit representation one NOT AND OR Figure 2: Circuit representation two b) Produce a truth table for the given circuits in Figure 1 and Figure 2 to verify that they are equivalent. Show the outputs of both circuits in the same truth table.

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Translate the following predicate logic expressions intended for the database
of question 1, into good English.
(a)
Owns(Claire, Deadpool)
(b)
Owns(John, Joker) A Owns(Paul, Joker)
(c)
-af € F(Owns(Mary, f) ^ Owns(John, f))
(d)
3f € F,r E RActs(BenAf fleck,r, f)
(e)
Vfi, f2 € F (Directs(Tarantino, fi) A Directs(Nolan, f2) = Prefers(Tom, f1, f2))
(f)
Vf E F (Owns(Bob, f) = Owns(Mark, f))
(g)
Vf E F (3r E R (Acts(JackieChan, r, f)
= Owns(Mark, f)))
(h)
Vf E F (~3r € R (Acts(Margot Robbie,r, f) ^ Directs(Nolan, f)))
(i)
Vf € F (Owns(John, f) = Owns(Mark, f)^ ~ (f = Grawity))
(i)
3a E A (Vf € F (3r E R (Acts(a,r, f) = Owns(Claire, f))))
Transcribed Image Text:Translate the following predicate logic expressions intended for the database of question 1, into good English. (a) Owns(Claire, Deadpool) (b) Owns(John, Joker) A Owns(Paul, Joker) (c) -af € F(Owns(Mary, f) ^ Owns(John, f)) (d) 3f € F,r E RActs(BenAf fleck,r, f) (e) Vfi, f2 € F (Directs(Tarantino, fi) A Directs(Nolan, f2) = Prefers(Tom, f1, f2)) (f) Vf E F (Owns(Bob, f) = Owns(Mark, f)) (g) Vf E F (3r E R (Acts(JackieChan, r, f) = Owns(Mark, f))) (h) Vf E F (~3r € R (Acts(Margot Robbie,r, f) ^ Directs(Nolan, f))) (i) Vf € F (Owns(John, f) = Owns(Mark, f)^ ~ (f = Grawity)) (i) 3a E A (Vf € F (3r E R (Acts(a,r, f) = Owns(Claire, f))))
a) Express the logic circuits in Figure 1 and Figure 2 as logical ex-
pressions. Use your knowledge of the Laws of Logical Equivalence
to show these two expressions are the same, stating which laws you
are using at each point.
AND
NOT
AND
OR
NOT
AND
NOT
Figure 1: Circuit representation one
NOT
AND
OR
Figure 2: Circuit representation two
b) Produce a truth table for the given circuits in Figure 1 and Figure 2
to verify that they are equivalent. Show the outputs of both circuits
in the same truth table.
Transcribed Image Text:a) Express the logic circuits in Figure 1 and Figure 2 as logical ex- pressions. Use your knowledge of the Laws of Logical Equivalence to show these two expressions are the same, stating which laws you are using at each point. AND NOT AND OR NOT AND NOT Figure 1: Circuit representation one NOT AND OR Figure 2: Circuit representation two b) Produce a truth table for the given circuits in Figure 1 and Figure 2 to verify that they are equivalent. Show the outputs of both circuits in the same truth table.
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