– If ( A = a,b ), ( B = 1,2,3 ), list ( A \times B ) and ( B \times A ).
– Prove ( (A \cup B)^c = A^c \cap B^c ) using element arguments.
3.1: (a) 1,2,3,4,5,6,7,8, (b) 4,5, (c) 1,2,3, (d) 1,2,3,9,10. Chapter 4: Venn Diagrams and Logical Arguments Focus: Visualizing sets, proving set identities, De Morgan’s laws. set theory exercises and solutions pdf
– Which of the following are equal to the empty set? (a) ( ) (b) ( \emptyset ) (c) ( x \in \mathbbN \mid x < 1 )
6.1: (a) Yes; (b) No (1 maps to two values); (c) No (3 has no image). Chapter 7: Cardinality and Infinity Focus: Finite vs infinite, countable vs uncountable, Cantor’s theorem. – If ( A = a,b ), (
2.1: ( \emptyset, 1, 2, 3, 1,2, 1,3, 2,3, 1,2,3 ) → ( 2^3 = 8 ) subsets. 2.2: (a) T, (b) F (empty set has no elements), (c) T, (d) T. Chapter 3: Set Operations Focus: Union, intersection, complement, difference, symmetric difference.
– Explain Russell’s paradox using the set ( R = x \mid x \notin x ). Why is this not a set in ZFC? Chapter 4: Venn Diagrams and Logical Arguments Focus:
5.1: ( A \times B = (a,1),(a,2),(a,3),(b,1),(b,2),(b,3) ); ( B \times A ) has 6 pairs reversed. 5.2: ( |A \times B| = m \cdot n ), so ( |\mathcalP(A \times B)| = 2^mn ). Chapter 6: Functions and Relations Focus: Function as a set of ordered pairs, domain, codomain, image, preimage.
– True or false: (a) ( \emptyset \subseteq \emptyset ) (b) ( \emptyset \in \emptyset ) (c) ( \emptyset \subseteq \emptyset ) (d) ( \emptyset \in \emptyset )
– Which of these relations from ( 1,2,3 ) to ( a,b ) are functions? (a) ( (1,a),(2,b),(3,a) ) (b) ( (1,a),(1,b),(2,a) ) (c) ( (1,b),(2,b) )