(a) How would you show that, for any whole number \( a, a+0=a \) if you were starting from our definition of addition and the audience is your university class? (b) How would you show that, for any whole number \( a, a+0=a \) if you were talking to your class of fourth graders? (a) Choose the correct answer below. A. Use manipulatives to show that the union of a collection with a collection with no elements has the same number of elements as the first collection. B. 0 is the cardinal number of the empty set: that is, \( n(\varnothing)=0 \). If the set \( A \) has a elements in it \( (n(A)=a) \), then \( n(A)+n(\varnothing)=n(A \cup \varnothing) \), because \( A \) and \( \varnothing \) are disjoint. But \( A \cup \varnothing=A \), since there are no elements in \( \varnothing \) to add to the set \( A \). Thus, \( n(A \cup \varnothing)=n(A)=a \). C. Start with two disjoint sets of the same cardinality \( A \) and \( B \) with \( n(A)=n(B)=a \). Then write the equation. Since \( n(A)=n(B)=a, n(A \cup B)=a \). Since they are disjoint, \( A \cap B=\varnothing \). Then, \( a+0=n(A \cup(A \cap B)) \) which is equal to \( n(A \cup B)=a \). D. 0 is the cardinal number of the empty set: that is, \( n(\varnothing)=0 \). If the set \( A \) has a elements in it \( (n(A)=a) \), then \( n(A)+n(\varnothing)=n(A \cap \varnothing) \), because \( A \) and \( \varnothing \) are disjoint. But \( A \cap \varnothing=A \), since there are no elements in \( \varnothing \) to add to the set \( A \). Thus, \( n(A \cup \varnothing)=n(A)=a \).