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A4 US

In this preview activity, we will explore some basic properties of sets and functions. Later in this section, we will write proofs about these ideas.

1.

Remember that a set is just a collection of elements. Here are two definitions about sets:

A set \(A\) is a subset of a set \(B\text{,}\) written \(A \subseteq B\) provided every element in \(A\) is also an element of \(B\text{.}\)
Given sets \(A\) and \(B\text{,}\) the union of \(A\) and \(B\text{,}\) written \(A \cup B\) is the set containing every element that is in \(A\) or \(B\) or both.

Let’s build some examples.

(a)

Let \(B = \{1, 3, 5, 7, 9\}\text{.}\) Give an example of a set \(A\) containing \(3\) elements that is a subset of \(B\text{.}\)

What is \(A \cup B\) for the set \(A\) you gave as an example?

(b)

Give an example of two sets distinct sets \(A\) and \(B\) such that \(A \cup B = B\text{.}\)

\(A =\) ; \(B =\)

For the example you gave, is \(A \subseteq B\text{?}\)

(c)

Find examples, if they exist, of sets \(A\) and \(B\) such that \(A \cup B \ne B\text{.}\)

\(A =\) ; \(B =\) .

For the example you gave, is \(A \subseteq B\text{?}\)

2.

Which of the following are always true?

For any sets \(A\) and \(B\text{,}\) \(A \cup B \subseteq B\text{.}\)
What if \(A = \{1,2,3\}\) and \(B = \{1, 3, 5\}\text{?}\)
For any sets \(A\) and \(B\text{,}\) \(B \subseteq A \cup B\text{.}\)
For any sets \(A\) and \(B\text{,}\) if \(A \subseteq B\text{,}\) then \(A \cup B \subseteq B\text{.}\)
For any sets \(A\) and \(B\text{,}\) if \(A \cup B = B\text{,}\) then \(A \subseteq B\text{.}\)

3.

For any function \(f: \N \to \N\) and any set \(A \subseteq \N\text{,}\) we can define the image of \(A\) under \(f\) to be the set of all outputs of \(f\) when the input is an element of \(A\text{.}\) We write this as \(f(A) = \{f(x) \st x \in A\}\text{.}\)

For the following tasks, let’s explore the function \(f: \N \to \N\) defined by \(f(x) = x^2 - 3x + 8\text{.}\)

(a)

Let \(A = \{1,2,3\}\) and \(B = \{2, 4, 6\}\text{.}\) Find \(f(A)\) and \(f(B)\text{.}\) Then find \(f(A) \cup f(B)\text{.}\)

\(f(A) =\) ; \(f(B) =\) ; \(f(A) \cup F(b) =\) .

(b)

Now find \(A \cup B\) and \(f(A \cup B)\text{.}\)

\(A \cup B =\) ; \(f(A \cup B) =\) .

(c)

Give an example, if one exists, of two distinct sets \(A\) and \(B\) such that \(A \subseteq B\) and \(f(A) \subseteq f(B)\text{.}\)

\(A =\); \(B =\).

Give an example, if one exists, of two distinct sets \(A\) and \(B\) such that \(A \subseteq B\) but \(f(A) \not\subseteq f(B)\text{.}\)

\(A =\); \(B =\).

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