Difference between revisions of "Aufgaben:Exercise 1.2Z: Sets of Digits"

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*The task belongs to the chapter  [[Theory_of_Stochastic_Signals/Set_Theory_Basics|Set theory basics]].
 
*The task belongs to the chapter  [[Theory_of_Stochastic_Signals/Set_Theory_Basics|Set theory basics]].
 
   
 
   
*The topic of this chapter is illustrated with examples in the  (German language)  learning video[[Mengentheoretische_Begriffe_und_Gesetzmäßigkeiten_(Lernvideo)|Mengentheoretische Begriffe und Gesetzmäßigkeiten]] \Rightarrow.
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*The topic of this chapter is illustrated with examples in the  (German language)  learning video [[Mengentheoretische_Begriffe_und_Gesetzmäßigkeiten_(Lernvideo)|Mengentheoretische Begriffe und Gesetzmäßigkeiten]] $\Rightarrow$.
  
  

Revision as of 16:23, 23 November 2021

Sets of digits  $A$,  $B$,  $C$

Let the universal set  $G$  be the set of all digits between  $1$  and  $9$.  Given are the following subsets:

$$A = \big[\text{digits} \leqslant 3\big],$$
$$ B = \big[\text{digits divisible by 3}\big],$$
$$ C = \big[\text{digits 5, 6, 7, 8}\big],$$

Besides these, let other sets be defined:

$$D = (A \cap \overline B) \cup (\overline A \cap B),$$
$$E = (A \cup B) \cap (\overline A \cup \overline B), $$
$$F = (A \cup C) \cap \overline B, $$
$$G = (\overline A \cap \overline C) \cup (A \cap B \cap C).$$

First consider which digits belong to the sets  $D$,  $E$,  $F$  and  $H$  and then answer the following questions.
Justify your answers in terms of set theory.





Hints:


Questions

1

Which of the following statements are correct?

$A$  and  $B$  are disjoint sets.
$A$  and  $C$  are disjoint sets.
$B$  and  $C$  are disjoint sets.

2

Which of the following statements are correct?

The union  $A \cup B \cup C$  gives the universal set  $G$.
The complementary set to  $A \cap B \cap C$  gives the universal set  $G$.

3

Which of the following statements is correct?

The complementary sets of  $D$  and  $E$  are identical.
$F$  is a subset of the complementary set of   $B$.
The sets  $B$,  $C$  and  $D$  form a complete system.
The sets  $A$,  $C$  and  $H$  form a complete system.


Solution

For the other sets defined in the problem holds:

$$ D = (A \cap \overline B) \cup (\overline A \cap B) =\big[\{1, 2, 3\} \cap \{1, 2, 4, 5, 7, 8\}\big] \cup \big[\{4, 5, 6, 7, 8, 9\} \cap \{3, 6, 9\}\big] = \{1, 2, 6, 9\},$$
$$ E = (A \cup B) \cap (\overline A \cup \overline B) = (A \cap \overline A) \cup (A \cap \overline B) \cup (\overline A \cap B) \cup (\overline A \cap \overline B) = (A \cap \overline B) \cup (\overline A \cap B) = D = \{1, 2, 6, 9\},$$
$$F = (A \cup C= \cap \overline B = \{1, 2, 3, 5, 6, 7, 8\} \cap \{1, 2, 4, 5, 7, 8\} = \{1, 2, 5, 7, 8\},$$
$$H = (\bar A \cap \overline C) \cup (A \cap B \cap C) = (\overline A \cap \overline C) \cup \phi = \{4, 9\}.$$

(1)  Only the proposed solution 2 is correct:

  • $A$  and  $C$  have no common element.
  • $A$  and  $B$  each contain a  $3$.
  • $B$  and  $C$  each contain a  $6$.


(2)  Correct is the proposed solution 2:

  • No digit is contained in  $A$,  $B$  and  $C$  at the same time   ⇒   $ A \cap B \cap C = \phi$   ⇒   $ \overline{A \cap B \cap C} = \overline{\phi} = G$.
  • The first proposition, on the other hand, is wrong. It is missing a  $4$.


(3)  Correct are the proposed solution 1, 2 and 4:

  • The first proposal is correct:   The sets  $D$  and  $E$  contain exactly the same elements and thus also their complementary sets.
  • The second proposal is also correct:   In general, i.e. for any  $X$  and  $B$  the following holds:  $X \cap \overline B \subset \overline B \ \Rightarrow$   With $X = A \cup C$ it follows that $F \subset \overline B$.
  • The last proposal is also correct:   $A = \{1, 2, 3\},$  $C = \{5, 6, 7, 8\}$  and  $H = \{4, 9\}$ form a "complete system".
  • The third suggestion, on the other hand, is wrong because  $B$  and  $C$  are not disjoint.