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There is an [tex]\(80\%\)[/tex] chance that a person eats dinner, a [tex]\(70\%\)[/tex] chance a person eats dessert, and a [tex]\(40\%\)[/tex] chance the person will eat dinner and dessert. Which of the following is true?

A. Eating dinner and eating dessert are dependent events because [tex]\(P(\text{dinner}) - P(\text{dessert}) = 0.8 - 0.7 = 0.1\)[/tex], which is less than [tex]\(P(\text{dinner and dessert}) = 0.4\)[/tex].

B. Eating dinner and eating dessert are dependent events because [tex]\(P(\text{dinner}) \cdot P(\text{dessert}) = 0.8 \cdot 0.7 = 0.56\)[/tex], which is not equal to [tex]\(P(\text{dinner and dessert}) = 0.4\)[/tex].

C. Eating dinner and eating dessert are independent events because [tex]\(P(\text{dinner}) \cdot P(\text{dessert}) = 0.8 \cdot 0.7 = 0.56\)[/tex], which is not equal to [tex]\(P(\text{dinner and dessert}) = 0.4\)[/tex].

D. Eating dinner and eating dessert are independent events because [tex]\(P(\text{dinner}) - P(\text{dessert}) = 0.8 - 0.7 = 0.1\)[/tex], which is less than [tex]\(P(\text{dinner and dessert}) = 0.4\)[/tex].

Sagot :

GinnyAnsweridn
Let's analyze the given problem step-by-step:

1. Given Probabilities:
- The probability that a person eats dinner, [tex]\( P(\text{dinner}) = 0.8 \)[/tex].
- The probability that a person eats dessert, [tex]\( P(\text{dessert}) = 0.7 \)[/tex].
- The probability that a person eats both dinner and dessert, [tex]\( P(\text{dinner and dessert}) = 0.4 \)[/tex].

2. Check for Independence:
- Two events, A and B, are independent if and only if [tex]\( P(A \text{ and } B) = P(A) \times P(B) \)[/tex].

3. Calculate [tex]\( P(\text{dinner}) \times P(\text{dessert}) \)[/tex]:
[tex]\[ P(\text{dinner}) \times P(\text{dessert}) = 0.8 \times 0.7 = 0.56 \][/tex]

4. Compare [tex]\( P(\text{dinner} \text{ and } \text{dessert}) \)[/tex] with [tex]\( P(\text{dinner}) \times P(\text{dessert}) \)[/tex]:
- Given [tex]\( P(\text{dinner and dessert}) = 0.4 \)[/tex]
- Calculated [tex]\( P(\text{dinner}) \times P(\text{dessert}) = 0.56 \)[/tex]

Since [tex]\( P(\text{dinner and dessert}) = 0.4 \)[/tex] is not equal to [tex]\( P(\text{dinner}) \times P(\text{dessert}) = 0.56 \)[/tex], the events are dependent.

Therefore, the correct statement is:
B. Eating dinner and eating dessert are dependent events because [tex]\( P(\text{dinner}) \times P(\text{dessert}) = 0.8 \cdot 0.7 = 0.56 \)[/tex], which is not equal to [tex]\( P(\text{dinner and dessert}) = 0.4 \)[/tex].

Hence, the correct answer is:
B.
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