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A taste test asks people from Texas and California which pasta they prefer, brand A or brand B. This table shows the results:

\begin{tabular}{|l|c|c|c|}
\hline
& Brand A & Brand B & Total \\
\hline
Texas & 80 & 45 & 125 \\
\hline
California & 96 & 54 & 150 \\
\hline
Total & 176 & 99 & 275 \\
\hline
\end{tabular}

A person is randomly selected from those tested. Are being from California and preferring brand B independent events? Why or why not?

A. Yes, they are independent because [tex]$P($California$) \approx 0.55$[/tex] and [tex][tex]$P($[/tex]California | brand B$) \approx 0.36$[/tex].
B. No, they are not independent because [tex][tex]$P($[/tex]California$) \approx 0.55$[/tex] and [tex][tex]$P($[/tex]California | brand B$) \approx 0.36$[/tex].
C. No, they are not independent because [tex][tex]$P($[/tex]California$) \approx 0.55$[/tex] and [tex][tex]$P($[/tex]California | brand B$) \approx 0.55$[/tex].
D. Yes, they are independent because [tex][tex]$P($[/tex]California$) \approx 0.55$[/tex] and [tex][tex]$P($[/tex]California | brand B$) \approx 0.55$[/tex].

Sagot :

GinnyAnswer
To determine whether being from California and preferring brand B are independent events, we need to compare two probabilities:

1. The probability of being from California, [tex]\( P(\text{California}) \)[/tex].
2. The probability of being from California given that a person prefers brand B, [tex]\( P(\text{California} \mid \text{brand B}) \)[/tex].

Let's break down the calculations step by step.

### Step 1: Calculate [tex]\( P(\text{California}) \)[/tex]

From the table, the total number of people tested is 275, and the number of people from California is 150. Therefore,

[tex]\[ P(\text{California}) = \frac{\text{Number of people from California}}{\text{Total number of people tested}} = \frac{150}{275} \approx 0.545 \][/tex]

### Step 2: Calculate [tex]\( P(\text{California} \mid \text{brand B}) \)[/tex]

To find [tex]\( P(\text{California} \mid \text{brand B}) \)[/tex], we need to find the number of people who prefer brand B and are from California, and divide it by the total number of people who prefer brand B.

From the table:
- Total number of people who prefer brand B: 99
- Number of people who prefer brand B and are from California: 54

Therefore,

[tex]\[ P(\text{California} \mid \text{brand B}) = \frac{\text{Number of people from California and prefer brand B}}{\text{Total number of people who prefer brand B}} = \frac{54}{99} \approx 0.545 \][/tex]

### Step 3: Compare the probabilities

- [tex]\( P(\text{California}) \approx 0.545 \)[/tex]
- [tex]\( P(\text{California} \mid \text{brand B}) \approx 0.545 \)[/tex]

### Step 4: Conclusion

Since [tex]\( P(\text{California}) \approx P(\text{California} \mid \text{brand B}) \)[/tex], the events "being from California" and "preferring brand B" are independent.

Therefore, the correct answer is:

D. Yes, they are independent because [tex]\( P(\text{California}) \approx 0.55 \)[/tex] and [tex]\( P(\text{California} \mid \text{brand B}) \approx 0.55 \)[/tex].
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