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Kavita has been assigned the task of studying the average customer receipt for a branch of a major restaurant chain. The average receipt for the chain is [tex]\[tex]$ 72.00[/tex] with a standard deviation of [tex]\$[/tex] 11.00[/tex]. The branch she is studying has an average bill of [tex]\$ 67.00[/tex] for the last 40 receipts. She needs to know if this falls below the chain's average. She will use a [tex]1 \%[/tex] level of significance because she does not want to inadvertently report the restaurant's income as below average.

\begin{tabular}{|c|c|c|c|}
\hline
\multicolumn{4}{|c|}{Upper-Tail Values} \\
\hline
[tex]$a$[/tex] & [tex]$5 \%$[/tex] & [tex]$2.5 \%$[/tex] & [tex]$1 \%$[/tex] \\
\hline
\begin{tabular}{c}
Critical \\
[tex]$z$[/tex]-values
\end{tabular} & 1.65 & 1.96 & 2.58 \\
\hline
\end{tabular}

Which choice depicts the result for Kavita's hypothesis test?

A. She should reject [tex]H_0: \mu=72[/tex] and accept [tex]H_a: \mu\ \textless \ 72[/tex].

B. She should reject [tex]H_0: \mu=72[/tex] and accept [tex]H_a: \mu \neq 72[/tex].

C. She should accept [tex]H_0: \mu=72[/tex] and reject [tex]H_a: \mu \neq 72[/tex].

D. She should reject [tex]H_a: \mu\ \textless \ 72[/tex] but cannot accept [tex]H_0: \mu=72[/tex].


Sagot :

Let's go through the hypothesis testing step by step:

1. Setting Up Hypotheses:
- Null Hypothesis \( H_0 \): The average customer receipt for the branch is equal to the chain's average, \( \mu = 72 \).
- Alternative Hypothesis \( H_a \): The average customer receipt for the branch is less than the chain's average, \( \mu < 72 \).

2. Significance Level:
- The significance level (\(\alpha\)) is 0.01 (1%).

3. Critical Value:
- From the provided table for a one-tailed test at the 1% significance level, the critical z-value is 2.58. Since we are conducting a lower-tailed test (looking for receipts less than the chain average), we consider the negative of this value, which is -2.58.

4. Sample Data:
- The mean of the branch's receipts (\(\bar{x}\)) is $67.00.
- The mean of the chain's receipts (\(\mu\)) is $72.00.
- Standard deviation (\(\sigma\)) is $11.00.
- Sample size (\(n\)) is 40.

5. Calculate Standard Error of the Mean (SEM):
- \( \text{SEM} = \frac{\sigma}{\sqrt{n}} \)

6. Calculate the z-score:
- \( z = \frac{\bar{x} - \mu}{\text{SEM}} \)

Using the given result:
- The standard error of the mean (SEM) is approximately 1.7393.
- The z-score is approximately -2.8748.

7. Decision Rule:
- If the computed z-score is less than the critical z-value (-2.58), we reject the null hypothesis \( H_0 \).

8. Conclusion:
- The computed z-score (-2.8748) is indeed less than the critical value (-2.58).
- Therefore, we reject the null hypothesis \( H_0 \).

Based on the hypothesis test, we reject \( H_0: \mu = 72 \) and accept \( H_a: \mu < 72 \). This means we have sufficient evidence to conclude that the average receipt for the branch is less than the chain's average, at the 1% significance level.

Hence, the correct choice is:
She should reject [tex]\( H_0: \mu = 72 \)[/tex] and accept [tex]\( H_a: \mu < 72 \)[/tex].
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