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A recent survey of 8,000 high school students found that the mean price of a prom dress was [tex] \$195.00 [/tex] with a standard deviation of [tex] \$12.00 [/tex]. Alyssa thinks that her school is more fashion conscious and that students spent more than [tex] \$195.00 [/tex]. She collected data from 20 people in her high school and found that the average price spent on a prom dress was [tex] \$208.00 [/tex]. Which of the following are the correct null hypothesis and alternate hypothesis?

A. [tex] H_0: \mu = 195 \quad ; \quad H_a: \mu \ \textgreater \ 195 [/tex]

B. [tex] H_0: \mu = 195 \quad ; \quad H_a: \mu = 208 [/tex]

C. [tex] H_0: \mu = 195 \quad ; \quad H_a: \mu = 185 [/tex]

D. [tex] H_0: \mu \ \textless \ 195 \quad ; \quad H_a: \mu \geq 208 [/tex]

Sagot :

GinnyAnsweridn
To determine the correct null hypothesis ([tex]\(H_0\)[/tex]) and alternative hypothesis ([tex]\(H_a\)[/tex]), we need to focus on the claims made in the problem:

1. Alyssa believes that the students in her school spend more than [tex]$195.00 on prom dresses. 2. This indicates that we are dealing with a right-tailed test (one-tailed test) where we want to test if the mean price of a prom dress in Alyssa's school is greater than $[/tex]195.00.

Given this setup, the correct hypotheses would be:

- Null Hypothesis ([tex]\(H_0\)[/tex]): The mean price of a prom dress at Alyssa's school is equal to [tex]$195.00. - Alternative Hypothesis (\(H_a\)): The mean price of a prom dress at Alyssa's school is greater than $[/tex]195.00.

In mathematical terms, these hypotheses are expressed as:

- [tex]\(H_0: \mu = 195\)[/tex]
- [tex]\(H_a: \mu > 195\)[/tex]

So, the correct choice among the given options is:

- [tex]\(H_0: \mu = 195 ; H_2, \mu > 195\)[/tex]

Next, let's outline the steps for the hypothesis testing:

1. Calculate the Standard Error of the Mean (SEM):
[tex]\[ \text{Standard Error} = \frac{\text{Population Standard Deviation}}{\sqrt{\text{Sample Size}}} \][/tex]
Using the given values:
[tex]\[ \text{Standard Error} = \frac{12.00}{\sqrt{20}} \approx 2.683 \][/tex]

2. Calculate the Z-score:
[tex]\[ Z = \frac{\text{Sample Mean} - \text{Population Mean}}{\text{Standard Error}} \][/tex]
Using the given values:
[tex]\[ Z = \frac{208.00 - 195.00}{2.683} \approx 4.845 \][/tex]

3. Based on the Z-score and a standard normal distribution table, a Z-score of approximately 4.845 is quite extreme and lies far in the right tail. This suggests that the observed sample mean is significantly higher than the population mean of [tex]$195.00, supporting Alyssa's claim. Thus, the findings would lead us to reject the null hypothesis (\(H_0\)) in favor of the alternative hypothesis (\(H_a\)), indicating that students at Alyssa's school do spend more than $[/tex]195.00 on prom dresses.
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