The recommended dietary allowance (RDA) of iron for adult fernales is 18 milligrams ( $m g$ ) per day. The given iron intakes $(\mathrm{mg})$ were obtained for 45 random adult females. At the $1 \%$ significance level, do the data suggest that adult females are, on average, getting less than the RDA of $18 \mathrm{mg}$ of iron? Assume that the population standard deviation is $4.6 \mathrm{mg}$. Preliminary data analyses indicate that applying the z-test is reasonable, (Note $x=14.65 \mathrm{mg}$ ) Click here lo vew the iron intake data.
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State the hypotheses for the one-mean z-test:
\[
\begin{array}{l}
H_{0} \mu=18 \mathrm{mg} \\
H_{\mathrm{a}} \mu< 18 \mathrm{mg}
\end{array}
\]
(Type integers or decimals. Do not round)
Compute the value of the test statistic
\[
z=\square
\]
(Round to two decimal places as needed)
Answer
The final answer is: The value of the test statistic is approximately \(\boxed{-4.89}\).
Step 1 :State the hypotheses for the one-mean z-test: \(H_{0}: \mu = 18 \, mg\) and \(H_{a}: \mu < 18 \, mg\).
Step 2 :Given values are: sample mean (\(x_{bar}\)) = 14.65 mg, population mean (\(\mu\)) = 18 mg, population standard deviation (\(\sigma\)) = 4.6 mg, and sample size (n) = 45.
Step 3 :Compute the value of the test statistic using the formula \(z = \frac{x_{bar} - \mu}{\sigma / \sqrt{n}}\).
Step 4 :Substitute the given values into the formula to get \(z = \frac{14.65 - 18}{4.6 / \sqrt{45}}\).
Step 5 :The calculated z-test statistic is approximately -4.89. This value is negative, which indicates that the sample mean is less than the population mean. This is consistent with our alternative hypothesis \(H_{a}: \mu < 18 \, mg\).
Step 6 :The final answer is: The value of the test statistic is approximately \(\boxed{-4.89}\).
