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20 votes
20 votes
a. A random sample of 43 cars in the drive-thru of a popular fast food restaurant revealed an average bill of $18.58 per car. The population standard deviation is $6.22. Estimate the mean bill for all cars from the drive-thru with 97% confidence. Round intermediate and final answers to two decimal places.

User Utsav Gupta
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1 Answer

10 votes
10 votes

Given


\begin{gathered} n=43 \\ Mean\text{ = \$18.58} \\ \sigma=\text{ \$6.22} \end{gathered}

Solution

Formula


\text{Confident interval =M }\pm\frac{Z\sigma}{\sqrt[]{n}}

where


\begin{gathered} M=\text{ mean or Average} \\ Z-score=Z_(97)=2.17 \\ n=43 \end{gathered}

Substitute the parameters into the Confident Interval formula


\text{Confident interval =18.58}\pm\frac{2.17*6.22}{\sqrt[]{43}}

Then we calculate the Addition and subtraction

First the Addition


\begin{gathered} \text{Confident interval =18.58+}\frac{2.17*6.22}{\sqrt[]{43}} \\ \\ \text{Confident interval =18.58+}\frac{13.4974}{\sqrt[]{43}} \\ \\ \text{Confident interval =18.58+}(13.4974)/(6.5574) \\ \text{Confident interval =18.58+}2.05833 \\ \text{Confident interval =}20.63833342 \\ \\ \text{Confident interval =}20.64\text{ two decimal places} \end{gathered}

Then now for subtraction


\begin{gathered} \text{Confident interval =18.58-}\frac{2.17*6.22}{\sqrt[]{43}} \\ \\ \text{Confident interval =18.58-}\frac{13.4974}{\sqrt[]{43}} \\ \\ \text{Confident interval =18.58-}(13.4974)/(6.5574) \\ \text{Confident interval =18.58-}2.05833 \\ \text{Confident interval =}16.5216658 \\ \\ \text{Confident interval =16.52 two decimal places} \end{gathered}

The final answer


(16.52,\text{ 20.64)}

User Amadi
by
3.5k points