Answer to Question #345488 in Statistics and Probability for Shy

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Answer to Question #345488 in Statistics and Probability for Shy

Question #345488

A group of students got the following scores in a test: 6, 9, 12, 15, 18, and 21. Consider samples of size 3 that can be drawn from this population.

A. List all the possible samples and the corresponding mean.

B. Construct the sampling distribution of the sample means.

Expert's answer

We have population values 6,9,12,15,18,21, population size N=6 and sample size n=3.

Mean of population "(\\mu)" = "\\dfrac{6+9+12+15+18+21}{6}=13.5"

Variance of population

"\\sigma^2=\\dfrac{\\Sigma(x_i-\\bar{x})^2}{n}=\\dfrac{1}{6}(56.25+20.25+2.25""+2.25+20.25+56.25)=26.25""\\sigma=\\sqrt{\\sigma^2}=\\sqrt{26.25}\\approx5.1235"

A. Select a random sample of size 3 without replacement. We have a sample distribution of sample mean.

The number of possible samples which can be drawn without replacement is "^{N}C_n=^{6}C_3=20."

"\\def\\arraystretch{1.5}\n \\begin{array}{c:c:c:c:c}\n no & Sample & Sample \\\\\n& & mean\\ (\\bar{x})\n\\\\ \\hline\n 1 & 6,9,12 & 9 \\\\\n \\hdashline\n 2 & 6,9,15 & 10 \\\\\n \\hdashline\n 3 & 6,9,18 & 11 \\\\\n \\hdashline\n 4 & 6,9,21 & 12 \\\\\n \\hdashline\n 5 & 6,12,15 & 11 \\\\\n \\hdashline\n 6 & 6,12,18 & 12 \\\\\n \\hdashline\n 7 & 6,12, 21 & 13 \\\\\n \\hdashline\n 8 & 6,15,18 & 13 \\\\\n \\hdashline\n 9 & 6,15,21 & 14 \\\\\n \\hdashline\n 10 & 6, 18,21 & 15 \\\\\n \\hdashline\n 11 & 9,12,15 & 12 \\\\\n \\hdashline\n 12 & 9, 12,18 & 13 \\\\\n \\hdashline\n 13 & 9, 12, 21 & 14 \\\\\n \\hdashline\n 14 & 9,15,18 & 14 \\\\\n \\hdashline\n 15 & 9,15,21 & 15 \\\\\n \\hdashline\n 16 & 9, 18,21 & 16 \\\\\n \\hdashline\n 17 & 12, 15,18 & 15 \\\\\n \\hdashline\n 18 & 12, 15,21 & 16 \\\\\n \\hdashline\n 19 & 12, 18,21 & 17 \\\\\n \\hdashline\n 20 & 15, 18,21 & 18 \\\\\n \\hdashline\n\\end{array}"

B.

"\\def\\arraystretch{1.5}\n \\begin{array}{c:c:c:c:c}\n \\bar{X} & f(\\bar{X}) &\\bar{X} f(\\bar{X}) & \\bar{X}^2f(\\bar{X})\n\\\\ \\hline\n 9 & 1\/20 & 9\/20 & 81\/20 \\\\\n \\hdashline\n 10 & 1\/20 & 10\/20 & 100\/20 \\\\\n \\hdashline\n 11 & 2\/20 & 22\/20 & 242\/20 \\\\\n \\hdashline\n 12 & 3\/20 & 36\/20 & 432\/20 \\\\\n \\hdashline\n 13 & 3\/20 & 39\/20 & 507\/20 \\\\\n \\hdashline\n 14 & 3\/20 & 42\/20 & 588\/20 \\\\\n \\hdashline\n 15 & 3\/20 & 45\/20 & 675\/20 \\\\\n \\hdashline\n 16 & 2\/20 & 32\/20 & 512\/20 \\\\\n \\hdashline\n 17 & 1\/20 & 17\/20 & 289\/20 \\\\\n \\hdashline\n 18 & 1\/20 & 18\/20 & 324\/20 \\\\\n \\hdashline\n\\end{array}"

Mean of sampling distribution

"\\mu_{\\bar{X}}=E(\\bar{X})=\\sum\\bar{X}_if(\\bar{X}_i)=\\dfrac{270}{20}=13.5=\\mu"

The variance of sampling distribution

"Var(\\bar{X})=\\sigma^2_{\\bar{X}}=\\sum\\bar{X}_i^2f(\\bar{X}_i)-\\big[\\sum\\bar{X}_if(\\bar{X}_i)\\big]^2""=\\dfrac{3750}{20}-(13.5)^2=5.25= \\dfrac{\\sigma^2}{n}(\\dfrac{N-n}{N-1})""\\sigma_{\\bar{X}}=\\sqrt{5.25}\\approx2.2913"

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Answer to Question #345488 in Statistics and Probability for Shy

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