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The first significant digit in any number must be​ 1, 2,​ 3, 4,​ 5, 6,​ 7, 8, or 9. It was discovered that first digits do not occur with equal frequency. Probabilities of occurrence to the first digit in a number are shown in the accompanying table. The probability distribution is now known as​ Benford's Law. For​ example, the following distribution represents the first digits in 219 allegedly fraudulent checks written to a bogus company by an employee attempting to embezzle funds from his employer. Complete parts​ (a) through​ (c) below

(a) Because these data are meant to prove that someone is guilty of​ fraud, what would be an appropriate level of significance when performing a​goodness-of-fit test? Use α=*0.01.* ​(b) Using the level of significance chosen in part​ (a), test whether the first digits in the allegedly fraudulent checks obey​ Benford's Law. Do the first digits obey​ Benford's Law? What are the null and alternative​ hypotheses? *H0​: The distribution of the first digits in the allegedly fraudulent checks obeys​ Benford's Law. H1​:The distribution of the first digits in the allegedly fraudulent checks does not obey​ Benford's Law.* What is the test​ statistic? *χ20=28.571*(Round to three decimal) What is the​ P-value of the​ test? *P-value=0.000* ​(Round to three decimal places) Using the​ P-value approach, compare the​ P-value with the given α=0.01level of significance. Based on the​ results, do the first digits obey​ Benford's Law?*Reject the H0 because the calculated​ P-value is Les than the given α level of significance.* ​(c) Based on the results of part​ (b), could one think that the employee is guilty of​ embezzlement?*Yes​, the first digits do not obey ​Benford's Law.* (write relevent theory/ statcrunch route/ formulas)

A researcher wanted to determine whether certain accidents were uniformly distributed over the days of the week. The data show the day of the week for n=301 randomly selected accidents. Is there reason to believe that the accident occurs with equal frequency with respect to the day of the week at the α=0.05 level of​ significance? Click the icon to view the table.

*Let pi = the proportion of accidents on day ​i, where i​ = 1 for​ Sunday, i​ = 2 for​ Monday, etc. What are the null and alternative​ hypotheses? *H0​:p1=p2=...=p7=1/7 H1​:At least one proportion is different from the others.* Compute the expected counts for day of the week (compute and draw table.) What is the test​ statistic? χ20=*15.35* ​(Round to three decimal) What is the​ P-value of the​ test? ​P-value=*0.018*​(Round to three decimal places) Based on the​ results, do the accidents follow a uniform​ distribution? *Reject H0​, because the calculated​ P-value is less than the given α level of significance. (write relevent theory/ statcrunch route/ formulas)

State the requirements to perform a​ goodness-of-fit test.

*all expected frequencies≥1* *at least​ 80% of expected frequencies ≥5*

According to the manufacturer of​ M&Ms, 13​% of the plain​ M&Ms in a bag should be​ brown, 14​% ​yellow, 13​% ​red, 24​% ​blue, 20​% ​orange, and 16​% green. A student randomly selected a bag of plain​ M&Ms. He counted the number of​ M&Ms of each color and obtained the results shown in the table. Test whether plain​ M&Ms follow the distribution stated by the manufacturer at the α=0.05 level of significance. (Table in question)

Determine the null and alternative hypotheses. Choose the correct answer below. *H0​: The distribution of colors is the same as stated by the manufacturer. H1​:The distribution of colors is not the same as stated by the manufacturer.* Compute the expected counts for each color. *Compute and draw table* (write relevent theory/ statcrunch route/ formulas)

Determine the expected count for each outcome. (Table in question)

The expected count for outcome 1 is 70.5. ​(Round to two decimal places as​ needed.) The expected count for outcome 2 is 183.3 ​(Round to two decimal places as​ needed.) The expected count for outcome 3 is 117.5 ​(Round to two decimal places as​ needed.) The expected count for outcome 4 is 98.7 ​(Round to two decimal places as​ needed.) (relevent theory,formulas statcrunch route)

Suppose there are n independent trials of an experiment with k>3 mutually exclusive​ outcomes, where pi represents the probability of observing the the probability of observing the outcome. What would be the formula of an expected count in this​ situation?

The expected counts for each possible outcome are given by Ei=np Subscript i. (write out formula)

Determine whether the statement below is true or false. The​ chi-square distribution is symmetric.

The statement is false. The​ chi-square distribution is skewed to the right.

Explain why​ chi-square goodness-of-fit tests are always right tailed.

The​ chi-square goodness-of-fit tests are always right tailed because the numerator in the test statistic is​ squared, making every test​ statistic, other than a perfect​ fit, positive.

If the expected count of a category is less than​ 1, what can be done to the categories so that a​ goodness-of-fit test can still be​ performed?

Two of the categories can be​ combined, or the sample size can be increased.


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