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Rgfvfk Iff · Answer 1 · 2022-01-14T02:08:37+0000

Answer:

Part A

The null hypothesis H₀; The injuries and illnesses have no relationship in the weekend

The alternative hypothesis Hₐ; The injuries and illnesses occur with equal frequency on the weekend

Part B

P-value from;

Tables, 0.1 < P(
$\chi^2$ < 4.12) < 0.9

Chi-square calculator, P(
$\chi^2$ < 4.12) = 0.87

Explanation:

The given data is presented as follows;

$\begin{array}{ccc}Day&&Number\\Fri&&21\\Sat&&19\\Sun&&10\end{array}$

The significance level, α = 0.05

Part A

The hypothesis is to test that the given injuries and illnesses occur with equal frequency of the weekend

The null hypothesis H₀; The injuries and illnesses have no relationship in the weekend

The alternative hypothesis Hₐ; The injuries and illnesses occur with equal frequency on the weekend

Let the expected frequency, each day of the weekend = (21 + 19 + 10)/3 = 50/3 = 16.
$\overline 6$

We get;

$\begin{array}{ccc}Day & Observed \ Number& Expected \ Number \\Fri&21& 16.\overline 6\\Sat&19&16.\overline 6\\Sun&10&16.\overline 6\end{array}$

The chi-square test statistics

$\chi^2$ = (21 - 50/3)²/(50/3) + (19 - 50/3)²/(50/3) + (10 - 50/3)²/(50/3) = 4.12

The
$\chi^2_u$ with (3 - 1) = 2 degrees of freedom = 5.991

The decision rule,
$\chi^2$ > 5.991, we reject the null hypothesis

Given that we have
$\chi^2$ = 4.12 < 5.991, we fail to reject H₀, therefore, there is not enough statistical evidence to suggest that the meal plan are related at α = 0.05

Part B

From the chi-square table, we have the p-value at 2 degrees of freedom for the test statistic of 4.12 is between 0.9 and 0.1

Using the chi-square calculator, we have;

P(
$\chi^2$ < 4.12) = 0.87.

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