91影视

The survey of 3005 adults aged between 57 to 85 years is recorded. Therefore, sample size\(n = 3005\).

The sample proportion of adults who has at least one prescribed medication is\(\hat p = 0.871\).

The level of significance\(\alpha = 0.01\).

The claim states that more than \(\frac{3}{4}\) of the adults in the population use at least one prescription medication.

The requirements for the z-test for the claims about the population proportions are as follows.

1. Assume that 3005 adults are selected randomly.
2. They are fixed and independent selections.
3. The requirements\(np \ge 5\)and\(nq \ge 5\)are satisfied as follows.

\(\begin{array}{c}np = 3005 \times \frac{3}{4}\\ = 2253.75\;\\\; \ge 5\end{array}\)

\(\begin{array}{c}nq = 3005 \times \left( {1 - \frac{3}{4}} \right)\\ = 751.25\\\; \ge 5\end{array}\)

Thus, the three requirements of normal approximations are satisfied.

Let p be the actual proportions of adults in the population with at least one prescription medication.

The hypotheses are as follows.

\({H_0}:p = \frac{3}{4}\left( {0.75} \right)\)(Null hypothesis)

\({H_1}:p > \frac{3}{4}\left( {0.75} \right)\)(Alternative hypothesis and original claim)

As the original claim contains a greater-than symbol,it is a right-tailed test.

\(\) \(\)

The sampling distribution of the sample proportions can be approximated by the normal distribution.

The test statistic is given as follows.

\(\begin{array}{c}z = \frac{{\hat p - p}}{{\sqrt {\frac{{pq}}{n}} }}\\ = \frac{{0.817 - 0.75}}{{\sqrt {\frac{{0.75 \times 0.25}}{{3005}}} }}\\ = 8.4820\end{array}\)

The test statistic value is 8.4820.

For this right-tailed test, the p-value is the area to the right of the test statistic.Using Table A-2 (standard normal table), the cumulative area to the left of 8.48 corresponds to rows 3.50 and above, and its value is 0.9999.

The area to the right of\(z = 8.4820\)is expressed as follows.

\(\begin{array}{c}P\left( {Z > 8.4820} \right) = 1 - P\left( {Z < 8.4820} \right)\\ = 1 - 0.9999\\ = 0.0001\end{array}\)

Thus, the p-value is 0.0001.

When the p-value is less than the given level of significance, reject the null hypothesis. Otherwise, fail to reject the null hypothesis.

In this situation, the p-value is lesser than the significance level:\(0.0001 < 0.01\).

Hence, reject the null hypothesis.

There is enough evidence to support the claim that more than\(\frac{3}{4}\)of adults use at least one prescription medication.

As more than \(\frac{3}{4}\) of adults use at least one prescription medication, the rate of prescription use among adults appears to be high.