Members of the city council want to know if a majority of city residents supports a 1% increase in the sales tax to fund road repairs.To investigate, they survey a random sample of 300 city residents and use the results to test the following hypotheses: H o : p = 0.50 H_o:\ p\ =\ 0.50 H o : p = 0 . 5 0 H a : p > 0.50 H_a:\ p\ >0.50 H a : p > 0 . 5 0 where p is the proportion of all city residents who support a 1% increase in the sales tax to fund road repairs. Based on the P-value in Exercise 27, which of the following would be the most appropriate conclusion?

Because the P-value is large, we fail to reject H o H_o H o . We have convincing evidence that more than 50% of city residents support the tax increase.

Because the P-value is large, we reject H o H_o H o . We have convincing evidence that at most 50% of city residents support the tax increase.

Because the P-value is large, we fail to reject H o H_o H o . We have convincing evidence that at most 50% of city residents support the tax increase.

Given a test with hypotheses H o : p = 0.4 a n d H a : p ≠ 0.4 H_o:\ p=0.4\ \ and\ \ H_a:\ p\ne0.4 H o : p = 0 . 4 a n d H a : p  = 0 . 4 , the test statistic is z = 2.43. This test is

N o t s i g n i f i c a n t a t α = 0.05 o r a t α = 0.01 Not\ significant\ at\ \alpha=0.05\ or\ at\ \ \alpha=0.01 N o t s i g n i f i c a n t a t α = 0 . 0 5 o r a t α = 0 . 0 1

S i g n i f i c a n t a t α = 0.01 b u t n o t a t α = 0.05 Significant\ at\ \alpha=0.01\ but\ not\ at\ \alpha=0.05 S i g n i f i c a n t a t α = 0 . 0 1 b u t n o t a t α = 0 . 0 5

S i g n i f i c a n t a t b o t h α = 0.05 a n d α = 0.01 Significant\ at\ both\ \alpha=0.05\ and\ \ \alpha=0.01 S i g n i f i c a n t a t b o t h α = 0 . 0 5 a n d α = 0 . 0 1

The reason we use t procedures instead of z procedures when carrying out a test about a population mean is that

z requires that you know the population standard deviation \sigma σ

z requires that the sample size be large.

z requires that the data come from a random sample or randomized experiment.

z requires that the population distribution be perfectly Normal.

z can only be used for proportions.

After checking that conditions are met, you perform a significance test of H o : μ = 1 H_o:\ \mu=1 H o : μ = 1 versus H a : μ ≠ 1 H_a:\ \mu\ne1 H a : μ  = 1 . You obtain a P-value of 0.022. Which of the following must be true?

A 99% confidence interval for μ \mu μ will include the value 1.

A 95% confidence interval for μ \mu μ will include the value 1.

A 95% confidence interval for μ \mu μ will include the value 0.

A 99% confidence interval for μ \mu μ will include the value 0.

None of these is necessarily true.

The most important condition for sound conclusions from statistical inference is that

the data come from a well-designed random sample or randomized experiment.

the population distribution be exactly Normal.

the sample size be no more than 10% of the population size.

the sample size be at least 30.

Vigorous exercise helps people live several years longer (on average). Whether mild activities like slow walking extend life is not clear. Suppose that the added life expectancy from regular slow walking is just 2 months. A statistical test is more likely to find a significant increase in mean life expectancy if

it is based on a very large random sample and a 5% significance level is used.

it is based on a very large random sample and a 1% significance level is used.

it is based on a very small random sample and a 5% significance level is used.

it is based on a very small random sample and a 1% significance level is used.

the size of the sample doesn’t have any effect on the significance of the test.

AP Stats - Chapter 9 (9.1, 9.2 & 9.3 Combined)

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AP Stats - Chapter 9 (9.1, 9.2 & 9.3 Combined)

Quiz

•

Mathematics

•

9th - 12th Grade

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Practice Problem

•

Medium

Jason Bratten

Used 68+ times

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16 questions

Show all answers

MULTIPLE CHOICE QUESTION

3 mins • 1 pt

Experiments on learning in animals sometimes
measure how long it takes mice to find their way
through a maze. The mean time is 18 seconds for
one particular maze. A researcher thinks that a loud
noise will cause the mice to complete the maze
faster. She measures how long each of 10 mice takes
with a noise as stimulus. The appropriate hypotheses
for the significance test are

$H_o:\ \mu\ =\ 18;\ H_a:\ \mu\ne18$

$H_o:\ \mu\ =\ 18;\ H_a:\ \mu>18$

$H_o:\ \mu\ <\ 18;\ H_a:\ \mu=18$

$H_o:\ \mu\ =\ 18;\ H_a:\ \mu<18$

$H_o:\ \overline{x}=\ 18;\ H_a:\ \overline{x}\ <18$

MULTIPLE CHOICE QUESTION

5 mins • 1 pt

Members of the city council want to know if a majority of city residents supports a 1% increase in the sales tax to fund road repairs. To investigate, they survey a random sample of 300 city residents and use the results to test the following hypotheses:

$H_o:p\ =\ .50$
$H_a:p>.50$
where p is the proportion of all city residents who support a 1% increase in the sales tax to fund road repairs.

A Type I error in the context of this study occurs if the city council

finds convincing evidence that a majority of residents supports the tax increase, when in reality there isn’t convincing evidence that a majority supports the increase.

finds convincing evidence that a majority of residents supports the tax increase, when in reality at most 50% of city residents support the increase.

finds convincing evidence that a majority of residents supports the tax increase, when in reality more than 50% of city residents do support the increase.

does not find convincing evidence that a majority of residents supports the tax increase, when in reality more than 50% of city residents do support the increase.

does not find convincing evidence that a majority of residents supports the tax increase, when in reality at most 50% of city residents do support the increase.

MULTIPLE CHOICE QUESTION

5 mins • 1 pt

Members of the city council want to know if a majority of city residents supports a 1% increase in the sales tax to fund road repairs. To investigate, they survey a random sample of 300 city residents and use the results to test the following hypotheses:

$H_o:\ p\ =\ 0.50$
$H_a:\ p\ >0.50$

where p is the proportion of all city residents who support a 1% increase in the sales tax to fund road repairs.

In the sample, p-hat = 158/300 = 0.527. The resulting
P-value is 0.18. What is the correct interpretation of
this P-value?

Only 18% of the city residents support the tax increase.

There is an 18% chance that the majority of residents

supports the tax increase.

Assuming that 50% of residents support the tax

increase, there is an 18% probability that the sample

proportion would be 0.527 or higher by chance alone.

Assuming that more than 50% of residents support the

tax increase, there is an 18% probability that the sample

proportion would be 0.527 or higher by chance alone.

Assuming that 50% of residents support the tax

increase, there is an 18% chance that the null

hypothesis is true by chance alone.

MULTIPLE CHOICE QUESTION

5 mins • 1 pt

Members of the city council want to know if a majority of city residents supports a 1% increase in the sales tax to fund road repairs.To investigate, they survey a random sample of 300 city residents and use the results to test the following hypotheses:
$H_o:\ p\ =\ 0.50$
$H_a:\ p\ >0.50$

where p is the proportion of all city residents who support a 1% increase in the sales tax to fund road repairs.

Based on the P-value in Exercise 27, which of the following would be the most appropriate conclusion?

Because the P-value is large, we reject $H_o$ . We have convincing evidence that more than 50% of city residents support the tax increase.

Because the P-value is large, we fail to reject $H_o$ . We have convincing evidence that more than 50% of city residents support the tax increase.

Because the P-value is large, we reject $H_o$ . We have convincing evidence that at most 50% of city residents support the tax increase.

Because the P-value is large, we fail to reject $H_o$ . We have convincing evidence that at most 50% of city residents support the tax increase.

Because the P-value is large, we fail to reject $H_o$ . We do not have convincing evidence that more than 50% of city residents support the tax increase.

MULTIPLE CHOICE QUESTION

5 mins • 1 pt

After once again losing a football game to the
archrival, a college’s alumni association conducted
a survey to see if alumni were in favor of firing the
coach. An SRS of 100 alumni from the population
of all living alumni was taken, and 64 of the alumni
in the sample were in favor of firing the coach. Sup-
pose you wish to see if a majority of living alumni
are in favor of firing the coach. The appropriate test
statistic is

$z=\frac{0.64-0.50}{\sqrt{\frac{0.64\left(0.36\right)}{100}}}$

$t=\frac{0.64-0.50}{\sqrt{\frac{0.64\left(0.36\right)}{100}}}$

$z=\frac{0.64-0.50}{\sqrt{\frac{0.5\left(0.5\right)}{100}}}$

$z=\frac{0.64-0.50}{\sqrt{\frac{0.64\left(0.36\right)}{64}}}$

$z=\frac{0.50-0.64}{\sqrt{\frac{0.64\left(0.36\right)}{100}}}$

MULTIPLE CHOICE QUESTION

5 mins • 1 pt

Which of the following is not a condition for
performing a significance test about a population
proportion p?

The data should come from a random sample or

randomized experiment.

Both $np_o\ and\ n\left(1-p_o\right)$ should be at least 10.

If you are sampling without replacement from a finite population, then you should sample no more than 10% of the population.

The population distribution should be approximately Normal, unless the sample size is large.

All of the above are conditions for performing a significance test about a population proportion.

MULTIPLE CHOICE QUESTION

5 mins • 1 pt

Given a test with hypotheses
$H_o:\ p=0.4\ \ and\ \ H_a:\ p\ne0.4$ ,

the test statistic is z = 2.43. This test is

$Not\ significant\ at\ \alpha=0.05\ or\ at\ \ \alpha=0.01$

$Significant\ at\ \alpha=0.05\ but\ not\ at\ \ \alpha=0.01$

$Significant\ at\ \alpha=0.01\ but\ not\ at\ \alpha=0.05$

$Significant\ at\ both\ \alpha=0.05\ and\ \ \alpha=0.01$

inconclusive because we don't know the value of p-hat

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AP Stats - Chapter 9 (9.1, 9.2 & 9.3 Combined)

16 questions

Which of the following is not a condition for
performing a significance test about a population
proportion p?

Given a test with hypotheses
$H_o:\ p=0.4\ \ and\ \ H_a:\ p\ne0.4$ ,

the test statistic is z = 2.43. This test is

Which of the following 95% confidence intervals
would lead us to reject
$H_o:\ p=0.3$ in favor of
$H_a:\ p\ne0.3$ at the 5% significance level

The reason we use t procedures instead of z procedures when carrying out a test about a population mean is that

You are testing $H_o:\ \mu=10$ against $H_a:\ \mu<10$ based on an SRS of 20 observations from a Normal population. The t statistic is t = −2.25. The P-value

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Similar Resources on Wayground

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Discover more resources for Mathematics

AP Stats - Chapter 9 (9.1, 9.2 & 9.3 Combined)

16 questions

Which of the following is not a condition forperforming a significance test about a populationproportion p?

Given a test with hypotheses Ho: p=0.4 and Ha: p≠0.4H_o:\ p=0.4\ \ and\ \ H_a:\ p\ne0.4Ho​: p=0.4 and Ha​: p​=0.4 ,the test statistic is z = 2.43. This test is

Which of the following 95% confidence intervalswould lead us to reject Ho: p=0.3H_o:\ p=0.3Ho​: p=0.3 in favor of Ha: p≠0.3H_a:\ p\ne0.3Ha​: p​=0.3 at the 5% significance level

The reason we use t procedures instead of z procedures when carrying out a test about a population mean is that

You are testing Ho: μ=10H_o:\ \mu=10Ho​: μ=10 against Ha: μ<10H_a:\ \mu<10Ha​: μ<10 based on an SRS of 20 observations from a Normal population. The t statistic is t = −2.25. The P-value

Create a free account and access millions of resources

Similar Resources on Wayground

Popular Resources on Wayground

Discover more resources for Mathematics

Which of the following is not a condition for
performing a significance test about a population
proportion p?

Given a test with hypotheses
$H_o:\ p=0.4\ \ and\ \ H_a:\ p\ne0.4$ ,

the test statistic is z = 2.43. This test is

Which of the following 95% confidence intervals
would lead us to reject
$H_o:\ p=0.3$ in favor of
$H_a:\ p\ne0.3$ at the 5% significance level

You are testing $H_o:\ \mu=10$ against $H_a:\ \mu<10$ based on an SRS of 20 observations from a Normal population. The t statistic is t = −2.25. The P-value