Textbook Question
In Exercises 13–18, test the claim about the population mean μ at the level of significance α. Assume the population is normally distributed.
Claim: μ=4915; α=0.01. Sample statistics: x_bar=5017, s=5613, n=51
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Ch. 7 - Hypothesis Testing with One Sample
Larson8th EditionElementary Statistics: Picturing the WorldISBN: 9780137493470
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Table of contents
- Ch. 1 - Introduction to Statistics87
- Ch. 2 - Descriptive Statistics176
- Ch. 3 - Probability184
- Ch. 4 - Discrete Probability Distributions102
- Ch. 5 - Normal Probability Distributions183
- Ch. 6 - Confidence Intervals154
- Ch. 7 - Hypothesis Testing with One Sample165
- Ch. 8 - Hypothesis Testing with Two Samples134
- Ch. 9 - Correlation and Regression87
- Ch. 10 - Chi-Square Tests and the F-Distribution87
Larson8th EditionElementary Statistics: Picturing the WorldISBN: 9780137493470Not the one you use?Change textbook
Chapter 7, Problem 7.1.31
Identifying Type I and Type II Errors In Exercises 31–36, describe type I and type II errors for a hypothesis test of the indicated claim.
Repeat Customers A used textbook selling website claims that at least 60% of its new customers will return to buy their next textbook.
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Understand the null hypothesis (H₀) and the alternative hypothesis (H₁): The null hypothesis (H₀) is that at least 60% of new customers will return to buy their next textbook (p ≥ 0.60). The alternative hypothesis (H₁) is that less than 60% of new customers will return (p < 0.60).
Define a Type I error: A Type I error occurs when the null hypothesis (H₀) is rejected even though it is true. In this context, it means concluding that less than 60% of new customers will return (p < 0.60) when, in fact, at least 60% of them do return (p ≥ 0.60).
Define a Type II error: A Type II error occurs when the null hypothesis (H₀) is not rejected even though it is false. In this context, it means failing to conclude that less than 60% of new customers will return (p < 0.60) when, in fact, fewer than 60% of them do return.
Relate the errors to decision-making: A Type I error might lead the website to incorrectly believe that its customer retention rate is lower than 60%, potentially prompting unnecessary changes to its business strategy. A Type II error might lead the website to incorrectly believe that its customer retention rate is satisfactory, potentially ignoring a real problem.
Summarize the importance of balancing errors: In hypothesis testing, the significance level (α) is chosen to control the probability of a Type I error, while the power of the test (1 - β) is used to minimize the probability of a Type II error. The trade-off between these errors should be considered based on the context and consequences of the decision.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Type I Error
A Type I error occurs when a null hypothesis is incorrectly rejected when it is actually true. In the context of the given claim, this would mean concluding that less than 60% of new customers return when, in fact, 60% or more do return. This error can lead to false alarms, causing businesses to make unnecessary changes based on incorrect assumptions.
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04:24
Types of Data
Type II Error
A Type II error happens when a null hypothesis is not rejected when it is false. In this scenario, it would mean failing to recognize that less than 60% of new customers return, leading to the incorrect conclusion that the website's claim is valid when it is not. This error can result in missed opportunities for improvement or intervention.
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04:24Types of Data
Hypothesis Testing
Hypothesis testing is a statistical method used to make decisions about a population based on sample data. It involves formulating a null hypothesis (the claim being tested) and an alternative hypothesis, then using sample data to determine whether to reject the null hypothesis. Understanding this process is crucial for identifying Type I and Type II errors in the context of the claim about customer return rates.
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06:21Step 1: Write Hypotheses
Related Practice
Textbook Question
In Exercises 7–12, find the critical value(s) and rejection region(s) for the type of chi-square test with sample size n and level of significance α.
Right-tailed test, n=27,α=0.05
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Textbook Question
Stating the Null and Alternative Hypotheses In Exercises 25–30, write the claim as a mathematical statement. State the null and alternative hypotheses, and identify which represents the claim.
Tablets A tablet manufacturer claims that the mean life of the battery for a certain model of tablet is more than 8 hours.
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Textbook Question
In Exercises 3–8, find the critical value(s) and rejection region(s) for the type of t-test with level of significance alpha and sample size n.
Left-tailed test, α=0.01, n=35
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Textbook Question
Identifying the Nature of a Hypothesis Test In Exercises 37–42, state and in words and in symbols. Then determine whether the hypothesis test is left-tailed, right-tailed, or two-tailed. Explain your reasoning. Sketch a normal sampling distribution and shade the area for the P-value.
Survey A polling organization reports that the number of responses to a survey mailed to 100,000 U.S. residents is not 100,000.
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Textbook Question
Finding a P-Value In Exercises 13–18, find the P-value for the hypothesis test with the standardized test statistic z. Decide whether to reject H0 for the level of significance alpha.
Left-tailed test
z= 1.95
alpha=0.08
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