Assuming the requirements are met for the anchovies study and using a significance level of 10%, the researcher wants to test the claim that the proportion of teenagers (ages 13-19) who dislike anchovies is different than the proportion of young adults (ages 20-30) who dislike anchovies. What is the correct conclusion for this hypothesis test? O As the P-value is less than a, we reject the null hypothesis. Thus, there is sufficient evidence to conclude that the proportion of teenagers (ages 13-19) who dislike anchovies is different than the proportion of young adults (ages 20- 30) who dislike anchovies. O As the P-value is less than a, we reject the null hypothesis. Thus, there is insufficient evidence to conclude that the proportion of teenagers (ages 13-19) who dislike anchovies is different than the proportion of young adults (ages 20- 30) who dislike anchovies. O As the P-value is less than a, we fail to reject the null hypothesis. Thus, there is sufficient evidence to conclude that the proportion of teenagers (ages 13-19) who dislike anchovies is different than the proportion of young adults (ages 20- 30) who dislike anchovies. O As the P-value is less than a, we fail to reject the null hypothesis. Thus, there is insufficient evidence to conclude that the proportion of teenagers (ages 13-19) who dislike anchovies is different than the proportion of young adults (ages 20- 30) who dislike anchovies. O As the P-value is greater than a, we reject the null hypothesis. Thus, there is sufficient evidence to conclude that the proportion of teenagers (ages 13-19) who dislike anchovies is different than the proportion of young adults (ages 20- 30) who dislike anchovies. O As the P-value is greater than a, we reject the null hypothesis. Thus, there is insufficient evidence to conclude that the proportion of teenagers (ages 13-19) who dislike anchovies is different than the proportion of young adults (ages 20- 30) who dislike anchovies. O As the P-value is greater than a, we fail to reject the null hypothesis. Thus, there is sufficient evidence to conclude that the proportion of teenagers (ages 13-19) who dislike anchovies is different than the proportion of young adults (ages 20- 30) who dislike anchovies. O As the P-value is greater than a, we fail to reject the null hypothesis. Thus, there is insufficient evidence to conclude that the proportion of teenagers (ages 13-19) who dislike anchovies is different than the proportion of young adults (ages 20- 30) who dislike anchovies.
Assuming the requirements are met for the anchovies study and using a significance level of 10%, the researcher wants to test the claim that the proportion of teenagers (ages 13-19) who dislike anchovies is different than the proportion of young adults (ages 20-30) who dislike anchovies. What is the correct conclusion for this hypothesis test? O As the P-value is less than a, we reject the null hypothesis. Thus, there is sufficient evidence to conclude that the proportion of teenagers (ages 13-19) who dislike anchovies is different than the proportion of young adults (ages 20- 30) who dislike anchovies. O As the P-value is less than a, we reject the null hypothesis. Thus, there is insufficient evidence to conclude that the proportion of teenagers (ages 13-19) who dislike anchovies is different than the proportion of young adults (ages 20- 30) who dislike anchovies. O As the P-value is less than a, we fail to reject the null hypothesis. Thus, there is sufficient evidence to conclude that the proportion of teenagers (ages 13-19) who dislike anchovies is different than the proportion of young adults (ages 20- 30) who dislike anchovies. O As the P-value is less than a, we fail to reject the null hypothesis. Thus, there is insufficient evidence to conclude that the proportion of teenagers (ages 13-19) who dislike anchovies is different than the proportion of young adults (ages 20- 30) who dislike anchovies. O As the P-value is greater than a, we reject the null hypothesis. Thus, there is sufficient evidence to conclude that the proportion of teenagers (ages 13-19) who dislike anchovies is different than the proportion of young adults (ages 20- 30) who dislike anchovies. O As the P-value is greater than a, we reject the null hypothesis. Thus, there is insufficient evidence to conclude that the proportion of teenagers (ages 13-19) who dislike anchovies is different than the proportion of young adults (ages 20- 30) who dislike anchovies. O As the P-value is greater than a, we fail to reject the null hypothesis. Thus, there is sufficient evidence to conclude that the proportion of teenagers (ages 13-19) who dislike anchovies is different than the proportion of young adults (ages 20- 30) who dislike anchovies. O As the P-value is greater than a, we fail to reject the null hypothesis. Thus, there is insufficient evidence to conclude that the proportion of teenagers (ages 13-19) who dislike anchovies is different than the proportion of young adults (ages 20- 30) who dislike anchovies.
MATLAB: An Introduction with Applications
6th Edition
ISBN:9781119256830
Author:Amos Gilat
Publisher:Amos Gilat
Chapter1: Starting With Matlab
Section: Chapter Questions
Problem 1P
Related questions
Question
A study is planned to compare the proportion of teenagers (ages 13–19) who dislike anchovies with the proportion of young adults (ages 20–30) who dislike anchovies. A random sample of 41 teenagers was taken, and 78% of them disliked anchovies. A random sample of 56 young adults was also taken, and 71% of them disliked anchovies.
Difference = Teenagers - Young Adults
The picture below is the question. Use the information above to help.
Expert Solution
This question has been solved!
Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.
This is a popular solution!
Trending now
This is a popular solution!
Step by step
Solved in 3 steps with 3 images
Recommended textbooks for you
MATLAB: An Introduction with Applications
Statistics
ISBN:
9781119256830
Author:
Amos Gilat
Publisher:
John Wiley & Sons Inc
Probability and Statistics for Engineering and th…
Statistics
ISBN:
9781305251809
Author:
Jay L. Devore
Publisher:
Cengage Learning
Statistics for The Behavioral Sciences (MindTap C…
Statistics
ISBN:
9781305504912
Author:
Frederick J Gravetter, Larry B. Wallnau
Publisher:
Cengage Learning
MATLAB: An Introduction with Applications
Statistics
ISBN:
9781119256830
Author:
Amos Gilat
Publisher:
John Wiley & Sons Inc
Probability and Statistics for Engineering and th…
Statistics
ISBN:
9781305251809
Author:
Jay L. Devore
Publisher:
Cengage Learning
Statistics for The Behavioral Sciences (MindTap C…
Statistics
ISBN:
9781305504912
Author:
Frederick J Gravetter, Larry B. Wallnau
Publisher:
Cengage Learning
Elementary Statistics: Picturing the World (7th E…
Statistics
ISBN:
9780134683416
Author:
Ron Larson, Betsy Farber
Publisher:
PEARSON
The Basic Practice of Statistics
Statistics
ISBN:
9781319042578
Author:
David S. Moore, William I. Notz, Michael A. Fligner
Publisher:
W. H. Freeman
Introduction to the Practice of Statistics
Statistics
ISBN:
9781319013387
Author:
David S. Moore, George P. McCabe, Bruce A. Craig
Publisher:
W. H. Freeman