Ine standard normat (2) distribution should be used The Student's t distribution should be used Determine the critical value(s) for this hypothesis test. Round the solution (s) to two decimal places. If more than one critical value exists, enter the solutions using a comma-separated list. Determine the test statistic. Round the solution to two decimal places. Determine the appropriate conclusion for this hypothesis test. O The sample data provide sufficient evidence to reject the epidemiologists' claim (alternative hypothesis) that the infection rate is higher than 9.4% and thus we concluded that the infection rate of the virus is likely 9.4%. O The sample data do not provide sufficient evidence to reject the government's claim (null hypothesis) that the infection rate of the virus is 9.4% and thus we conclude that the infection rate of the virus is likely 9.4%. O The sample data provide sufficient evidence to reject the government's claim (null hypothesis) that the infection rate of the virus is 9.4% and thus we conclude that the infection rate of the virus is likely greater than 9.4%. O The sample data do not provide sufficient evidence to reject the epidemiologists' claim (alternative hypothesis) that the infection rate is higher than 9.4% and thus we concluded that the infection rate of the virus is likely greater than 9.4%. 75°F Partly cloudy 4
Ine standard normat (2) distribution should be used The Student's t distribution should be used Determine the critical value(s) for this hypothesis test. Round the solution (s) to two decimal places. If more than one critical value exists, enter the solutions using a comma-separated list. Determine the test statistic. Round the solution to two decimal places. Determine the appropriate conclusion for this hypothesis test. O The sample data provide sufficient evidence to reject the epidemiologists' claim (alternative hypothesis) that the infection rate is higher than 9.4% and thus we concluded that the infection rate of the virus is likely 9.4%. O The sample data do not provide sufficient evidence to reject the government's claim (null hypothesis) that the infection rate of the virus is 9.4% and thus we conclude that the infection rate of the virus is likely 9.4%. O The sample data provide sufficient evidence to reject the government's claim (null hypothesis) that the infection rate of the virus is 9.4% and thus we conclude that the infection rate of the virus is likely greater than 9.4%. O The sample data do not provide sufficient evidence to reject the epidemiologists' claim (alternative hypothesis) that the infection rate is higher than 9.4% and thus we concluded that the infection rate of the virus is likely greater than 9.4%. 75°F Partly cloudy 4
Glencoe Algebra 1, Student Edition, 9780079039897, 0079039898, 2018
18th Edition
ISBN:9780079039897
Author:Carter
Publisher:Carter
Chapter10: Statistics
Section10.4: Distributions Of Data
Problem 7PPS
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