Question

In: Statistics and Probability

In a study of red/green color blindness, 500 men and 2550 women are randomly selected and...

In a study of red/green color blindness, 500 men and 2550 women are randomly selected and tested. Among the men, 44 have red/green color blindness. Among the women, 5 have red/green color blindness. Test the claim that men have a higher rate of red/green color blindness.
The test statistic is
The p-value is
Is there sufficient evidence to support the claim that men have a higher rate of red/green color blindness than women using the 0.01% significance level?

A. No
B. Yes

2. Construct the 99% confidence interval for the difference between the color blindness rates of men and women.
<(p1−p2)<

Which of the following is the correct interpretation for your answer in part 2?
A. We can be 99% confident that that the difference between the rates of red/green color blindness for men and women in the sample lies in the interval
B. We can be 99% confident that the difference between the rates of red/green color blindness for men and women lies in the interval
C. There is a 99% chance that that the difference between the rates of red/green color blindness for men and women lies in the interval
D. None of the above

Solutions

Expert Solution


Related Solutions

In a study of red/green color blindness, 500 men and 2650 women are randomly selected and...
In a study of red/green color blindness, 500 men and 2650 women are randomly selected and tested. Among the men, 43 have red/green color blindness. Among the women, 7 have red/green color blindness. Test the claim that men have a higher rate of red/green color blindness. (Note: Type ‘‘p_m″ for the symbol pm , for example p_mnot=p_w for the proportions are not equal, p_m>p_w for the proportion of men with color blindness is larger, p_m
In a study of red/green color blindness, 800 men and 3000 women are randomly selected and...
In a study of red/green color blindness, 800 men and 3000 women are randomly selected and tested. Among the men, 76 have red/green color blindness. Among the women, 8 have red/green color blindness. Test the claim that men have a higher rate of red/green color blindness. The test statistic is Construct the 99% confidence interval for the difference between the color blindness rates of men and women. <(pm−pw)<
In a study of red/green color blindness, 850 men and 2750 women are randomly selected and...
In a study of red/green color blindness, 850 men and 2750 women are randomly selected and tested. Among the men, 77 have red/green color blindness. Among the women, 8 have red/green color blindness. Test the claim that men have a higher rate of red/green color blindness. The test statistic is The p-value is Is there sufficient evidence to support the claim that men have a higher rate of red/green color blindness than women using the 0.01% significance level? A. No...
In a study of red/green color blindness, 950 men and 2800 women are randomly selected and...
In a study of red/green color blindness, 950 men and 2800 women are randomly selected and tested. Among the men, 86 have red/green color blindness. Among the women, 6 have red/green color blindness. Test the claim that men have a higher rate of red/green color blindness. (Note: Type ‘‘p_m″ for the symbol pm , for example  p_mnot=p_w for the proportions are not equal, p_m>p_w for the proportion of men with color blindness is larger, p_m<p_w , for the proportion of men...
In a study of red/green color blindness, 600 men and 2700 women are randomly selected and...
In a study of red/green color blindness, 600 men and 2700 women are randomly selected and tested. Among the men, 56 have red/green color blindness. Among the women, 6 have red/green color blindness. Test the claim that men have a higher rate of red/green color blindness. (Note: Type ‘‘p_m″ for the symbol pm, for example, p_mnot=p_w for the proportions are not equal, p_m>p_w for the proportion of men with color blindness is larger, p_m<p_w, for the proportion of men, is...
In a study of red/green color blindness, 1000 men and 2100 women are randomly selected and...
In a study of red/green color blindness, 1000 men and 2100 women are randomly selected and tested. Among the men, 88 have red/green color blindness. Among the women, 5 have red/green color blindness. Test the claim that men have a higher rate of red/green color blindness. (Note: Type ‘‘p_m′′‘‘p_m″ for the symbol pmpm , for example p_mnot=p_wp_mnot=p_w for the proportions are not equal, p_m>p_wp_m>p_w for the proportion of men with color blindness is larger, p_m<p_wp_m<p_w , for the proportion of...
In a study of red/green color blindness, 850 men and 2250 women are randomly selected and...
In a study of red/green color blindness, 850 men and 2250 women are randomly selected and tested. Among the men, 80 have red/green color blindness. Among the women, 7 have red/green color blindness. Test the claim that men have a higher rate of red/green color blindness. 1. The test statistic is: 2. The p-value is : 3. Is there sufficient evidence to support the claim that men have a higher rate of red/green color blindness than women using the 0.01%...
In a study of red/green color blindness, 750 men and 2500 women are randomly selected and...
In a study of red/green color blindness, 750 men and 2500 women are randomly selected and tested. Among the men, 66 have red/green color blindness. Among the women, 8 have red/green color blindness. Test the claim that men have a higher rate of red/green color blindness. (Note: Type ‘‘p_m′′‘‘p_m″ for the symbol pmpm , for example p_mnot=p_wp_mnot=p_w for the proportions are not equal, p_m>p_wp_m>p_w for the proportion of men with color blindness is larger, p_m<p_wp_m<p_w , for the proportion of...
In a study of red/green color blindness, 650 men and 2950 women are randomly selected and...
In a study of red/green color blindness, 650 men and 2950 women are randomly selected and tested. Among the men, 60 have red/green color blindness. Among the women, 9 have red/green color blindness. Test the claim that men have a higher rate of red/green color blindness. (Note: Type ‘‘p_m″‘‘p_m″ for the symbol pmpm , for example  p_mnot=p_wp_mnot=p_w for the proportions are not equal, p_m>p_wp_m>p_w for the proportion of men with color blindness is larger, p_m<p_wp_m<p_w , for the proportion of men...
In a study of red/green color blindness, 1000 men and 2550 women are randomly selected and...
In a study of red/green color blindness, 1000 men and 2550 women are randomly selected and tested. Among the men, 86 have red/green color blindness. Among the women, 5 have red/green color blindness. Test the claim that men have a higher rate of red/green color blindness. The test statistic is = The p-value is = Is there sufficient evidence to support the claim that men have a higher rate of red/green color blindness than women using the 0.01% significance level....
ADVERTISEMENT
ADVERTISEMENT
ADVERTISEMENT