Given that a certain group of women has a 0.15% rate of red/green color blindness.
Thus, P(A)=0.15%=0.15/100=0.0015
We have to find that if a women is randomly selected,what will be the probability that she does not have red/green color blindness. Thus we have to find P(A').
We know, P(A)+P(A')=1
or, P(A')=1-P(A)=1-0.0015=0.9985
Thus the required probability is 0.9985.
Find the indicated complement A certain group of women has a 0.15% rate of red/green color...
Find the indicated comment A certain group of women has a 0.15% of redigreen color blindness a woman is domly selected, what is the probably that he does not have color blindness? What is the probably that the woman selected to not have redigro colorides? Type an integer or a decimal. Do not round)
In a study of red/green color blindness, 1000 men and 2550 women are randomly selected and tested. Among the men, 90 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_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 (a) State the null hypothesis: (b) State the alternative hypothesis: (c) The test...
In a study of red/green color blindness, 850 men and 2700 women are randomly selected and tested. Among the men, 78 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_mnot=p_w p_mnot=p_w for the proportions are not equal, p_m>p_w p_m>p_w for the proportion of men with color blindness is larger, p_m
(2 pts) In a study of red/green color blindness, 700 men and 2150 women are randomly selected and tested. Among the men, 64 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...
1. In a study of red/green color blindness, 750 men and 2700 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. 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....
(1 pt) In a study of red/green color blindness, 800 men and 2500 women are randomly selected and tested. Among the men, 69 have red/green color blindness. Among the women, 8 have red/green color blindness. Construct the 99% confidence interval for the difference between the color blindness rates of men and women. < (PM – Pw) <
(1 point) In a study of red/green color blindness, 650 men and 2400 women are randomly selected and tested. Among the men, 58 have red/green color blindness. Among the women, 7 have red/green color blindness. Construct the 95% confidence interval for the difference between the color blindness rates of men and women. 0.865 < (PM – Pw) < 0.9133
Color Blindness in Men and Women: In a study of red/green color blindness, 500 men and 2100 women are randomly selected and tested. Among the men, 45 have a red/green color blindness. Among the women, 6 have a red/green color blindness. Is there sufficient evidence to support the claim that men have a higher rate of red/green color blindness that women? Conduct the appropriate test at the alpha =.01 level. Is there one or two populations in this problem? Is...
(1 pt) 1. In a study of red/green color blindness, 700 men and 2000 women are randomly selected and tested. Among the men, 60 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 sum cent evidence to support the claim that men have a higher rate of redigreen color blindness than women using the significance...
(2 points) In a study of red/ men and 2100 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. (Note: Type P-m not = 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 smaller,...