Respuesta :
Answer:
The 95% confidence interval for the difference in the population proportions( Pi - P2)
(0.2674 ,0.4055)
the upper bound for a 95% confidence interval for the difference in the population proportions, Pi - P2
0.4055
Step-by-step explanation:
Step :- (1)
Given data the results of the survey showed that among 620 non-smokers, 318 had said "yes"
The first proportion [tex]p_{1} = \frac{318}{620} =0.5129[/tex]
q₁ = 1- p₁ = 1-0.5129 =0.4871
Given data the results of the survey showed that among 195 smokers, 35 had said "yes".
The second proportion [tex]p_{2} = \frac{35}{195} =0.179[/tex]
q₂ = 1- p₂ = 1-0.179 =0.821
Step :-(2)
The 95% confidence interval for the difference in the population proportions( Pi - P2)
(p₁-p₂ ± z₀.₉₅ se(p₁-p₂))
The standard error (p₁-p₂) is defined by
= [tex]\sqrt{\frac{p_{1}q_{1} }{n_{1} }+\frac{p_{2}q_{2} }{n_{2} } }[/tex]
= [tex]\sqrt{\frac{0.5129 X 0.4871 }{620 }+\frac{0.179 X 0.821 }{195 } }[/tex]
= 0.0339
The 95% confidence interval for the difference in the population proportions( Pi - P2)
(p₁-p₂ ± z₀.₉₅ se(p₁-p₂))
(p₁-p₂ - z₀.₉₅ se(p₁-p₂) , p₁-p₂ + z₀.₉₅ se(p₁-p₂) )
(0.5129-0.179) - 1.96 × 0.0339 , 0.5129 -0.179) - 1.96 × 0.0339)
(0.339 -0.0665 , 0.339 +0.0665 )
(0.2674 ,0.4055)
Conclusion:-
The 95% confidence interval for the difference in the population proportions( Pi - P2)
(0.2674 ,0.4055)
Answer:
The 95% confidence interval for difference in proportion of non-smokers and smokers who said "yes" to federal tax increase is (0.26, 0.40).
Step-by-step explanation:
The confidence interval for difference in proportion formula is,
[tex]CI=(\hat p_{1}-\hat p_{2})\pm z_{\alpha/2}\times \sqrt{\frac{\hat p_{1}(1-\hat p_{1})}{n_{1}}+\frac{\hat p_{2}(1-\hat p_{2})}{n_{2}}}[/tex]
The given information is:
[tex]n_{1}=620\\n_{2}=195\\X_{1}=318\\X_{2}=35[/tex]
Compute the sample proportions as follows:
[tex]\hat p_{1}=\frac{X_{1}}{n_{1}}=\frac{318}{620}=0.51\\\\\hat p_{2}=\frac{X_{2}}{n_{2}}=\frac{35}{195}=0.18[/tex]
Compute the critical value of z for the 95% confidence level as follows:
[tex]z_{\alpha/2}=z_{0.05/2}=z_{0.025}=1.96[/tex]
*Use the standard normal table.
Compute the 95% confidence interval for difference between proportions as follows:
[tex]CI=(\hat p_{1}-\hat p_{2})\pm z_{\alpha/2}\times \sqrt{\frac{\hat p_{1}(1-\hat p_{1})}{n_{1}}+\frac{\hat p_{2}(1-\hat p_{2})}{n_{2}}}[/tex]
[tex]=(0.51-0.18)\pm 1.96\times \sqrt{\frac{0.51(1-0.51)}{620}+\frac{0.18(1-0.18)}{195}}[/tex]
[tex]=0.33\pm 0.067\\=(0.263, 0.397)\\\approx (0.26, 0.40)[/tex]
Thus, the 95% confidence interval for difference in proportion of non-smokers and smokers who said "yes" to federal tax increase is (0.26, 0.40).
