Aviation and high-altitude physiology is a specialty in the study of medicine. Let x = partial pressure of oxygen in the alveoli (air cells in the lungs) when breathing naturally available air. Let y = partial pressure when breathing pure oxygen. The (x, y) data pairs correspond to elevations from 10,000 feet to 30,000 feet in 5000 foot intervals for a random sample of volunteers. Although the medical data were collected using airplanes, they apply equally well to Mt. Everest climbers (summit 29,028 feet). x 6.9 5.3 4.2 3.3 2.1 (units: mm Hg/10) y 42.4 33.5 26.2 16.2 13.9 (units: mm Hg/10)  (c) Verify that Se ≈ 2.4092, a ≈ -1.278, and b ≈ 6.357. Se   a   b   (d) Find the predicted pressure when breathing pure oxygen if the pressure from breathing available air is x = 3.3. (Use 2 decimal places.) (e) Find a 90% confidence interval for y when x = 3.3. (Use 1 decimal place.) lower limit   upper limit   (f) Use a 5% level of significance to test the claim that β > 0. (Use 2 decimal places.) t   critical t

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Aviation and high-altitude physiology is a specialty in the study of medicine. Let x = partial pressure of oxygen in the alveoli (air cells in the lungs) when breathing naturally available air. Let y = partial pressure when breathing pure oxygen. The (x, y) data pairs correspond to elevations from 10,000 feet to 30,000 feet in 5000 foot intervals for a random sample of volunteers. Although the medical data were collected using airplanes, they apply equally well to Mt. Everest climbers (summit 29,028 feet).

x 6.9 5.3 4.2 3.3 2.1 (units: mm Hg/10)
y 42.4 33.5 26.2 16.2 13.9 (units: mm Hg/10)
 
(c) Verify that Se ≈ 2.4092, a ≈ -1.278, and b ≈ 6.357.
Se  
a  
b  

(d) Find the predicted pressure when breathing pure oxygen if the pressure from breathing available air is x = 3.3. (Use 2 decimal places.)


(e) Find a 90% confidence interval for y when x = 3.3. (Use 1 decimal place.)
lower limit  
upper limit  

(f) Use a 5% level of significance to test the claim that β > 0. (Use 2 decimal places.)
t  
critical t  
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