1. Suppose the heights of 18-year-old men are approximately normally distributed

Question

1. Suppose the heights of 18-year-old men are approximately normally distributed, with mean 68 inches and standard deviation 4 inches.

(a) What is the probability that an 18-year-old man selected at random is between 67 and 69 inches tall? (Round your answer to four decimal places.)


(b) If a random sample of thirty 18-year-old men is selected, what is the probability that the mean height x is between 67 and 69 inches? (Round your answer to four decimal places.)

2. Let x be a random variable that represents the level of glucose in the blood (milligrams per deciliter of blood) after a 12 hour fast. Assume that for people under 50 years old, x has a distribution that is approximately normal, with mean ? = 86 and estimated standard deviation ? = 44. A test result x < 40 is an indication of severe excess insulin, and medication is usually prescribed.

Yes

No    

Explain what this might imply if you were a doctor or a nurse.

The more tests a patient completes, the stronger is the evidence for excess insulin.

The more tests a patient completes, the weaker is the evidence for excess insulin.    

The more tests a patient completes, the weaker is the evidence for lack of insulin.

The more tests a patient completes, the stronger is the evidence for lack of insulin

3. How much does a sleeping bag cost? Let's say you want a sleeping bag that should keep you warm in temperatures from 20F to 45F. A random sample of prices ($) for sleeping bags in this temperature range is given below. Assume that the population of x values has an approximately normal distribution.

(a) Use a calculator with mean and sample standard deviation keys to find the sample mean price x and sample standard deviation s. (Round your answers to two decimal places.)

(b) Using the given data as representative of the population of prices of all summer sleeping bags, find a 90% confidence interval for the mean price ? of all summer sleeping bags. (Round your answers to two decimal places.)

$

60 35 85    100 105 80 30 23 100 110 105 95 105 60 110 120 95 90 60 70 1. Suppose the heights of 18-year-old men are approximately normally distributed, with mean 68 inches and standard deviation 4 inches. (a) What is the probability that an 18-year-old man selected at random is between 67 and 69 inches tall? (Round your answer to four decimal places.) (b) If a random sample of thirty 18-year-old men is selected, what is the probability that the mean height x is between 67 and 69 inches? (Round your answer to four decimal places.) 2. Let x be a random variable that represents the level of glucose in the blood (milligrams per deciliter of blood) after a 12 hour fast. Assume that for people under 50 years old, x has a distribution that is approximately normal, with mean ? = 86 and estimated standard deviation ? = 44. A test result x

Explanation / Answer

1.)

a.) P(67<X<69) = P((67-68)/4<Z<(69-68)/4) = P(-0.25<Z<0.25) = 0.5987 - (1-0.5987) = 0.1974

b.) Now , n = 30

mean = 68

s.d = 4/sqrt(n) = 4/sqrt(30) = 0.73

P(67<Xbar<69) = P((67-68)/0.73<Z<(69-68)/0.73) = P(-1.37<Z<1.37) = 0.9147 - (1-0.9147) = 0.8294

2.)

a.) P(X<40) = P(Z<(40-86)/44) = P(Z<-1.04) = 1 - 0.8508 = 0.1492

b.) Now n = 3

s.d = 44/sqrt(3) = 25.4

P(X<40) = P(Z<(40-86)/25.4) = P(Z<-1.81) = 1 - 0.9649 = 0.0351

c.) Now n = 5

s.d = 44/sqrt(5) = 19.68

Yes, the probabilities decreased as n increased.

The more tests a patient completes, the weaker is the evidence for excess insulin

3.)

a.)Mean = x = 81.90

standard deviation = s = 28.70

b.) 90% CI means z = 1.645

90% CI = ( x - z*s/sqrt(n) , x + z*s/sqrt(n) )

= ( 81.9 - (1.645*28.7)/sqrt(20) , 81.9 + (1.645*28.7)/sqrt(20) )

= ( 71.34 , 92.46 )

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