Blood pressure: High blood pressure has been identified as a risk factor for heart attacks and strokes. The National Health and Nutrition Examination Survey reported that the proportion of U.S. adults with high blood pressure is 0.3. A sample of 38 U.S. adults is chosen. a. Is it appropriate to use the normal approximation to find the probability that more than 40% of the people in the sample have high blood pressure? If so, find the probability. If not, explain why not. b. A new sample of 80 adults is drawn. Find the probability that more than 40% of the people in this sample have high blood pressure. c. Find the probability that the proportion of individuals in the sample of 80 who have high blood pressure is between 0.20 and 0.35. d. Find the probability that less than 25% of the people in the sample of 80 have high blood pressure. e. Would it be unusual if more than 45% of the individuals in the sample of 80 had high blood pressure?

Question

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Answer 1

Textbook Question

Chapter 6.3, Problem 22E

Blood pressure: High blood pressure has been identified as a risk factor for heart attacks and strokes. The National Health and Nutrition Examination Survey reported that the proportion of U.S. adults with high blood pressure is 0.3. A sample of 38 U.S. adults is chosen.

a. Is it appropriate to use the normal approximation to find the probability that more than 40% of the people in the sample have high blood pressure? If so, find the probability. If not, explain why not.
b. A new sample of 80 adults is drawn. Find the probability that more than 40% of the people in this sample have high blood pressure.
c. Find the probability that the proportion of individuals in the sample of 80 who have high blood pressure is between 0.20 and 0.35.
d. Find the probability that less than 25% of the people in the sample of 80 have high blood pressure.
e. Would it be unusual if more than 45% of the individuals in the sample of 80 had high blood pressure?

Features Features Normal distribution is characterized by two parameters, mean (µ) and standard deviation (σ). When graphed, the mean represents the center of the bell curve and the graph is perfectly symmetric about the center. The mean, median, and mode are all equal for a normal distribution. The standard deviation measures the data's spread from the center. The higher the standard deviation, the more the data is spread out and the flatter the bell curve looks. Variance is another commonly used measure of the spread of the distribution and is equal to the square of the standard deviation.

a.

Expert Solution

To determine

Check whether it is appropriate to use the normal approximation to find the probability that more than 40% of the people in the sample have high blood pressure and if it is appropriate find the probability, if not explain the reason.

Answer to Problem 22E

Yes, it is appropriate to use the normal approximation.

The probability that more than 40% of the people in the sample have high blood pressure is 0.0893.

Explanation of Solution

Calculation:

The given information is that the sample of U.S. adults chosen (n) is 38 and the proportion of U.S. adults with high blood pressure (p) is 0.3.

Central Limit Theorem of proportions:

If np≥10 and n(1−p)≥10 where n is the sample size and p is the population proportion then the sample proportion p^ is approximately normal with mean μp^=p and standard deviation σp^=p(1−p)n.

Requirement check:

Condition 1: np≥10

Condition 2: n(1−p)≥10

Condition 1: np≥10

Substitute 38 for n and 0.3 for p in np,

np=(38)(0.3)=11.4

Thus, the requirement np(=11.4)≥10 is satisfied.

Condition 2: n(1−p)≥10

Substitute 38 for n and 0.3 for p in n(1−p),

n(1−p)=(38)(1−0.3)=38(0.7)=26.6

Thus, the requirement of n(1−p)(=26.6)≥10.

Here, both the requirements are satisfied. Thus, it is appropriate to use the normal approximation.

Hence, the normal approximation is appropriate to use for finding the probability that more than 40% of the people in the sample have high blood pressure.

For mean μp^:

Substitute p=0.3 in the formula of μp^,

μp^=0.3

Thus, the value of μp^ is 0.3.

For standard deviation σp^:

Substitute n=38 and p=0.3 in the formula of σp^,

σp^=0.3(1−0.3)38=0.3(0.7)38=0.2138≈0.07434

Thus, the value of σp^ is 0.07434.

The probability that more than 40% of the people in the sample have high blood pressure represents the area to the right of 0.40(=40100).

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.07434.
Click the Shaded Area tab.
Choose X value and Right Tail for the region of the curve to shade.
Enter the X value as 0.40.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 1

From the output, it can be observed that the probability that more than 40% of the people in the sample have high blood pressure is approximately 0.0893.

b.

Expert Solution

To determine

Find the probability that more than 40% of the people in the sample have high blood pressure.

Answer to Problem 22E

The probability that more than 40% of the people in the sample have high blood pressure is 0.0255.

Explanation of Solution

Calculation:

The given information is that the sample of U.S. adults is chosen (n) is 80 and the proportion of U.S. adults with high blood pressure (p) is 0.3.

If p^ is the sample proportion of a simple random sample of size n and it is drawn from the population with population proportion p then the mean and standard deviation of the sampling distribution of p^ are μp^=p and σp^=p(1−p)n .

Substitute p=0.3 in μp^=p,

μp^=0.3

Thus, the mean μp^ is 0.3.

The formula for finding standard deviation σp^ is,

σp^=p(1−p)n,

Substitute n=80 and p=0.3

σp^=0.3(1−0.3)80=0.3(0.7)80=0.2180≈0.05123

Thus, the value of σp^ is 0.05123.

The probability that more than 40% of the people in the sample have high blood pressure represents the area to the right of 0.40(=40100).

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.05123.
Click the Shaded Area tab.
Choose X value and Right Tail for the region of the curve to shade.
Enter the X value as 0.40.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 2

From the output, it can be observed that the probability that more than 40% of the people in the sample have high blood pressure is approximately 0.0255.

c.

Expert Solution

To determine

Find the probability that the proportion of individuals in the sample of 80 who have high blood pressure is between 0.20 and 0.35.

Answer to Problem 22E

The probability that the proportion of individuals in the sample of 80 who have high blood pressure is between 0.20 and 0.35 is 0.8100.

Explanation of Solution

Calculation:

The probability that the proportion of individuals in the sample of 80 who have high blood pressure is between 0.20 and 0.35 represents the area to the right of 0.20 and the area to the left of 0.35.

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.05123.
Click the Shaded Area tab.
Choose X value and Middle for the region of the curve to shade.
Enter the X value 1 as 0.20 and X value 2 as 0.35.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 3

From the output, it can be observed that the probability that the proportion of individuals in the sample of 80 who have high blood pressure is between 0.20 and 0.35 is 0.8100.

d.

Expert Solution

To determine

Find the probability that less than 25% of the people in the sample of 80 have high blood pressure.

Answer to Problem 22E

The probability that less than 25% of the people in the sample of 80 have high blood pressure is 0.1645.

Explanation of Solution

Calculation:

The probability that less than 25% of the people in the sample of 80 have high blood pressure represents the area to the left of 0.25(=25100).

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.05123.
Click the Shaded Area tab.
Choose X value and Left Tail for the region of the curve to shade.
Enter the X value as 0.25.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 4

From the output, it can be observed that the probability that less than 25% of the people in the sample of 80 have high blood pressure is 0.1645.

e.

Expert Solution

To determine

Check whether it is unusual if more than 45% of the individuals in the sample of 80 had high blood pressure.

Answer to Problem 22E

Yes, it is unusual if more than 45% of the individuals in the sample of 80 had high blood pressure.

Explanation of Solution

Calculation:

Unusual:

If the probability of an event is less than 0.05 then the event is called unusual.

The probability of more than 45% of the individuals in the sample of 80 had high blood pressure represents the area to the right of 0.45.

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.05123.
Click the Shaded Area tab.
Choose X value and Right Tail for the region of the curve to shade.
Enter the X value as 0.45.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 5

From the output, it can be observed that the probability of more than 45% of the individuals in the sample of 80 had high blood pressure is approximately 0.0017.

Here, the probability of more than 45% of the individuals in the sample of 80 had high blood pressure is less than 0.05. That is, 0.0017<0.05. Thus, the event that ‘more than 45% of the individuals in the sample of 80 had high blood pressure’ is unusual.

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Answer 2

Textbook Question

Chapter 6.3, Problem 22E

Blood pressure: High blood pressure has been identified as a risk factor for heart attacks and strokes. The National Health and Nutrition Examination Survey reported that the proportion of U.S. adults with high blood pressure is 0.3. A sample of 38 U.S. adults is chosen.

a. Is it appropriate to use the normal approximation to find the probability that more than 40% of the people in the sample have high blood pressure? If so, find the probability. If not, explain why not.
b. A new sample of 80 adults is drawn. Find the probability that more than 40% of the people in this sample have high blood pressure.
c. Find the probability that the proportion of individuals in the sample of 80 who have high blood pressure is between 0.20 and 0.35.
d. Find the probability that less than 25% of the people in the sample of 80 have high blood pressure.
e. Would it be unusual if more than 45% of the individuals in the sample of 80 had high blood pressure?

Features Features Normal distribution is characterized by two parameters, mean (µ) and standard deviation (σ). When graphed, the mean represents the center of the bell curve and the graph is perfectly symmetric about the center. The mean, median, and mode are all equal for a normal distribution. The standard deviation measures the data's spread from the center. The higher the standard deviation, the more the data is spread out and the flatter the bell curve looks. Variance is another commonly used measure of the spread of the distribution and is equal to the square of the standard deviation.

a.

Expert Solution

To determine

Check whether it is appropriate to use the normal approximation to find the probability that more than 40% of the people in the sample have high blood pressure and if it is appropriate find the probability, if not explain the reason.

Answer to Problem 22E

Yes, it is appropriate to use the normal approximation.

The probability that more than 40% of the people in the sample have high blood pressure is 0.0893.

Explanation of Solution

Calculation:

The given information is that the sample of U.S. adults chosen (n) is 38 and the proportion of U.S. adults with high blood pressure (p) is 0.3.

Central Limit Theorem of proportions:

If np≥10 and n(1−p)≥10 where n is the sample size and p is the population proportion then the sample proportion p^ is approximately normal with mean μp^=p and standard deviation σp^=p(1−p)n.

Requirement check:

Condition 1: np≥10

Condition 2: n(1−p)≥10

Condition 1: np≥10

Substitute 38 for n and 0.3 for p in np,

np=(38)(0.3)=11.4

Thus, the requirement np(=11.4)≥10 is satisfied.

Condition 2: n(1−p)≥10

Substitute 38 for n and 0.3 for p in n(1−p),

n(1−p)=(38)(1−0.3)=38(0.7)=26.6

Thus, the requirement of n(1−p)(=26.6)≥10.

Here, both the requirements are satisfied. Thus, it is appropriate to use the normal approximation.

Hence, the normal approximation is appropriate to use for finding the probability that more than 40% of the people in the sample have high blood pressure.

For mean μp^:

Substitute p=0.3 in the formula of μp^,

μp^=0.3

Thus, the value of μp^ is 0.3.

For standard deviation σp^:

Substitute n=38 and p=0.3 in the formula of σp^,

σp^=0.3(1−0.3)38=0.3(0.7)38=0.2138≈0.07434

Thus, the value of σp^ is 0.07434.

The probability that more than 40% of the people in the sample have high blood pressure represents the area to the right of 0.40(=40100).

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.07434.
Click the Shaded Area tab.
Choose X value and Right Tail for the region of the curve to shade.
Enter the X value as 0.40.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 1

From the output, it can be observed that the probability that more than 40% of the people in the sample have high blood pressure is approximately 0.0893.

b.

Expert Solution

To determine

Find the probability that more than 40% of the people in the sample have high blood pressure.

Answer to Problem 22E

The probability that more than 40% of the people in the sample have high blood pressure is 0.0255.

Explanation of Solution

Calculation:

The given information is that the sample of U.S. adults is chosen (n) is 80 and the proportion of U.S. adults with high blood pressure (p) is 0.3.

If p^ is the sample proportion of a simple random sample of size n and it is drawn from the population with population proportion p then the mean and standard deviation of the sampling distribution of p^ are μp^=p and σp^=p(1−p)n .

Substitute p=0.3 in μp^=p,

μp^=0.3

Thus, the mean μp^ is 0.3.

The formula for finding standard deviation σp^ is,

σp^=p(1−p)n,

Substitute n=80 and p=0.3

σp^=0.3(1−0.3)80=0.3(0.7)80=0.2180≈0.05123

Thus, the value of σp^ is 0.05123.

The probability that more than 40% of the people in the sample have high blood pressure represents the area to the right of 0.40(=40100).

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.05123.
Click the Shaded Area tab.
Choose X value and Right Tail for the region of the curve to shade.
Enter the X value as 0.40.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 2

From the output, it can be observed that the probability that more than 40% of the people in the sample have high blood pressure is approximately 0.0255.

c.

Expert Solution

To determine

Find the probability that the proportion of individuals in the sample of 80 who have high blood pressure is between 0.20 and 0.35.

Answer to Problem 22E

The probability that the proportion of individuals in the sample of 80 who have high blood pressure is between 0.20 and 0.35 is 0.8100.

Explanation of Solution

Calculation:

The probability that the proportion of individuals in the sample of 80 who have high blood pressure is between 0.20 and 0.35 represents the area to the right of 0.20 and the area to the left of 0.35.

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.05123.
Click the Shaded Area tab.
Choose X value and Middle for the region of the curve to shade.
Enter the X value 1 as 0.20 and X value 2 as 0.35.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 3

From the output, it can be observed that the probability that the proportion of individuals in the sample of 80 who have high blood pressure is between 0.20 and 0.35 is 0.8100.

d.

Expert Solution

To determine

Find the probability that less than 25% of the people in the sample of 80 have high blood pressure.

Answer to Problem 22E

The probability that less than 25% of the people in the sample of 80 have high blood pressure is 0.1645.

Explanation of Solution

Calculation:

The probability that less than 25% of the people in the sample of 80 have high blood pressure represents the area to the left of 0.25(=25100).

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.05123.
Click the Shaded Area tab.
Choose X value and Left Tail for the region of the curve to shade.
Enter the X value as 0.25.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 4

From the output, it can be observed that the probability that less than 25% of the people in the sample of 80 have high blood pressure is 0.1645.

e.

Expert Solution

To determine

Check whether it is unusual if more than 45% of the individuals in the sample of 80 had high blood pressure.

Answer to Problem 22E

Yes, it is unusual if more than 45% of the individuals in the sample of 80 had high blood pressure.

Explanation of Solution

Calculation:

Unusual:

If the probability of an event is less than 0.05 then the event is called unusual.

The probability of more than 45% of the individuals in the sample of 80 had high blood pressure represents the area to the right of 0.45.

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.05123.
Click the Shaded Area tab.
Choose X value and Right Tail for the region of the curve to shade.
Enter the X value as 0.45.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 5

From the output, it can be observed that the probability of more than 45% of the individuals in the sample of 80 had high blood pressure is approximately 0.0017.

Here, the probability of more than 45% of the individuals in the sample of 80 had high blood pressure is less than 0.05. That is, 0.0017<0.05. Thus, the event that ‘more than 45% of the individuals in the sample of 80 had high blood pressure’ is unusual.

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Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

Answer 3

Textbook Question

Chapter 6.3, Problem 22E

Blood pressure: High blood pressure has been identified as a risk factor for heart attacks and strokes. The National Health and Nutrition Examination Survey reported that the proportion of U.S. adults with high blood pressure is 0.3. A sample of 38 U.S. adults is chosen.

a. Is it appropriate to use the normal approximation to find the probability that more than 40% of the people in the sample have high blood pressure? If so, find the probability. If not, explain why not.
b. A new sample of 80 adults is drawn. Find the probability that more than 40% of the people in this sample have high blood pressure.
c. Find the probability that the proportion of individuals in the sample of 80 who have high blood pressure is between 0.20 and 0.35.
d. Find the probability that less than 25% of the people in the sample of 80 have high blood pressure.
e. Would it be unusual if more than 45% of the individuals in the sample of 80 had high blood pressure?

Features Features Normal distribution is characterized by two parameters, mean (µ) and standard deviation (σ). When graphed, the mean represents the center of the bell curve and the graph is perfectly symmetric about the center. The mean, median, and mode are all equal for a normal distribution. The standard deviation measures the data's spread from the center. The higher the standard deviation, the more the data is spread out and the flatter the bell curve looks. Variance is another commonly used measure of the spread of the distribution and is equal to the square of the standard deviation.

a.

Expert Solution

To determine

Check whether it is appropriate to use the normal approximation to find the probability that more than 40% of the people in the sample have high blood pressure and if it is appropriate find the probability, if not explain the reason.

Answer to Problem 22E

Yes, it is appropriate to use the normal approximation.

The probability that more than 40% of the people in the sample have high blood pressure is 0.0893.

Explanation of Solution

Calculation:

The given information is that the sample of U.S. adults chosen (n) is 38 and the proportion of U.S. adults with high blood pressure (p) is 0.3.

Central Limit Theorem of proportions:

If np≥10 and n(1−p)≥10 where n is the sample size and p is the population proportion then the sample proportion p^ is approximately normal with mean μp^=p and standard deviation σp^=p(1−p)n.

Requirement check:

Condition 1: np≥10

Condition 2: n(1−p)≥10

Condition 1: np≥10

Substitute 38 for n and 0.3 for p in np,

np=(38)(0.3)=11.4

Thus, the requirement np(=11.4)≥10 is satisfied.

Condition 2: n(1−p)≥10

Substitute 38 for n and 0.3 for p in n(1−p),

n(1−p)=(38)(1−0.3)=38(0.7)=26.6

Thus, the requirement of n(1−p)(=26.6)≥10.

Here, both the requirements are satisfied. Thus, it is appropriate to use the normal approximation.

Hence, the normal approximation is appropriate to use for finding the probability that more than 40% of the people in the sample have high blood pressure.

For mean μp^:

Substitute p=0.3 in the formula of μp^,

μp^=0.3

Thus, the value of μp^ is 0.3.

For standard deviation σp^:

Substitute n=38 and p=0.3 in the formula of σp^,

σp^=0.3(1−0.3)38=0.3(0.7)38=0.2138≈0.07434

Thus, the value of σp^ is 0.07434.

The probability that more than 40% of the people in the sample have high blood pressure represents the area to the right of 0.40(=40100).

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.07434.
Click the Shaded Area tab.
Choose X value and Right Tail for the region of the curve to shade.
Enter the X value as 0.40.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 1

From the output, it can be observed that the probability that more than 40% of the people in the sample have high blood pressure is approximately 0.0893.

b.

Expert Solution

To determine

Find the probability that more than 40% of the people in the sample have high blood pressure.

Answer to Problem 22E

The probability that more than 40% of the people in the sample have high blood pressure is 0.0255.

Explanation of Solution

Calculation:

The given information is that the sample of U.S. adults is chosen (n) is 80 and the proportion of U.S. adults with high blood pressure (p) is 0.3.

If p^ is the sample proportion of a simple random sample of size n and it is drawn from the population with population proportion p then the mean and standard deviation of the sampling distribution of p^ are μp^=p and σp^=p(1−p)n .

Substitute p=0.3 in μp^=p,

μp^=0.3

Thus, the mean μp^ is 0.3.

The formula for finding standard deviation σp^ is,

σp^=p(1−p)n,

Substitute n=80 and p=0.3

σp^=0.3(1−0.3)80=0.3(0.7)80=0.2180≈0.05123

Thus, the value of σp^ is 0.05123.

The probability that more than 40% of the people in the sample have high blood pressure represents the area to the right of 0.40(=40100).

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.05123.
Click the Shaded Area tab.
Choose X value and Right Tail for the region of the curve to shade.
Enter the X value as 0.40.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 2

From the output, it can be observed that the probability that more than 40% of the people in the sample have high blood pressure is approximately 0.0255.

c.

Expert Solution

To determine

Find the probability that the proportion of individuals in the sample of 80 who have high blood pressure is between 0.20 and 0.35.

Answer to Problem 22E

The probability that the proportion of individuals in the sample of 80 who have high blood pressure is between 0.20 and 0.35 is 0.8100.

Explanation of Solution

Calculation:

The probability that the proportion of individuals in the sample of 80 who have high blood pressure is between 0.20 and 0.35 represents the area to the right of 0.20 and the area to the left of 0.35.

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.05123.
Click the Shaded Area tab.
Choose X value and Middle for the region of the curve to shade.
Enter the X value 1 as 0.20 and X value 2 as 0.35.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 3

From the output, it can be observed that the probability that the proportion of individuals in the sample of 80 who have high blood pressure is between 0.20 and 0.35 is 0.8100.

d.

Expert Solution

To determine

Find the probability that less than 25% of the people in the sample of 80 have high blood pressure.

Answer to Problem 22E

The probability that less than 25% of the people in the sample of 80 have high blood pressure is 0.1645.

Explanation of Solution

Calculation:

The probability that less than 25% of the people in the sample of 80 have high blood pressure represents the area to the left of 0.25(=25100).

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.05123.
Click the Shaded Area tab.
Choose X value and Left Tail for the region of the curve to shade.
Enter the X value as 0.25.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 4

From the output, it can be observed that the probability that less than 25% of the people in the sample of 80 have high blood pressure is 0.1645.

e.

Expert Solution

To determine

Check whether it is unusual if more than 45% of the individuals in the sample of 80 had high blood pressure.

Answer to Problem 22E

Yes, it is unusual if more than 45% of the individuals in the sample of 80 had high blood pressure.

Explanation of Solution

Calculation:

Unusual:

If the probability of an event is less than 0.05 then the event is called unusual.

The probability of more than 45% of the individuals in the sample of 80 had high blood pressure represents the area to the right of 0.45.

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.05123.
Click the Shaded Area tab.
Choose X value and Right Tail for the region of the curve to shade.
Enter the X value as 0.45.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 5

From the output, it can be observed that the probability of more than 45% of the individuals in the sample of 80 had high blood pressure is approximately 0.0017.

Here, the probability of more than 45% of the individuals in the sample of 80 had high blood pressure is less than 0.05. That is, 0.0017<0.05. Thus, the event that ‘more than 45% of the individuals in the sample of 80 had high blood pressure’ is unusual.

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Answer 4

Textbook Question

Chapter 6.3, Problem 22E

Blood pressure: High blood pressure has been identified as a risk factor for heart attacks and strokes. The National Health and Nutrition Examination Survey reported that the proportion of U.S. adults with high blood pressure is 0.3. A sample of 38 U.S. adults is chosen.

a. Is it appropriate to use the normal approximation to find the probability that more than 40% of the people in the sample have high blood pressure? If so, find the probability. If not, explain why not.
b. A new sample of 80 adults is drawn. Find the probability that more than 40% of the people in this sample have high blood pressure.
c. Find the probability that the proportion of individuals in the sample of 80 who have high blood pressure is between 0.20 and 0.35.
d. Find the probability that less than 25% of the people in the sample of 80 have high blood pressure.
e. Would it be unusual if more than 45% of the individuals in the sample of 80 had high blood pressure?

Features Features Normal distribution is characterized by two parameters, mean (µ) and standard deviation (σ). When graphed, the mean represents the center of the bell curve and the graph is perfectly symmetric about the center. The mean, median, and mode are all equal for a normal distribution. The standard deviation measures the data's spread from the center. The higher the standard deviation, the more the data is spread out and the flatter the bell curve looks. Variance is another commonly used measure of the spread of the distribution and is equal to the square of the standard deviation.

a.

Expert Solution

To determine

Check whether it is appropriate to use the normal approximation to find the probability that more than 40% of the people in the sample have high blood pressure and if it is appropriate find the probability, if not explain the reason.

Answer to Problem 22E

Yes, it is appropriate to use the normal approximation.

The probability that more than 40% of the people in the sample have high blood pressure is 0.0893.

Explanation of Solution

Calculation:

The given information is that the sample of U.S. adults chosen (n) is 38 and the proportion of U.S. adults with high blood pressure (p) is 0.3.

Central Limit Theorem of proportions:

If np≥10 and n(1−p)≥10 where n is the sample size and p is the population proportion then the sample proportion p^ is approximately normal with mean μp^=p and standard deviation σp^=p(1−p)n.

Requirement check:

Condition 1: np≥10

Condition 2: n(1−p)≥10

Condition 1: np≥10

Substitute 38 for n and 0.3 for p in np,

np=(38)(0.3)=11.4

Thus, the requirement np(=11.4)≥10 is satisfied.

Condition 2: n(1−p)≥10

Substitute 38 for n and 0.3 for p in n(1−p),

n(1−p)=(38)(1−0.3)=38(0.7)=26.6

Thus, the requirement of n(1−p)(=26.6)≥10.

Here, both the requirements are satisfied. Thus, it is appropriate to use the normal approximation.

Hence, the normal approximation is appropriate to use for finding the probability that more than 40% of the people in the sample have high blood pressure.

For mean μp^:

Substitute p=0.3 in the formula of μp^,

μp^=0.3

Thus, the value of μp^ is 0.3.

For standard deviation σp^:

Substitute n=38 and p=0.3 in the formula of σp^,

σp^=0.3(1−0.3)38=0.3(0.7)38=0.2138≈0.07434

Thus, the value of σp^ is 0.07434.

The probability that more than 40% of the people in the sample have high blood pressure represents the area to the right of 0.40(=40100).

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.07434.
Click the Shaded Area tab.
Choose X value and Right Tail for the region of the curve to shade.
Enter the X value as 0.40.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 1

From the output, it can be observed that the probability that more than 40% of the people in the sample have high blood pressure is approximately 0.0893.

b.

Expert Solution

To determine

Find the probability that more than 40% of the people in the sample have high blood pressure.

Answer to Problem 22E

The probability that more than 40% of the people in the sample have high blood pressure is 0.0255.

Explanation of Solution

Calculation:

The given information is that the sample of U.S. adults is chosen (n) is 80 and the proportion of U.S. adults with high blood pressure (p) is 0.3.

If p^ is the sample proportion of a simple random sample of size n and it is drawn from the population with population proportion p then the mean and standard deviation of the sampling distribution of p^ are μp^=p and σp^=p(1−p)n .

Substitute p=0.3 in μp^=p,

μp^=0.3

Thus, the mean μp^ is 0.3.

The formula for finding standard deviation σp^ is,

σp^=p(1−p)n,

Substitute n=80 and p=0.3

σp^=0.3(1−0.3)80=0.3(0.7)80=0.2180≈0.05123

Thus, the value of σp^ is 0.05123.

The probability that more than 40% of the people in the sample have high blood pressure represents the area to the right of 0.40(=40100).

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.05123.
Click the Shaded Area tab.
Choose X value and Right Tail for the region of the curve to shade.
Enter the X value as 0.40.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 2

From the output, it can be observed that the probability that more than 40% of the people in the sample have high blood pressure is approximately 0.0255.

c.

Expert Solution

To determine

Find the probability that the proportion of individuals in the sample of 80 who have high blood pressure is between 0.20 and 0.35.

Answer to Problem 22E

The probability that the proportion of individuals in the sample of 80 who have high blood pressure is between 0.20 and 0.35 is 0.8100.

Explanation of Solution

Calculation:

The probability that the proportion of individuals in the sample of 80 who have high blood pressure is between 0.20 and 0.35 represents the area to the right of 0.20 and the area to the left of 0.35.

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.05123.
Click the Shaded Area tab.
Choose X value and Middle for the region of the curve to shade.
Enter the X value 1 as 0.20 and X value 2 as 0.35.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 3

From the output, it can be observed that the probability that the proportion of individuals in the sample of 80 who have high blood pressure is between 0.20 and 0.35 is 0.8100.

d.

Expert Solution

To determine

Find the probability that less than 25% of the people in the sample of 80 have high blood pressure.

Answer to Problem 22E

The probability that less than 25% of the people in the sample of 80 have high blood pressure is 0.1645.

Explanation of Solution

Calculation:

The probability that less than 25% of the people in the sample of 80 have high blood pressure represents the area to the left of 0.25(=25100).

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.05123.
Click the Shaded Area tab.
Choose X value and Left Tail for the region of the curve to shade.
Enter the X value as 0.25.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 4

From the output, it can be observed that the probability that less than 25% of the people in the sample of 80 have high blood pressure is 0.1645.

e.

Expert Solution

To determine

Check whether it is unusual if more than 45% of the individuals in the sample of 80 had high blood pressure.

Answer to Problem 22E

Yes, it is unusual if more than 45% of the individuals in the sample of 80 had high blood pressure.

Explanation of Solution

Calculation:

Unusual:

If the probability of an event is less than 0.05 then the event is called unusual.

The probability of more than 45% of the individuals in the sample of 80 had high blood pressure represents the area to the right of 0.45.

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.05123.
Click the Shaded Area tab.
Choose X value and Right Tail for the region of the curve to shade.
Enter the X value as 0.45.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 5

From the output, it can be observed that the probability of more than 45% of the individuals in the sample of 80 had high blood pressure is approximately 0.0017.

Here, the probability of more than 45% of the individuals in the sample of 80 had high blood pressure is less than 0.05. That is, 0.0017<0.05. Thus, the event that ‘more than 45% of the individuals in the sample of 80 had high blood pressure’ is unusual.

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Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

Answer 5

Textbook Question

Answer 6

Textbook Question

Answer 7

a.

Expert Solution

To determine

Check whether it is appropriate to use the normal approximation to find the probability that more than 40% of the people in the sample have high blood pressure and if it is appropriate find the probability, if not explain the reason.

Answer to Problem 22E

Yes, it is appropriate to use the normal approximation.

The probability that more than 40% of the people in the sample have high blood pressure is 0.0893.

Explanation of Solution

Calculation:

The given information is that the sample of U.S. adults chosen (n) is 38 and the proportion of U.S. adults with high blood pressure (p) is 0.3.

Central Limit Theorem of proportions:

If np≥10 and n(1−p)≥10 where n is the sample size and p is the population proportion then the sample proportion p^ is approximately normal with mean μp^=p and standard deviation σp^=p(1−p)n.

Requirement check:

Condition 1: np≥10

Condition 2: n(1−p)≥10

Condition 1: np≥10

Substitute 38 for n and 0.3 for p in np,

np=(38)(0.3)=11.4

Thus, the requirement np(=11.4)≥10 is satisfied.

Condition 2: n(1−p)≥10

Substitute 38 for n and 0.3 for p in n(1−p),

n(1−p)=(38)(1−0.3)=38(0.7)=26.6

Thus, the requirement of n(1−p)(=26.6)≥10.

Here, both the requirements are satisfied. Thus, it is appropriate to use the normal approximation.

Hence, the normal approximation is appropriate to use for finding the probability that more than 40% of the people in the sample have high blood pressure.

For mean μp^:

Substitute p=0.3 in the formula of μp^,

μp^=0.3

Thus, the value of μp^ is 0.3.

For standard deviation σp^:

Substitute n=38 and p=0.3 in the formula of σp^,

σp^=0.3(1−0.3)38=0.3(0.7)38=0.2138≈0.07434

Thus, the value of σp^ is 0.07434.

The probability that more than 40% of the people in the sample have high blood pressure represents the area to the right of 0.40(=40100).

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.07434.
Click the Shaded Area tab.
Choose X value and Right Tail for the region of the curve to shade.
Enter the X value as 0.40.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 1

From the output, it can be observed that the probability that more than 40% of the people in the sample have high blood pressure is approximately 0.0893.

b.

Expert Solution

To determine

Find the probability that more than 40% of the people in the sample have high blood pressure.

Answer to Problem 22E

The probability that more than 40% of the people in the sample have high blood pressure is 0.0255.

Explanation of Solution

Calculation:

The given information is that the sample of U.S. adults is chosen (n) is 80 and the proportion of U.S. adults with high blood pressure (p) is 0.3.

If p^ is the sample proportion of a simple random sample of size n and it is drawn from the population with population proportion p then the mean and standard deviation of the sampling distribution of p^ are μp^=p and σp^=p(1−p)n .

Substitute p=0.3 in μp^=p,

μp^=0.3

Thus, the mean μp^ is 0.3.

The formula for finding standard deviation σp^ is,

σp^=p(1−p)n,

Substitute n=80 and p=0.3

σp^=0.3(1−0.3)80=0.3(0.7)80=0.2180≈0.05123

Thus, the value of σp^ is 0.05123.

The probability that more than 40% of the people in the sample have high blood pressure represents the area to the right of 0.40(=40100).

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.05123.
Click the Shaded Area tab.
Choose X value and Right Tail for the region of the curve to shade.
Enter the X value as 0.40.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 2

From the output, it can be observed that the probability that more than 40% of the people in the sample have high blood pressure is approximately 0.0255.

c.

Expert Solution

To determine

Find the probability that the proportion of individuals in the sample of 80 who have high blood pressure is between 0.20 and 0.35.

Answer to Problem 22E

The probability that the proportion of individuals in the sample of 80 who have high blood pressure is between 0.20 and 0.35 is 0.8100.

Explanation of Solution

Calculation:

The probability that the proportion of individuals in the sample of 80 who have high blood pressure is between 0.20 and 0.35 represents the area to the right of 0.20 and the area to the left of 0.35.

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.05123.
Click the Shaded Area tab.
Choose X value and Middle for the region of the curve to shade.
Enter the X value 1 as 0.20 and X value 2 as 0.35.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 3

From the output, it can be observed that the probability that the proportion of individuals in the sample of 80 who have high blood pressure is between 0.20 and 0.35 is 0.8100.

d.

Expert Solution

To determine

Find the probability that less than 25% of the people in the sample of 80 have high blood pressure.

Answer to Problem 22E

The probability that less than 25% of the people in the sample of 80 have high blood pressure is 0.1645.

Explanation of Solution

Calculation:

The probability that less than 25% of the people in the sample of 80 have high blood pressure represents the area to the left of 0.25(=25100).

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.05123.
Click the Shaded Area tab.
Choose X value and Left Tail for the region of the curve to shade.
Enter the X value as 0.25.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 4

From the output, it can be observed that the probability that less than 25% of the people in the sample of 80 have high blood pressure is 0.1645.

e.

Expert Solution

To determine

Check whether it is unusual if more than 45% of the individuals in the sample of 80 had high blood pressure.

Answer to Problem 22E

Yes, it is unusual if more than 45% of the individuals in the sample of 80 had high blood pressure.

Explanation of Solution

Calculation:

Unusual:

If the probability of an event is less than 0.05 then the event is called unusual.

The probability of more than 45% of the individuals in the sample of 80 had high blood pressure represents the area to the right of 0.45.

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.05123.
Click the Shaded Area tab.
Choose X value and Right Tail for the region of the curve to shade.
Enter the X value as 0.45.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 5

From the output, it can be observed that the probability of more than 45% of the individuals in the sample of 80 had high blood pressure is approximately 0.0017.

Here, the probability of more than 45% of the individuals in the sample of 80 had high blood pressure is less than 0.05. That is, 0.0017<0.05. Thus, the event that ‘more than 45% of the individuals in the sample of 80 had high blood pressure’ is unusual.

Answer 8

a.

Expert Solution

To determine

Check whether it is appropriate to use the normal approximation to find the probability that more than 40% of the people in the sample have high blood pressure and if it is appropriate find the probability, if not explain the reason.

Answer to Problem 22E

Yes, it is appropriate to use the normal approximation.

The probability that more than 40% of the people in the sample have high blood pressure is 0.0893.

Explanation of Solution

Calculation:

The given information is that the sample of U.S. adults chosen (n) is 38 and the proportion of U.S. adults with high blood pressure (p) is 0.3.

Central Limit Theorem of proportions:

If np≥10 and n(1−p)≥10 where n is the sample size and p is the population proportion then the sample proportion p^ is approximately normal with mean μp^=p and standard deviation σp^=p(1−p)n.

Requirement check:

Condition 1: np≥10

Condition 2: n(1−p)≥10

Condition 1: np≥10

Substitute 38 for n and 0.3 for p in np,

np=(38)(0.3)=11.4

Thus, the requirement np(=11.4)≥10 is satisfied.

Condition 2: n(1−p)≥10

Substitute 38 for n and 0.3 for p in n(1−p),

n(1−p)=(38)(1−0.3)=38(0.7)=26.6

Thus, the requirement of n(1−p)(=26.6)≥10.

Here, both the requirements are satisfied. Thus, it is appropriate to use the normal approximation.

Hence, the normal approximation is appropriate to use for finding the probability that more than 40% of the people in the sample have high blood pressure.

For mean μp^:

Substitute p=0.3 in the formula of μp^,

μp^=0.3

Thus, the value of μp^ is 0.3.

For standard deviation σp^:

Substitute n=38 and p=0.3 in the formula of σp^,

σp^=0.3(1−0.3)38=0.3(0.7)38=0.2138≈0.07434

Thus, the value of σp^ is 0.07434.

The probability that more than 40% of the people in the sample have high blood pressure represents the area to the right of 0.40(=40100).

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.07434.
Click the Shaded Area tab.
Choose X value and Right Tail for the region of the curve to shade.
Enter the X value as 0.40.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 1

From the output, it can be observed that the probability that more than 40% of the people in the sample have high blood pressure is approximately 0.0893.

Answer 9

a.

Expert Solution

Answer 10

a.

Expert Solution

Answer 11

Expert Solution

Answer 12

To determine

Check whether it is appropriate to use the normal approximation to find the probability that more than 40% of the people in the sample have high blood pressure and if it is appropriate find the probability, if not explain the reason.

Answer 13

Answer to Problem 22E

Yes, it is appropriate to use the normal approximation.

The probability that more than 40% of the people in the sample have high blood pressure is 0.0893.

Answer 14

Explanation of Solution

Calculation:

The given information is that the sample of U.S. adults chosen (n) is 38 and the proportion of U.S. adults with high blood pressure (p) is 0.3.

Central Limit Theorem of proportions:

If np≥10 and n(1−p)≥10 where n is the sample size and p is the population proportion then the sample proportion p^ is approximately normal with mean μp^=p and standard deviation σp^=p(1−p)n.

Requirement check:

Condition 1: np≥10

Condition 2: n(1−p)≥10

Condition 1: np≥10

Substitute 38 for n and 0.3 for p in np,

np=(38)(0.3)=11.4

Thus, the requirement np(=11.4)≥10 is satisfied.

Condition 2: n(1−p)≥10

Substitute 38 for n and 0.3 for p in n(1−p),

n(1−p)=(38)(1−0.3)=38(0.7)=26.6

Thus, the requirement of n(1−p)(=26.6)≥10.

Here, both the requirements are satisfied. Thus, it is appropriate to use the normal approximation.

Hence, the normal approximation is appropriate to use for finding the probability that more than 40% of the people in the sample have high blood pressure.

For mean μp^:

Substitute p=0.3 in the formula of μp^,

μp^=0.3

Thus, the value of μp^ is 0.3.

For standard deviation σp^:

Substitute n=38 and p=0.3 in the formula of σp^,

σp^=0.3(1−0.3)38=0.3(0.7)38=0.2138≈0.07434

Thus, the value of σp^ is 0.07434.

The probability that more than 40% of the people in the sample have high blood pressure represents the area to the right of 0.40(=40100).

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.07434.
Click the Shaded Area tab.
Choose X value and Right Tail for the region of the curve to shade.
Enter the X value as 0.40.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 1

From the output, it can be observed that the probability that more than 40% of the people in the sample have high blood pressure is approximately 0.0893.

Answer 15

b.

Expert Solution

To determine

Find the probability that more than 40% of the people in the sample have high blood pressure.

Answer to Problem 22E

The probability that more than 40% of the people in the sample have high blood pressure is 0.0255.

Explanation of Solution

Calculation:

The given information is that the sample of U.S. adults is chosen (n) is 80 and the proportion of U.S. adults with high blood pressure (p) is 0.3.

If p^ is the sample proportion of a simple random sample of size n and it is drawn from the population with population proportion p then the mean and standard deviation of the sampling distribution of p^ are μp^=p and σp^=p(1−p)n .

Substitute p=0.3 in μp^=p,

μp^=0.3

Thus, the mean μp^ is 0.3.

The formula for finding standard deviation σp^ is,

σp^=p(1−p)n,

Substitute n=80 and p=0.3

σp^=0.3(1−0.3)80=0.3(0.7)80=0.2180≈0.05123

Thus, the value of σp^ is 0.05123.

The probability that more than 40% of the people in the sample have high blood pressure represents the area to the right of 0.40(=40100).

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.05123.
Click the Shaded Area tab.
Choose X value and Right Tail for the region of the curve to shade.
Enter the X value as 0.40.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 2

From the output, it can be observed that the probability that more than 40% of the people in the sample have high blood pressure is approximately 0.0255.

Answer 16

b.

Expert Solution

Answer 17

b.

Expert Solution

Answer 18

Expert Solution

Answer 19

To determine

Find the probability that more than 40% of the people in the sample have high blood pressure.

Answer 20

Answer to Problem 22E

The probability that more than 40% of the people in the sample have high blood pressure is 0.0255.

Answer 21

Explanation of Solution

Calculation:

The given information is that the sample of U.S. adults is chosen (n) is 80 and the proportion of U.S. adults with high blood pressure (p) is 0.3.

If p^ is the sample proportion of a simple random sample of size n and it is drawn from the population with population proportion p then the mean and standard deviation of the sampling distribution of p^ are μp^=p and σp^=p(1−p)n .

Substitute p=0.3 in μp^=p,

μp^=0.3

Thus, the mean μp^ is 0.3.

The formula for finding standard deviation σp^ is,

σp^=p(1−p)n,

Substitute n=80 and p=0.3

σp^=0.3(1−0.3)80=0.3(0.7)80=0.2180≈0.05123

Thus, the value of σp^ is 0.05123.

The probability that more than 40% of the people in the sample have high blood pressure represents the area to the right of 0.40(=40100).

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.05123.
Click the Shaded Area tab.
Choose X value and Right Tail for the region of the curve to shade.
Enter the X value as 0.40.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 2

From the output, it can be observed that the probability that more than 40% of the people in the sample have high blood pressure is approximately 0.0255.

Answer 22

c.

Expert Solution

To determine

Find the probability that the proportion of individuals in the sample of 80 who have high blood pressure is between 0.20 and 0.35.

Answer to Problem 22E

The probability that the proportion of individuals in the sample of 80 who have high blood pressure is between 0.20 and 0.35 is 0.8100.

Explanation of Solution

Calculation:

The probability that the proportion of individuals in the sample of 80 who have high blood pressure is between 0.20 and 0.35 represents the area to the right of 0.20 and the area to the left of 0.35.

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.05123.
Click the Shaded Area tab.
Choose X value and Middle for the region of the curve to shade.
Enter the X value 1 as 0.20 and X value 2 as 0.35.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 3

From the output, it can be observed that the probability that the proportion of individuals in the sample of 80 who have high blood pressure is between 0.20 and 0.35 is 0.8100.

Answer 23

c.

Expert Solution

Answer 24

c.

Expert Solution

Answer 25

Expert Solution

Answer 26

To determine

Find the probability that the proportion of individuals in the sample of 80 who have high blood pressure is between 0.20 and 0.35.

Answer 27

Answer to Problem 22E

The probability that the proportion of individuals in the sample of 80 who have high blood pressure is between 0.20 and 0.35 is 0.8100.

Answer 28

Explanation of Solution

Calculation:

The probability that the proportion of individuals in the sample of 80 who have high blood pressure is between 0.20 and 0.35 represents the area to the right of 0.20 and the area to the left of 0.35.

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.05123.
Click the Shaded Area tab.
Choose X value and Middle for the region of the curve to shade.
Enter the X value 1 as 0.20 and X value 2 as 0.35.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 3

From the output, it can be observed that the probability that the proportion of individuals in the sample of 80 who have high blood pressure is between 0.20 and 0.35 is 0.8100.

Answer 29

d.

Expert Solution

To determine

Find the probability that less than 25% of the people in the sample of 80 have high blood pressure.

Answer to Problem 22E

The probability that less than 25% of the people in the sample of 80 have high blood pressure is 0.1645.

Explanation of Solution

Calculation:

The probability that less than 25% of the people in the sample of 80 have high blood pressure represents the area to the left of 0.25(=25100).

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.05123.
Click the Shaded Area tab.
Choose X value and Left Tail for the region of the curve to shade.
Enter the X value as 0.25.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 4

From the output, it can be observed that the probability that less than 25% of the people in the sample of 80 have high blood pressure is 0.1645.

Answer 30

d.

Expert Solution

Answer 31

d.

Expert Solution

Answer 32

Expert Solution

Answer 33

To determine

Find the probability that less than 25% of the people in the sample of 80 have high blood pressure.

Answer 34

Answer to Problem 22E

The probability that less than 25% of the people in the sample of 80 have high blood pressure is 0.1645.

Answer 35

Explanation of Solution

Calculation:

The probability that less than 25% of the people in the sample of 80 have high blood pressure represents the area to the left of 0.25(=25100).

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.05123.
Click the Shaded Area tab.
Choose X value and Left Tail for the region of the curve to shade.
Enter the X value as 0.25.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 4

From the output, it can be observed that the probability that less than 25% of the people in the sample of 80 have high blood pressure is 0.1645.

Answer 36

e.

Expert Solution

To determine

Check whether it is unusual if more than 45% of the individuals in the sample of 80 had high blood pressure.

Answer to Problem 22E

Yes, it is unusual if more than 45% of the individuals in the sample of 80 had high blood pressure.

Explanation of Solution

Calculation:

Unusual:

If the probability of an event is less than 0.05 then the event is called unusual.

The probability of more than 45% of the individuals in the sample of 80 had high blood pressure represents the area to the right of 0.45.

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.05123.
Click the Shaded Area tab.
Choose X value and Right Tail for the region of the curve to shade.
Enter the X value as 0.45.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 5

From the output, it can be observed that the probability of more than 45% of the individuals in the sample of 80 had high blood pressure is approximately 0.0017.

Here, the probability of more than 45% of the individuals in the sample of 80 had high blood pressure is less than 0.05. That is, 0.0017<0.05. Thus, the event that ‘more than 45% of the individuals in the sample of 80 had high blood pressure’ is unusual.

Answer 37

e.

Expert Solution

Answer 38

e.

Expert Solution

Answer 39

Expert Solution

Answer 40

To determine

Check whether it is unusual if more than 45% of the individuals in the sample of 80 had high blood pressure.

Answer 41

Answer to Problem 22E

Yes, it is unusual if more than 45% of the individuals in the sample of 80 had high blood pressure.

Answer 42

Explanation of Solution

Calculation:

Unusual:

If the probability of an event is less than 0.05 then the event is called unusual.

The probability of more than 45% of the individuals in the sample of 80 had high blood pressure represents the area to the right of 0.45.

Software Procedure:

Step by step procedure to find the probability by using MINITAB software is as follows:

Choose Graph > Probability Distribution Plot > View Probability > OK.
From Distribution, choose ‘Normal’ distribution.
Enter Mean as 0.3 and Standard deviation as 0.05123.
Click the Shaded Area tab.
Choose X value and Right Tail for the region of the curve to shade.
Enter the X value as 0.45.
Click OK.

Output using MINITAB software is as follows:

Essential Statistics, Chapter 6.3, Problem 22E , additional homework tip 5

From the output, it can be observed that the probability of more than 45% of the individuals in the sample of 80 had high blood pressure is approximately 0.0017.

Here, the probability of more than 45% of the individuals in the sample of 80 had high blood pressure is less than 0.05. That is, 0.0017<0.05. Thus, the event that ‘more than 45% of the individuals in the sample of 80 had high blood pressure’ is unusual.