Longevity: 90th Birthday It is estimated that 3.5% of the general population will live past their 90th birthday ( Statistical Abstract of the United States. 112th edition). In a graduating class of 753 high school seniors, what is the probability that (a) 15 or more will live beyond their 90th birthday? (b) 30 or more will live beyond their 90th birthday? (c) between 25 and 35 will live beyond their 90th birthday? (d) more than 40 will live beyond their 90th birthday?

Question

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Answer 1

Textbook Question

Chapter 7.6, Problem 9P

Longevity: 90th Birthday It is estimated that 3.5% of the general population will live past their 90th birthday (Statistical Abstract of the United States. 112th edition). In a graduating class of 753 high school seniors, what is the probability that

(a) 15 or more will live beyond their 90th birthday?

(b) 30 or more will live beyond their 90th birthday?

(c) between 25 and 35 will live beyond their 90th birthday?

(d) more than 40 will live beyond their 90th birthday?

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

To find: The probability that 15 or more will live beyond their 90^th birthday.

Answer to Problem 9P

Solution: The probability P(r≥15) will live beyond their 90^th birthday is 0.9906.

Explanation of Solution

Calculation:

Using n=753, p=0.035, q=1−p=0.965.

Thus,

np=(753)(0.035) =26.355nq=(753)(0.965) =726.645

The condition np>5 and nq>5 is satisfied. Thus, it is appropriate to use the normal approximation for binomial distribution.

Now, we calculate P(r≥15) using continuity correction factor for normal distribution.

P(r≥15)=P(x≥r−0.5) =P(x≥15−0.5) =P(x≥14.5)

Now, mean and standard deviation are as follows:

μ=np =(753)(0.035) =26.36σ=npq =(753)(0.035)(0.965) =25.43 =5.043

Further, the z-value corresponding to x is

z=x−μσ =14.5−26.3555.043 =−2.35

P(x≥14.5)=P(z≥−2.35) =1−P(z≤−2.35) =1−0.0094 =0.9906

Thus, the desired probability is 0.9906.

(b)

Expert Solution

To determine

To find: The probability that 30 or more will live beyond their 90^th birthday.

Answer to Problem 9P

Solution: The probability that 30 or more will live beyond their 90^th birthday is 0.2676.

Explanation of Solution

Calculation: Using n=753, p=0.035, q=1−p=0.965.

Now, we calculate P(r≥30) using continuity correction factor for normal distribution.

P(r≥30)=P(x≥r−0.5) =P(x≥30−0.5) =P(x≥29.5)

Now, mean and standard deviation are as follows:

μ=26.36, σ=5.043

Further, the z-value corresponding to x is

z=x−μσ =29.5−26.365.043 =0.62

P(x≥29.5)=P(z≥0.62) =1−P(z≤0.62) =1−0.7324 =0.2676

Thus, the desired probability is 0.2676.

(c)

Expert Solution

To determine

To find: The probability that between 25 and 35 will live beyond their 90^th birthday.

Answer to Problem 9P

Solution: The probability that between 25 and 35 will live beyond their 90^th birthday is P(25≤r≤35)=0.6092

Explanation of Solution

Calculation:

Using n=753, p=0.035, q=1−p=0.965.

Now, we calculate P(25≤r≤35) using continuity correction factor for normal distribution.

P(25≤r≤35)=P(r−0.5≤x≤r+0.5) =P(25−0.5≤x≤35+0.5) =P(24.5≤r≤35.5)

Now, mean and standard deviation are as follows:

μ=26.36, σ=5.043

Further,

P(24.5≤r≤35.5)=P(24.5−26.365.043≤x−μσ≤35.5−26.365.043) =P(−0.37≤z≤1.81) =P(z≤1.81)−P(z≤−0.37) =0.9649−0.3557 =0.6092

Thus, the desired probability is 0.6092.

(d)

Expert Solution

To determine

To find: The probability that more than 40 will live beyond their 90^th birthday.

Answer to Problem 9P

Solution: The probability that more than 40 will live beyond their 90^th birthday is P(r≥41)=0.0026

Explanation of Solution

Calculation:

Using n=753, p=0.035, q=1−p=0.965.

Now, we calculate P(r≥41) using continuity correction factor for normal distribution.

P(r≥41)=P(x≥r−0.5) =P(x≥41−0.5) =P(x≥40.5)

Now, mean and standard deviation are as follows:

μ=26.26, σ=5.043

Further, the z-value corresponding to x is

z=x−μσ =40.5−26.365.043 =2.80

P(x≥40.5)=P(z≥2.80) =1−P(z≤2.80) =1−0.9979 =0.0026

Thus, the desired probability is 0.0026.

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Answer 2

Textbook Question

Chapter 7.6, Problem 9P

Longevity: 90th Birthday It is estimated that 3.5% of the general population will live past their 90th birthday (Statistical Abstract of the United States. 112th edition). In a graduating class of 753 high school seniors, what is the probability that

(a) 15 or more will live beyond their 90th birthday?

(b) 30 or more will live beyond their 90th birthday?

(c) between 25 and 35 will live beyond their 90th birthday?

(d) more than 40 will live beyond their 90th birthday?

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

To find: The probability that 15 or more will live beyond their 90^th birthday.

Answer to Problem 9P

Solution: The probability P(r≥15) will live beyond their 90^th birthday is 0.9906.

Explanation of Solution

Calculation:

Using n=753, p=0.035, q=1−p=0.965.

Thus,

np=(753)(0.035) =26.355nq=(753)(0.965) =726.645

The condition np>5 and nq>5 is satisfied. Thus, it is appropriate to use the normal approximation for binomial distribution.

Now, we calculate P(r≥15) using continuity correction factor for normal distribution.

P(r≥15)=P(x≥r−0.5) =P(x≥15−0.5) =P(x≥14.5)

Now, mean and standard deviation are as follows:

μ=np =(753)(0.035) =26.36σ=npq =(753)(0.035)(0.965) =25.43 =5.043

Further, the z-value corresponding to x is

z=x−μσ =14.5−26.3555.043 =−2.35

P(x≥14.5)=P(z≥−2.35) =1−P(z≤−2.35) =1−0.0094 =0.9906

Thus, the desired probability is 0.9906.

(b)

Expert Solution

To determine

To find: The probability that 30 or more will live beyond their 90^th birthday.

Answer to Problem 9P

Solution: The probability that 30 or more will live beyond their 90^th birthday is 0.2676.

Explanation of Solution

Calculation: Using n=753, p=0.035, q=1−p=0.965.

Now, we calculate P(r≥30) using continuity correction factor for normal distribution.

P(r≥30)=P(x≥r−0.5) =P(x≥30−0.5) =P(x≥29.5)

Now, mean and standard deviation are as follows:

μ=26.36, σ=5.043

Further, the z-value corresponding to x is

z=x−μσ =29.5−26.365.043 =0.62

P(x≥29.5)=P(z≥0.62) =1−P(z≤0.62) =1−0.7324 =0.2676

Thus, the desired probability is 0.2676.

(c)

Expert Solution

To determine

To find: The probability that between 25 and 35 will live beyond their 90^th birthday.

Answer to Problem 9P

Solution: The probability that between 25 and 35 will live beyond their 90^th birthday is P(25≤r≤35)=0.6092

Explanation of Solution

Calculation:

Using n=753, p=0.035, q=1−p=0.965.

Now, we calculate P(25≤r≤35) using continuity correction factor for normal distribution.

P(25≤r≤35)=P(r−0.5≤x≤r+0.5) =P(25−0.5≤x≤35+0.5) =P(24.5≤r≤35.5)

Now, mean and standard deviation are as follows:

μ=26.36, σ=5.043

Further,

P(24.5≤r≤35.5)=P(24.5−26.365.043≤x−μσ≤35.5−26.365.043) =P(−0.37≤z≤1.81) =P(z≤1.81)−P(z≤−0.37) =0.9649−0.3557 =0.6092

Thus, the desired probability is 0.6092.

(d)

Expert Solution

To determine

To find: The probability that more than 40 will live beyond their 90^th birthday.

Answer to Problem 9P

Solution: The probability that more than 40 will live beyond their 90^th birthday is P(r≥41)=0.0026

Explanation of Solution

Calculation:

Using n=753, p=0.035, q=1−p=0.965.

Now, we calculate P(r≥41) using continuity correction factor for normal distribution.

P(r≥41)=P(x≥r−0.5) =P(x≥41−0.5) =P(x≥40.5)

Now, mean and standard deviation are as follows:

μ=26.26, σ=5.043

Further, the z-value corresponding to x is

z=x−μσ =40.5−26.365.043 =2.80

P(x≥40.5)=P(z≥2.80) =1−P(z≤2.80) =1−0.9979 =0.0026

Thus, the desired probability is 0.0026.

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Answer 3

Textbook Question

Chapter 7.6, Problem 9P

Longevity: 90th Birthday It is estimated that 3.5% of the general population will live past their 90th birthday (Statistical Abstract of the United States. 112th edition). In a graduating class of 753 high school seniors, what is the probability that

(a) 15 or more will live beyond their 90th birthday?

(b) 30 or more will live beyond their 90th birthday?

(c) between 25 and 35 will live beyond their 90th birthday?

(d) more than 40 will live beyond their 90th birthday?

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

To find: The probability that 15 or more will live beyond their 90^th birthday.

Answer to Problem 9P

Solution: The probability P(r≥15) will live beyond their 90^th birthday is 0.9906.

Explanation of Solution

Calculation:

Using n=753, p=0.035, q=1−p=0.965.

Thus,

np=(753)(0.035) =26.355nq=(753)(0.965) =726.645

The condition np>5 and nq>5 is satisfied. Thus, it is appropriate to use the normal approximation for binomial distribution.

Now, we calculate P(r≥15) using continuity correction factor for normal distribution.

P(r≥15)=P(x≥r−0.5) =P(x≥15−0.5) =P(x≥14.5)

Now, mean and standard deviation are as follows:

μ=np =(753)(0.035) =26.36σ=npq =(753)(0.035)(0.965) =25.43 =5.043

Further, the z-value corresponding to x is

z=x−μσ =14.5−26.3555.043 =−2.35

P(x≥14.5)=P(z≥−2.35) =1−P(z≤−2.35) =1−0.0094 =0.9906

Thus, the desired probability is 0.9906.

(b)

Expert Solution

To determine

To find: The probability that 30 or more will live beyond their 90^th birthday.

Answer to Problem 9P

Solution: The probability that 30 or more will live beyond their 90^th birthday is 0.2676.

Explanation of Solution

Calculation: Using n=753, p=0.035, q=1−p=0.965.

Now, we calculate P(r≥30) using continuity correction factor for normal distribution.

P(r≥30)=P(x≥r−0.5) =P(x≥30−0.5) =P(x≥29.5)

Now, mean and standard deviation are as follows:

μ=26.36, σ=5.043

Further, the z-value corresponding to x is

z=x−μσ =29.5−26.365.043 =0.62

P(x≥29.5)=P(z≥0.62) =1−P(z≤0.62) =1−0.7324 =0.2676

Thus, the desired probability is 0.2676.

(c)

Expert Solution

To determine

To find: The probability that between 25 and 35 will live beyond their 90^th birthday.

Answer to Problem 9P

Solution: The probability that between 25 and 35 will live beyond their 90^th birthday is P(25≤r≤35)=0.6092

Explanation of Solution

Calculation:

Using n=753, p=0.035, q=1−p=0.965.

Now, we calculate P(25≤r≤35) using continuity correction factor for normal distribution.

P(25≤r≤35)=P(r−0.5≤x≤r+0.5) =P(25−0.5≤x≤35+0.5) =P(24.5≤r≤35.5)

Now, mean and standard deviation are as follows:

μ=26.36, σ=5.043

Further,

P(24.5≤r≤35.5)=P(24.5−26.365.043≤x−μσ≤35.5−26.365.043) =P(−0.37≤z≤1.81) =P(z≤1.81)−P(z≤−0.37) =0.9649−0.3557 =0.6092

Thus, the desired probability is 0.6092.

(d)

Expert Solution

To determine

To find: The probability that more than 40 will live beyond their 90^th birthday.

Answer to Problem 9P

Solution: The probability that more than 40 will live beyond their 90^th birthday is P(r≥41)=0.0026

Explanation of Solution

Calculation:

Using n=753, p=0.035, q=1−p=0.965.

Now, we calculate P(r≥41) using continuity correction factor for normal distribution.

P(r≥41)=P(x≥r−0.5) =P(x≥41−0.5) =P(x≥40.5)

Now, mean and standard deviation are as follows:

μ=26.26, σ=5.043

Further, the z-value corresponding to x is

z=x−μσ =40.5−26.365.043 =2.80

P(x≥40.5)=P(z≥2.80) =1−P(z≤2.80) =1−0.9979 =0.0026

Thus, the desired probability is 0.0026.

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Answer 4

Textbook Question

Chapter 7.6, Problem 9P

Longevity: 90th Birthday It is estimated that 3.5% of the general population will live past their 90th birthday (Statistical Abstract of the United States. 112th edition). In a graduating class of 753 high school seniors, what is the probability that

(a) 15 or more will live beyond their 90th birthday?

(b) 30 or more will live beyond their 90th birthday?

(c) between 25 and 35 will live beyond their 90th birthday?

(d) more than 40 will live beyond their 90th birthday?

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

To find: The probability that 15 or more will live beyond their 90^th birthday.

Answer to Problem 9P

Solution: The probability P(r≥15) will live beyond their 90^th birthday is 0.9906.

Explanation of Solution

Calculation:

Using n=753, p=0.035, q=1−p=0.965.

Thus,

np=(753)(0.035) =26.355nq=(753)(0.965) =726.645

The condition np>5 and nq>5 is satisfied. Thus, it is appropriate to use the normal approximation for binomial distribution.

Now, we calculate P(r≥15) using continuity correction factor for normal distribution.

P(r≥15)=P(x≥r−0.5) =P(x≥15−0.5) =P(x≥14.5)

Now, mean and standard deviation are as follows:

μ=np =(753)(0.035) =26.36σ=npq =(753)(0.035)(0.965) =25.43 =5.043

Further, the z-value corresponding to x is

z=x−μσ =14.5−26.3555.043 =−2.35

P(x≥14.5)=P(z≥−2.35) =1−P(z≤−2.35) =1−0.0094 =0.9906

Thus, the desired probability is 0.9906.

(b)

Expert Solution

To determine

To find: The probability that 30 or more will live beyond their 90^th birthday.

Answer to Problem 9P

Solution: The probability that 30 or more will live beyond their 90^th birthday is 0.2676.

Explanation of Solution

Calculation: Using n=753, p=0.035, q=1−p=0.965.

Now, we calculate P(r≥30) using continuity correction factor for normal distribution.

P(r≥30)=P(x≥r−0.5) =P(x≥30−0.5) =P(x≥29.5)

Now, mean and standard deviation are as follows:

μ=26.36, σ=5.043

Further, the z-value corresponding to x is

z=x−μσ =29.5−26.365.043 =0.62

P(x≥29.5)=P(z≥0.62) =1−P(z≤0.62) =1−0.7324 =0.2676

Thus, the desired probability is 0.2676.

(c)

Expert Solution

To determine

To find: The probability that between 25 and 35 will live beyond their 90^th birthday.

Answer to Problem 9P

Solution: The probability that between 25 and 35 will live beyond their 90^th birthday is P(25≤r≤35)=0.6092

Explanation of Solution

Calculation:

Using n=753, p=0.035, q=1−p=0.965.

Now, we calculate P(25≤r≤35) using continuity correction factor for normal distribution.

P(25≤r≤35)=P(r−0.5≤x≤r+0.5) =P(25−0.5≤x≤35+0.5) =P(24.5≤r≤35.5)

Now, mean and standard deviation are as follows:

μ=26.36, σ=5.043

Further,

P(24.5≤r≤35.5)=P(24.5−26.365.043≤x−μσ≤35.5−26.365.043) =P(−0.37≤z≤1.81) =P(z≤1.81)−P(z≤−0.37) =0.9649−0.3557 =0.6092

Thus, the desired probability is 0.6092.

(d)

Expert Solution

To determine

To find: The probability that more than 40 will live beyond their 90^th birthday.

Answer to Problem 9P

Solution: The probability that more than 40 will live beyond their 90^th birthday is P(r≥41)=0.0026

Explanation of Solution

Calculation:

Using n=753, p=0.035, q=1−p=0.965.

Now, we calculate P(r≥41) using continuity correction factor for normal distribution.

P(r≥41)=P(x≥r−0.5) =P(x≥41−0.5) =P(x≥40.5)

Now, mean and standard deviation are as follows:

μ=26.26, σ=5.043

Further, the z-value corresponding to x is

z=x−μσ =40.5−26.365.043 =2.80

P(x≥40.5)=P(z≥2.80) =1−P(z≤2.80) =1−0.9979 =0.0026

Thus, the desired probability is 0.0026.

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Answer 5

Textbook Question

Answer 6

Textbook Question

Answer 7

(a)

Expert Solution

To determine

To find: The probability that 15 or more will live beyond their 90^th birthday.

Answer to Problem 9P

Solution: The probability P(r≥15) will live beyond their 90^th birthday is 0.9906.

Explanation of Solution

Calculation:

Using n=753, p=0.035, q=1−p=0.965.

Thus,

np=(753)(0.035) =26.355nq=(753)(0.965) =726.645

The condition np>5 and nq>5 is satisfied. Thus, it is appropriate to use the normal approximation for binomial distribution.

Now, we calculate P(r≥15) using continuity correction factor for normal distribution.

P(r≥15)=P(x≥r−0.5) =P(x≥15−0.5) =P(x≥14.5)

Now, mean and standard deviation are as follows:

μ=np =(753)(0.035) =26.36σ=npq =(753)(0.035)(0.965) =25.43 =5.043

Further, the z-value corresponding to x is

z=x−μσ =14.5−26.3555.043 =−2.35

P(x≥14.5)=P(z≥−2.35) =1−P(z≤−2.35) =1−0.0094 =0.9906

Thus, the desired probability is 0.9906.

(b)

Expert Solution

To determine

To find: The probability that 30 or more will live beyond their 90^th birthday.

Answer to Problem 9P

Solution: The probability that 30 or more will live beyond their 90^th birthday is 0.2676.

Explanation of Solution

Calculation: Using n=753, p=0.035, q=1−p=0.965.

Now, we calculate P(r≥30) using continuity correction factor for normal distribution.

P(r≥30)=P(x≥r−0.5) =P(x≥30−0.5) =P(x≥29.5)

Now, mean and standard deviation are as follows:

μ=26.36, σ=5.043

Further, the z-value corresponding to x is

z=x−μσ =29.5−26.365.043 =0.62

P(x≥29.5)=P(z≥0.62) =1−P(z≤0.62) =1−0.7324 =0.2676

Thus, the desired probability is 0.2676.

(c)

Expert Solution

To determine

To find: The probability that between 25 and 35 will live beyond their 90^th birthday.

Answer to Problem 9P

Solution: The probability that between 25 and 35 will live beyond their 90^th birthday is P(25≤r≤35)=0.6092

Explanation of Solution

Calculation:

Using n=753, p=0.035, q=1−p=0.965.

Now, we calculate P(25≤r≤35) using continuity correction factor for normal distribution.

P(25≤r≤35)=P(r−0.5≤x≤r+0.5) =P(25−0.5≤x≤35+0.5) =P(24.5≤r≤35.5)

Now, mean and standard deviation are as follows:

μ=26.36, σ=5.043

Further,

P(24.5≤r≤35.5)=P(24.5−26.365.043≤x−μσ≤35.5−26.365.043) =P(−0.37≤z≤1.81) =P(z≤1.81)−P(z≤−0.37) =0.9649−0.3557 =0.6092

Thus, the desired probability is 0.6092.

(d)

Expert Solution

To determine

To find: The probability that more than 40 will live beyond their 90^th birthday.

Answer to Problem 9P

Solution: The probability that more than 40 will live beyond their 90^th birthday is P(r≥41)=0.0026

Explanation of Solution

Calculation:

Using n=753, p=0.035, q=1−p=0.965.

Now, we calculate P(r≥41) using continuity correction factor for normal distribution.

P(r≥41)=P(x≥r−0.5) =P(x≥41−0.5) =P(x≥40.5)

Now, mean and standard deviation are as follows:

μ=26.26, σ=5.043

Further, the z-value corresponding to x is

z=x−μσ =40.5−26.365.043 =2.80

P(x≥40.5)=P(z≥2.80) =1−P(z≤2.80) =1−0.9979 =0.0026

Thus, the desired probability is 0.0026.

Answer 8

(a)

Expert Solution

To determine

To find: The probability that 15 or more will live beyond their 90^th birthday.

Answer to Problem 9P

Solution: The probability P(r≥15) will live beyond their 90^th birthday is 0.9906.

Explanation of Solution

Calculation:

Using n=753, p=0.035, q=1−p=0.965.

Thus,

np=(753)(0.035) =26.355nq=(753)(0.965) =726.645

The condition np>5 and nq>5 is satisfied. Thus, it is appropriate to use the normal approximation for binomial distribution.

Now, we calculate P(r≥15) using continuity correction factor for normal distribution.

P(r≥15)=P(x≥r−0.5) =P(x≥15−0.5) =P(x≥14.5)

Now, mean and standard deviation are as follows:

μ=np =(753)(0.035) =26.36σ=npq =(753)(0.035)(0.965) =25.43 =5.043

Further, the z-value corresponding to x is

z=x−μσ =14.5−26.3555.043 =−2.35

P(x≥14.5)=P(z≥−2.35) =1−P(z≤−2.35) =1−0.0094 =0.9906

Thus, the desired probability is 0.9906.

Answer 9

(a)

Expert Solution

Answer 10

(a)

Expert Solution

Answer 11

Expert Solution

Answer 12

To determine

To find: The probability that 15 or more will live beyond their 90^th birthday.

Answer 13

Answer to Problem 9P

Solution: The probability P(r≥15) will live beyond their 90^th birthday is 0.9906.

Answer 14

Explanation of Solution

Calculation:

Using n=753, p=0.035, q=1−p=0.965.

Thus,

np=(753)(0.035) =26.355nq=(753)(0.965) =726.645

The condition np>5 and nq>5 is satisfied. Thus, it is appropriate to use the normal approximation for binomial distribution.

Now, we calculate P(r≥15) using continuity correction factor for normal distribution.

P(r≥15)=P(x≥r−0.5) =P(x≥15−0.5) =P(x≥14.5)

Now, mean and standard deviation are as follows:

μ=np =(753)(0.035) =26.36σ=npq =(753)(0.035)(0.965) =25.43 =5.043

Further, the z-value corresponding to x is

z=x−μσ =14.5−26.3555.043 =−2.35

P(x≥14.5)=P(z≥−2.35) =1−P(z≤−2.35) =1−0.0094 =0.9906

Thus, the desired probability is 0.9906.

Answer 15

(b)

Expert Solution

To determine

To find: The probability that 30 or more will live beyond their 90^th birthday.

Answer to Problem 9P

Solution: The probability that 30 or more will live beyond their 90^th birthday is 0.2676.

Explanation of Solution

Calculation: Using n=753, p=0.035, q=1−p=0.965.

Now, we calculate P(r≥30) using continuity correction factor for normal distribution.

P(r≥30)=P(x≥r−0.5) =P(x≥30−0.5) =P(x≥29.5)

Now, mean and standard deviation are as follows:

μ=26.36, σ=5.043

Further, the z-value corresponding to x is

z=x−μσ =29.5−26.365.043 =0.62

P(x≥29.5)=P(z≥0.62) =1−P(z≤0.62) =1−0.7324 =0.2676

Thus, the desired probability is 0.2676.

Answer 16

(b)

Expert Solution

Answer 17

(b)

Expert Solution

Answer 18

Expert Solution

Answer 19

To determine

To find: The probability that 30 or more will live beyond their 90^th birthday.

Answer 20

Answer to Problem 9P

Solution: The probability that 30 or more will live beyond their 90^th birthday is 0.2676.

Answer 21

Explanation of Solution

Calculation: Using n=753, p=0.035, q=1−p=0.965.

Now, we calculate P(r≥30) using continuity correction factor for normal distribution.

P(r≥30)=P(x≥r−0.5) =P(x≥30−0.5) =P(x≥29.5)

Now, mean and standard deviation are as follows:

μ=26.36, σ=5.043

Further, the z-value corresponding to x is

z=x−μσ =29.5−26.365.043 =0.62

P(x≥29.5)=P(z≥0.62) =1−P(z≤0.62) =1−0.7324 =0.2676

Thus, the desired probability is 0.2676.

Answer 22

(c)

Expert Solution

To determine

To find: The probability that between 25 and 35 will live beyond their 90^th birthday.

Answer to Problem 9P

Solution: The probability that between 25 and 35 will live beyond their 90^th birthday is P(25≤r≤35)=0.6092

Explanation of Solution

Calculation:

Using n=753, p=0.035, q=1−p=0.965.

Now, we calculate P(25≤r≤35) using continuity correction factor for normal distribution.

P(25≤r≤35)=P(r−0.5≤x≤r+0.5) =P(25−0.5≤x≤35+0.5) =P(24.5≤r≤35.5)

Now, mean and standard deviation are as follows:

μ=26.36, σ=5.043

Further,

P(24.5≤r≤35.5)=P(24.5−26.365.043≤x−μσ≤35.5−26.365.043) =P(−0.37≤z≤1.81) =P(z≤1.81)−P(z≤−0.37) =0.9649−0.3557 =0.6092

Thus, the desired probability is 0.6092.

Answer 23

(c)

Expert Solution

Answer 24

(c)

Expert Solution

Answer 25

Expert Solution

Answer 26

To determine

To find: The probability that between 25 and 35 will live beyond their 90^th birthday.

Answer 27

Answer to Problem 9P

Solution: The probability that between 25 and 35 will live beyond their 90^th birthday is P(25≤r≤35)=0.6092

Answer 28

Explanation of Solution

Calculation:

Using n=753, p=0.035, q=1−p=0.965.

Now, we calculate P(25≤r≤35) using continuity correction factor for normal distribution.

P(25≤r≤35)=P(r−0.5≤x≤r+0.5) =P(25−0.5≤x≤35+0.5) =P(24.5≤r≤35.5)

Now, mean and standard deviation are as follows:

μ=26.36, σ=5.043

Further,

P(24.5≤r≤35.5)=P(24.5−26.365.043≤x−μσ≤35.5−26.365.043) =P(−0.37≤z≤1.81) =P(z≤1.81)−P(z≤−0.37) =0.9649−0.3557 =0.6092

Thus, the desired probability is 0.6092.

Answer 29

(d)

Expert Solution

To determine

To find: The probability that more than 40 will live beyond their 90^th birthday.

Answer to Problem 9P

Solution: The probability that more than 40 will live beyond their 90^th birthday is P(r≥41)=0.0026

Explanation of Solution

Calculation:

Using n=753, p=0.035, q=1−p=0.965.

Now, we calculate P(r≥41) using continuity correction factor for normal distribution.

P(r≥41)=P(x≥r−0.5) =P(x≥41−0.5) =P(x≥40.5)

Now, mean and standard deviation are as follows:

μ=26.26, σ=5.043

Further, the z-value corresponding to x is

z=x−μσ =40.5−26.365.043 =2.80

P(x≥40.5)=P(z≥2.80) =1−P(z≤2.80) =1−0.9979 =0.0026

Thus, the desired probability is 0.0026.

Answer 30

(d)

Expert Solution

Answer 31

(d)

Expert Solution

Answer 32

Expert Solution

Answer 33

To determine

To find: The probability that more than 40 will live beyond their 90^th birthday.

Answer 34

Answer to Problem 9P

Solution: The probability that more than 40 will live beyond their 90^th birthday is P(r≥41)=0.0026

Answer 35

Explanation of Solution

Calculation:

Using n=753, p=0.035, q=1−p=0.965.

Now, we calculate P(r≥41) using continuity correction factor for normal distribution.

P(r≥41)=P(x≥r−0.5) =P(x≥41−0.5) =P(x≥40.5)

Now, mean and standard deviation are as follows:

μ=26.26, σ=5.043

Further, the z-value corresponding to x is

z=x−μσ =40.5−26.365.043 =2.80

P(x≥40.5)=P(z≥2.80) =1−P(z≤2.80) =1−0.9979 =0.0026

Thus, the desired probability is 0.0026.

Answer 36

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