a. To find: The probability that a randomly selected student will drink less than suggested 40.5 oz of water in a day supposing the amounts of water that schoolchildren actually consume in a day are approximately normally distributed with a mean of 32.0 oz and a standard deviation of 7.1 oz.

Question

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Answer 1

Question

Chapter 6.4, Problem 28E

To determine

a.

To find:

The probability that a randomly selected student will drink less than suggested 40.5 oz of water in a day supposing the amounts of water that schoolchildren actually consume in a day are approximately normally distributed with a mean of 32.0 oz and a standard deviation of 7.1 oz.

Expert Solution

Answer to Problem 28E

Solution:

The probability that a randomly selected student will drink less than suggested water is 0.884.

Explanation of Solution

Given:

Mean μ=32.0

Standard deviation σ=7.1

Suggested intake according to report Xs=40.5

Cut-off intake Xc=36

Percentile a=5%

Description:

In statistics, the normal Gaussian distribution with the following characteristics:

μ=0, and

σ=1

is called standard normal distribution with probability density function:

f(x|0,1)=12πe−x22

When this function is plotted on the x-axis, the area between the curve and x-axis is equal to one, because the sum of probabilities is unity.

Area on the left of a given z-value (say z=a) is the probability P(X≤a) given by the integration:

∫−∞af(x)dx,

which can be obtained from the normal distribution table.

The x-value, z-value, the mean, along with the standard deviation are related as below:

z=x−μσ,

or equivalently

x=z×σ+μ.

Now,

In the first subpart, in order to find the probability the table is consulted to look-up the value in the row denoted by unit and tenth digits and the column by hundredth digit before which the z-value zs is calculated.

Calculation:

In the first part, using the given data and above relation:

zs=Xs−μσ

that is:

zs=40.5−32.07.1

which gives:

zs=1.197.

This z-value lies between 1.19 and 1.20.

Area on the left=0.88298+0.884932

which is:

Area on the left=0.883955.

Rounding off to three places after the decimal, the probability is 0.884 as 9≥5.

Conclusion:

The probability that a randomly selected student will drink less than suggested water is 0.884.

To determine

b.

To find:

Amount by which the mean needs to be increased so that only 5% of students drink less than 36 oz per week, if the standard deviation remained the same and the daily water intakes were still normally distributed.

Expert Solution

Answer to Problem 28E

Solution:

Amount by which the mean needs to be increased so that only 5% of students drink less than 36 oz per week is 15.68 oz.

Explanation of Solution

Given:

Mean μ=32.0

Standard deviation σ=7.1

Suggested intake according to report Xs=40.5

Cut-off intake Xc=36

Percentile a=5%

Description:

In statistics, the normal Gaussian distribution with the following characteristics:

μ=0, and

σ=1

is called standard normal distribution with probability density function:

f(x|0,1)=12πe−x22

When this function is plotted on the x-axis, the area between the curve and x-axis is equal to one, because the sum of probabilities is unity.

Area on the left of a given z-value (say z=a) is the probability P(X≤a) given by the integration:

∫−∞af(x)dx,

which can be obtained from the normal distribution table.

The x-value, z-value, the mean, along with the standard deviation are related as below:

z=x−μσ,

or equivalently

x=z×σ+μ.

Now,

In the second part, the appropriate z-value z* is first obtained from the percentile given by converting percentile to area on left after which it is used to calculate the new mean by:

μ*=Xc−z*×σ.

Thereafter, the required increase in mean is computed.

Calculation:

In the second part, area on the left is equal to the decimal representation of percentile, that is:

Area on left = 0.05.

From the table, the z-value is obtained at z*=−1.645 which is between −1.64 and −1.65.

Using the relation defined above,

μ*=Xc−z*×σ,

the new mean is found as:

μ*=36−(−1.645)×7.1

which gives the new mean:

μ*=47.6795.

Previous mean μ=32, so the increase in mean required is:

47.6795−32=15.6795.

Since thousandth place digit is 9 and 9≥5, thus rounding off the difference till the hundredth place digit is:

difference=15.68.

Conclusion:

Amount by which the mean needs to be increased so that only 5% of students drink less than 36 oz per week is 15.68 oz.

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Answer 2

Question

Chapter 6.4, Problem 28E

To determine

a.

To find:

The probability that a randomly selected student will drink less than suggested 40.5 oz of water in a day supposing the amounts of water that schoolchildren actually consume in a day are approximately normally distributed with a mean of 32.0 oz and a standard deviation of 7.1 oz.

Expert Solution

Answer to Problem 28E

Solution:

The probability that a randomly selected student will drink less than suggested water is 0.884.

Explanation of Solution

Given:

Mean μ=32.0

Standard deviation σ=7.1

Suggested intake according to report Xs=40.5

Cut-off intake Xc=36

Percentile a=5%

Description:

In statistics, the normal Gaussian distribution with the following characteristics:

μ=0, and

σ=1

is called standard normal distribution with probability density function:

f(x|0,1)=12πe−x22

When this function is plotted on the x-axis, the area between the curve and x-axis is equal to one, because the sum of probabilities is unity.

Area on the left of a given z-value (say z=a) is the probability P(X≤a) given by the integration:

∫−∞af(x)dx,

which can be obtained from the normal distribution table.

The x-value, z-value, the mean, along with the standard deviation are related as below:

z=x−μσ,

or equivalently

x=z×σ+μ.

Now,

In the first subpart, in order to find the probability the table is consulted to look-up the value in the row denoted by unit and tenth digits and the column by hundredth digit before which the z-value zs is calculated.

Calculation:

In the first part, using the given data and above relation:

zs=Xs−μσ

that is:

zs=40.5−32.07.1

which gives:

zs=1.197.

This z-value lies between 1.19 and 1.20.

Area on the left=0.88298+0.884932

which is:

Area on the left=0.883955.

Rounding off to three places after the decimal, the probability is 0.884 as 9≥5.

Conclusion:

The probability that a randomly selected student will drink less than suggested water is 0.884.

To determine

b.

To find:

Amount by which the mean needs to be increased so that only 5% of students drink less than 36 oz per week, if the standard deviation remained the same and the daily water intakes were still normally distributed.

Expert Solution

Answer to Problem 28E

Solution:

Amount by which the mean needs to be increased so that only 5% of students drink less than 36 oz per week is 15.68 oz.

Explanation of Solution

Given:

Mean μ=32.0

Standard deviation σ=7.1

Suggested intake according to report Xs=40.5

Cut-off intake Xc=36

Percentile a=5%

Description:

In statistics, the normal Gaussian distribution with the following characteristics:

μ=0, and

σ=1

is called standard normal distribution with probability density function:

f(x|0,1)=12πe−x22

When this function is plotted on the x-axis, the area between the curve and x-axis is equal to one, because the sum of probabilities is unity.

Area on the left of a given z-value (say z=a) is the probability P(X≤a) given by the integration:

∫−∞af(x)dx,

which can be obtained from the normal distribution table.

The x-value, z-value, the mean, along with the standard deviation are related as below:

z=x−μσ,

or equivalently

x=z×σ+μ.

Now,

In the second part, the appropriate z-value z* is first obtained from the percentile given by converting percentile to area on left after which it is used to calculate the new mean by:

μ*=Xc−z*×σ.

Thereafter, the required increase in mean is computed.

Calculation:

In the second part, area on the left is equal to the decimal representation of percentile, that is:

Area on left = 0.05.

From the table, the z-value is obtained at z*=−1.645 which is between −1.64 and −1.65.

Using the relation defined above,

μ*=Xc−z*×σ,

the new mean is found as:

μ*=36−(−1.645)×7.1

which gives the new mean:

μ*=47.6795.

Previous mean μ=32, so the increase in mean required is:

47.6795−32=15.6795.

Since thousandth place digit is 9 and 9≥5, thus rounding off the difference till the hundredth place digit is:

difference=15.68.

Conclusion:

Amount by which the mean needs to be increased so that only 5% of students drink less than 36 oz per week is 15.68 oz.

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Answer 3

Question

Chapter 6.4, Problem 28E

To determine

a.

To find:

The probability that a randomly selected student will drink less than suggested 40.5 oz of water in a day supposing the amounts of water that schoolchildren actually consume in a day are approximately normally distributed with a mean of 32.0 oz and a standard deviation of 7.1 oz.

Expert Solution

Answer to Problem 28E

Solution:

The probability that a randomly selected student will drink less than suggested water is 0.884.

Explanation of Solution

Given:

Mean μ=32.0

Standard deviation σ=7.1

Suggested intake according to report Xs=40.5

Cut-off intake Xc=36

Percentile a=5%

Description:

In statistics, the normal Gaussian distribution with the following characteristics:

μ=0, and

σ=1

is called standard normal distribution with probability density function:

f(x|0,1)=12πe−x22

When this function is plotted on the x-axis, the area between the curve and x-axis is equal to one, because the sum of probabilities is unity.

Area on the left of a given z-value (say z=a) is the probability P(X≤a) given by the integration:

∫−∞af(x)dx,

which can be obtained from the normal distribution table.

The x-value, z-value, the mean, along with the standard deviation are related as below:

z=x−μσ,

or equivalently

x=z×σ+μ.

Now,

In the first subpart, in order to find the probability the table is consulted to look-up the value in the row denoted by unit and tenth digits and the column by hundredth digit before which the z-value zs is calculated.

Calculation:

In the first part, using the given data and above relation:

zs=Xs−μσ

that is:

zs=40.5−32.07.1

which gives:

zs=1.197.

This z-value lies between 1.19 and 1.20.

Area on the left=0.88298+0.884932

which is:

Area on the left=0.883955.

Rounding off to three places after the decimal, the probability is 0.884 as 9≥5.

Conclusion:

The probability that a randomly selected student will drink less than suggested water is 0.884.

To determine

b.

To find:

Amount by which the mean needs to be increased so that only 5% of students drink less than 36 oz per week, if the standard deviation remained the same and the daily water intakes were still normally distributed.

Expert Solution

Answer to Problem 28E

Solution:

Amount by which the mean needs to be increased so that only 5% of students drink less than 36 oz per week is 15.68 oz.

Explanation of Solution

Given:

Mean μ=32.0

Standard deviation σ=7.1

Suggested intake according to report Xs=40.5

Cut-off intake Xc=36

Percentile a=5%

Description:

In statistics, the normal Gaussian distribution with the following characteristics:

μ=0, and

σ=1

is called standard normal distribution with probability density function:

f(x|0,1)=12πe−x22

When this function is plotted on the x-axis, the area between the curve and x-axis is equal to one, because the sum of probabilities is unity.

Area on the left of a given z-value (say z=a) is the probability P(X≤a) given by the integration:

∫−∞af(x)dx,

which can be obtained from the normal distribution table.

The x-value, z-value, the mean, along with the standard deviation are related as below:

z=x−μσ,

or equivalently

x=z×σ+μ.

Now,

In the second part, the appropriate z-value z* is first obtained from the percentile given by converting percentile to area on left after which it is used to calculate the new mean by:

μ*=Xc−z*×σ.

Thereafter, the required increase in mean is computed.

Calculation:

In the second part, area on the left is equal to the decimal representation of percentile, that is:

Area on left = 0.05.

From the table, the z-value is obtained at z*=−1.645 which is between −1.64 and −1.65.

Using the relation defined above,

μ*=Xc−z*×σ,

the new mean is found as:

μ*=36−(−1.645)×7.1

which gives the new mean:

μ*=47.6795.

Previous mean μ=32, so the increase in mean required is:

47.6795−32=15.6795.

Since thousandth place digit is 9 and 9≥5, thus rounding off the difference till the hundredth place digit is:

difference=15.68.

Conclusion:

Amount by which the mean needs to be increased so that only 5% of students drink less than 36 oz per week is 15.68 oz.

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Answer 4

Question

Chapter 6.4, Problem 28E

To determine

a.

To find:

The probability that a randomly selected student will drink less than suggested 40.5 oz of water in a day supposing the amounts of water that schoolchildren actually consume in a day are approximately normally distributed with a mean of 32.0 oz and a standard deviation of 7.1 oz.

Expert Solution

Answer to Problem 28E

Solution:

The probability that a randomly selected student will drink less than suggested water is 0.884.

Explanation of Solution

Given:

Mean μ=32.0

Standard deviation σ=7.1

Suggested intake according to report Xs=40.5

Cut-off intake Xc=36

Percentile a=5%

Description:

In statistics, the normal Gaussian distribution with the following characteristics:

μ=0, and

σ=1

is called standard normal distribution with probability density function:

f(x|0,1)=12πe−x22

When this function is plotted on the x-axis, the area between the curve and x-axis is equal to one, because the sum of probabilities is unity.

Area on the left of a given z-value (say z=a) is the probability P(X≤a) given by the integration:

∫−∞af(x)dx,

which can be obtained from the normal distribution table.

The x-value, z-value, the mean, along with the standard deviation are related as below:

z=x−μσ,

or equivalently

x=z×σ+μ.

Now,

In the first subpart, in order to find the probability the table is consulted to look-up the value in the row denoted by unit and tenth digits and the column by hundredth digit before which the z-value zs is calculated.

Calculation:

In the first part, using the given data and above relation:

zs=Xs−μσ

that is:

zs=40.5−32.07.1

which gives:

zs=1.197.

This z-value lies between 1.19 and 1.20.

Area on the left=0.88298+0.884932

which is:

Area on the left=0.883955.

Rounding off to three places after the decimal, the probability is 0.884 as 9≥5.

Conclusion:

The probability that a randomly selected student will drink less than suggested water is 0.884.

To determine

b.

To find:

Amount by which the mean needs to be increased so that only 5% of students drink less than 36 oz per week, if the standard deviation remained the same and the daily water intakes were still normally distributed.

Expert Solution

Answer to Problem 28E

Solution:

Amount by which the mean needs to be increased so that only 5% of students drink less than 36 oz per week is 15.68 oz.

Explanation of Solution

Given:

Mean μ=32.0

Standard deviation σ=7.1

Suggested intake according to report Xs=40.5

Cut-off intake Xc=36

Percentile a=5%

Description:

In statistics, the normal Gaussian distribution with the following characteristics:

μ=0, and

σ=1

is called standard normal distribution with probability density function:

f(x|0,1)=12πe−x22

When this function is plotted on the x-axis, the area between the curve and x-axis is equal to one, because the sum of probabilities is unity.

Area on the left of a given z-value (say z=a) is the probability P(X≤a) given by the integration:

∫−∞af(x)dx,

which can be obtained from the normal distribution table.

The x-value, z-value, the mean, along with the standard deviation are related as below:

z=x−μσ,

or equivalently

x=z×σ+μ.

Now,

In the second part, the appropriate z-value z* is first obtained from the percentile given by converting percentile to area on left after which it is used to calculate the new mean by:

μ*=Xc−z*×σ.

Thereafter, the required increase in mean is computed.

Calculation:

In the second part, area on the left is equal to the decimal representation of percentile, that is:

Area on left = 0.05.

From the table, the z-value is obtained at z*=−1.645 which is between −1.64 and −1.65.

Using the relation defined above,

μ*=Xc−z*×σ,

the new mean is found as:

μ*=36−(−1.645)×7.1

which gives the new mean:

μ*=47.6795.

Previous mean μ=32, so the increase in mean required is:

47.6795−32=15.6795.

Since thousandth place digit is 9 and 9≥5, thus rounding off the difference till the hundredth place digit is:

difference=15.68.

Conclusion:

Amount by which the mean needs to be increased so that only 5% of students drink less than 36 oz per week is 15.68 oz.

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Answer 5

Chapter 6.4, Problem 28E

To determine

a.

To find:

The probability that a randomly selected student will drink less than suggested 40.5 oz of water in a day supposing the amounts of water that schoolchildren actually consume in a day are approximately normally distributed with a mean of 32.0 oz and a standard deviation of 7.1 oz.

Expert Solution

Answer to Problem 28E

Solution:

The probability that a randomly selected student will drink less than suggested water is 0.884.

Explanation of Solution

Given:

Mean μ=32.0

Standard deviation σ=7.1

Suggested intake according to report Xs=40.5

Cut-off intake Xc=36

Percentile a=5%

Description:

In statistics, the normal Gaussian distribution with the following characteristics:

μ=0, and

σ=1

is called standard normal distribution with probability density function:

f(x|0,1)=12πe−x22

When this function is plotted on the x-axis, the area between the curve and x-axis is equal to one, because the sum of probabilities is unity.

Area on the left of a given z-value (say z=a) is the probability P(X≤a) given by the integration:

∫−∞af(x)dx,

which can be obtained from the normal distribution table.

The x-value, z-value, the mean, along with the standard deviation are related as below:

z=x−μσ,

or equivalently

x=z×σ+μ.

Now,

In the first subpart, in order to find the probability the table is consulted to look-up the value in the row denoted by unit and tenth digits and the column by hundredth digit before which the z-value zs is calculated.

Calculation:

In the first part, using the given data and above relation:

zs=Xs−μσ

that is:

zs=40.5−32.07.1

which gives:

zs=1.197.

This z-value lies between 1.19 and 1.20.

Area on the left=0.88298+0.884932

which is:

Area on the left=0.883955.

Rounding off to three places after the decimal, the probability is 0.884 as 9≥5.

Conclusion:

The probability that a randomly selected student will drink less than suggested water is 0.884.

To determine

b.

To find:

Amount by which the mean needs to be increased so that only 5% of students drink less than 36 oz per week, if the standard deviation remained the same and the daily water intakes were still normally distributed.

Expert Solution

Answer to Problem 28E

Solution:

Amount by which the mean needs to be increased so that only 5% of students drink less than 36 oz per week is 15.68 oz.

Explanation of Solution

Given:

Mean μ=32.0

Standard deviation σ=7.1

Suggested intake according to report Xs=40.5

Cut-off intake Xc=36

Percentile a=5%

Description:

In statistics, the normal Gaussian distribution with the following characteristics:

μ=0, and

σ=1

is called standard normal distribution with probability density function:

f(x|0,1)=12πe−x22

When this function is plotted on the x-axis, the area between the curve and x-axis is equal to one, because the sum of probabilities is unity.

Area on the left of a given z-value (say z=a) is the probability P(X≤a) given by the integration:

∫−∞af(x)dx,

which can be obtained from the normal distribution table.

The x-value, z-value, the mean, along with the standard deviation are related as below:

z=x−μσ,

or equivalently

x=z×σ+μ.

Now,

In the second part, the appropriate z-value z* is first obtained from the percentile given by converting percentile to area on left after which it is used to calculate the new mean by:

μ*=Xc−z*×σ.

Thereafter, the required increase in mean is computed.

Calculation:

In the second part, area on the left is equal to the decimal representation of percentile, that is:

Area on left = 0.05.

From the table, the z-value is obtained at z*=−1.645 which is between −1.64 and −1.65.

Using the relation defined above,

μ*=Xc−z*×σ,

the new mean is found as:

μ*=36−(−1.645)×7.1

which gives the new mean:

μ*=47.6795.

Previous mean μ=32, so the increase in mean required is:

47.6795−32=15.6795.

Since thousandth place digit is 9 and 9≥5, thus rounding off the difference till the hundredth place digit is:

difference=15.68.

Conclusion:

Amount by which the mean needs to be increased so that only 5% of students drink less than 36 oz per week is 15.68 oz.

Answer 6

Chapter 6.4, Problem 28E

To determine

a.

To find:

The probability that a randomly selected student will drink less than suggested 40.5 oz of water in a day supposing the amounts of water that schoolchildren actually consume in a day are approximately normally distributed with a mean of 32.0 oz and a standard deviation of 7.1 oz.

Expert Solution

Answer to Problem 28E

Solution:

The probability that a randomly selected student will drink less than suggested water is 0.884.

Explanation of Solution

Given:

Mean μ=32.0

Standard deviation σ=7.1

Suggested intake according to report Xs=40.5

Cut-off intake Xc=36

Percentile a=5%

Description:

In statistics, the normal Gaussian distribution with the following characteristics:

μ=0, and

σ=1

is called standard normal distribution with probability density function:

f(x|0,1)=12πe−x22

When this function is plotted on the x-axis, the area between the curve and x-axis is equal to one, because the sum of probabilities is unity.

Area on the left of a given z-value (say z=a) is the probability P(X≤a) given by the integration:

∫−∞af(x)dx,

which can be obtained from the normal distribution table.

The x-value, z-value, the mean, along with the standard deviation are related as below:

z=x−μσ,

or equivalently

x=z×σ+μ.

Now,

In the first subpart, in order to find the probability the table is consulted to look-up the value in the row denoted by unit and tenth digits and the column by hundredth digit before which the z-value zs is calculated.

Calculation:

In the first part, using the given data and above relation:

zs=Xs−μσ

that is:

zs=40.5−32.07.1

which gives:

zs=1.197.

This z-value lies between 1.19 and 1.20.

Area on the left=0.88298+0.884932

which is:

Area on the left=0.883955.

Rounding off to three places after the decimal, the probability is 0.884 as 9≥5.

Conclusion:

The probability that a randomly selected student will drink less than suggested water is 0.884.

Answer 7

Chapter 6.4, Problem 28E

To determine

a.

To find:

The probability that a randomly selected student will drink less than suggested 40.5 oz of water in a day supposing the amounts of water that schoolchildren actually consume in a day are approximately normally distributed with a mean of 32.0 oz and a standard deviation of 7.1 oz.

Answer 8

Expert Solution

Answer to Problem 28E

Solution:

The probability that a randomly selected student will drink less than suggested water is 0.884.

Answer 9

Expert Solution

Answer 10

Expert Solution

Answer 11

Expert Solution

Answer 12

Explanation of Solution

Given:

Mean μ=32.0

Standard deviation σ=7.1

Suggested intake according to report Xs=40.5

Cut-off intake Xc=36

Percentile a=5%

Description:

In statistics, the normal Gaussian distribution with the following characteristics:

μ=0, and

σ=1

is called standard normal distribution with probability density function:

f(x|0,1)=12πe−x22

When this function is plotted on the x-axis, the area between the curve and x-axis is equal to one, because the sum of probabilities is unity.

Area on the left of a given z-value (say z=a) is the probability P(X≤a) given by the integration:

∫−∞af(x)dx,

which can be obtained from the normal distribution table.

The x-value, z-value, the mean, along with the standard deviation are related as below:

z=x−μσ,

or equivalently

x=z×σ+μ.

Now,

In the first subpart, in order to find the probability the table is consulted to look-up the value in the row denoted by unit and tenth digits and the column by hundredth digit before which the z-value zs is calculated.

Calculation:

In the first part, using the given data and above relation:

zs=Xs−μσ

that is:

zs=40.5−32.07.1

which gives:

zs=1.197.

This z-value lies between 1.19 and 1.20.

Area on the left=0.88298+0.884932

which is:

Area on the left=0.883955.

Rounding off to three places after the decimal, the probability is 0.884 as 9≥5.

Conclusion:

The probability that a randomly selected student will drink less than suggested water is 0.884.

Answer 13

To determine

b.

To find:

Amount by which the mean needs to be increased so that only 5% of students drink less than 36 oz per week, if the standard deviation remained the same and the daily water intakes were still normally distributed.

Expert Solution

Answer to Problem 28E

Solution:

Amount by which the mean needs to be increased so that only 5% of students drink less than 36 oz per week is 15.68 oz.

Explanation of Solution

Given:

Mean μ=32.0

Standard deviation σ=7.1

Suggested intake according to report Xs=40.5

Cut-off intake Xc=36

Percentile a=5%

Description:

In statistics, the normal Gaussian distribution with the following characteristics:

μ=0, and

σ=1

is called standard normal distribution with probability density function:

f(x|0,1)=12πe−x22

When this function is plotted on the x-axis, the area between the curve and x-axis is equal to one, because the sum of probabilities is unity.

Area on the left of a given z-value (say z=a) is the probability P(X≤a) given by the integration:

∫−∞af(x)dx,

which can be obtained from the normal distribution table.

The x-value, z-value, the mean, along with the standard deviation are related as below:

z=x−μσ,

or equivalently

x=z×σ+μ.

Now,

In the second part, the appropriate z-value z* is first obtained from the percentile given by converting percentile to area on left after which it is used to calculate the new mean by:

μ*=Xc−z*×σ.

Thereafter, the required increase in mean is computed.

Calculation:

In the second part, area on the left is equal to the decimal representation of percentile, that is:

Area on left = 0.05.

From the table, the z-value is obtained at z*=−1.645 which is between −1.64 and −1.65.

Using the relation defined above,

μ*=Xc−z*×σ,

the new mean is found as:

μ*=36−(−1.645)×7.1

which gives the new mean:

μ*=47.6795.

Previous mean μ=32, so the increase in mean required is:

47.6795−32=15.6795.

Since thousandth place digit is 9 and 9≥5, thus rounding off the difference till the hundredth place digit is:

difference=15.68.

Conclusion:

Amount by which the mean needs to be increased so that only 5% of students drink less than 36 oz per week is 15.68 oz.

Answer 14

To determine

b.

To find:

Amount by which the mean needs to be increased so that only 5% of students drink less than 36 oz per week, if the standard deviation remained the same and the daily water intakes were still normally distributed.

Answer 15

Expert Solution

Answer to Problem 28E

Solution:

Amount by which the mean needs to be increased so that only 5% of students drink less than 36 oz per week is 15.68 oz.

Answer 16

Expert Solution

Answer 17

Expert Solution

Answer 18

Expert Solution

Answer 19

Explanation of Solution

Given:

Mean μ=32.0

Standard deviation σ=7.1

Suggested intake according to report Xs=40.5

Cut-off intake Xc=36

Percentile a=5%

Description:

In statistics, the normal Gaussian distribution with the following characteristics:

μ=0, and

σ=1

is called standard normal distribution with probability density function:

f(x|0,1)=12πe−x22

When this function is plotted on the x-axis, the area between the curve and x-axis is equal to one, because the sum of probabilities is unity.

Area on the left of a given z-value (say z=a) is the probability P(X≤a) given by the integration:

∫−∞af(x)dx,

which can be obtained from the normal distribution table.

The x-value, z-value, the mean, along with the standard deviation are related as below:

z=x−μσ,

or equivalently

x=z×σ+μ.

Now,

In the second part, the appropriate z-value z* is first obtained from the percentile given by converting percentile to area on left after which it is used to calculate the new mean by:

μ*=Xc−z*×σ.

Thereafter, the required increase in mean is computed.

Calculation:

In the second part, area on the left is equal to the decimal representation of percentile, that is:

Area on left = 0.05.

From the table, the z-value is obtained at z*=−1.645 which is between −1.64 and −1.65.

Using the relation defined above,

μ*=Xc−z*×σ,

the new mean is found as:

μ*=36−(−1.645)×7.1

which gives the new mean:

μ*=47.6795.

Previous mean μ=32, so the increase in mean required is:

47.6795−32=15.6795.

Since thousandth place digit is 9 and 9≥5, thus rounding off the difference till the hundredth place digit is:

difference=15.68.

Conclusion:

Amount by which the mean needs to be increased so that only 5% of students drink less than 36 oz per week is 15.68 oz.

Answer 20

Ch. 6.1 - Prob. 1E Ch. 6.1 - Prob. 2E Ch. 6.1 - Prob. 3E Ch. 6.1 - Prob. 4E Ch. 6.1 - Prob. 5E Ch. 6.1 - Prob. 6E Ch. 6.1 - Prob. 7E Ch. 6.1 - Prob. 8E Ch. 6.1 - Prob. 9E Ch. 6.1 - Prob. 10E

a. To find: The probability that a randomly selected student will drink less than suggested 40.5 oz of water in a day supposing the amounts of water that schoolchildren actually consume in a day are approximately normally distributed with a mean of 32.0 oz and a standard deviation of 7.1 oz.

a. To find: The probability that a randomly selected student will drink less than suggested 40.5 oz of water in a day supposing the amounts of water that schoolchildren actually consume in a day are approximately normally distributed with a mean of 32.0 oz and a standard deviation of 7.1 oz.

Answer to Problem 28E

Explanation of Solution

b. To find: Amount by which the mean needs to be increased so that only 5% of students drink less than 36 oz per week, if the standard deviation remained the same and the daily water intakes were still normally distributed.

Answer to Problem 28E

Explanation of Solution

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Chapter 6 Solutions

a.

To find:

The probability that a randomly selected student will drink less than suggested 40.5 oz of water in a day supposing the amounts of water that schoolchildren actually consume in a day are approximately normally distributed with a mean of 32.0 oz and a standard deviation of 7.1 oz.

b.

To find:

Amount by which the mean needs to be increased so that only 5% of students drink less than 36 oz per week, if the standard deviation remained the same and the daily water intakes were still normally distributed.