To find out what is the sampling distribution of the mean blood arsenic concentration x ¯ in many samples of 25 adults if the claim is true and sketch the density curve of this distribution.

Question

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Answer 1

Question

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.

Chapter 14, Problem 14.10AYK

(a)

To determine

To find out what is the sampling distribution of the mean blood arsenic concentration x¯ in many samples of 25 adults if the claim is true and sketch the density curve of this distribution.

(a)

Expert Solution

Answer to Problem 14.10AYK

The sampling distribution of the mean blood arsenic concentration x¯ in many samples of 25 adults is x¯∼N(μ=3.2,σ=0.3) .

Explanation of Solution

It is given in the question that Arsenic blood concentrations in healthy individuals are normally distributed with mean μ=3.2 micro per deciliter and standard deviation σ=1.5μg/dl . And they have taken a sample of adults and asked whether the data provide good evidence that the mean blood arsenic concentration in this population is elevated compared with the 3.2μg/dl mea of the population of healthy individuals. Thus, the parameter defined in this scenario is μ , the mean blood arsenic concentration in this population. And the null and alternative hypotheses is defined by:

H0:μ=3.2μg/dlHa:μ≠3.2μg/dl

Now, we know that the mean blood arsenic concentration x¯ in many samples of 25 adults follows the Normal distribution as the population is normal. So, the sampling distribution of the mean blood arsenic concentration x¯ in many samples of 25 adults is μ=3.2 micro per deciliter. And we have,

σx¯=σn=1.525=0.3

Thus, we have, x¯∼N(μ=3.2,σ=0.3) .

And the sketch of the density curve of this distribution is as follows:

EBK PRACTICE OF STATISTICS IN THE LIFE, Chapter 14, Problem 14.10AYK

(b)

To determine

To obtain P-value for this area and what would we conclude.

(b)

Expert Solution

Answer to Problem 14.10AYK

The P-value is p=0.6171 .

Explanation of Solution

It is given in the question that Arsenic blood concentrations in healthy individuals are normally distributed with mean μ=3.2 micro per deciliter and standard deviation σ=1.5μg/dl . And they have taken a sample of adults and asked whether the data provide good evidence that the mean blood arsenic concentration in this population is elevated compared with the 3.2μg/dl mea of the population of healthy individuals. Thus, the parameter defined in this scenario is μ , the mean blood arsenic concentration in this population. And the null and alternative hypotheses is defined by:

H0:μ=3.2μg/dlHa:μ≠3.2μg/dl

And x¯∼N(μ=3.2,σ=0.3) .

Now, the first SRS gives,

x¯=3.35σ=1.5n=25μ=3.2

So, we have the test statistics value and P-value as:

z=x¯−μσn=3.35−3.21.525=0.5P−value=2×P(z<0.5)From the z table we get,p=0.6171

As we know that if the P-value is less than or equal to the significance level then the null hypothesis is rejected, so we have,

P>0.05⇒Fail to Reject H0

Thus, we conclude that we fail to reject the null hypothesis and there is no evidence that there is statistical difference.

(c)

To determine

To find out what would be the P-value for this area and what would we conclude.

(c)

Expert Solution

Answer to Problem 14.10AYK

The P-value is p=0.0668 .

Explanation of Solution

It is given in the question that Arsenic blood concentrations in healthy individuals are normally distributed with mean μ=3.2 micro per deciliter and standard deviation σ=1.5μg/dl . And they have taken a sample of adults and asked whether the data provide good evidence that the mean blood arsenic concentration in this population is elevated compared with the 3.2μg/dl mea of the population of healthy individuals. Thus, the parameter defined in this scenario is μ , the mean blood arsenic concentration in this population. And the null and alternative hypotheses is defined by:

H0:μ=3.2μg/dlHa:μ≠3.2μg/dl

And x¯∼N(μ=3.2,σ=0.3) .

Now, the second SRS gives,

x¯=3.75σ=1.5n=25μ=3.2

So, we have the test statistics value and P-value as:

z=x¯−μσn=3.75−3.21.525=1.83P−value=2×P(z<1.83)From the z table we get,p=0.0668

As we know that if the P-value is less than or equal to the significance level then the null hypothesis is rejected, so we have,

P>0.05⇒Fail to Reject H0

Thus, we conclude that we fail to reject the null hypothesis and there is no evidence that there is statistical difference.

(d)

To determine

To explain briefly why these P-valuestell us that one outcome is strong evidence against the null hypothesis and that the other outcome is not.

(d)

Expert Solution

Explanation of Solution

It is given in the question that Arsenic blood concentrations in healthy individuals are normally distributed with mean μ=3.2 micro per deciliter and standard deviation σ=1.5μg/dl . And they have taken a sample of adults and asked whether the data provide good evidence that the mean blood arsenic concentration in this population is elevated compared with the 3.2μg/dl mea of the population of healthy individuals. Thus, the parameter defined in this scenario is μ , the mean blood arsenic concentration in this population. And the null and alternative hypotheses is defined by:

H0:μ=3.2μg/dlHa:μ≠3.2μg/dl

And x¯∼N(μ=3.2,σ=0.3) .

Now, from the first SRS we get the P-value p=0.6171 and from the second SRS we get p=0.0668 . So, as we know that if the P-value is less than or equal to the significance level then the null hypothesis is rejected. Now, the first P-value is not statistically significant at the α=0.05 level and the second P-value is not statistically significant at the α=0.05 level. However, the actual P-values are more informative because we can conclude that the studies can provide very strong evidence against null hypothesis.

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Answer 2

Question

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.

Chapter 14, Problem 14.10AYK

(a)

To determine

To find out what is the sampling distribution of the mean blood arsenic concentration x¯ in many samples of 25 adults if the claim is true and sketch the density curve of this distribution.

(a)

Expert Solution

Answer to Problem 14.10AYK

The sampling distribution of the mean blood arsenic concentration x¯ in many samples of 25 adults is x¯∼N(μ=3.2,σ=0.3) .

Explanation of Solution

It is given in the question that Arsenic blood concentrations in healthy individuals are normally distributed with mean μ=3.2 micro per deciliter and standard deviation σ=1.5μg/dl . And they have taken a sample of adults and asked whether the data provide good evidence that the mean blood arsenic concentration in this population is elevated compared with the 3.2μg/dl mea of the population of healthy individuals. Thus, the parameter defined in this scenario is μ , the mean blood arsenic concentration in this population. And the null and alternative hypotheses is defined by:

H0:μ=3.2μg/dlHa:μ≠3.2μg/dl

Now, we know that the mean blood arsenic concentration x¯ in many samples of 25 adults follows the Normal distribution as the population is normal. So, the sampling distribution of the mean blood arsenic concentration x¯ in many samples of 25 adults is μ=3.2 micro per deciliter. And we have,

σx¯=σn=1.525=0.3

Thus, we have, x¯∼N(μ=3.2,σ=0.3) .

And the sketch of the density curve of this distribution is as follows:

EBK PRACTICE OF STATISTICS IN THE LIFE, Chapter 14, Problem 14.10AYK

(b)

To determine

To obtain P-value for this area and what would we conclude.

(b)

Expert Solution

Answer to Problem 14.10AYK

The P-value is p=0.6171 .

Explanation of Solution

It is given in the question that Arsenic blood concentrations in healthy individuals are normally distributed with mean μ=3.2 micro per deciliter and standard deviation σ=1.5μg/dl . And they have taken a sample of adults and asked whether the data provide good evidence that the mean blood arsenic concentration in this population is elevated compared with the 3.2μg/dl mea of the population of healthy individuals. Thus, the parameter defined in this scenario is μ , the mean blood arsenic concentration in this population. And the null and alternative hypotheses is defined by:

H0:μ=3.2μg/dlHa:μ≠3.2μg/dl

And x¯∼N(μ=3.2,σ=0.3) .

Now, the first SRS gives,

x¯=3.35σ=1.5n=25μ=3.2

So, we have the test statistics value and P-value as:

z=x¯−μσn=3.35−3.21.525=0.5P−value=2×P(z<0.5)From the z table we get,p=0.6171

As we know that if the P-value is less than or equal to the significance level then the null hypothesis is rejected, so we have,

P>0.05⇒Fail to Reject H0

Thus, we conclude that we fail to reject the null hypothesis and there is no evidence that there is statistical difference.

(c)

To determine

To find out what would be the P-value for this area and what would we conclude.

(c)

Expert Solution

Answer to Problem 14.10AYK

The P-value is p=0.0668 .

Explanation of Solution

It is given in the question that Arsenic blood concentrations in healthy individuals are normally distributed with mean μ=3.2 micro per deciliter and standard deviation σ=1.5μg/dl . And they have taken a sample of adults and asked whether the data provide good evidence that the mean blood arsenic concentration in this population is elevated compared with the 3.2μg/dl mea of the population of healthy individuals. Thus, the parameter defined in this scenario is μ , the mean blood arsenic concentration in this population. And the null and alternative hypotheses is defined by:

H0:μ=3.2μg/dlHa:μ≠3.2μg/dl

And x¯∼N(μ=3.2,σ=0.3) .

Now, the second SRS gives,

x¯=3.75σ=1.5n=25μ=3.2

So, we have the test statistics value and P-value as:

z=x¯−μσn=3.75−3.21.525=1.83P−value=2×P(z<1.83)From the z table we get,p=0.0668

As we know that if the P-value is less than or equal to the significance level then the null hypothesis is rejected, so we have,

P>0.05⇒Fail to Reject H0

Thus, we conclude that we fail to reject the null hypothesis and there is no evidence that there is statistical difference.

(d)

To determine

To explain briefly why these P-valuestell us that one outcome is strong evidence against the null hypothesis and that the other outcome is not.

(d)

Expert Solution

Explanation of Solution

It is given in the question that Arsenic blood concentrations in healthy individuals are normally distributed with mean μ=3.2 micro per deciliter and standard deviation σ=1.5μg/dl . And they have taken a sample of adults and asked whether the data provide good evidence that the mean blood arsenic concentration in this population is elevated compared with the 3.2μg/dl mea of the population of healthy individuals. Thus, the parameter defined in this scenario is μ , the mean blood arsenic concentration in this population. And the null and alternative hypotheses is defined by:

H0:μ=3.2μg/dlHa:μ≠3.2μg/dl

And x¯∼N(μ=3.2,σ=0.3) .

Now, from the first SRS we get the P-value p=0.6171 and from the second SRS we get p=0.0668 . So, as we know that if the P-value is less than or equal to the significance level then the null hypothesis is rejected. Now, the first P-value is not statistically significant at the α=0.05 level and the second P-value is not statistically significant at the α=0.05 level. However, the actual P-values are more informative because we can conclude that the studies can provide very strong evidence against null hypothesis.

Want to see more full solutions like this?

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

Answer 3

Question

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.

Chapter 14, Problem 14.10AYK

(a)

To determine

To find out what is the sampling distribution of the mean blood arsenic concentration x¯ in many samples of 25 adults if the claim is true and sketch the density curve of this distribution.

(a)

Expert Solution

Answer to Problem 14.10AYK

The sampling distribution of the mean blood arsenic concentration x¯ in many samples of 25 adults is x¯∼N(μ=3.2,σ=0.3) .

Explanation of Solution

It is given in the question that Arsenic blood concentrations in healthy individuals are normally distributed with mean μ=3.2 micro per deciliter and standard deviation σ=1.5μg/dl . And they have taken a sample of adults and asked whether the data provide good evidence that the mean blood arsenic concentration in this population is elevated compared with the 3.2μg/dl mea of the population of healthy individuals. Thus, the parameter defined in this scenario is μ , the mean blood arsenic concentration in this population. And the null and alternative hypotheses is defined by:

H0:μ=3.2μg/dlHa:μ≠3.2μg/dl

Now, we know that the mean blood arsenic concentration x¯ in many samples of 25 adults follows the Normal distribution as the population is normal. So, the sampling distribution of the mean blood arsenic concentration x¯ in many samples of 25 adults is μ=3.2 micro per deciliter. And we have,

σx¯=σn=1.525=0.3

Thus, we have, x¯∼N(μ=3.2,σ=0.3) .

And the sketch of the density curve of this distribution is as follows:

EBK PRACTICE OF STATISTICS IN THE LIFE, Chapter 14, Problem 14.10AYK

(b)

To determine

To obtain P-value for this area and what would we conclude.

(b)

Expert Solution

Answer to Problem 14.10AYK

The P-value is p=0.6171 .

Explanation of Solution

It is given in the question that Arsenic blood concentrations in healthy individuals are normally distributed with mean μ=3.2 micro per deciliter and standard deviation σ=1.5μg/dl . And they have taken a sample of adults and asked whether the data provide good evidence that the mean blood arsenic concentration in this population is elevated compared with the 3.2μg/dl mea of the population of healthy individuals. Thus, the parameter defined in this scenario is μ , the mean blood arsenic concentration in this population. And the null and alternative hypotheses is defined by:

H0:μ=3.2μg/dlHa:μ≠3.2μg/dl

And x¯∼N(μ=3.2,σ=0.3) .

Now, the first SRS gives,

x¯=3.35σ=1.5n=25μ=3.2

So, we have the test statistics value and P-value as:

z=x¯−μσn=3.35−3.21.525=0.5P−value=2×P(z<0.5)From the z table we get,p=0.6171

As we know that if the P-value is less than or equal to the significance level then the null hypothesis is rejected, so we have,

P>0.05⇒Fail to Reject H0

Thus, we conclude that we fail to reject the null hypothesis and there is no evidence that there is statistical difference.

(c)

To determine

To find out what would be the P-value for this area and what would we conclude.

(c)

Expert Solution

Answer to Problem 14.10AYK

The P-value is p=0.0668 .

Explanation of Solution

It is given in the question that Arsenic blood concentrations in healthy individuals are normally distributed with mean μ=3.2 micro per deciliter and standard deviation σ=1.5μg/dl . And they have taken a sample of adults and asked whether the data provide good evidence that the mean blood arsenic concentration in this population is elevated compared with the 3.2μg/dl mea of the population of healthy individuals. Thus, the parameter defined in this scenario is μ , the mean blood arsenic concentration in this population. And the null and alternative hypotheses is defined by:

H0:μ=3.2μg/dlHa:μ≠3.2μg/dl

And x¯∼N(μ=3.2,σ=0.3) .

Now, the second SRS gives,

x¯=3.75σ=1.5n=25μ=3.2

So, we have the test statistics value and P-value as:

z=x¯−μσn=3.75−3.21.525=1.83P−value=2×P(z<1.83)From the z table we get,p=0.0668

As we know that if the P-value is less than or equal to the significance level then the null hypothesis is rejected, so we have,

P>0.05⇒Fail to Reject H0

Thus, we conclude that we fail to reject the null hypothesis and there is no evidence that there is statistical difference.

(d)

To determine

To explain briefly why these P-valuestell us that one outcome is strong evidence against the null hypothesis and that the other outcome is not.

(d)

Expert Solution

Explanation of Solution

It is given in the question that Arsenic blood concentrations in healthy individuals are normally distributed with mean μ=3.2 micro per deciliter and standard deviation σ=1.5μg/dl . And they have taken a sample of adults and asked whether the data provide good evidence that the mean blood arsenic concentration in this population is elevated compared with the 3.2μg/dl mea of the population of healthy individuals. Thus, the parameter defined in this scenario is μ , the mean blood arsenic concentration in this population. And the null and alternative hypotheses is defined by:

H0:μ=3.2μg/dlHa:μ≠3.2μg/dl

And x¯∼N(μ=3.2,σ=0.3) .

Now, from the first SRS we get the P-value p=0.6171 and from the second SRS we get p=0.0668 . So, as we know that if the P-value is less than or equal to the significance level then the null hypothesis is rejected. Now, the first P-value is not statistically significant at the α=0.05 level and the second P-value is not statistically significant at the α=0.05 level. However, the actual P-values are more informative because we can conclude that the studies can provide very strong evidence against null hypothesis.

Want to see more full solutions like this?

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

Answer 4

Question

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.

Chapter 14, Problem 14.10AYK

(a)

To determine

To find out what is the sampling distribution of the mean blood arsenic concentration x¯ in many samples of 25 adults if the claim is true and sketch the density curve of this distribution.

(a)

Expert Solution

Answer to Problem 14.10AYK

The sampling distribution of the mean blood arsenic concentration x¯ in many samples of 25 adults is x¯∼N(μ=3.2,σ=0.3) .

Explanation of Solution

It is given in the question that Arsenic blood concentrations in healthy individuals are normally distributed with mean μ=3.2 micro per deciliter and standard deviation σ=1.5μg/dl . And they have taken a sample of adults and asked whether the data provide good evidence that the mean blood arsenic concentration in this population is elevated compared with the 3.2μg/dl mea of the population of healthy individuals. Thus, the parameter defined in this scenario is μ , the mean blood arsenic concentration in this population. And the null and alternative hypotheses is defined by:

H0:μ=3.2μg/dlHa:μ≠3.2μg/dl

Now, we know that the mean blood arsenic concentration x¯ in many samples of 25 adults follows the Normal distribution as the population is normal. So, the sampling distribution of the mean blood arsenic concentration x¯ in many samples of 25 adults is μ=3.2 micro per deciliter. And we have,

σx¯=σn=1.525=0.3

Thus, we have, x¯∼N(μ=3.2,σ=0.3) .

And the sketch of the density curve of this distribution is as follows:

EBK PRACTICE OF STATISTICS IN THE LIFE, Chapter 14, Problem 14.10AYK

(b)

To determine

To obtain P-value for this area and what would we conclude.

(b)

Expert Solution

Answer to Problem 14.10AYK

The P-value is p=0.6171 .

Explanation of Solution

It is given in the question that Arsenic blood concentrations in healthy individuals are normally distributed with mean μ=3.2 micro per deciliter and standard deviation σ=1.5μg/dl . And they have taken a sample of adults and asked whether the data provide good evidence that the mean blood arsenic concentration in this population is elevated compared with the 3.2μg/dl mea of the population of healthy individuals. Thus, the parameter defined in this scenario is μ , the mean blood arsenic concentration in this population. And the null and alternative hypotheses is defined by:

H0:μ=3.2μg/dlHa:μ≠3.2μg/dl

And x¯∼N(μ=3.2,σ=0.3) .

Now, the first SRS gives,

x¯=3.35σ=1.5n=25μ=3.2

So, we have the test statistics value and P-value as:

z=x¯−μσn=3.35−3.21.525=0.5P−value=2×P(z<0.5)From the z table we get,p=0.6171

As we know that if the P-value is less than or equal to the significance level then the null hypothesis is rejected, so we have,

P>0.05⇒Fail to Reject H0

Thus, we conclude that we fail to reject the null hypothesis and there is no evidence that there is statistical difference.

(c)

To determine

To find out what would be the P-value for this area and what would we conclude.

(c)

Expert Solution

Answer to Problem 14.10AYK

The P-value is p=0.0668 .

Explanation of Solution

It is given in the question that Arsenic blood concentrations in healthy individuals are normally distributed with mean μ=3.2 micro per deciliter and standard deviation σ=1.5μg/dl . And they have taken a sample of adults and asked whether the data provide good evidence that the mean blood arsenic concentration in this population is elevated compared with the 3.2μg/dl mea of the population of healthy individuals. Thus, the parameter defined in this scenario is μ , the mean blood arsenic concentration in this population. And the null and alternative hypotheses is defined by:

H0:μ=3.2μg/dlHa:μ≠3.2μg/dl

And x¯∼N(μ=3.2,σ=0.3) .

Now, the second SRS gives,

x¯=3.75σ=1.5n=25μ=3.2

So, we have the test statistics value and P-value as:

z=x¯−μσn=3.75−3.21.525=1.83P−value=2×P(z<1.83)From the z table we get,p=0.0668

As we know that if the P-value is less than or equal to the significance level then the null hypothesis is rejected, so we have,

P>0.05⇒Fail to Reject H0

Thus, we conclude that we fail to reject the null hypothesis and there is no evidence that there is statistical difference.

(d)

To determine

To explain briefly why these P-valuestell us that one outcome is strong evidence against the null hypothesis and that the other outcome is not.

(d)

Expert Solution

Explanation of Solution

It is given in the question that Arsenic blood concentrations in healthy individuals are normally distributed with mean μ=3.2 micro per deciliter and standard deviation σ=1.5μg/dl . And they have taken a sample of adults and asked whether the data provide good evidence that the mean blood arsenic concentration in this population is elevated compared with the 3.2μg/dl mea of the population of healthy individuals. Thus, the parameter defined in this scenario is μ , the mean blood arsenic concentration in this population. And the null and alternative hypotheses is defined by:

H0:μ=3.2μg/dlHa:μ≠3.2μg/dl

And x¯∼N(μ=3.2,σ=0.3) .

Now, from the first SRS we get the P-value p=0.6171 and from the second SRS we get p=0.0668 . So, as we know that if the P-value is less than or equal to the significance level then the null hypothesis is rejected. Now, the first P-value is not statistically significant at the α=0.05 level and the second P-value is not statistically significant at the α=0.05 level. However, the actual P-values are more informative because we can conclude that the studies can provide very strong evidence against null hypothesis.

Want to see more full solutions like this?

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

Answer 5

Chapter 14, Problem 14.10AYK

(a)

To determine

To find out what is the sampling distribution of the mean blood arsenic concentration x¯ in many samples of 25 adults if the claim is true and sketch the density curve of this distribution.

(a)

Expert Solution

Answer to Problem 14.10AYK

The sampling distribution of the mean blood arsenic concentration x¯ in many samples of 25 adults is x¯∼N(μ=3.2,σ=0.3) .

Explanation of Solution

It is given in the question that Arsenic blood concentrations in healthy individuals are normally distributed with mean μ=3.2 micro per deciliter and standard deviation σ=1.5μg/dl . And they have taken a sample of adults and asked whether the data provide good evidence that the mean blood arsenic concentration in this population is elevated compared with the 3.2μg/dl mea of the population of healthy individuals. Thus, the parameter defined in this scenario is μ , the mean blood arsenic concentration in this population. And the null and alternative hypotheses is defined by:

H0:μ=3.2μg/dlHa:μ≠3.2μg/dl

Now, we know that the mean blood arsenic concentration x¯ in many samples of 25 adults follows the Normal distribution as the population is normal. So, the sampling distribution of the mean blood arsenic concentration x¯ in many samples of 25 adults is μ=3.2 micro per deciliter. And we have,

σx¯=σn=1.525=0.3

Thus, we have, x¯∼N(μ=3.2,σ=0.3) .

And the sketch of the density curve of this distribution is as follows:

EBK PRACTICE OF STATISTICS IN THE LIFE, Chapter 14, Problem 14.10AYK

(b)

To determine

To obtain P-value for this area and what would we conclude.

(b)

Expert Solution

Answer to Problem 14.10AYK

The P-value is p=0.6171 .

Explanation of Solution

It is given in the question that Arsenic blood concentrations in healthy individuals are normally distributed with mean μ=3.2 micro per deciliter and standard deviation σ=1.5μg/dl . And they have taken a sample of adults and asked whether the data provide good evidence that the mean blood arsenic concentration in this population is elevated compared with the 3.2μg/dl mea of the population of healthy individuals. Thus, the parameter defined in this scenario is μ , the mean blood arsenic concentration in this population. And the null and alternative hypotheses is defined by:

H0:μ=3.2μg/dlHa:μ≠3.2μg/dl

And x¯∼N(μ=3.2,σ=0.3) .

Now, the first SRS gives,

x¯=3.35σ=1.5n=25μ=3.2

So, we have the test statistics value and P-value as:

z=x¯−μσn=3.35−3.21.525=0.5P−value=2×P(z<0.5)From the z table we get,p=0.6171

As we know that if the P-value is less than or equal to the significance level then the null hypothesis is rejected, so we have,

P>0.05⇒Fail to Reject H0

Thus, we conclude that we fail to reject the null hypothesis and there is no evidence that there is statistical difference.

(c)

To determine

To find out what would be the P-value for this area and what would we conclude.

(c)

Expert Solution

Answer to Problem 14.10AYK

The P-value is p=0.0668 .

Explanation of Solution

It is given in the question that Arsenic blood concentrations in healthy individuals are normally distributed with mean μ=3.2 micro per deciliter and standard deviation σ=1.5μg/dl . And they have taken a sample of adults and asked whether the data provide good evidence that the mean blood arsenic concentration in this population is elevated compared with the 3.2μg/dl mea of the population of healthy individuals. Thus, the parameter defined in this scenario is μ , the mean blood arsenic concentration in this population. And the null and alternative hypotheses is defined by:

H0:μ=3.2μg/dlHa:μ≠3.2μg/dl

And x¯∼N(μ=3.2,σ=0.3) .

Now, the second SRS gives,

x¯=3.75σ=1.5n=25μ=3.2

So, we have the test statistics value and P-value as:

z=x¯−μσn=3.75−3.21.525=1.83P−value=2×P(z<1.83)From the z table we get,p=0.0668

As we know that if the P-value is less than or equal to the significance level then the null hypothesis is rejected, so we have,

P>0.05⇒Fail to Reject H0

Thus, we conclude that we fail to reject the null hypothesis and there is no evidence that there is statistical difference.

(d)

To determine

To explain briefly why these P-valuestell us that one outcome is strong evidence against the null hypothesis and that the other outcome is not.

(d)

Expert Solution

Explanation of Solution

It is given in the question that Arsenic blood concentrations in healthy individuals are normally distributed with mean μ=3.2 micro per deciliter and standard deviation σ=1.5μg/dl . And they have taken a sample of adults and asked whether the data provide good evidence that the mean blood arsenic concentration in this population is elevated compared with the 3.2μg/dl mea of the population of healthy individuals. Thus, the parameter defined in this scenario is μ , the mean blood arsenic concentration in this population. And the null and alternative hypotheses is defined by:

H0:μ=3.2μg/dlHa:μ≠3.2μg/dl

And x¯∼N(μ=3.2,σ=0.3) .

Now, from the first SRS we get the P-value p=0.6171 and from the second SRS we get p=0.0668 . So, as we know that if the P-value is less than or equal to the significance level then the null hypothesis is rejected. Now, the first P-value is not statistically significant at the α=0.05 level and the second P-value is not statistically significant at the α=0.05 level. However, the actual P-values are more informative because we can conclude that the studies can provide very strong evidence against null hypothesis.

Answer 6

Chapter 14, Problem 14.10AYK

(a)

To determine

To find out what is the sampling distribution of the mean blood arsenic concentration x¯ in many samples of 25 adults if the claim is true and sketch the density curve of this distribution.

(a)

Expert Solution

Answer to Problem 14.10AYK

The sampling distribution of the mean blood arsenic concentration x¯ in many samples of 25 adults is x¯∼N(μ=3.2,σ=0.3) .

Explanation of Solution

It is given in the question that Arsenic blood concentrations in healthy individuals are normally distributed with mean μ=3.2 micro per deciliter and standard deviation σ=1.5μg/dl . And they have taken a sample of adults and asked whether the data provide good evidence that the mean blood arsenic concentration in this population is elevated compared with the 3.2μg/dl mea of the population of healthy individuals. Thus, the parameter defined in this scenario is μ , the mean blood arsenic concentration in this population. And the null and alternative hypotheses is defined by:

H0:μ=3.2μg/dlHa:μ≠3.2μg/dl

Now, we know that the mean blood arsenic concentration x¯ in many samples of 25 adults follows the Normal distribution as the population is normal. So, the sampling distribution of the mean blood arsenic concentration x¯ in many samples of 25 adults is μ=3.2 micro per deciliter. And we have,

σx¯=σn=1.525=0.3

Thus, we have, x¯∼N(μ=3.2,σ=0.3) .

And the sketch of the density curve of this distribution is as follows:

EBK PRACTICE OF STATISTICS IN THE LIFE, Chapter 14, Problem 14.10AYK

Answer 7

Chapter 14, Problem 14.10AYK

(a)

To determine

To find out what is the sampling distribution of the mean blood arsenic concentration x¯ in many samples of 25 adults if the claim is true and sketch the density curve of this distribution.

Answer 8

(a)

Expert Solution

Answer to Problem 14.10AYK

The sampling distribution of the mean blood arsenic concentration x¯ in many samples of 25 adults is x¯∼N(μ=3.2,σ=0.3) .

Answer 9

(a)

Expert Solution

Answer 10

(a)

Expert Solution

Answer 11

Expert Solution

Answer 12

Explanation of Solution

It is given in the question that Arsenic blood concentrations in healthy individuals are normally distributed with mean μ=3.2 micro per deciliter and standard deviation σ=1.5μg/dl . And they have taken a sample of adults and asked whether the data provide good evidence that the mean blood arsenic concentration in this population is elevated compared with the 3.2μg/dl mea of the population of healthy individuals. Thus, the parameter defined in this scenario is μ , the mean blood arsenic concentration in this population. And the null and alternative hypotheses is defined by:

H0:μ=3.2μg/dlHa:μ≠3.2μg/dl

Now, we know that the mean blood arsenic concentration x¯ in many samples of 25 adults follows the Normal distribution as the population is normal. So, the sampling distribution of the mean blood arsenic concentration x¯ in many samples of 25 adults is μ=3.2 micro per deciliter. And we have,

σx¯=σn=1.525=0.3

Thus, we have, x¯∼N(μ=3.2,σ=0.3) .

And the sketch of the density curve of this distribution is as follows:

EBK PRACTICE OF STATISTICS IN THE LIFE, Chapter 14, Problem 14.10AYK

Answer 13

(b)

To determine

To obtain P-value for this area and what would we conclude.

(b)

Expert Solution

Answer to Problem 14.10AYK

The P-value is p=0.6171 .

Explanation of Solution

It is given in the question that Arsenic blood concentrations in healthy individuals are normally distributed with mean μ=3.2 micro per deciliter and standard deviation σ=1.5μg/dl . And they have taken a sample of adults and asked whether the data provide good evidence that the mean blood arsenic concentration in this population is elevated compared with the 3.2μg/dl mea of the population of healthy individuals. Thus, the parameter defined in this scenario is μ , the mean blood arsenic concentration in this population. And the null and alternative hypotheses is defined by:

H0:μ=3.2μg/dlHa:μ≠3.2μg/dl

And x¯∼N(μ=3.2,σ=0.3) .

Now, the first SRS gives,

x¯=3.35σ=1.5n=25μ=3.2

So, we have the test statistics value and P-value as:

z=x¯−μσn=3.35−3.21.525=0.5P−value=2×P(z<0.5)From the z table we get,p=0.6171

As we know that if the P-value is less than or equal to the significance level then the null hypothesis is rejected, so we have,

P>0.05⇒Fail to Reject H0

Thus, we conclude that we fail to reject the null hypothesis and there is no evidence that there is statistical difference.

Answer 14

(b)

To determine

To obtain P-value for this area and what would we conclude.

Answer 15

(b)

Expert Solution

Answer to Problem 14.10AYK

The P-value is p=0.6171 .

Answer 16

(b)

Expert Solution

Answer 17

(b)

Expert Solution

Answer 18

Expert Solution

Answer 19

Explanation of Solution

It is given in the question that Arsenic blood concentrations in healthy individuals are normally distributed with mean μ=3.2 micro per deciliter and standard deviation σ=1.5μg/dl . And they have taken a sample of adults and asked whether the data provide good evidence that the mean blood arsenic concentration in this population is elevated compared with the 3.2μg/dl mea of the population of healthy individuals. Thus, the parameter defined in this scenario is μ , the mean blood arsenic concentration in this population. And the null and alternative hypotheses is defined by:

H0:μ=3.2μg/dlHa:μ≠3.2μg/dl

And x¯∼N(μ=3.2,σ=0.3) .

Now, the first SRS gives,

x¯=3.35σ=1.5n=25μ=3.2

So, we have the test statistics value and P-value as:

z=x¯−μσn=3.35−3.21.525=0.5P−value=2×P(z<0.5)From the z table we get,p=0.6171

As we know that if the P-value is less than or equal to the significance level then the null hypothesis is rejected, so we have,

P>0.05⇒Fail to Reject H0

Thus, we conclude that we fail to reject the null hypothesis and there is no evidence that there is statistical difference.

Answer 20

(c)

To determine

To find out what would be the P-value for this area and what would we conclude.

(c)

Expert Solution

Answer to Problem 14.10AYK

The P-value is p=0.0668 .

Explanation of Solution

It is given in the question that Arsenic blood concentrations in healthy individuals are normally distributed with mean μ=3.2 micro per deciliter and standard deviation σ=1.5μg/dl . And they have taken a sample of adults and asked whether the data provide good evidence that the mean blood arsenic concentration in this population is elevated compared with the 3.2μg/dl mea of the population of healthy individuals. Thus, the parameter defined in this scenario is μ , the mean blood arsenic concentration in this population. And the null and alternative hypotheses is defined by:

H0:μ=3.2μg/dlHa:μ≠3.2μg/dl

And x¯∼N(μ=3.2,σ=0.3) .

Now, the second SRS gives,

x¯=3.75σ=1.5n=25μ=3.2

So, we have the test statistics value and P-value as:

z=x¯−μσn=3.75−3.21.525=1.83P−value=2×P(z<1.83)From the z table we get,p=0.0668

As we know that if the P-value is less than or equal to the significance level then the null hypothesis is rejected, so we have,

P>0.05⇒Fail to Reject H0

Thus, we conclude that we fail to reject the null hypothesis and there is no evidence that there is statistical difference.

Answer 21

(c)

To determine

To find out what would be the P-value for this area and what would we conclude.

Answer 22

(c)

Expert Solution

Answer to Problem 14.10AYK

The P-value is p=0.0668 .

Answer 23

(c)

Expert Solution

Answer 24

(c)

Expert Solution

Answer 25

Expert Solution

Answer 26

Explanation of Solution

It is given in the question that Arsenic blood concentrations in healthy individuals are normally distributed with mean μ=3.2 micro per deciliter and standard deviation σ=1.5μg/dl . And they have taken a sample of adults and asked whether the data provide good evidence that the mean blood arsenic concentration in this population is elevated compared with the 3.2μg/dl mea of the population of healthy individuals. Thus, the parameter defined in this scenario is μ , the mean blood arsenic concentration in this population. And the null and alternative hypotheses is defined by:

H0:μ=3.2μg/dlHa:μ≠3.2μg/dl

And x¯∼N(μ=3.2,σ=0.3) .

Now, the second SRS gives,

x¯=3.75σ=1.5n=25μ=3.2

So, we have the test statistics value and P-value as:

z=x¯−μσn=3.75−3.21.525=1.83P−value=2×P(z<1.83)From the z table we get,p=0.0668

As we know that if the P-value is less than or equal to the significance level then the null hypothesis is rejected, so we have,

P>0.05⇒Fail to Reject H0

Thus, we conclude that we fail to reject the null hypothesis and there is no evidence that there is statistical difference.

Answer 27

(d)

To determine

To explain briefly why these P-valuestell us that one outcome is strong evidence against the null hypothesis and that the other outcome is not.

(d)

Expert Solution

Explanation of Solution

It is given in the question that Arsenic blood concentrations in healthy individuals are normally distributed with mean μ=3.2 micro per deciliter and standard deviation σ=1.5μg/dl . And they have taken a sample of adults and asked whether the data provide good evidence that the mean blood arsenic concentration in this population is elevated compared with the 3.2μg/dl mea of the population of healthy individuals. Thus, the parameter defined in this scenario is μ , the mean blood arsenic concentration in this population. And the null and alternative hypotheses is defined by:

H0:μ=3.2μg/dlHa:μ≠3.2μg/dl

And x¯∼N(μ=3.2,σ=0.3) .

Now, from the first SRS we get the P-value p=0.6171 and from the second SRS we get p=0.0668 . So, as we know that if the P-value is less than or equal to the significance level then the null hypothesis is rejected. Now, the first P-value is not statistically significant at the α=0.05 level and the second P-value is not statistically significant at the α=0.05 level. However, the actual P-values are more informative because we can conclude that the studies can provide very strong evidence against null hypothesis.

Answer 28

(d)

To determine

To explain briefly why these P-valuestell us that one outcome is strong evidence against the null hypothesis and that the other outcome is not.

Answer 29

(d)

Expert Solution

Explanation of Solution

It is given in the question that Arsenic blood concentrations in healthy individuals are normally distributed with mean μ=3.2 micro per deciliter and standard deviation σ=1.5μg/dl . And they have taken a sample of adults and asked whether the data provide good evidence that the mean blood arsenic concentration in this population is elevated compared with the 3.2μg/dl mea of the population of healthy individuals. Thus, the parameter defined in this scenario is μ , the mean blood arsenic concentration in this population. And the null and alternative hypotheses is defined by:

H0:μ=3.2μg/dlHa:μ≠3.2μg/dl

And x¯∼N(μ=3.2,σ=0.3) .

Now, from the first SRS we get the P-value p=0.6171 and from the second SRS we get p=0.0668 . So, as we know that if the P-value is less than or equal to the significance level then the null hypothesis is rejected. Now, the first P-value is not statistically significant at the α=0.05 level and the second P-value is not statistically significant at the α=0.05 level. However, the actual P-values are more informative because we can conclude that the studies can provide very strong evidence against null hypothesis.