Advertising costs: The amounts spent (in billions) on media advertising in the United States for a sample of categories are presented in the following table. Find the mean amount spent on advertising. Find the median amount spent on advertising. Find the sample variance of the advertising amounts. Find the sample standard deviation of the advertising amounts. Find the first quartile of the advertising amounts. Find the third quartile of the advertising amounts. Find the 40th percentile of the advertising amounts. Find the 65th percentile of the advertising amounts.

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Answer 1

Textbook Question

Chapter 3, Problem 12RE

Advertising costs: The amounts spent (in billions) on media advertising in the United States for a sample of categories are presented in the following table.

Chapter 3, Problem 12RE, Advertising costs: The amounts spent (in billions) on media advertising in the United States for a

Find the mean amount spent on advertising.
Find the median amount spent on advertising.
Find the sample variance of the advertising amounts.
Find the sample standard deviation of the advertising amounts.
Find the first quartile of the advertising amounts.
Find the third quartile of the advertising amounts.
Find the 40th percentile of the advertising amounts.
Find the 65th percentile of the advertising amounts.

Definition Definition Measure of central tendency that is the average of a given data set. The mean value is evaluated as the quotient of the sum of all observations by the sample size. The mean, in contrast to a median, is affected by extreme values. Very large or very small values can distract the mean from the center of the data. Arithmetic mean: The most common type of mean is the arithmetic mean. It is evaluated using the formula: μ = 1 N ∑ i = 1 N x i Other types of means are the geometric mean, logarithmic mean, and harmonic mean. Geometric mean: The nth root of the product of n observations from a data set is defined as the geometric mean of the set: G = x 1 x 2 ... x n n Logarithmic mean: The difference of the natural logarithms of the two numbers, divided by the difference between the numbers is the logarithmic mean of the two numbers. The logarithmic mean is used particularly in heat transfer and mass transfer. ln x 2 − ln x 1 x 2 − x 1 Harmonic mean: The inverse of the arithmetic mean of the inverses of all the numbers in a data set is the harmonic mean of the data. 1 1 x 1 + 1 x 2 + ...

a)

Expert Solution

To determine

To find mean.

Answer to Problem 12RE

Mean is 8.75.

Explanation of Solution

Given table:

Amount spent
16.35
14.84
8.98
8.66
7.89
6.84
6.57
6.34
6.19
4.86

Formula used:

x¯=∑i=1nXin

Here n = 10.

Putting all values in formula,

x¯=87.5210=8.75

Therefore, mean is 8.75.

b)

Expert Solution

To determine

The median of given of amount spent.

Answer to Problem 12RE

Median is7.365.

Explanation of Solution

Given data sorted in ascending order:

Amount spent
4.86
6.19
6.34
6.57
6.84
7.89
8.66
8.98
14.84
16.35

Calculation:

Here n = 10 which is an even number.

Formula of median for even number is,

Median=( n+1 2)thitemMedian=( 10+1 2)thitemMedian=(5.5)thitemMedian=5 th item+6 th item2Median=6.84+7.892Median=7.365

c)

Expert Solution

To determine

To find sample variance.

Answer to Problem 12RE

Sample variance is 14.62.

Explanation of Solution

Creating table for sample standard deviation:

x	x−x¯	(x−x¯)2
16.35	1.03	1.0609
14.84	-0.48	0.2304
8.98	-6.34	40.1956
8.66	-6.66	44.3556
7.89	-7.43	55.2049
6.84	-8.48	71.9104
6.57	-8.75	76.5625
6.34	-8.98	80.6404
6.19	-9.13	83.3569
4.86	-10.46	109.4116
Sum		131.5

Formula is,

s2=∑ ( x i − x ¯ )2n−1

Calculation:

From the table,

∑(xi−x¯)2=131.5

Put in a formula,

s2=131.510=14.62

Sample variance = 14.62

d)

Expert Solution

To determine

The sample standard deviation.

Answer to Problem 12RE

Sample standard deviation is 3.82.

Explanation of Solution

Sample variance is 14.62

Formula for sample standard deviation is,

s=s2s=14.62=3.82

e)

Expert Solution

To determine

To find first quartile.

Answer to Problem 12RE

First quartile is 6.30.

Explanation of Solution

Given data sorted in ascending order:

Amount spent
4.86
6.19
6.34
6.57
6.84
7.89
8.66
8.98
14.84
16.35

Formula:

Q1=14(n+1)th valueQ1=14(10+1)th valueQ1=14(11)th valueQ1=(2.75)th valueQ1=2nd value+34×(3rd value−2nd value)Q1=6.19+34×(6.34−6.19)Q1=6.30

The first quartile is 6.30.

f)

Expert Solution

To determine

The third quartile.

Answer to Problem 12RE

Third quartile is 10.445.

Explanation of Solution

Formula and calculation:

Q3=34(n+1)th valueQ3=34(10+1)th valueQ3=34(11)th valueQ3=(8.25)th valueQ3=8.98+(8.25−8)x(14.84−8.98)Q3=10.445

g)

Expert Solution

To determine

To find 40^t^h percentile is 6.678.

Answer to Problem 12RE

40^t^h percentile.

Explanation of Solution

Given data sorted in ascending order:

Amount spent
4.86
6.19
6.34
6.57
6.84
7.89
8.66
8.98
14.84
16.35

Formula:

Percentile Position=(n+1)P100Percentile Position=(10+1)×40100Percentile Position=4.4

Since the position found is not an integer, the method of interpolation needs to be used. The 40% percentile is located between the values in positions 4 and 5. Those values, based on the data organized in ascending order, are 6.57 and 6.84.

The value of 4.4 - 4 = 0.4 corresponds to the proportion of the distance between 6.57 and 6.84 where the percentile we are looking for is located at.

Therefore,

P40=6.57+0.4×(6.84−6.57)=6.678

h)

Expert Solution

To determine

The 65^t^h percentile.

Answer to Problem 12RE

65^t^h percentile is 8.708.

Explanation of Solution

Percentile Position=(n+1)P100Percentile Position=(10+1)×65100Percentile Position=7.15

Since the position found is not integer, the method of interpolation needs to be used. The 65% percentile is located between the values in the positions 7 and 8. Those values, based on the data organized in ascending order, are 8.66 and 8.98.

The value of 7.15 - 7 = 0.15 corresponds to the proportion of the distance between 8.66 and 8.98 where the percentile we are looking for is located at.

P65=8.66+0.15×(8.98−8.66)=8.708

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Answer 2

Textbook Question

Chapter 3, Problem 12RE

Advertising costs: The amounts spent (in billions) on media advertising in the United States for a sample of categories are presented in the following table.

Chapter 3, Problem 12RE, Advertising costs: The amounts spent (in billions) on media advertising in the United States for a

Find the mean amount spent on advertising.
Find the median amount spent on advertising.
Find the sample variance of the advertising amounts.
Find the sample standard deviation of the advertising amounts.
Find the first quartile of the advertising amounts.
Find the third quartile of the advertising amounts.
Find the 40th percentile of the advertising amounts.
Find the 65th percentile of the advertising amounts.

Definition Definition Measure of central tendency that is the average of a given data set. The mean value is evaluated as the quotient of the sum of all observations by the sample size. The mean, in contrast to a median, is affected by extreme values. Very large or very small values can distract the mean from the center of the data. Arithmetic mean: The most common type of mean is the arithmetic mean. It is evaluated using the formula: μ = 1 N ∑ i = 1 N x i Other types of means are the geometric mean, logarithmic mean, and harmonic mean. Geometric mean: The nth root of the product of n observations from a data set is defined as the geometric mean of the set: G = x 1 x 2 ... x n n Logarithmic mean: The difference of the natural logarithms of the two numbers, divided by the difference between the numbers is the logarithmic mean of the two numbers. The logarithmic mean is used particularly in heat transfer and mass transfer. ln x 2 − ln x 1 x 2 − x 1 Harmonic mean: The inverse of the arithmetic mean of the inverses of all the numbers in a data set is the harmonic mean of the data. 1 1 x 1 + 1 x 2 + ...

a)

Expert Solution

To determine

To find mean.

Answer to Problem 12RE

Mean is 8.75.

Explanation of Solution

Given table:

Amount spent
16.35
14.84
8.98
8.66
7.89
6.84
6.57
6.34
6.19
4.86

Formula used:

x¯=∑i=1nXin

Here n = 10.

Putting all values in formula,

x¯=87.5210=8.75

Therefore, mean is 8.75.

b)

Expert Solution

To determine

The median of given of amount spent.

Answer to Problem 12RE

Median is7.365.

Explanation of Solution

Given data sorted in ascending order:

Amount spent
4.86
6.19
6.34
6.57
6.84
7.89
8.66
8.98
14.84
16.35

Calculation:

Here n = 10 which is an even number.

Formula of median for even number is,

Median=( n+1 2)thitemMedian=( 10+1 2)thitemMedian=(5.5)thitemMedian=5 th item+6 th item2Median=6.84+7.892Median=7.365

c)

Expert Solution

To determine

To find sample variance.

Answer to Problem 12RE

Sample variance is 14.62.

Explanation of Solution

Creating table for sample standard deviation:

x	x−x¯	(x−x¯)2
16.35	1.03	1.0609
14.84	-0.48	0.2304
8.98	-6.34	40.1956
8.66	-6.66	44.3556
7.89	-7.43	55.2049
6.84	-8.48	71.9104
6.57	-8.75	76.5625
6.34	-8.98	80.6404
6.19	-9.13	83.3569
4.86	-10.46	109.4116
Sum		131.5

Formula is,

s2=∑ ( x i − x ¯ )2n−1

Calculation:

From the table,

∑(xi−x¯)2=131.5

Put in a formula,

s2=131.510=14.62

Sample variance = 14.62

d)

Expert Solution

To determine

The sample standard deviation.

Answer to Problem 12RE

Sample standard deviation is 3.82.

Explanation of Solution

Sample variance is 14.62

Formula for sample standard deviation is,

s=s2s=14.62=3.82

e)

Expert Solution

To determine

To find first quartile.

Answer to Problem 12RE

First quartile is 6.30.

Explanation of Solution

Given data sorted in ascending order:

Amount spent
4.86
6.19
6.34
6.57
6.84
7.89
8.66
8.98
14.84
16.35

Formula:

Q1=14(n+1)th valueQ1=14(10+1)th valueQ1=14(11)th valueQ1=(2.75)th valueQ1=2nd value+34×(3rd value−2nd value)Q1=6.19+34×(6.34−6.19)Q1=6.30

The first quartile is 6.30.

f)

Expert Solution

To determine

The third quartile.

Answer to Problem 12RE

Third quartile is 10.445.

Explanation of Solution

Formula and calculation:

Q3=34(n+1)th valueQ3=34(10+1)th valueQ3=34(11)th valueQ3=(8.25)th valueQ3=8.98+(8.25−8)x(14.84−8.98)Q3=10.445

g)

Expert Solution

To determine

To find 40^t^h percentile is 6.678.

Answer to Problem 12RE

40^t^h percentile.

Explanation of Solution

Given data sorted in ascending order:

Amount spent
4.86
6.19
6.34
6.57
6.84
7.89
8.66
8.98
14.84
16.35

Formula:

Percentile Position=(n+1)P100Percentile Position=(10+1)×40100Percentile Position=4.4

Since the position found is not an integer, the method of interpolation needs to be used. The 40% percentile is located between the values in positions 4 and 5. Those values, based on the data organized in ascending order, are 6.57 and 6.84.

The value of 4.4 - 4 = 0.4 corresponds to the proportion of the distance between 6.57 and 6.84 where the percentile we are looking for is located at.

Therefore,

P40=6.57+0.4×(6.84−6.57)=6.678

h)

Expert Solution

To determine

The 65^t^h percentile.

Answer to Problem 12RE

65^t^h percentile is 8.708.

Explanation of Solution

Percentile Position=(n+1)P100Percentile Position=(10+1)×65100Percentile Position=7.15

Since the position found is not integer, the method of interpolation needs to be used. The 65% percentile is located between the values in the positions 7 and 8. Those values, based on the data organized in ascending order, are 8.66 and 8.98.

The value of 7.15 - 7 = 0.15 corresponds to the proportion of the distance between 8.66 and 8.98 where the percentile we are looking for is located at.

P65=8.66+0.15×(8.98−8.66)=8.708

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Answer 3

Textbook Question

Chapter 3, Problem 12RE

Advertising costs: The amounts spent (in billions) on media advertising in the United States for a sample of categories are presented in the following table.

Chapter 3, Problem 12RE, Advertising costs: The amounts spent (in billions) on media advertising in the United States for a

Find the mean amount spent on advertising.
Find the median amount spent on advertising.
Find the sample variance of the advertising amounts.
Find the sample standard deviation of the advertising amounts.
Find the first quartile of the advertising amounts.
Find the third quartile of the advertising amounts.
Find the 40th percentile of the advertising amounts.
Find the 65th percentile of the advertising amounts.

Definition Definition Measure of central tendency that is the average of a given data set. The mean value is evaluated as the quotient of the sum of all observations by the sample size. The mean, in contrast to a median, is affected by extreme values. Very large or very small values can distract the mean from the center of the data. Arithmetic mean: The most common type of mean is the arithmetic mean. It is evaluated using the formula: μ = 1 N ∑ i = 1 N x i Other types of means are the geometric mean, logarithmic mean, and harmonic mean. Geometric mean: The nth root of the product of n observations from a data set is defined as the geometric mean of the set: G = x 1 x 2 ... x n n Logarithmic mean: The difference of the natural logarithms of the two numbers, divided by the difference between the numbers is the logarithmic mean of the two numbers. The logarithmic mean is used particularly in heat transfer and mass transfer. ln x 2 − ln x 1 x 2 − x 1 Harmonic mean: The inverse of the arithmetic mean of the inverses of all the numbers in a data set is the harmonic mean of the data. 1 1 x 1 + 1 x 2 + ...

a)

Expert Solution

To determine

To find mean.

Answer to Problem 12RE

Mean is 8.75.

Explanation of Solution

Given table:

Amount spent
16.35
14.84
8.98
8.66
7.89
6.84
6.57
6.34
6.19
4.86

Formula used:

x¯=∑i=1nXin

Here n = 10.

Putting all values in formula,

x¯=87.5210=8.75

Therefore, mean is 8.75.

b)

Expert Solution

To determine

The median of given of amount spent.

Answer to Problem 12RE

Median is7.365.

Explanation of Solution

Given data sorted in ascending order:

Amount spent
4.86
6.19
6.34
6.57
6.84
7.89
8.66
8.98
14.84
16.35

Calculation:

Here n = 10 which is an even number.

Formula of median for even number is,

Median=( n+1 2)thitemMedian=( 10+1 2)thitemMedian=(5.5)thitemMedian=5 th item+6 th item2Median=6.84+7.892Median=7.365

c)

Expert Solution

To determine

To find sample variance.

Answer to Problem 12RE

Sample variance is 14.62.

Explanation of Solution

Creating table for sample standard deviation:

x	x−x¯	(x−x¯)2
16.35	1.03	1.0609
14.84	-0.48	0.2304
8.98	-6.34	40.1956
8.66	-6.66	44.3556
7.89	-7.43	55.2049
6.84	-8.48	71.9104
6.57	-8.75	76.5625
6.34	-8.98	80.6404
6.19	-9.13	83.3569
4.86	-10.46	109.4116
Sum		131.5

Formula is,

s2=∑ ( x i − x ¯ )2n−1

Calculation:

From the table,

∑(xi−x¯)2=131.5

Put in a formula,

s2=131.510=14.62

Sample variance = 14.62

d)

Expert Solution

To determine

The sample standard deviation.

Answer to Problem 12RE

Sample standard deviation is 3.82.

Explanation of Solution

Sample variance is 14.62

Formula for sample standard deviation is,

s=s2s=14.62=3.82

e)

Expert Solution

To determine

To find first quartile.

Answer to Problem 12RE

First quartile is 6.30.

Explanation of Solution

Given data sorted in ascending order:

Amount spent
4.86
6.19
6.34
6.57
6.84
7.89
8.66
8.98
14.84
16.35

Formula:

Q1=14(n+1)th valueQ1=14(10+1)th valueQ1=14(11)th valueQ1=(2.75)th valueQ1=2nd value+34×(3rd value−2nd value)Q1=6.19+34×(6.34−6.19)Q1=6.30

The first quartile is 6.30.

f)

Expert Solution

To determine

The third quartile.

Answer to Problem 12RE

Third quartile is 10.445.

Explanation of Solution

Formula and calculation:

Q3=34(n+1)th valueQ3=34(10+1)th valueQ3=34(11)th valueQ3=(8.25)th valueQ3=8.98+(8.25−8)x(14.84−8.98)Q3=10.445

g)

Expert Solution

To determine

To find 40^t^h percentile is 6.678.

Answer to Problem 12RE

40^t^h percentile.

Explanation of Solution

Given data sorted in ascending order:

Amount spent
4.86
6.19
6.34
6.57
6.84
7.89
8.66
8.98
14.84
16.35

Formula:

Percentile Position=(n+1)P100Percentile Position=(10+1)×40100Percentile Position=4.4

Since the position found is not an integer, the method of interpolation needs to be used. The 40% percentile is located between the values in positions 4 and 5. Those values, based on the data organized in ascending order, are 6.57 and 6.84.

The value of 4.4 - 4 = 0.4 corresponds to the proportion of the distance between 6.57 and 6.84 where the percentile we are looking for is located at.

Therefore,

P40=6.57+0.4×(6.84−6.57)=6.678

h)

Expert Solution

To determine

The 65^t^h percentile.

Answer to Problem 12RE

65^t^h percentile is 8.708.

Explanation of Solution

Percentile Position=(n+1)P100Percentile Position=(10+1)×65100Percentile Position=7.15

Since the position found is not integer, the method of interpolation needs to be used. The 65% percentile is located between the values in the positions 7 and 8. Those values, based on the data organized in ascending order, are 8.66 and 8.98.

The value of 7.15 - 7 = 0.15 corresponds to the proportion of the distance between 8.66 and 8.98 where the percentile we are looking for is located at.

P65=8.66+0.15×(8.98−8.66)=8.708

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Answer 4

Textbook Question

Chapter 3, Problem 12RE

Advertising costs: The amounts spent (in billions) on media advertising in the United States for a sample of categories are presented in the following table.

Chapter 3, Problem 12RE, Advertising costs: The amounts spent (in billions) on media advertising in the United States for a

Find the mean amount spent on advertising.
Find the median amount spent on advertising.
Find the sample variance of the advertising amounts.
Find the sample standard deviation of the advertising amounts.
Find the first quartile of the advertising amounts.
Find the third quartile of the advertising amounts.
Find the 40th percentile of the advertising amounts.
Find the 65th percentile of the advertising amounts.

Definition Definition Measure of central tendency that is the average of a given data set. The mean value is evaluated as the quotient of the sum of all observations by the sample size. The mean, in contrast to a median, is affected by extreme values. Very large or very small values can distract the mean from the center of the data. Arithmetic mean: The most common type of mean is the arithmetic mean. It is evaluated using the formula: μ = 1 N ∑ i = 1 N x i Other types of means are the geometric mean, logarithmic mean, and harmonic mean. Geometric mean: The nth root of the product of n observations from a data set is defined as the geometric mean of the set: G = x 1 x 2 ... x n n Logarithmic mean: The difference of the natural logarithms of the two numbers, divided by the difference between the numbers is the logarithmic mean of the two numbers. The logarithmic mean is used particularly in heat transfer and mass transfer. ln x 2 − ln x 1 x 2 − x 1 Harmonic mean: The inverse of the arithmetic mean of the inverses of all the numbers in a data set is the harmonic mean of the data. 1 1 x 1 + 1 x 2 + ...

a)

Expert Solution

To determine

To find mean.

Answer to Problem 12RE

Mean is 8.75.

Explanation of Solution

Given table:

Amount spent
16.35
14.84
8.98
8.66
7.89
6.84
6.57
6.34
6.19
4.86

Formula used:

x¯=∑i=1nXin

Here n = 10.

Putting all values in formula,

x¯=87.5210=8.75

Therefore, mean is 8.75.

b)

Expert Solution

To determine

The median of given of amount spent.

Answer to Problem 12RE

Median is7.365.

Explanation of Solution

Given data sorted in ascending order:

Amount spent
4.86
6.19
6.34
6.57
6.84
7.89
8.66
8.98
14.84
16.35

Calculation:

Here n = 10 which is an even number.

Formula of median for even number is,

Median=( n+1 2)thitemMedian=( 10+1 2)thitemMedian=(5.5)thitemMedian=5 th item+6 th item2Median=6.84+7.892Median=7.365

c)

Expert Solution

To determine

To find sample variance.

Answer to Problem 12RE

Sample variance is 14.62.

Explanation of Solution

Creating table for sample standard deviation:

x	x−x¯	(x−x¯)2
16.35	1.03	1.0609
14.84	-0.48	0.2304
8.98	-6.34	40.1956
8.66	-6.66	44.3556
7.89	-7.43	55.2049
6.84	-8.48	71.9104
6.57	-8.75	76.5625
6.34	-8.98	80.6404
6.19	-9.13	83.3569
4.86	-10.46	109.4116
Sum		131.5

Formula is,

s2=∑ ( x i − x ¯ )2n−1

Calculation:

From the table,

∑(xi−x¯)2=131.5

Put in a formula,

s2=131.510=14.62

Sample variance = 14.62

d)

Expert Solution

To determine

The sample standard deviation.

Answer to Problem 12RE

Sample standard deviation is 3.82.

Explanation of Solution

Sample variance is 14.62

Formula for sample standard deviation is,

s=s2s=14.62=3.82

e)

Expert Solution

To determine

To find first quartile.

Answer to Problem 12RE

First quartile is 6.30.

Explanation of Solution

Given data sorted in ascending order:

Amount spent
4.86
6.19
6.34
6.57
6.84
7.89
8.66
8.98
14.84
16.35

Formula:

Q1=14(n+1)th valueQ1=14(10+1)th valueQ1=14(11)th valueQ1=(2.75)th valueQ1=2nd value+34×(3rd value−2nd value)Q1=6.19+34×(6.34−6.19)Q1=6.30

The first quartile is 6.30.

f)

Expert Solution

To determine

The third quartile.

Answer to Problem 12RE

Third quartile is 10.445.

Explanation of Solution

Formula and calculation:

Q3=34(n+1)th valueQ3=34(10+1)th valueQ3=34(11)th valueQ3=(8.25)th valueQ3=8.98+(8.25−8)x(14.84−8.98)Q3=10.445

g)

Expert Solution

To determine

To find 40^t^h percentile is 6.678.

Answer to Problem 12RE

40^t^h percentile.

Explanation of Solution

Given data sorted in ascending order:

Amount spent
4.86
6.19
6.34
6.57
6.84
7.89
8.66
8.98
14.84
16.35

Formula:

Percentile Position=(n+1)P100Percentile Position=(10+1)×40100Percentile Position=4.4

Since the position found is not an integer, the method of interpolation needs to be used. The 40% percentile is located between the values in positions 4 and 5. Those values, based on the data organized in ascending order, are 6.57 and 6.84.

The value of 4.4 - 4 = 0.4 corresponds to the proportion of the distance between 6.57 and 6.84 where the percentile we are looking for is located at.

Therefore,

P40=6.57+0.4×(6.84−6.57)=6.678

h)

Expert Solution

To determine

The 65^t^h percentile.

Answer to Problem 12RE

65^t^h percentile is 8.708.

Explanation of Solution

Percentile Position=(n+1)P100Percentile Position=(10+1)×65100Percentile Position=7.15

Since the position found is not integer, the method of interpolation needs to be used. The 65% percentile is located between the values in the positions 7 and 8. Those values, based on the data organized in ascending order, are 8.66 and 8.98.

The value of 7.15 - 7 = 0.15 corresponds to the proportion of the distance between 8.66 and 8.98 where the percentile we are looking for is located at.

P65=8.66+0.15×(8.98−8.66)=8.708

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Answer 5

Textbook Question

Answer 6

Textbook Question

Answer 7

a)

Expert Solution

To determine

To find mean.

Answer to Problem 12RE

Mean is 8.75.

Explanation of Solution

Given table:

Amount spent
16.35
14.84
8.98
8.66
7.89
6.84
6.57
6.34
6.19
4.86

Formula used:

x¯=∑i=1nXin

Here n = 10.

Putting all values in formula,

x¯=87.5210=8.75

Therefore, mean is 8.75.

b)

Expert Solution

To determine

The median of given of amount spent.

Answer to Problem 12RE

Median is7.365.

Explanation of Solution

Given data sorted in ascending order:

Amount spent
4.86
6.19
6.34
6.57
6.84
7.89
8.66
8.98
14.84
16.35

Calculation:

Here n = 10 which is an even number.

Formula of median for even number is,

Median=( n+1 2)thitemMedian=( 10+1 2)thitemMedian=(5.5)thitemMedian=5 th item+6 th item2Median=6.84+7.892Median=7.365

c)

Expert Solution

To determine

To find sample variance.

Answer to Problem 12RE

Sample variance is 14.62.

Explanation of Solution

Creating table for sample standard deviation:

x	x−x¯	(x−x¯)2
16.35	1.03	1.0609
14.84	-0.48	0.2304
8.98	-6.34	40.1956
8.66	-6.66	44.3556
7.89	-7.43	55.2049
6.84	-8.48	71.9104
6.57	-8.75	76.5625
6.34	-8.98	80.6404
6.19	-9.13	83.3569
4.86	-10.46	109.4116
Sum		131.5

Formula is,

s2=∑ ( x i − x ¯ )2n−1

Calculation:

From the table,

∑(xi−x¯)2=131.5

Put in a formula,

s2=131.510=14.62

Sample variance = 14.62

d)

Expert Solution

To determine

The sample standard deviation.

Answer to Problem 12RE

Sample standard deviation is 3.82.

Explanation of Solution

Sample variance is 14.62

Formula for sample standard deviation is,

s=s2s=14.62=3.82

e)

Expert Solution

To determine

To find first quartile.

Answer to Problem 12RE

First quartile is 6.30.

Explanation of Solution

Given data sorted in ascending order:

Amount spent
4.86
6.19
6.34
6.57
6.84
7.89
8.66
8.98
14.84
16.35

Formula:

Q1=14(n+1)th valueQ1=14(10+1)th valueQ1=14(11)th valueQ1=(2.75)th valueQ1=2nd value+34×(3rd value−2nd value)Q1=6.19+34×(6.34−6.19)Q1=6.30

The first quartile is 6.30.

f)

Expert Solution

To determine

The third quartile.

Answer to Problem 12RE

Third quartile is 10.445.

Explanation of Solution

Formula and calculation:

Q3=34(n+1)th valueQ3=34(10+1)th valueQ3=34(11)th valueQ3=(8.25)th valueQ3=8.98+(8.25−8)x(14.84−8.98)Q3=10.445

g)

Expert Solution

To determine

To find 40^t^h percentile is 6.678.

Answer to Problem 12RE

40^t^h percentile.

Explanation of Solution

Given data sorted in ascending order:

Amount spent
4.86
6.19
6.34
6.57
6.84
7.89
8.66
8.98
14.84
16.35

Formula:

Percentile Position=(n+1)P100Percentile Position=(10+1)×40100Percentile Position=4.4

Since the position found is not an integer, the method of interpolation needs to be used. The 40% percentile is located between the values in positions 4 and 5. Those values, based on the data organized in ascending order, are 6.57 and 6.84.

The value of 4.4 - 4 = 0.4 corresponds to the proportion of the distance between 6.57 and 6.84 where the percentile we are looking for is located at.

Therefore,

P40=6.57+0.4×(6.84−6.57)=6.678

h)

Expert Solution

To determine

The 65^t^h percentile.

Answer to Problem 12RE

65^t^h percentile is 8.708.

Explanation of Solution

Percentile Position=(n+1)P100Percentile Position=(10+1)×65100Percentile Position=7.15

Since the position found is not integer, the method of interpolation needs to be used. The 65% percentile is located between the values in the positions 7 and 8. Those values, based on the data organized in ascending order, are 8.66 and 8.98.

The value of 7.15 - 7 = 0.15 corresponds to the proportion of the distance between 8.66 and 8.98 where the percentile we are looking for is located at.

P65=8.66+0.15×(8.98−8.66)=8.708

Answer 8

a)

Expert Solution

To determine

To find mean.

Answer to Problem 12RE

Mean is 8.75.

Explanation of Solution

Given table:

Amount spent
16.35
14.84
8.98
8.66
7.89
6.84
6.57
6.34
6.19
4.86

Formula used:

x¯=∑i=1nXin

Here n = 10.

Putting all values in formula,

x¯=87.5210=8.75

Therefore, mean is 8.75.

Answer 9

a)

Expert Solution

Answer 10

a)

Expert Solution

Answer 11

Expert Solution

Answer 12

To determine

To find mean.

Answer 13

Answer to Problem 12RE

Mean is 8.75.

Answer 14

Explanation of Solution

Given table:

Amount spent
16.35
14.84
8.98
8.66
7.89
6.84
6.57
6.34
6.19
4.86

Formula used:

x¯=∑i=1nXin

Here n = 10.

Putting all values in formula,

x¯=87.5210=8.75

Therefore, mean is 8.75.

Answer 15

b)

Expert Solution

To determine

The median of given of amount spent.

Answer to Problem 12RE

Median is7.365.

Explanation of Solution

Given data sorted in ascending order:

Amount spent
4.86
6.19
6.34
6.57
6.84
7.89
8.66
8.98
14.84
16.35

Calculation:

Here n = 10 which is an even number.

Formula of median for even number is,

Median=( n+1 2)thitemMedian=( 10+1 2)thitemMedian=(5.5)thitemMedian=5 th item+6 th item2Median=6.84+7.892Median=7.365

Answer 16

b)

Expert Solution

Answer 17

b)

Expert Solution

Answer 18

Expert Solution

Answer 19

To determine

The median of given of amount spent.

Answer 20

Answer to Problem 12RE

Median is7.365.

Answer 21

Explanation of Solution

Given data sorted in ascending order:

Amount spent
4.86
6.19
6.34
6.57
6.84
7.89
8.66
8.98
14.84
16.35

Calculation:

Here n = 10 which is an even number.

Formula of median for even number is,

Median=( n+1 2)thitemMedian=( 10+1 2)thitemMedian=(5.5)thitemMedian=5 th item+6 th item2Median=6.84+7.892Median=7.365

Answer 22

c)

Expert Solution

To determine

To find sample variance.

Answer to Problem 12RE

Sample variance is 14.62.

Explanation of Solution

Creating table for sample standard deviation:

x	x−x¯	(x−x¯)2
16.35	1.03	1.0609
14.84	-0.48	0.2304
8.98	-6.34	40.1956
8.66	-6.66	44.3556
7.89	-7.43	55.2049
6.84	-8.48	71.9104
6.57	-8.75	76.5625
6.34	-8.98	80.6404
6.19	-9.13	83.3569
4.86	-10.46	109.4116
Sum		131.5

Formula is,

s2=∑ ( x i − x ¯ )2n−1

Calculation:

From the table,

∑(xi−x¯)2=131.5

Put in a formula,

s2=131.510=14.62

Sample variance = 14.62

Answer 23

c)

Expert Solution

Answer 24

c)

Expert Solution

Answer 25

Expert Solution

Answer 26

To determine

To find sample variance.

Answer 27

Answer to Problem 12RE

Sample variance is 14.62.

Answer 28

Explanation of Solution

Creating table for sample standard deviation:

x	x−x¯	(x−x¯)2
16.35	1.03	1.0609
14.84	-0.48	0.2304
8.98	-6.34	40.1956
8.66	-6.66	44.3556
7.89	-7.43	55.2049
6.84	-8.48	71.9104
6.57	-8.75	76.5625
6.34	-8.98	80.6404
6.19	-9.13	83.3569
4.86	-10.46	109.4116
Sum		131.5

Formula is,

s2=∑ ( x i − x ¯ )2n−1

Calculation:

From the table,

∑(xi−x¯)2=131.5

Put in a formula,

s2=131.510=14.62

Sample variance = 14.62

Answer 29

d)

Expert Solution

To determine

The sample standard deviation.

Answer to Problem 12RE

Sample standard deviation is 3.82.

Explanation of Solution

Sample variance is 14.62

Formula for sample standard deviation is,

s=s2s=14.62=3.82

Answer 30

d)

Expert Solution

Answer 31

d)

Expert Solution

Answer 32

Expert Solution

Answer 33

To determine

The sample standard deviation.

Answer 34

Answer to Problem 12RE

Sample standard deviation is 3.82.

Answer 35

Explanation of Solution

Sample variance is 14.62

Formula for sample standard deviation is,

s=s2s=14.62=3.82

Answer 36

e)

Expert Solution

To determine

To find first quartile.

Answer to Problem 12RE

First quartile is 6.30.

Explanation of Solution

Given data sorted in ascending order:

Amount spent
4.86
6.19
6.34
6.57
6.84
7.89
8.66
8.98
14.84
16.35

Formula:

Q1=14(n+1)th valueQ1=14(10+1)th valueQ1=14(11)th valueQ1=(2.75)th valueQ1=2nd value+34×(3rd value−2nd value)Q1=6.19+34×(6.34−6.19)Q1=6.30

The first quartile is 6.30.

Answer 37

e)

Expert Solution

Answer 38

e)

Expert Solution

Answer 39

Expert Solution

Answer 40

To determine

To find first quartile.

Answer 41

Answer to Problem 12RE

First quartile is 6.30.

Answer 42

Explanation of Solution

Given data sorted in ascending order:

Amount spent
4.86
6.19
6.34
6.57
6.84
7.89
8.66
8.98
14.84
16.35

Formula:

Q1=14(n+1)th valueQ1=14(10+1)th valueQ1=14(11)th valueQ1=(2.75)th valueQ1=2nd value+34×(3rd value−2nd value)Q1=6.19+34×(6.34−6.19)Q1=6.30

The first quartile is 6.30.

Answer 43

f)

Expert Solution

To determine

The third quartile.

Answer to Problem 12RE

Third quartile is 10.445.

Explanation of Solution

Formula and calculation:

Q3=34(n+1)th valueQ3=34(10+1)th valueQ3=34(11)th valueQ3=(8.25)th valueQ3=8.98+(8.25−8)x(14.84−8.98)Q3=10.445

Answer 44

f)

Expert Solution

Answer 45

f)

Expert Solution

Answer 46

Expert Solution

Answer 47

To determine

The third quartile.

Answer 48

Answer to Problem 12RE

Third quartile is 10.445.

Answer 49

Explanation of Solution

Formula and calculation:

Q3=34(n+1)th valueQ3=34(10+1)th valueQ3=34(11)th valueQ3=(8.25)th valueQ3=8.98+(8.25−8)x(14.84−8.98)Q3=10.445

Answer 50

g)

Expert Solution

To determine

To find 40^t^h percentile is 6.678.

Answer to Problem 12RE

40^t^h percentile.

Explanation of Solution

Given data sorted in ascending order:

Amount spent
4.86
6.19
6.34
6.57
6.84
7.89
8.66
8.98
14.84
16.35

Formula:

Percentile Position=(n+1)P100Percentile Position=(10+1)×40100Percentile Position=4.4

Since the position found is not an integer, the method of interpolation needs to be used. The 40% percentile is located between the values in positions 4 and 5. Those values, based on the data organized in ascending order, are 6.57 and 6.84.

The value of 4.4 - 4 = 0.4 corresponds to the proportion of the distance between 6.57 and 6.84 where the percentile we are looking for is located at.

Therefore,

P40=6.57+0.4×(6.84−6.57)=6.678

Answer 51

g)

Expert Solution

Answer 52

g)

Expert Solution

Answer 53

Expert Solution

Answer 54

To determine

To find 40^t^h percentile is 6.678.

Answer 55

Answer to Problem 12RE

40^t^h percentile.

Answer 56

Explanation of Solution

Given data sorted in ascending order:

Amount spent
4.86
6.19
6.34
6.57
6.84
7.89
8.66
8.98
14.84
16.35

Formula:

Percentile Position=(n+1)P100Percentile Position=(10+1)×40100Percentile Position=4.4

Since the position found is not an integer, the method of interpolation needs to be used. The 40% percentile is located between the values in positions 4 and 5. Those values, based on the data organized in ascending order, are 6.57 and 6.84.

The value of 4.4 - 4 = 0.4 corresponds to the proportion of the distance between 6.57 and 6.84 where the percentile we are looking for is located at.

Therefore,

P40=6.57+0.4×(6.84−6.57)=6.678

Answer 57

h)

Expert Solution

To determine

The 65^t^h percentile.

Answer to Problem 12RE

65^t^h percentile is 8.708.

Explanation of Solution

Percentile Position=(n+1)P100Percentile Position=(10+1)×65100Percentile Position=7.15

Since the position found is not integer, the method of interpolation needs to be used. The 65% percentile is located between the values in the positions 7 and 8. Those values, based on the data organized in ascending order, are 8.66 and 8.98.

The value of 7.15 - 7 = 0.15 corresponds to the proportion of the distance between 8.66 and 8.98 where the percentile we are looking for is located at.

P65=8.66+0.15×(8.98−8.66)=8.708

Answer 58

h)

Expert Solution

Answer 59

h)

Expert Solution

Answer 60

Expert Solution

Answer 61

To determine

The 65^t^h percentile.

Answer 62

Answer to Problem 12RE

65^t^h percentile is 8.708.

Answer 63

Explanation of Solution

Percentile Position=(n+1)P100Percentile Position=(10+1)×65100Percentile Position=7.15

Since the position found is not integer, the method of interpolation needs to be used. The 65% percentile is located between the values in the positions 7 and 8. Those values, based on the data organized in ascending order, are 8.66 and 8.98.

The value of 7.15 - 7 = 0.15 corresponds to the proportion of the distance between 8.66 and 8.98 where the percentile we are looking for is located at.

P65=8.66+0.15×(8.98−8.66)=8.708