To find standard deviation for each type of investment

Question

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Answer 1

Question

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 + ...

Chapter 3.2, Problem 42E

a)

To determine

To find standard deviation for each type of investment

a)

Expert Solution

Answer to Problem 42E

Standard deviation for each type of investments:

Stocks: 15.39

Bills: 2.11

Bonds: 8.58

Explanation of Solution

Formula:

Mean:

x¯=∑i=1nXin

Population standard deviation:

σ=∑ ( x i − x ¯ ) 2 n

Calculation:

Stocks:

Creating table for finding standard deviation:

x	x−x¯	(x−x¯)2
26.01	18.46	340.77
22.64	15.09	227.71
16.1	8.55	73.10
25.22	17.67	312.23
-6.18	-13.73	188.51
-7.1	-14.65	214.62
-16.76	-24.31	590.98
25.32	17.77	315.77
3.15	-4.4	19.36
-0.61	-8.16	66.59
16.29	8.74	76.39
6.43	-1.12	1.25
-33.84	-41.39	1713.13
18.82	11.27	127.01
11.02	3.47	12.04
5.53	-2.02	4.08
7.26	-0.29	0.08
26.5	18.95	359.10
7.52	-0.03	0.00
-2.23	-9.78	95.65

Here n = 20

Values of Xi are return from stock.

Putting all values in formula of mean,

x¯=151.0920=7.55

From table,

∑(xi−x¯)2=4738.39

Put all values in the formula of population standard deviation,

σ=4738.3920=15.39

Bills:

Creating table for finding standard deviation:

x	x−x¯	(x−x¯)2
5.02	2.66	7.06
5.05	2.69	7.22
4.73	2.37	5.60
4.51	2.15	4.61
5.76	3.40	11.54
3.67	1.31	1.71
1.66	-0.70	0.49
1.03	-1.33	1.78
1.23	-1.13	1.28
3.01	0.65	0.42
4.68	2.32	5.37
4.64	2.28	5.18
1.59	-0.77	0.60
0.14	-2.22	4.94
0.13	-2.23	4.99
0.03	-2.33	5.44
0.05	-2.31	5.35
0.07	-2.29	5.26
0.05	-2.31	5.35
0.21	-2.15	4.64

Here n = 20

Values of Xi are return from bills.

Putting all values in formula of mean,

x¯=47.2620=2.36

From table,

∑(xi−x¯)2=88.83

Put all values in the formula of population standard deviation,

σ=88.8320=2.11

Bonds:

Creating table for finding standard deviation:

x	x−x¯	(x−x¯)2
1.43	-4.30	18.52
9.94	4.21	17.69
14.92	9.19	84.38
-8.25	-13.98	195.55
16.66	10.93	119.38
5.57	-0.16	0.03
15.12	9.39	88.10
0.38	-5.35	28.67
4.49	-1.24	1.55
2.87	-2.86	8.20
1.96	-3.77	14.24
10.21	4.48	20.03
20.1	14.37	206.38
-11.12	-16.85	284.06
8.46	2.73	7.43
16.04	10.31	106.21
2.97	-2.76	7.64
-9.1	-14.83	220.05
10.75	5.02	25.16
1.28	-4.45	19.84

Here n = 20

Values of Xi are return from bonds.

Putting all values in formula of mean,

x¯=114.6820=5.73

From table,

∑(xi−x¯)2=1473.11

Put all values in the formula of population standard deviation,

σ=1473.1120=8.58

Here, Population standard deviation for each type of investments:

Stocks: 15.39

Bills: 2.11

Bonds: 8.58

There is highest population standard deviation for Stocks, which leading high risk.

There are is low standard deviation for Bills, which leading least risk

b)

To determine

To justify results with finance theory

b)

Expert Solution

Explanation of Solution

Given:

Bills are short-term loans and Bonds are long-term loans to the U.S. government.

As per finance theory, Long term loans are riskier than short term loans.

Justification:

Population standard deviation of Bills = 2.11

Population standard deviation of Bonds = 8.58

Here, Population standard deviation of Bonds is greater than Bills. That means Loans from Bonds are riskier than Bills. This result agrees with finance theory

c)

To determine

To find mean for each type of investment

c)

Expert Solution

Explanation of Solution

Given:

As per finance theory, the more risk of an investment has, higher their mean must be.

Formula:

Mean:

x¯=∑i=1nXin

Calculation:

Stocks:

Here n = 20

Values of Xi are return from stock.

Putting all values in formula of mean,

x¯=151.0920=7.55

Bills:

Here n = 20

Values of Xi are return from bills.

Putting all values in formula of mean,

x¯=47.2620=2.36

Bonds:

Here n = 20

Values of Xi are return from bonds.

Putting all values in formula of mean,

x¯=114.6820=5.73

From all calculations,

Mean for each type of investment:

Stocks:7.55

Bills:2.36

Bonds:5.73

There is highest mean for Stocks, which leading high risk.

There are is low mean for Bills, which leading least risk.

The results from population standard deviation and finance theory are same as from mean of an investment. Hence, this result agrees with finance theory

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Answer 2

Question

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 + ...

Chapter 3.2, Problem 42E

a)

To determine

To find standard deviation for each type of investment

a)

Expert Solution

Answer to Problem 42E

Standard deviation for each type of investments:

Stocks: 15.39

Bills: 2.11

Bonds: 8.58

Explanation of Solution

Formula:

Mean:

x¯=∑i=1nXin

Population standard deviation:

σ=∑ ( x i − x ¯ ) 2 n

Calculation:

Stocks:

Creating table for finding standard deviation:

x	x−x¯	(x−x¯)2
26.01	18.46	340.77
22.64	15.09	227.71
16.1	8.55	73.10
25.22	17.67	312.23
-6.18	-13.73	188.51
-7.1	-14.65	214.62
-16.76	-24.31	590.98
25.32	17.77	315.77
3.15	-4.4	19.36
-0.61	-8.16	66.59
16.29	8.74	76.39
6.43	-1.12	1.25
-33.84	-41.39	1713.13
18.82	11.27	127.01
11.02	3.47	12.04
5.53	-2.02	4.08
7.26	-0.29	0.08
26.5	18.95	359.10
7.52	-0.03	0.00
-2.23	-9.78	95.65

Here n = 20

Values of Xi are return from stock.

Putting all values in formula of mean,

x¯=151.0920=7.55

From table,

∑(xi−x¯)2=4738.39

Put all values in the formula of population standard deviation,

σ=4738.3920=15.39

Bills:

Creating table for finding standard deviation:

x	x−x¯	(x−x¯)2
5.02	2.66	7.06
5.05	2.69	7.22
4.73	2.37	5.60
4.51	2.15	4.61
5.76	3.40	11.54
3.67	1.31	1.71
1.66	-0.70	0.49
1.03	-1.33	1.78
1.23	-1.13	1.28
3.01	0.65	0.42
4.68	2.32	5.37
4.64	2.28	5.18
1.59	-0.77	0.60
0.14	-2.22	4.94
0.13	-2.23	4.99
0.03	-2.33	5.44
0.05	-2.31	5.35
0.07	-2.29	5.26
0.05	-2.31	5.35
0.21	-2.15	4.64

Here n = 20

Values of Xi are return from bills.

Putting all values in formula of mean,

x¯=47.2620=2.36

From table,

∑(xi−x¯)2=88.83

Put all values in the formula of population standard deviation,

σ=88.8320=2.11

Bonds:

Creating table for finding standard deviation:

x	x−x¯	(x−x¯)2
1.43	-4.30	18.52
9.94	4.21	17.69
14.92	9.19	84.38
-8.25	-13.98	195.55
16.66	10.93	119.38
5.57	-0.16	0.03
15.12	9.39	88.10
0.38	-5.35	28.67
4.49	-1.24	1.55
2.87	-2.86	8.20
1.96	-3.77	14.24
10.21	4.48	20.03
20.1	14.37	206.38
-11.12	-16.85	284.06
8.46	2.73	7.43
16.04	10.31	106.21
2.97	-2.76	7.64
-9.1	-14.83	220.05
10.75	5.02	25.16
1.28	-4.45	19.84

Here n = 20

Values of Xi are return from bonds.

Putting all values in formula of mean,

x¯=114.6820=5.73

From table,

∑(xi−x¯)2=1473.11

Put all values in the formula of population standard deviation,

σ=1473.1120=8.58

Here, Population standard deviation for each type of investments:

Stocks: 15.39

Bills: 2.11

Bonds: 8.58

There is highest population standard deviation for Stocks, which leading high risk.

There are is low standard deviation for Bills, which leading least risk

b)

To determine

To justify results with finance theory

b)

Expert Solution

Explanation of Solution

Given:

Bills are short-term loans and Bonds are long-term loans to the U.S. government.

As per finance theory, Long term loans are riskier than short term loans.

Justification:

Population standard deviation of Bills = 2.11

Population standard deviation of Bonds = 8.58

Here, Population standard deviation of Bonds is greater than Bills. That means Loans from Bonds are riskier than Bills. This result agrees with finance theory

c)

To determine

To find mean for each type of investment

c)

Expert Solution

Explanation of Solution

Given:

As per finance theory, the more risk of an investment has, higher their mean must be.

Formula:

Mean:

x¯=∑i=1nXin

Calculation:

Stocks:

Here n = 20

Values of Xi are return from stock.

Putting all values in formula of mean,

x¯=151.0920=7.55

Bills:

Here n = 20

Values of Xi are return from bills.

Putting all values in formula of mean,

x¯=47.2620=2.36

Bonds:

Here n = 20

Values of Xi are return from bonds.

Putting all values in formula of mean,

x¯=114.6820=5.73

From all calculations,

Mean for each type of investment:

Stocks:7.55

Bills:2.36

Bonds:5.73

There is highest mean for Stocks, which leading high risk.

There are is low mean for Bills, which leading least risk.

The results from population standard deviation and finance theory are same as from mean of an investment. Hence, this result agrees with finance theory

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

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 + ...

Chapter 3.2, Problem 42E

a)

To determine

To find standard deviation for each type of investment

a)

Expert Solution

Answer to Problem 42E

Standard deviation for each type of investments:

Stocks: 15.39

Bills: 2.11

Bonds: 8.58

Explanation of Solution

Formula:

Mean:

x¯=∑i=1nXin

Population standard deviation:

σ=∑ ( x i − x ¯ ) 2 n

Calculation:

Stocks:

Creating table for finding standard deviation:

x	x−x¯	(x−x¯)2
26.01	18.46	340.77
22.64	15.09	227.71
16.1	8.55	73.10
25.22	17.67	312.23
-6.18	-13.73	188.51
-7.1	-14.65	214.62
-16.76	-24.31	590.98
25.32	17.77	315.77
3.15	-4.4	19.36
-0.61	-8.16	66.59
16.29	8.74	76.39
6.43	-1.12	1.25
-33.84	-41.39	1713.13
18.82	11.27	127.01
11.02	3.47	12.04
5.53	-2.02	4.08
7.26	-0.29	0.08
26.5	18.95	359.10
7.52	-0.03	0.00
-2.23	-9.78	95.65

Here n = 20

Values of Xi are return from stock.

Putting all values in formula of mean,

x¯=151.0920=7.55

From table,

∑(xi−x¯)2=4738.39

Put all values in the formula of population standard deviation,

σ=4738.3920=15.39

Bills:

Creating table for finding standard deviation:

x	x−x¯	(x−x¯)2
5.02	2.66	7.06
5.05	2.69	7.22
4.73	2.37	5.60
4.51	2.15	4.61
5.76	3.40	11.54
3.67	1.31	1.71
1.66	-0.70	0.49
1.03	-1.33	1.78
1.23	-1.13	1.28
3.01	0.65	0.42
4.68	2.32	5.37
4.64	2.28	5.18
1.59	-0.77	0.60
0.14	-2.22	4.94
0.13	-2.23	4.99
0.03	-2.33	5.44
0.05	-2.31	5.35
0.07	-2.29	5.26
0.05	-2.31	5.35
0.21	-2.15	4.64

Here n = 20

Values of Xi are return from bills.

Putting all values in formula of mean,

x¯=47.2620=2.36

From table,

∑(xi−x¯)2=88.83

Put all values in the formula of population standard deviation,

σ=88.8320=2.11

Bonds:

Creating table for finding standard deviation:

x	x−x¯	(x−x¯)2
1.43	-4.30	18.52
9.94	4.21	17.69
14.92	9.19	84.38
-8.25	-13.98	195.55
16.66	10.93	119.38
5.57	-0.16	0.03
15.12	9.39	88.10
0.38	-5.35	28.67
4.49	-1.24	1.55
2.87	-2.86	8.20
1.96	-3.77	14.24
10.21	4.48	20.03
20.1	14.37	206.38
-11.12	-16.85	284.06
8.46	2.73	7.43
16.04	10.31	106.21
2.97	-2.76	7.64
-9.1	-14.83	220.05
10.75	5.02	25.16
1.28	-4.45	19.84

Here n = 20

Values of Xi are return from bonds.

Putting all values in formula of mean,

x¯=114.6820=5.73

From table,

∑(xi−x¯)2=1473.11

Put all values in the formula of population standard deviation,

σ=1473.1120=8.58

Here, Population standard deviation for each type of investments:

Stocks: 15.39

Bills: 2.11

Bonds: 8.58

There is highest population standard deviation for Stocks, which leading high risk.

There are is low standard deviation for Bills, which leading least risk

b)

To determine

To justify results with finance theory

b)

Expert Solution

Explanation of Solution

Given:

Bills are short-term loans and Bonds are long-term loans to the U.S. government.

As per finance theory, Long term loans are riskier than short term loans.

Justification:

Population standard deviation of Bills = 2.11

Population standard deviation of Bonds = 8.58

Here, Population standard deviation of Bonds is greater than Bills. That means Loans from Bonds are riskier than Bills. This result agrees with finance theory

c)

To determine

To find mean for each type of investment

c)

Expert Solution

Explanation of Solution

Given:

As per finance theory, the more risk of an investment has, higher their mean must be.

Formula:

Mean:

x¯=∑i=1nXin

Calculation:

Stocks:

Here n = 20

Values of Xi are return from stock.

Putting all values in formula of mean,

x¯=151.0920=7.55

Bills:

Here n = 20

Values of Xi are return from bills.

Putting all values in formula of mean,

x¯=47.2620=2.36

Bonds:

Here n = 20

Values of Xi are return from bonds.

Putting all values in formula of mean,

x¯=114.6820=5.73

From all calculations,

Mean for each type of investment:

Stocks:7.55

Bills:2.36

Bonds:5.73

There is highest mean for Stocks, which leading high risk.

There are is low mean for Bills, which leading least risk.

The results from population standard deviation and finance theory are same as from mean of an investment. Hence, this result agrees with finance theory

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

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 + ...

Chapter 3.2, Problem 42E

a)

To determine

To find standard deviation for each type of investment

a)

Expert Solution

Answer to Problem 42E

Standard deviation for each type of investments:

Stocks: 15.39

Bills: 2.11

Bonds: 8.58

Explanation of Solution

Formula:

Mean:

x¯=∑i=1nXin

Population standard deviation:

σ=∑ ( x i − x ¯ ) 2 n

Calculation:

Stocks:

Creating table for finding standard deviation:

x	x−x¯	(x−x¯)2
26.01	18.46	340.77
22.64	15.09	227.71
16.1	8.55	73.10
25.22	17.67	312.23
-6.18	-13.73	188.51
-7.1	-14.65	214.62
-16.76	-24.31	590.98
25.32	17.77	315.77
3.15	-4.4	19.36
-0.61	-8.16	66.59
16.29	8.74	76.39
6.43	-1.12	1.25
-33.84	-41.39	1713.13
18.82	11.27	127.01
11.02	3.47	12.04
5.53	-2.02	4.08
7.26	-0.29	0.08
26.5	18.95	359.10
7.52	-0.03	0.00
-2.23	-9.78	95.65

Here n = 20

Values of Xi are return from stock.

Putting all values in formula of mean,

x¯=151.0920=7.55

From table,

∑(xi−x¯)2=4738.39

Put all values in the formula of population standard deviation,

σ=4738.3920=15.39

Bills:

Creating table for finding standard deviation:

x	x−x¯	(x−x¯)2
5.02	2.66	7.06
5.05	2.69	7.22
4.73	2.37	5.60
4.51	2.15	4.61
5.76	3.40	11.54
3.67	1.31	1.71
1.66	-0.70	0.49
1.03	-1.33	1.78
1.23	-1.13	1.28
3.01	0.65	0.42
4.68	2.32	5.37
4.64	2.28	5.18
1.59	-0.77	0.60
0.14	-2.22	4.94
0.13	-2.23	4.99
0.03	-2.33	5.44
0.05	-2.31	5.35
0.07	-2.29	5.26
0.05	-2.31	5.35
0.21	-2.15	4.64

Here n = 20

Values of Xi are return from bills.

Putting all values in formula of mean,

x¯=47.2620=2.36

From table,

∑(xi−x¯)2=88.83

Put all values in the formula of population standard deviation,

σ=88.8320=2.11

Bonds:

Creating table for finding standard deviation:

x	x−x¯	(x−x¯)2
1.43	-4.30	18.52
9.94	4.21	17.69
14.92	9.19	84.38
-8.25	-13.98	195.55
16.66	10.93	119.38
5.57	-0.16	0.03
15.12	9.39	88.10
0.38	-5.35	28.67
4.49	-1.24	1.55
2.87	-2.86	8.20
1.96	-3.77	14.24
10.21	4.48	20.03
20.1	14.37	206.38
-11.12	-16.85	284.06
8.46	2.73	7.43
16.04	10.31	106.21
2.97	-2.76	7.64
-9.1	-14.83	220.05
10.75	5.02	25.16
1.28	-4.45	19.84

Here n = 20

Values of Xi are return from bonds.

Putting all values in formula of mean,

x¯=114.6820=5.73

From table,

∑(xi−x¯)2=1473.11

Put all values in the formula of population standard deviation,

σ=1473.1120=8.58

Here, Population standard deviation for each type of investments:

Stocks: 15.39

Bills: 2.11

Bonds: 8.58

There is highest population standard deviation for Stocks, which leading high risk.

There are is low standard deviation for Bills, which leading least risk

b)

To determine

To justify results with finance theory

b)

Expert Solution

Explanation of Solution

Given:

Bills are short-term loans and Bonds are long-term loans to the U.S. government.

As per finance theory, Long term loans are riskier than short term loans.

Justification:

Population standard deviation of Bills = 2.11

Population standard deviation of Bonds = 8.58

Here, Population standard deviation of Bonds is greater than Bills. That means Loans from Bonds are riskier than Bills. This result agrees with finance theory

c)

To determine

To find mean for each type of investment

c)

Expert Solution

Explanation of Solution

Given:

As per finance theory, the more risk of an investment has, higher their mean must be.

Formula:

Mean:

x¯=∑i=1nXin

Calculation:

Stocks:

Here n = 20

Values of Xi are return from stock.

Putting all values in formula of mean,

x¯=151.0920=7.55

Bills:

Here n = 20

Values of Xi are return from bills.

Putting all values in formula of mean,

x¯=47.2620=2.36

Bonds:

Here n = 20

Values of Xi are return from bonds.

Putting all values in formula of mean,

x¯=114.6820=5.73

From all calculations,

Mean for each type of investment:

Stocks:7.55

Bills:2.36

Bonds:5.73

There is highest mean for Stocks, which leading high risk.

There are is low mean for Bills, which leading least risk.

The results from population standard deviation and finance theory are same as from mean of an investment. Hence, this result agrees with finance theory

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Answer 5

Chapter 3.2, Problem 42E

a)

To determine

To find standard deviation for each type of investment

a)

Expert Solution

Answer to Problem 42E

Standard deviation for each type of investments:

Stocks: 15.39

Bills: 2.11

Bonds: 8.58

Explanation of Solution

Formula:

Mean:

x¯=∑i=1nXin

Population standard deviation:

σ=∑ ( x i − x ¯ ) 2 n

Calculation:

Stocks:

Creating table for finding standard deviation:

x	x−x¯	(x−x¯)2
26.01	18.46	340.77
22.64	15.09	227.71
16.1	8.55	73.10
25.22	17.67	312.23
-6.18	-13.73	188.51
-7.1	-14.65	214.62
-16.76	-24.31	590.98
25.32	17.77	315.77
3.15	-4.4	19.36
-0.61	-8.16	66.59
16.29	8.74	76.39
6.43	-1.12	1.25
-33.84	-41.39	1713.13
18.82	11.27	127.01
11.02	3.47	12.04
5.53	-2.02	4.08
7.26	-0.29	0.08
26.5	18.95	359.10
7.52	-0.03	0.00
-2.23	-9.78	95.65

Here n = 20

Values of Xi are return from stock.

Putting all values in formula of mean,

x¯=151.0920=7.55

From table,

∑(xi−x¯)2=4738.39

Put all values in the formula of population standard deviation,

σ=4738.3920=15.39

Bills:

Creating table for finding standard deviation:

x	x−x¯	(x−x¯)2
5.02	2.66	7.06
5.05	2.69	7.22
4.73	2.37	5.60
4.51	2.15	4.61
5.76	3.40	11.54
3.67	1.31	1.71
1.66	-0.70	0.49
1.03	-1.33	1.78
1.23	-1.13	1.28
3.01	0.65	0.42
4.68	2.32	5.37
4.64	2.28	5.18
1.59	-0.77	0.60
0.14	-2.22	4.94
0.13	-2.23	4.99
0.03	-2.33	5.44
0.05	-2.31	5.35
0.07	-2.29	5.26
0.05	-2.31	5.35
0.21	-2.15	4.64

Here n = 20

Values of Xi are return from bills.

Putting all values in formula of mean,

x¯=47.2620=2.36

From table,

∑(xi−x¯)2=88.83

Put all values in the formula of population standard deviation,

σ=88.8320=2.11

Bonds:

Creating table for finding standard deviation:

x	x−x¯	(x−x¯)2
1.43	-4.30	18.52
9.94	4.21	17.69
14.92	9.19	84.38
-8.25	-13.98	195.55
16.66	10.93	119.38
5.57	-0.16	0.03
15.12	9.39	88.10
0.38	-5.35	28.67
4.49	-1.24	1.55
2.87	-2.86	8.20
1.96	-3.77	14.24
10.21	4.48	20.03
20.1	14.37	206.38
-11.12	-16.85	284.06
8.46	2.73	7.43
16.04	10.31	106.21
2.97	-2.76	7.64
-9.1	-14.83	220.05
10.75	5.02	25.16
1.28	-4.45	19.84

Here n = 20

Values of Xi are return from bonds.

Putting all values in formula of mean,

x¯=114.6820=5.73

From table,

∑(xi−x¯)2=1473.11

Put all values in the formula of population standard deviation,

σ=1473.1120=8.58

Here, Population standard deviation for each type of investments:

Stocks: 15.39

Bills: 2.11

Bonds: 8.58

There is highest population standard deviation for Stocks, which leading high risk.

There are is low standard deviation for Bills, which leading least risk

b)

To determine

To justify results with finance theory

b)

Expert Solution

Explanation of Solution

Given:

Bills are short-term loans and Bonds are long-term loans to the U.S. government.

As per finance theory, Long term loans are riskier than short term loans.

Justification:

Population standard deviation of Bills = 2.11

Population standard deviation of Bonds = 8.58

Here, Population standard deviation of Bonds is greater than Bills. That means Loans from Bonds are riskier than Bills. This result agrees with finance theory

c)

To determine

To find mean for each type of investment

c)

Expert Solution

Explanation of Solution

Given:

As per finance theory, the more risk of an investment has, higher their mean must be.

Formula:

Mean:

x¯=∑i=1nXin

Calculation:

Stocks:

Here n = 20

Values of Xi are return from stock.

Putting all values in formula of mean,

x¯=151.0920=7.55

Bills:

Here n = 20

Values of Xi are return from bills.

Putting all values in formula of mean,

x¯=47.2620=2.36

Bonds:

Here n = 20

Values of Xi are return from bonds.

Putting all values in formula of mean,

x¯=114.6820=5.73

From all calculations,

Mean for each type of investment:

Stocks:7.55

Bills:2.36

Bonds:5.73

There is highest mean for Stocks, which leading high risk.

There are is low mean for Bills, which leading least risk.

The results from population standard deviation and finance theory are same as from mean of an investment. Hence, this result agrees with finance theory

Answer 6

Chapter 3.2, Problem 42E

a)

To determine

To find standard deviation for each type of investment

a)

Expert Solution

Answer to Problem 42E

Standard deviation for each type of investments:

Stocks: 15.39

Bills: 2.11

Bonds: 8.58

Explanation of Solution

Formula:

Mean:

x¯=∑i=1nXin

Population standard deviation:

σ=∑ ( x i − x ¯ ) 2 n

Calculation:

Stocks:

Creating table for finding standard deviation:

x	x−x¯	(x−x¯)2
26.01	18.46	340.77
22.64	15.09	227.71
16.1	8.55	73.10
25.22	17.67	312.23
-6.18	-13.73	188.51
-7.1	-14.65	214.62
-16.76	-24.31	590.98
25.32	17.77	315.77
3.15	-4.4	19.36
-0.61	-8.16	66.59
16.29	8.74	76.39
6.43	-1.12	1.25
-33.84	-41.39	1713.13
18.82	11.27	127.01
11.02	3.47	12.04
5.53	-2.02	4.08
7.26	-0.29	0.08
26.5	18.95	359.10
7.52	-0.03	0.00
-2.23	-9.78	95.65

Here n = 20

Values of Xi are return from stock.

Putting all values in formula of mean,

x¯=151.0920=7.55

From table,

∑(xi−x¯)2=4738.39

Put all values in the formula of population standard deviation,

σ=4738.3920=15.39

Bills:

Creating table for finding standard deviation:

x	x−x¯	(x−x¯)2
5.02	2.66	7.06
5.05	2.69	7.22
4.73	2.37	5.60
4.51	2.15	4.61
5.76	3.40	11.54
3.67	1.31	1.71
1.66	-0.70	0.49
1.03	-1.33	1.78
1.23	-1.13	1.28
3.01	0.65	0.42
4.68	2.32	5.37
4.64	2.28	5.18
1.59	-0.77	0.60
0.14	-2.22	4.94
0.13	-2.23	4.99
0.03	-2.33	5.44
0.05	-2.31	5.35
0.07	-2.29	5.26
0.05	-2.31	5.35
0.21	-2.15	4.64

Here n = 20

Values of Xi are return from bills.

Putting all values in formula of mean,

x¯=47.2620=2.36

From table,

∑(xi−x¯)2=88.83

Put all values in the formula of population standard deviation,

σ=88.8320=2.11

Bonds:

Creating table for finding standard deviation:

x	x−x¯	(x−x¯)2
1.43	-4.30	18.52
9.94	4.21	17.69
14.92	9.19	84.38
-8.25	-13.98	195.55
16.66	10.93	119.38
5.57	-0.16	0.03
15.12	9.39	88.10
0.38	-5.35	28.67
4.49	-1.24	1.55
2.87	-2.86	8.20
1.96	-3.77	14.24
10.21	4.48	20.03
20.1	14.37	206.38
-11.12	-16.85	284.06
8.46	2.73	7.43
16.04	10.31	106.21
2.97	-2.76	7.64
-9.1	-14.83	220.05
10.75	5.02	25.16
1.28	-4.45	19.84

Here n = 20

Values of Xi are return from bonds.

Putting all values in formula of mean,

x¯=114.6820=5.73

From table,

∑(xi−x¯)2=1473.11

Put all values in the formula of population standard deviation,

σ=1473.1120=8.58

Here, Population standard deviation for each type of investments:

Stocks: 15.39

Bills: 2.11

Bonds: 8.58

There is highest population standard deviation for Stocks, which leading high risk.

There are is low standard deviation for Bills, which leading least risk

Answer 7

Chapter 3.2, Problem 42E

a)

To determine

To find standard deviation for each type of investment

Answer 8

a)

Expert Solution

Answer to Problem 42E

Standard deviation for each type of investments:

Stocks: 15.39

Bills: 2.11

Bonds: 8.58

Answer 9

a)

Expert Solution

Answer 10

a)

Expert Solution

Answer 11

Expert Solution

Answer 12

Explanation of Solution

Formula:

Mean:

x¯=∑i=1nXin

Population standard deviation:

σ=∑ ( x i − x ¯ ) 2 n

Calculation:

Stocks:

Creating table for finding standard deviation:

x	x−x¯	(x−x¯)2
26.01	18.46	340.77
22.64	15.09	227.71
16.1	8.55	73.10
25.22	17.67	312.23
-6.18	-13.73	188.51
-7.1	-14.65	214.62
-16.76	-24.31	590.98
25.32	17.77	315.77
3.15	-4.4	19.36
-0.61	-8.16	66.59
16.29	8.74	76.39
6.43	-1.12	1.25
-33.84	-41.39	1713.13
18.82	11.27	127.01
11.02	3.47	12.04
5.53	-2.02	4.08
7.26	-0.29	0.08
26.5	18.95	359.10
7.52	-0.03	0.00
-2.23	-9.78	95.65

Here n = 20

Values of Xi are return from stock.

Putting all values in formula of mean,

x¯=151.0920=7.55

From table,

∑(xi−x¯)2=4738.39

Put all values in the formula of population standard deviation,

σ=4738.3920=15.39

Bills:

Creating table for finding standard deviation:

x	x−x¯	(x−x¯)2
5.02	2.66	7.06
5.05	2.69	7.22
4.73	2.37	5.60
4.51	2.15	4.61
5.76	3.40	11.54
3.67	1.31	1.71
1.66	-0.70	0.49
1.03	-1.33	1.78
1.23	-1.13	1.28
3.01	0.65	0.42
4.68	2.32	5.37
4.64	2.28	5.18
1.59	-0.77	0.60
0.14	-2.22	4.94
0.13	-2.23	4.99
0.03	-2.33	5.44
0.05	-2.31	5.35
0.07	-2.29	5.26
0.05	-2.31	5.35
0.21	-2.15	4.64

Here n = 20

Values of Xi are return from bills.

Putting all values in formula of mean,

x¯=47.2620=2.36

From table,

∑(xi−x¯)2=88.83

Put all values in the formula of population standard deviation,

σ=88.8320=2.11

Bonds:

Creating table for finding standard deviation:

x	x−x¯	(x−x¯)2
1.43	-4.30	18.52
9.94	4.21	17.69
14.92	9.19	84.38
-8.25	-13.98	195.55
16.66	10.93	119.38
5.57	-0.16	0.03
15.12	9.39	88.10
0.38	-5.35	28.67
4.49	-1.24	1.55
2.87	-2.86	8.20
1.96	-3.77	14.24
10.21	4.48	20.03
20.1	14.37	206.38
-11.12	-16.85	284.06
8.46	2.73	7.43
16.04	10.31	106.21
2.97	-2.76	7.64
-9.1	-14.83	220.05
10.75	5.02	25.16
1.28	-4.45	19.84

Here n = 20

Values of Xi are return from bonds.

Putting all values in formula of mean,

x¯=114.6820=5.73

From table,

∑(xi−x¯)2=1473.11

Put all values in the formula of population standard deviation,

σ=1473.1120=8.58

Here, Population standard deviation for each type of investments:

Stocks: 15.39

Bills: 2.11

Bonds: 8.58

There is highest population standard deviation for Stocks, which leading high risk.

There are is low standard deviation for Bills, which leading least risk

Answer 13

b)

To determine

To justify results with finance theory

b)

Expert Solution

Explanation of Solution

Given:

Bills are short-term loans and Bonds are long-term loans to the U.S. government.

As per finance theory, Long term loans are riskier than short term loans.

Justification:

Population standard deviation of Bills = 2.11

Population standard deviation of Bonds = 8.58

Here, Population standard deviation of Bonds is greater than Bills. That means Loans from Bonds are riskier than Bills. This result agrees with finance theory

Answer 14

b)

To determine

To justify results with finance theory

Answer 15

b)

Expert Solution

Explanation of Solution

Given:

Bills are short-term loans and Bonds are long-term loans to the U.S. government.

As per finance theory, Long term loans are riskier than short term loans.

Justification:

Population standard deviation of Bills = 2.11

Population standard deviation of Bonds = 8.58

Here, Population standard deviation of Bonds is greater than Bills. That means Loans from Bonds are riskier than Bills. This result agrees with finance theory

Answer 16

b)

Expert Solution

Answer 17

b)

Expert Solution

Answer 18

Expert Solution

Answer 19

c)

To determine

To find mean for each type of investment

c)

Expert Solution

Explanation of Solution

Given:

As per finance theory, the more risk of an investment has, higher their mean must be.

Formula:

Mean:

x¯=∑i=1nXin

Calculation:

Stocks:

Here n = 20

Values of Xi are return from stock.

Putting all values in formula of mean,

x¯=151.0920=7.55

Bills:

Here n = 20

Values of Xi are return from bills.

Putting all values in formula of mean,

x¯=47.2620=2.36

Bonds:

Here n = 20

Values of Xi are return from bonds.

Putting all values in formula of mean,

x¯=114.6820=5.73

From all calculations,

Mean for each type of investment:

Stocks:7.55

Bills:2.36

Bonds:5.73

There is highest mean for Stocks, which leading high risk.

There are is low mean for Bills, which leading least risk.

The results from population standard deviation and finance theory are same as from mean of an investment. Hence, this result agrees with finance theory

Answer 20

c)

To determine

To find mean for each type of investment

Answer 21

c)

Expert Solution

Explanation of Solution

Given:

As per finance theory, the more risk of an investment has, higher their mean must be.

Formula:

Mean:

x¯=∑i=1nXin

Calculation:

Stocks:

Here n = 20

Values of Xi are return from stock.

Putting all values in formula of mean,

x¯=151.0920=7.55

Bills:

Here n = 20

Values of Xi are return from bills.

Putting all values in formula of mean,

x¯=47.2620=2.36

Bonds:

Here n = 20

Values of Xi are return from bonds.

Putting all values in formula of mean,

x¯=114.6820=5.73

From all calculations,

Mean for each type of investment:

Stocks:7.55

Bills:2.36

Bonds:5.73

There is highest mean for Stocks, which leading high risk.

There are is low mean for Bills, which leading least risk.

The results from population standard deviation and finance theory are same as from mean of an investment. Hence, this result agrees with finance theory