a. Given: The utility function for asset position x is given by, u ( x ) = ln x Determining whether Am I Risk-Reverse, Risk-Neutral, or Risk-Seeking: If u ( x ) is differentiable, then it is, Risk-Reverse when u ' ' ( x ) < 0 , Risk-Neutral when u ( x ) is a linear function, Risk Seeking when u ' ' ( x ) > 0

Question

Consider two defaultable 1-year loans with a principal of $1 million each. The probability of default on each loan is 2.5%. Assume that if one loan defaults, the other does not. Assume that in the event of default, the loan leads to a loss that can take any value between $0 and $1 million with equal probability, i.e., the probability that the loss is higher than $ ? million is 1 − ?. If a loan does not default, it yields a profit equal to $20,000. Compute the 1-year 98% Value at Risk (VaR) and Expected Shortfall (ES) of a single loan.

Answer 1

Expert Solution & Answer

Chapter 13.2, Problem 1P

Explanation of Solution

a.

Given:

The utility function for asset position x is given by,

u(x)=lnx

Determining whether Am I Risk-Reverse, Risk-Neutral, or Risk-Seeking:

If u(x)is differentiable, then it is,

Risk-Reverse when u''(x)<0,

Risk-Neutral when u(x)is a linear function,

Risk Seeking when u''(x)>0

Explanation of Solution

b.

Given:

The utility function for asset position x is given by,

u(x)=lnx

Now, I have an asset of $20,000.

Consider the two lotteries,

L1: With probability 1, the asset becomes $19,000 (Loss of $1,000)

L2: With probability 0.9, the asset becomes $20,000 (Gain of $0)

       With probability 0.1, the asset becomes $10,000 (Loss of $10,000)

Determining which lottery, I prefer:

For a given lottery, L=(p1,r1;p2,r2;...;pn,rn), define the expected utility of the lottery L given as,

                  E(U for L) = ∑i=1i=npiu(ri)

Here, p is the probability,

u(ri)is the utility function,

ris the reward.

It is given that,

u(x)=lnx

Now, find the expected utility of the lottery L₁,

E(U for L1) =1×u(19000)                     =1×ln(19000)                     =9.8522

Similarly, find the expected utility of the lottery L₂,

E(U for L2) =(0.9×u(20000))+(0.1×u(10000))                     =(0.9×ln(20000))+(0.1×ln(10000))                     =9.8342

For the two lotteries L₁ and L₂, use preference criteria via expected utility criteria. The criteria are as follows:

We prefer L₁ over L₂ (L₁p L₂) if E(U for L1)>E(U for L2)

We prefer L₂ over L₁ (L₂p L₁) if E(U for L2)>E(U for L1)

The lottery L₁ is indifferent to L₂ (L₁i L₂) if E(U for L1)=E(U for L2)

We have,

E(U for L1) = 9

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Consider two defaultable 1-year loans with a principal of $1 million each. The probability of default on each loan is 2.5%. Assume that if one loan defaults, the other does not. Assume that in the event of default, the loan leads to a loss that can take any value between $0 and $1 million with equal probability, i.e., the probability that the loss is higher than $ ? million is 1 − ?. If a loan does not default, it yields a profit equal to $20,000. Compute the 1-year 98% Value at Risk (VaR) and Expected Shortfall (ES) of a single loan.

Assume that, with probability 0.8, It’s going to snow and/or I’m going to stay at home; and with probability 0.7, when it snows, then I stay at home. What is the probability of being truth that I am going to stay at home?

At the beginning of each year, a firm observes its asset position (call it d) and may invest any amount x (0 <=x <=d) in a risky investment. During each year, the money invested doubles with probability p and is completely lost with probability 1 - p. Independently of this investment, the firm’s asset position increases by an amount y with probability qy (y may be negative). If the firm’s asset position is negative at the beginning of a year, it cannot invest any money during that year. The firm initially has $10,000 in assets and wants to maximize its expected asset position ten years from now. Formulate a dynamic programming recursion that will help accomplish this goal.

Answer 2

Expert Solution & Answer

Chapter 13.2, Problem 1P

Explanation of Solution

a.

Given:

The utility function for asset position x is given by,

u(x)=lnx

Determining whether Am I Risk-Reverse, Risk-Neutral, or Risk-Seeking:

If u(x)is differentiable, then it is,

Risk-Reverse when u''(x)<0,

Risk-Neutral when u(x)is a linear function,

Risk Seeking when u''(x)>0

Explanation of Solution

b.

Given:

The utility function for asset position x is given by,

u(x)=lnx

Now, I have an asset of $20,000.

Consider the two lotteries,

L1: With probability 1, the asset becomes $19,000 (Loss of $1,000)

L2: With probability 0.9, the asset becomes $20,000 (Gain of $0)

       With probability 0.1, the asset becomes $10,000 (Loss of $10,000)

Determining which lottery, I prefer:

For a given lottery, L=(p1,r1;p2,r2;...;pn,rn), define the expected utility of the lottery L given as,

                  E(U for L) = ∑i=1i=npiu(ri)

Here, p is the probability,

u(ri)is the utility function,

ris the reward.

It is given that,

u(x)=lnx

Now, find the expected utility of the lottery L₁,

E(U for L1) =1×u(19000)                     =1×ln(19000)                     =9.8522

Similarly, find the expected utility of the lottery L₂,

E(U for L2) =(0.9×u(20000))+(0.1×u(10000))                     =(0.9×ln(20000))+(0.1×ln(10000))                     =9.8342

For the two lotteries L₁ and L₂, use preference criteria via expected utility criteria. The criteria are as follows:

We prefer L₁ over L₂ (L₁p L₂) if E(U for L1)>E(U for L2)

We prefer L₂ over L₁ (L₂p L₁) if E(U for L2)>E(U for L1)

The lottery L₁ is indifferent to L₂ (L₁i L₂) if E(U for L1)=E(U for L2)

We have,

E(U for L1) = 9

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Answer 3

Expert Solution & Answer

Chapter 13.2, Problem 1P

Explanation of Solution

a.

Given:

The utility function for asset position x is given by,

u(x)=lnx

Determining whether Am I Risk-Reverse, Risk-Neutral, or Risk-Seeking:

If u(x)is differentiable, then it is,

Risk-Reverse when u''(x)<0,

Risk-Neutral when u(x)is a linear function,

Risk Seeking when u''(x)>0

Explanation of Solution

b.

Given:

The utility function for asset position x is given by,

u(x)=lnx

Now, I have an asset of $20,000.

Consider the two lotteries,

L1: With probability 1, the asset becomes $19,000 (Loss of $1,000)

L2: With probability 0.9, the asset becomes $20,000 (Gain of $0)

       With probability 0.1, the asset becomes $10,000 (Loss of $10,000)

Determining which lottery, I prefer:

For a given lottery, L=(p1,r1;p2,r2;...;pn,rn), define the expected utility of the lottery L given as,

                  E(U for L) = ∑i=1i=npiu(ri)

Here, p is the probability,

u(ri)is the utility function,

ris the reward.

It is given that,

u(x)=lnx

Now, find the expected utility of the lottery L₁,

E(U for L1) =1×u(19000)                     =1×ln(19000)                     =9.8522

Similarly, find the expected utility of the lottery L₂,

E(U for L2) =(0.9×u(20000))+(0.1×u(10000))                     =(0.9×ln(20000))+(0.1×ln(10000))                     =9.8342

For the two lotteries L₁ and L₂, use preference criteria via expected utility criteria. The criteria are as follows:

We prefer L₁ over L₂ (L₁p L₂) if E(U for L1)>E(U for L2)

We prefer L₂ over L₁ (L₂p L₁) if E(U for L2)>E(U for L1)

The lottery L₁ is indifferent to L₂ (L₁i L₂) if E(U for L1)=E(U for L2)

We have,

E(U for L1) = 9

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Answer 4

Expert Solution & Answer

Chapter 13.2, Problem 1P

Explanation of Solution

a.

Given:

The utility function for asset position x is given by,

u(x)=lnx

Determining whether Am I Risk-Reverse, Risk-Neutral, or Risk-Seeking:

If u(x)is differentiable, then it is,

Risk-Reverse when u''(x)<0,

Risk-Neutral when u(x)is a linear function,

Risk Seeking when u''(x)>0

Explanation of Solution

b.

Given:

The utility function for asset position x is given by,

u(x)=lnx

Now, I have an asset of $20,000.

Consider the two lotteries,

L1: With probability 1, the asset becomes $19,000 (Loss of $1,000)

L2: With probability 0.9, the asset becomes $20,000 (Gain of $0)

       With probability 0.1, the asset becomes $10,000 (Loss of $10,000)

Determining which lottery, I prefer:

For a given lottery, L=(p1,r1;p2,r2;...;pn,rn), define the expected utility of the lottery L given as,

                  E(U for L) = ∑i=1i=npiu(ri)

Here, p is the probability,

u(ri)is the utility function,

ris the reward.

It is given that,

u(x)=lnx

Now, find the expected utility of the lottery L₁,

E(U for L1) =1×u(19000)                     =1×ln(19000)                     =9.8522

Similarly, find the expected utility of the lottery L₂,

E(U for L2) =(0.9×u(20000))+(0.1×u(10000))                     =(0.9×ln(20000))+(0.1×ln(10000))                     =9.8342

For the two lotteries L₁ and L₂, use preference criteria via expected utility criteria. The criteria are as follows:

We prefer L₁ over L₂ (L₁p L₂) if E(U for L1)>E(U for L2)

We prefer L₂ over L₁ (L₂p L₁) if E(U for L2)>E(U for L1)

The lottery L₁ is indifferent to L₂ (L₁i L₂) if E(U for L1)=E(U for L2)

We have,

E(U for L1) = 9

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Answer 5

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Answer 6

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Answer 7

Chapter 13.2, Problem 1P

Explanation of Solution

a.

Given:

The utility function for asset position x is given by,

u(x)=lnx

Determining whether Am I Risk-Reverse, Risk-Neutral, or Risk-Seeking:

If u(x)is differentiable, then it is,

Risk-Reverse when u''(x)<0,

Risk-Neutral when u(x)is a linear function,

Risk Seeking when u''(x)>0

Explanation of Solution

b.

Given:

The utility function for asset position x is given by,

u(x)=lnx

Now, I have an asset of $20,000.

Consider the two lotteries,

L1: With probability 1, the asset becomes $19,000 (Loss of $1,000)

L2: With probability 0.9, the asset becomes $20,000 (Gain of $0)

       With probability 0.1, the asset becomes $10,000 (Loss of $10,000)

Determining which lottery, I prefer:

For a given lottery, L=(p1,r1;p2,r2;...;pn,rn), define the expected utility of the lottery L given as,

                  E(U for L) = ∑i=1i=npiu(ri)

Here, p is the probability,

u(ri)is the utility function,

ris the reward.

It is given that,

u(x)=lnx

Now, find the expected utility of the lottery L₁,

E(U for L1) =1×u(19000)                     =1×ln(19000)                     =9.8522

Similarly, find the expected utility of the lottery L₂,

E(U for L2) =(0.9×u(20000))+(0.1×u(10000))                     =(0.9×ln(20000))+(0.1×ln(10000))                     =9.8342

For the two lotteries L₁ and L₂, use preference criteria via expected utility criteria. The criteria are as follows:

We prefer L₁ over L₂ (L₁p L₂) if E(U for L1)>E(U for L2)

We prefer L₂ over L₁ (L₂p L₁) if E(U for L2)>E(U for L1)

The lottery L₁ is indifferent to L₂ (L₁i L₂) if E(U for L1)=E(U for L2)

We have,

E(U for L1) = 9

Answer 8

Chapter 13.2, Problem 1P

Explanation of Solution

a.

Given:

The utility function for asset position x is given by,

u(x)=lnx

Determining whether Am I Risk-Reverse, Risk-Neutral, or Risk-Seeking:

If u(x)is differentiable, then it is,

Risk-Reverse when u''(x)<0,

Risk-Neutral when u(x)is a linear function,

Risk Seeking when u''(x)>0

Answer 9

Chapter 13.2, Problem 1P

Explanation of Solution

a.

Given:

The utility function for asset position x is given by,

u(x)=lnx

Determining whether Am I Risk-Reverse, Risk-Neutral, or Risk-Seeking:

If u(x)is differentiable, then it is,

Risk-Reverse when u''(x)<0,

Risk-Neutral when u(x)is a linear function,

Risk Seeking when u''(x)>0

Answer 10

Explanation of Solution

b.

Given:

The utility function for asset position x is given by,

u(x)=lnx

Now, I have an asset of $20,000.

Consider the two lotteries,

L1: With probability 1, the asset becomes $19,000 (Loss of $1,000)

L2: With probability 0.9, the asset becomes $20,000 (Gain of $0)

       With probability 0.1, the asset becomes $10,000 (Loss of $10,000)

Determining which lottery, I prefer:

For a given lottery, L=(p1,r1;p2,r2;...;pn,rn), define the expected utility of the lottery L given as,

                  E(U for L) = ∑i=1i=npiu(ri)

Here, p is the probability,

u(ri)is the utility function,

ris the reward.

It is given that,

u(x)=lnx

Now, find the expected utility of the lottery L₁,

E(U for L1) =1×u(19000)                     =1×ln(19000)                     =9.8522

Similarly, find the expected utility of the lottery L₂,

E(U for L2) =(0.9×u(20000))+(0.1×u(10000))                     =(0.9×ln(20000))+(0.1×ln(10000))                     =9.8342

For the two lotteries L₁ and L₂, use preference criteria via expected utility criteria. The criteria are as follows:

We prefer L₁ over L₂ (L₁p L₂) if E(U for L1)>E(U for L2)

We prefer L₂ over L₁ (L₂p L₁) if E(U for L2)>E(U for L1)

The lottery L₁ is indifferent to L₂ (L₁i L₂) if E(U for L1)=E(U for L2)

We have,

E(U for L1) = 9

Answer 11

Explanation of Solution

b.

Given:

The utility function for asset position x is given by,

u(x)=lnx

Now, I have an asset of $20,000.

Consider the two lotteries,

L1: With probability 1, the asset becomes $19,000 (Loss of $1,000)

L2: With probability 0.9, the asset becomes $20,000 (Gain of $0)

       With probability 0.1, the asset becomes $10,000 (Loss of $10,000)

Determining which lottery, I prefer:

For a given lottery, L=(p1,r1;p2,r2;...;pn,rn), define the expected utility of the lottery L given as,

                  E(U for L) = ∑i=1i=npiu(ri)

Here, p is the probability,

u(ri)is the utility function,

ris the reward.

It is given that,

u(x)=lnx

Now, find the expected utility of the lottery L₁,

E(U for L1) =1×u(19000)                     =1×ln(19000)                     =9.8522

Similarly, find the expected utility of the lottery L₂,

E(U for L2) =(0.9×u(20000))+(0.1×u(10000))                     =(0.9×ln(20000))+(0.1×ln(10000))                     =9.8342

For the two lotteries L₁ and L₂, use preference criteria via expected utility criteria. The criteria are as follows:

We prefer L₁ over L₂ (L₁p L₂) if E(U for L1)>E(U for L2)

We prefer L₂ over L₁ (L₂p L₁) if E(U for L2)>E(U for L1)

The lottery L₁ is indifferent to L₂ (L₁i L₂) if E(U for L1)=E(U for L2)

We have,

E(U for L1) = 9

Answer 12

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Answer 23

Ch. 13.2 - Prob. 1P Ch. 13.3 - Prob. 3P Ch. 13.5 - Prob. 3P

Solution Summary: The author explains the utility function for asset position x and the expected utility of the lottery.

Concept explainers

Explanation of Solution

a.

Given:

The utility function for asset position x is given by,

u(x)=lnx

Determining whether Am I Risk-Reverse, Risk-Neutral, or Risk-Seeking:

If u(x)is differentiable, then it is,

Risk-Reverse when u''(x)<0,

Risk-Neutral when u(x)is a linear function,

Risk Seeking when u''(x)>0

Explanation of Solution

Chapter 13 Solutions

Solution Summary: The author explains the utility function for asset position x and the expected utility of the lottery.

Concept explainers

Explanation of Solution

a. Given: The utility function for asset position x is given by, u(x)=lnx Determining whether Am I Risk-Reverse, Risk-Neutral, or Risk-Seeking: If u(x)is differentiable, then it is, Risk-Reverse when u''(x)<0, Risk-Neutral when u(x)is a linear function, Risk Seeking when u''(x)>0

Explanation of Solution

Chapter 13 Solutions

a.

Given:

The utility function for asset position x is given by,

u(x)=lnx

Determining whether Am I Risk-Reverse, Risk-Neutral, or Risk-Seeking:

If u(x)is differentiable, then it is,

Risk-Reverse when u''(x)<0,

Risk-Neutral when u(x)is a linear function,

Risk Seeking when u''(x)>0