Questions
A theater seating chart is implemented as a table of ticket prices, like this C1 C2...

A theater seating chart is implemented as a table of ticket prices, like this
C1 C2 C3 C4 C5 C6 C7 C8 C9 C10
R1 10 10 10 10 10 10 10 10 10 10
R2 10 10 10 10 10 10 10 10 10 10
R3 10 10 10 10 10 10 10 10 10 10
R4 10 10 20 20 20 20 20 20 10 10
R5 10 10 20 20 20 20 20 20 10 10
R6 10 10 20 20 20 20 20 20 10 10
R7 20 20 30 30 30 30 30 30 20 20
R8 20 30 30 40 50 50 40 30 30 20
R9 30 40 50 50 50 50 50 50 40 30
R10 20 40 50 50 50 50 50 50 40 20

A theater seating chart is implemented as a table of ticket prices, like this above Write a program that asks users to pick either a seat or a price. When choosing seat, indicate the row and column for the location; when choosing the price, like computer find the first available price; mark the sold seats by changing the price to 0. When a user specifies a seat, make sure it is available. Use loop to determine whether continue to order or not. In each time, the seating chart should be displayed for user. When user stops ordering, your program should output the number of tickets ordered, and amount ordered.

PS- the program is being written in python language and our insturctor has told us to us elif

In: Computer Science

Stocks A and B have the following probability distributions of expected future returns: Probability A B...

Stocks A and B have the following probability distributions of expected future returns:

Probability A B
0.2 (7%) (37%)
0.2 4 0
0.2 13 19
0.3 18 27
0.1 38 48

  1. Calculate the expected rate of return, , for Stock B ( = 11.20%.) Do not round intermediate calculations. Round your answer to two decimal places.
      %

  2. Calculate the standard deviation of expected returns, σA, for Stock A (σB = 26.62%.) Do not round intermediate calculations. Round your answer to two decimal places.
      %

    Now calculate the coefficient of variation for Stock B. Round your answer to two decimal places.

    Is it possible that most investors might regard Stock B as being less risky than Stock A?

    1. If Stock B is more highly correlated with the market than A, then it might have the same beta as Stock A, and hence be just as risky in a portfolio sense.
    2. If Stock B is less highly correlated with the market than A, then it might have a lower beta than Stock A, and hence be less risky in a portfolio sense.
    3. If Stock B is less highly correlated with the market than A, then it might have a higher beta than Stock A, and hence be more risky in a portfolio sense.
    4. If Stock B is more highly correlated with the market than A, then it might have a higher beta than Stock A, and hence be less risky in a portfolio sense.
    5. If Stock B is more highly correlated with the market than A, then it might have a lower beta than Stock A, and hence be less risky in a portfolio sense.


    -Select-

  3. Assume the risk-free rate is 2.5%. What are the Sharpe ratios for Stocks A and B? Do not round intermediate calculations. Round your answers to two decimal places.

    Stock A:

    Stock B:

    Are these calculations consistent with the information obtained from the coefficient of variation calculations in Part b?

    1. In a stand-alone risk sense A is less risky than B. If Stock B is less highly correlated with the market than A, then it might have a lower beta than Stock A, and hence be less risky in a portfolio sense.
    2. In a stand-alone risk sense A is less risky than B. If Stock B is less highly correlated with the market than A, then it might have a higher beta than Stock A, and hence be more risky in a portfolio sense.
    3. In a stand-alone risk sense A is more risky than B. If Stock B is less highly correlated with the market than A, then it might have a lower beta than Stock A, and hence be less risky in a portfolio sense.
    4. In a stand-alone risk sense A is more risky than B. If Stock B is less highly correlated with the market than A, then it might have a higher beta than Stock A, and hence be more risky in a portfolio sense.
    5. In a stand-alone risk sense A is less risky than B. If Stock B is more highly correlated with the market than A, then it might have the same beta as Stock A, and hence be just as risky in a portfolio sense.


    -Select-

In: Finance

Stocks A and B have the following probability distributions of expected future returns: Probability A B...

Stocks A and B have the following probability distributions of expected future returns:

Probability A B
0.3 (15%) (30%)
0.2 3 0
0.2 11 20
0.1 24 26
0.2 33 40

  1. Calculate the expected rate of return, , for Stock B ( = 7.30%.) Do not round intermediate calculations. Round your answer to two decimal places.
      %

  2. Calculate the standard deviation of expected returns, σA, for Stock A (σB = 26.58%.) Do not round intermediate calculations. Round your answer to two decimal places.
      %

    Now calculate the coefficient of variation for Stock B. Round your answer to two decimal places.

    Is it possible that most investors might regard Stock B as being less risky than Stock A?

    1. If Stock B is less highly correlated with the market than A, then it might have a lower beta than Stock A, and hence be less risky in a portfolio sense.
    2. If Stock B is less highly correlated with the market than A, then it might have a higher beta than Stock A, and hence be more risky in a portfolio sense.
    3. If Stock B is more highly correlated with the market than A, then it might have a higher beta than Stock A, and hence be less risky in a portfolio sense.
    4. If Stock B is more highly correlated with the market than A, then it might have a lower beta than Stock A, and hence be less risky in a portfolio sense.
    5. If Stock B is more highly correlated with the market than A, then it might have the same beta as Stock A, and hence be just as risky in a portfolio sense.


    -Select-IIIIIIIVVItem 4

  3. Assume the risk-free rate is 2.5%. What are the Sharpe ratios for Stocks A and B? Do not round intermediate calculations. Round your answers to two decimal places.

    Stock A:

    Stock B:

    Are these calculations consistent with the information obtained from the coefficient of variation calculations in Part b?

    1. In a stand-alone risk sense A is more risky than B. If Stock B is less highly correlated with the market than A, then it might have a higher beta than Stock A, and hence be more risky in a portfolio sense.
    2. In a stand-alone risk sense A is less risky than B. If Stock B is more highly correlated with the market than A, then it might have the same beta as Stock A, and hence be just as risky in a portfolio sense.
    3. In a stand-alone risk sense A is less risky than B. If Stock B is less highly correlated with the market than A, then it might have a lower beta than Stock A, and hence be less risky in a portfolio sense.
    4. In a stand-alone risk sense A is less risky than B. If Stock B is less highly correlated with the market than A, then it might have a higher beta than Stock A, and hence be more risky in a portfolio sense.
    5. In a stand-alone risk sense A is more risky than B. If Stock B is less highly correlated with the market than A, then it might have a lower beta than Stock A, and hence be less risky in a portfolio sense.

In: Finance

Stocks A and B have the following probability distributions of expected future returns: Probability A B...

Stocks A and B have the following probability distributions of expected future returns:

Probability A B
0.1 (8%) (25%)
0.2 6 0
0.3 15 23
0.2 18 27
0.2 40 50

  1. Calculate the expected rate of return, , for Stock B ( = 16.50%.) Do not round intermediate calculations. Round your answer to two decimal places.
      %

  2. Calculate the standard deviation of expected returns, σA, for Stock A (σB = 21.79%.) Do not round intermediate calculations. Round your answer to two decimal places.
      %

    Now calculate the coefficient of variation for Stock B. Round your answer to two decimal places.

    Is it possible that most investors might regard Stock B as being less risky than Stock A?

    1. If Stock B is less highly correlated with the market than A, then it might have a lower beta than Stock A, and hence be less risky in a portfolio sense.
    2. If Stock B is less highly correlated with the market than A, then it might have a higher beta than Stock A, and hence be more risky in a portfolio sense.
    3. If Stock B is more highly correlated with the market than A, then it might have a higher beta than Stock A, and hence be less risky in a portfolio sense.
    4. If Stock B is more highly correlated with the market than A, then it might have a lower beta than Stock A, and hence be less risky in a portfolio sense.
    5. If Stock B is more highly correlated with the market than A, then it might have the same beta as Stock A, and hence be just as risky in a portfolio sense.

  3. Assume the risk-free rate is 3.5%. What are the Sharpe ratios for Stocks A and B? Do not round intermediate calculations. Round your answers to two decimal places.

    Stock A:

    Stock B:

    Are these calculations consistent with the information obtained from the coefficient of variation calculations in Part b?

    1. In a stand-alone risk sense A is less risky than B. If Stock B is less highly correlated with the market than A, then it might have a higher beta than Stock A, and hence be more risky in a portfolio sense.
    2. In a stand-alone risk sense A is more risky than B. If Stock B is less highly correlated with the market than A, then it might have a lower beta than Stock A, and hence be less risky in a portfolio sense.
    3. In a stand-alone risk sense A is more risky than B. If Stock B is less highly correlated with the market than A, then it might have a higher beta than Stock A, and hence be more risky in a portfolio sense.
    4. In a stand-alone risk sense A is less risky than B. If Stock B is more highly correlated with the market than A, then it might have the same beta as Stock A, and hence be just as risky in a portfolio sense.
    5. In a stand-alone risk sense A is less risky than B. If Stock B is less highly correlated with the market than A, then it might have a lower beta than Stock A, and hence be less risky in a portfolio sense.

In: Finance

Stocks A and B have the following probability distributions of expected future returns: Probability A B...

Stocks A and B have the following probability distributions of expected future returns:

Probability A B
0.3 (13%) (30%)
0.2 3 0
0.1 11 20
0.2 22 25
0.2 36 41

  1. Calculate the expected rate of return, , for Stock B ( = 9.40%.) Do not round intermediate calculations. Round your answer to two decimal places.
      %

  2. Calculate the standard deviation of expected returns, σA, for Stock A (σB = 27.07%.) Do not round intermediate calculations. Round your answer to two decimal places.
      %

    Now calculate the coefficient of variation for Stock B. Round your answer to two decimal places.

    Is it possible that most investors might regard Stock B as being less risky than Stock A?

    1. If Stock B is less highly correlated with the market than A, then it might have a higher beta than Stock A, and hence be more risky in a portfolio sense.
    2. If Stock B is more highly correlated with the market than A, then it might have a higher beta than Stock A, and hence be less risky in a portfolio sense.
    3. If Stock B is more highly correlated with the market than A, then it might have a lower beta than Stock A, and hence be less risky in a portfolio sense.
    4. If Stock B is more highly correlated with the market than A, then it might have the same beta as Stock A, and hence be just as risky in a portfolio sense.
    5. If Stock B is less highly correlated with the market than A, then it might have a lower beta than Stock A, and hence be less risky in a portfolio sense.


  3. Assume the risk-free rate is 2.0%. What are the Sharpe ratios for Stocks A and B? Do not round intermediate calculations. Round your answers to two decimal places.

    Stock A:

    Stock B:

    Are these calculations consistent with the information obtained from the coefficient of variation calculations in Part b?

    1. In a stand-alone risk sense A is more risky than B. If Stock B is less highly correlated with the market than A, then it might have a higher beta than Stock A, and hence be more risky in a portfolio sense.
    2. In a stand-alone risk sense A is less risky than B. If Stock B is more highly correlated with the market than A, then it might have the same beta as Stock A, and hence be just as risky in a portfolio sense.
    3. In a stand-alone risk sense A is less risky than B. If Stock B is less highly correlated with the market than A, then it might have a lower beta than Stock A, and hence be less risky in a portfolio sense.
    4. In a stand-alone risk sense A is less risky than B. If Stock B is less highly correlated with the market than A, then it might have a higher beta than Stock A, and hence be more risky in a portfolio sense.
    5. In a stand-alone risk sense A is more risky than B. If Stock B is less highly correlated with the market than A, then it might have a lower beta than Stock A, and hence be less risky in a portfolio sense.


In: Finance

Stocks A and B have the following probability distributions of expected future returns: Probability A B...

Stocks A and B have the following probability distributions of expected future returns:

Probability A B
0.2 (12%) (36%)
0.3 6 0
0.2 14 24
0.1 22 28
0.2 31 36

  1. Calculate the expected rate of return, , for Stock B ( = 10.60%.) Do not round intermediate calculations. Round your answer to two decimal places.
      %

  2. Calculate the standard deviation of expected returns, σA, for Stock A (σB = 25.58%.) Do not round intermediate calculations. Round your answer to two decimal places.
      %

    Now calculate the coefficient of variation for Stock B. Round your answer to two decimal places.

    Is it possible that most investors might regard Stock B as being less risky than Stock A?

    1. If Stock B is more highly correlated with the market than A, then it might have a lower beta than Stock A, and hence be less risky in a portfolio sense.
    2. If Stock B is more highly correlated with the market than A, then it might have the same beta as Stock A, and hence be just as risky in a portfolio sense.
    3. If Stock B is less highly correlated with the market than A, then it might have a lower beta than Stock A, and hence be less risky in a portfolio sense.
    4. If Stock B is less highly correlated with the market than A, then it might have a higher beta than Stock A, and hence be more risky in a portfolio sense.
    5. If Stock B is more highly correlated with the market than A, then it might have a higher beta than Stock A, and hence be less risky in a portfolio sense.


    -Select-IIIIIIIVVItem 4

  3. Assume the risk-free rate is 2.5%. What are the Sharpe ratios for Stocks A and B? Do not round intermediate calculations. Round your answers to two decimal places.

    Stock A:

    Stock B:

    Are these calculations consistent with the information obtained from the coefficient of variation calculations in Part b?

    1. In a stand-alone risk sense A is more risky than B. If Stock B is less highly correlated with the market than A, then it might have a lower beta than Stock A, and hence be less risky in a portfolio sense.
    2. In a stand-alone risk sense A is more risky than B. If Stock B is less highly correlated with the market than A, then it might have a higher beta than Stock A, and hence be more risky in a portfolio sense.
    3. In a stand-alone risk sense A is less risky than B. If Stock B is more highly correlated with the market than A, then it might have the same beta as Stock A, and hence be just as risky in a portfolio sense.
    4. In a stand-alone risk sense A is less risky than B. If Stock B is less highly correlated with the market than A, then it might have a lower beta than Stock A, and hence be less risky in a portfolio sense.
    5. In a stand-alone risk sense A is less risky than B. If Stock B is less highly correlated with the market than A, then it might have a higher beta than Stock A, and hence be more risky in a portfolio sense.

In: Finance

Present a mock brief operations blueprint built off of your college bookstore.

Present a mock brief operations blueprint built off of your college bookstore.

In: Operations Management

why allowance for wastage is necessary when preparing an estimate/ built up rate?

why allowance for wastage is necessary when preparing an estimate/ built up rate?

In: Civil Engineering

1. The National Park Service has asked you to construct a value of the Grand Canyon....

1. The National Park Service has asked you to construct a value of the Grand Canyon. Explain the pros and cons of using the travel cost method to do this. Would you prefer the hedonic method or the stated preference method? Why or why not?

In: Economics

1. The National Park Service has asked you to construct a value of the Grand Canyon....

1. The National Park Service has asked you to construct a value of the Grand Canyon. Explain the pros and cons of using the travel cost method to do this. Would you prefer the hedonic method or the stated preference method? Why or why not?

In: Economics