Black Friday - the annual shopping tradition the day after Thanksgiving - is often the day which puts retailers "in the black." According to a CNN Money report, consumers spent an average of $378.84 on Black Friday in 2010 with a standard deviation of $247.23. Draw and label a normal curve which would be used to describe the Black Friday expenditures. Based on the values calculated, would it be reasonable to assume the money spent is normally distributed? It is not reasonable to assume the amount of money spent by Black Friday shoppers is normally distributed. It is reasonable to assume the amount of money spent by Black Friday shoppers is normally distributed Completely describe the sampling distribution of the sample mean Black Friday expenditure when samples of size 84 are selected. Mean: μ ¯ y = Standard deviation: σ ¯ y = (round to 4 decimal places) Shape:the distribution of ¯ y is because Using the distribution described in part b, what is the probability of observing a sample mean of $454.633 or more? z = (round to 2 decimal places) probability = (include 4 decimal places) Based on the probability found, what conclusion can be reached? The probability would be classified as . So, there sufficient evidence to conclude the mean amount spent by customers on Black Friday is greater than 378.84.

For the company Coca-cola:

a. calculate Economic Value Added (EVA) over the most recent annual period. Assume a 10 percent cost of capital and explain your results.

b. estimate the firm’s expected growth rate using the Gordon Growth Model and an expected return on the company’s stock of 10%. Compare these results with a close competitor.

c. estimate the firms’ weighted average cost of capital (WACC) after taxes. Use the capital asset pricing model (CAPM) to estimate the cost of common stock equity. Use the yield-to-maturity on the firms’ outstanding debt or an industry average to estimate the cost of debt and a corporate tax rate of 21 percent. Compare and contrast your result with that of a close competitor or industry average.

Market Summary > The Coca-Cola Co

FollowFollowing

NYSE: KO

48.19 USD +0.79 (1.67%)

Closed: May 10, 6:09 PM EDT · Disclaimer

After hours 48.19 0.00 (0.00%)

Max

48.25 USD  ‎4:30 PM

47.047.548.048.5Previous
close
47.40

12:00 PM4:00 PM8:00 PM

Not sure if this is what you are looking for.

I'm not sure if I am answering your question correctly, can I assume the investment made is $1000

Visit the NASDAQ historical prices weblink. First, set the date range to be for exactly 1 year ending on the Monday that this course started. For example, if the current term started on April 1, 2018, then use April 1, 2017 – March 31, 2018. (Do NOT use these dates. Use March 18, 2018 - March 17, 2019.) Do this by clicking on the blue dates after “Time Period”. Next, click the “Apply” button. Next, click the link on the right side of the page that says “Download Data” to save the file to your computer.

This project will only use the Close values. Assume that the closing prices of the stock form a normally distributed data set. This means that you need to use Excel to find the mean and standard deviation. Then, use those numbers and the methods you learned in sections 6.1-6.3 of the course textbook for normal distributions to answer the questions. Do NOT count the number of data points.

Complete this portion of the assignment within a single Excel file. Show your work or explain how you obtained each of your answers. Answers with no work and no explanation will receive no credit.

1. If a person bought 1 share of Google stock within the last year, what is the probability that the stock on that day closed at more than $1150? (5 points)
2. If a person bought 1 share of Google stock within the last year, what is the probability that the stock on that day closed within $50 of the mean for that year? (Hint: this means the probability of being between 50 below and 50 above the mean) (5 points)
3. If a person bought 1 share of Google stock within the last year, what is the probability that the stock on that day closed at less than $900 per share. Would this be considered unusal? Use the definition of unusual from the course textbook that is measured as a number of standard deviations (5 points)
4. At what prices would Google have to close in order for it to be considered statistically unusual? You will have a low and high value. Use the definition of unusual from the course textbook that is measured as a number of standard deviations. (5 points)
5. What are Quartile 1, Quartile 2, and Quartile 3 in this data set? Use Excel to find these values. This is the only question that you must answer without using anything about the normal distribution. (5 points)
6. Is the normality assumption that was made at the beginning valid? Why or why not? Hint: Does this distribution have the properties of a normal distribution as described in the course textbook? Real data sets are never perfect, however, it should be close. One option would be to construct a histogram like you did in Project 1 to see if it has the right shape. Something in the range of 10 to 12 classes is a good number. (5 points)

PLEASE DO IN C#

Warehouse Inventories

Objective:

Work with multiple objects and review reading data files.

Description: A wholesale distributor has six warehouses (Atlanta, Baltimore, Chicago, Denver, Ely and Fargo) and sells five different items (identified by part number: 102, 215, 410, 525 and 711). Each warehouse may stock any or all of the five items. The company buys and sells these items constantly. Company transaction records contain a transaction code (‘P’ for a purchase or ‘S’ for a sale) followed by an item number and the quantity (bought or sold).

The transaction records are contained in a transaction data file named Transactions.txt.

Sample transaction records:    Transactions.txt

P 410 1000

S 215 120

S 711 300

|

A separate data file contains the initial status of the six warehouses at the beginning of the day (i.e., the ending status from the night before). This data file has only six records (lines). Each record (line) contains five numbers that show the quantity on hand for the five items in that warehouse. This file is named Inventory.txt.

Sample status data file: Inventory.txt

500 120 60 0 350

100 230 0 50 0

0 75 0 0 220

600 50 120 300 40

210 160 30 80 50

90 50 90 200 70

|

The status data file is updated by processing the transaction records in the transaction data file according to these rules:

1 –     For a sale (‘S’) – subtract the quantity sold from the warehouse that

            has the largest supply of that item on hand.

2 –     For a purchase (‘P’) – add the quantity purchased to the warehouse

            that has the lowest supply of that item on hand.

Instructions:

Write an object-oriented C# program to do the above inventory warehouse processing. Each of the six warehouses should be treated as an individual object. For example, Atlanta would be an object with each of the five part numbers as instance fields. Each of the other warehouses should also be objects with the five part numbers as instance fields. Of course, there would be one class which would be the main (driver) class from which these 6 objects would be created.

In the beginning of the program, the status data file (Inventory.txt) should be read and an object for each warehouse created. The Inventory.txt data file is in the following order: the first line is the Atlanta warehouse, the second line is the Baltimore warehouse, third Chicago, then Denver, Ely and Fargo. After the objects are created, the transactions data file (Transactions.txt) are read and processed.

The objects should be updated as the transaction records are read and processed.

The program should:

1 –     Display the initial (beginning-of-day) status for all warehouses.

2 –     Process each transaction from the transaction data file and show which

            warehouse’s inventory was updated to reflect that transaction.

3 –     Display the final (end-of-day) status for all warehouses.

Requirements:

The class must be named Inventory.

The main program (driver) must be named Warehouses.

A driver (main class) as well as a programmer-defined class must be used.

Submit program through the assignment tool in Moodle2.

Include a comment stating your name.

Each student must create his/her own independent program.

Warehouse Inventories

Objective:

Work with multiple objects and review reading data files.

Description: A wholesale distributor has six warehouses (Atlanta, Baltimore, Chicago, Denver, Ely and Fargo) and sells five different items (identified by part number: 102, 215, 410, 525 and 711). Each warehouse may stock any or all of the five items. The company buys and sells these items constantly. Company transaction records contain a transaction code (‘P’ for a purchase or ‘S’ for a sale) followed by an item number and the quantity (bought or sold).

The transaction records are contained in a transaction data file named Transactions.txt.

Sample transaction records:    Transactions.txt

P 410 1000

S 215 120

S 711 300

|

A separate data file contains the initial status of the six warehouses at the beginning of the day (i.e., the ending status from the night before). This data file has only six records (lines). Each record (line) contains five numbers that show the quantity on hand for the five items in that warehouse. This file is named Inventory.txt.

Sample status data file: Inventory.txt

500 120 60 0 350

100 230 0 50 0

0 75 0 0 220

600 50 120 300 40

210 160 30 80 50

90 50 90 200 70

|

The status data file is updated by processing the transaction records in the transaction data file according to these rules:

1 –     For a sale (‘S’) – subtract the quantity sold from the warehouse that

            has the largest supply of that item on hand.

2 –     For a purchase (‘P’) – add the quantity purchased to the warehouse

            that has the lowest supply of that item on hand.

Instructions:

Write an object-oriented C# program to do the above inventory warehouse processing. Each of the six warehouses should be treated as an individual object. For example, Atlanta would be an object with each of the five part numbers as instance fields. Each of the other warehouses should also be objects with the five part numbers as instance fields. Of course, there would be one class which would be the main (driver) class from which these 6 objects would be created.

In the beginning of the program, the status data file (Inventory.txt) should be read and an object for each warehouse created. The Inventory.txt data file is in the following order: the first line is the Atlanta warehouse, the second line is the Baltimore warehouse, third Chicago, then Denver, Ely and Fargo. After the objects are created, the transactions data file (Transactions.txt) are read and processed.

The objects should be updated as the transaction records are read and processed.

The program should:

1 –     Display the initial (beginning-of-day) status for all warehouses.

2 –     Process each transaction from the transaction data file and show which

            warehouse’s inventory was updated to reflect that transaction.

3 –     Display the final (end-of-day) status for all warehouses.

Requirements:

The class must be named Inventory.

The main program (driver) must be named Warehouses.

A driver (main class) as well as a programmer-defined class must be used.

Warehouse Inventories

Objective:

Work with multiple objects and review reading data files.

Description: A wholesale distributor has six warehouses (Atlanta, Baltimore, Chicago, Denver, Ely and Fargo) and sells five different items (identified by part number: 102, 215, 410, 525 and 711). Each warehouse may stock any or all of the five items. The company buys and sells these items constantly. Company transaction records contain a transaction code (‘P’ for a purchase or ‘S’ for a sale) followed by an item number and the quantity (bought or sold).

The transaction records are contained in a transaction data file named Transactions.txt.

Sample transaction records:    Transactions.txt

P 410 1000

S 215 120

S 711 300

|

A separate data file contains the initial status of the six warehouses at the beginning of the day (i.e., the ending status from the night before). This data file has only six records (lines). Each record (line) contains five numbers that show the quantity on hand for the five items in that warehouse. This file is named Inventory.txt.

Sample status data file: Inventory.txt

500 120 60 0 350

100 230 0 50 0

0 75 0 0 220

600 50 120 300 40

210 160 30 80 50

90 50 90 200 70

|

The status data file is updated by processing the transaction records in the transaction data file according to these rules:

1 –     For a sale (‘S’) – subtract the quantity sold from the warehouse that

            has the largest supply of that item on hand.

2 –     For a purchase (‘P’) – add the quantity purchased to the warehouse

            that has the lowest supply of that item on hand.

Instructions:

Write an object-oriented C# program to do the above inventory warehouse processing. Each of the six warehouses should be treated as an individual object. For example, Atlanta would be an object with each of the five part numbers as instance fields. Each of the other warehouses should also be objects with the five part numbers as instance fields. Of course, there would be one class which would be the main (driver) class from which these 6 objects would be created.

In the beginning of the program, the status data file (Inventory.txt) should be read and an object for each warehouse created. The Inventory.txt data file is in the following order: the first line is the Atlanta warehouse, the second line is the Baltimore warehouse, third Chicago, then Denver, Ely and Fargo. After the objects are created, the transactions data file (Transactions.txt) are read and processed.

The objects should be updated as the transaction records are read and processed.

The program should:

1 –     Display the initial (beginning-of-day) status for all warehouses.

2 –     Process each transaction from the transaction data file and show which

            warehouse’s inventory was updated to reflect that transaction.

3 –     Display the final (end-of-day) status for all warehouses.

Requirements:

The class must be named Inventory.

The main program (driver) must be named Warehouses.

A driver (main class) as well as a programmer-defined class must be used.

Submit program through the assignment tool in Moodle2.

Include a comment stating your name.

Each student must create his/her own independent program.

Warehouse Inventories

Objective:

Work with multiple objects and review reading data files.

Description: A wholesale distributor has six warehouses (Atlanta, Baltimore, Chicago, Denver, Ely and Fargo) and sells five different items (identified by part number: 102, 215, 410, 525 and 711). Each warehouse may stock any or all of the five items. The company buys and sells these items constantly. Company transaction records contain a transaction code (‘P’ for a purchase or ‘S’ for a sale) followed by an item number and the quantity (bought or sold).

The transaction records are contained in a transaction data file named Transactions.txt.

Sample transaction records:    Transactions.txt

P 410 1000

S 215 120

S 711 300

|

A separate data file contains the initial status of the six warehouses at the beginning of the day (i.e., the ending status from the night before). This data file has only six records (lines). Each record (line) contains five numbers that show the quantity on hand for the five items in that warehouse. This file is named Inventory.txt.

Sample status data file: Inventory.txt

500 120 60 0 350

100 230 0 50 0

0 75 0 0 220

600 50 120 300 40

210 160 30 80 50

90 50 90 200 70

|

The status data file is updated by processing the transaction records in the transaction data file according to these rules:

1 –     For a sale (‘S’) – subtract the quantity sold from the warehouse that

            has the largest supply of that item on hand.

2 –     For a purchase (‘P’) – add the quantity purchased to the warehouse

            that has the lowest supply of that item on hand.

Instructions:

Write an object-oriented C# program to do the above inventory warehouse processing. Each of the six warehouses should be treated as an individual object. For example, Atlanta would be an object with each of the five part numbers as instance fields. Each of the other warehouses should also be objects with the five part numbers as instance fields. Of course, there would be one class which would be the main (driver) class from which these 6 objects would be created.

In the beginning of the program, the status data file (Inventory.txt) should be read and an object for each warehouse created. The Inventory.txt data file is in the following order: the first line is the Atlanta warehouse, the second line is the Baltimore warehouse, third Chicago, then Denver, Ely and Fargo. After the objects are created, the transactions data file (Transactions.txt) are read and processed.

The objects should be updated as the transaction records are read and processed.

The program should:

1 –     Display the initial (beginning-of-day) status for all warehouses.

2 –     Process each transaction from the transaction data file and show which

            warehouse’s inventory was updated to reflect that transaction.

3 –     Display the final (end-of-day) status for all warehouses.

Requirements:

The class must be named Inventory.

The main program (driver) must be named Warehouses.

A driver (main class) as well as a programmer-defined class must be used.

Marcia, age 56, is starting to think about retirement. She plans to retire at age 65 and she expects to liver to age 90. She estimates that she will need $50,000 per year, before tax in retirement to give her the lifestyle she wants. She will receive a non-indexed pension of $25,000 a year plus a combined $12,000 per year in CPP and OAS retirement income. She currently has $70,000 in her RRSP. For planning purposes, Marcia is using a 8% nominal rate of return on savings before retirement and a 6% nominal rate of return during retirement. Inflation is expected to remain at 2% per year throughout her lifetime.

4. What is Marcia’s real rate of return before and after retirement? (ROUND TO 4 DECIMAL

PLACES)

5. What is the present value at retirement of her required retirement income of $50,000 per

year, before tax?

6. What is the present value at retirement of her non-indexed pension?

7. What is the present value at retirement of her CPP and OAS retirement income?

8. Before she retires, Marcia decides that she will deposit $12,000 per year at the end of each year to her RRSP. How much will she have saved in her RRSP by the time she retires? Assume that Marcia will increase her annual deposit for inflation.

9. Based on your answers to the questions above, will Marcia have enough money for retirement? Explain.

Please show all calculations for all parts

Central City levies taxes of $950,000 in 2019. It collects $ 600,000 of this in 2019, $180,000 in February 2020, $120,000 in May 2020 and the remaining in February 2021. The fiscal year of the City ends on December 31. In 2019, the city will recognize tax revenues at the governmental activities level of:

$600,000

$780,000

$900,000

$950,000

Hops Co. purchased a copyright from Wall Co. for $40,000 on July 1, 2017. Expenditures of $17,000 for unsuccessful litigation in defense of the copyright were paid on July 1, 2020. Hops estimated that the useful life of the copyright will be 20 years from the date of acquisition.

What is the 2020 amortization expense?

Consider the following in Euclidean geometry: Suppose that you want to translate a figure in the coordinate plane along the vector ( 0 2020 ). Find, with a brief explanation, the equations of two lines in the coordinate plane (call them ℓ and m) such that ρ m ∘ ρ ℓ is a translation along the vector ( 0 2020 ).

Sheridan Company had the following stockholders’ equity accounts on January 1, 2020: Common Stock ($5 par) $514,500, Paid-in Capital in Excess of Par—Common Stock $181,440, and Retained Earnings $103,110. In 2020, the company had the following treasury stock transactions.

a) Journalize the treasury stock transactions, and prepare the closing entry at December 31, 2020, for net income.

b) Open accounts for (1) Paid-in Capital from Treasury Stock, (2) Treasury Stock, and (3) Retained Earnings. (Post to T-accounts.) (Post entries in the order of journal entries presented in the previous part.)

c) Prepare the stockholder's equity section at Dec 31, 2020