Jane wants to setup a photo shop. The cost to rent an office is $150 per week. The variable cost of making one photo is $20 and she can sell it for $50.
Paul wants to choose one of the two investment opportunities over three possible scenarios. Investment 1 will yield a return of $10,000 in Scenario 1, $2,000 in Scenario 2, and a negative return of $5,000 in Scenario 3. Investment 2 will yield a return of $6,000 in Scenario 1, $4,000 in Scenario 2, and zero in Scenario 3. The probability for Scenario 1 is 0.2, for Scenario 2 is 0.3, and for Scenario 3 is 0.5.
If you were to choose the investment that maximizes Paul's Expected Money Value (EMV), then you should choose __________.


If Paul is uncertain about the return for Investment 1 in Scenario 1, then this return has to be [removed]dollars in order to make Paul indifferent between these two investments (i.e. the two investments would have the same EMV.) (Please only enter an integer and include no units.)

Sam has a cleaning service. To better allocate his resources, he would like to forecast his weekly orders based on the order number he received in the past 13 weeks as shown in the following table.
Week 
Demand 
Week 1 
11 
Week 2 
14 
Week 3 
16 
Week 4 
10 
Week 5 
15 
Week 6 
17 
Week 7 
11 
Week 8 
14 
Week 9 
17 
Week 10 
12 
Week 11 
14 
Week 12 
16 
Week 13 
15 
Using a three week moving average, Sam's forecast for his Week 14 order number is [removed]. (Please round to two decimal points and include no units.)


Using a three week weighted moving average with weights 3, 2, and 1 given to the most recent, second most recent, and third most recent week, respectively, Sam's forecast for his Week 14 order number is [removed]. (Please round to two decimal points and include no units.)


If the MAD for moving average is 4.17 and the MAD for weighted moving average is 2.38, then which forecast is more accurate?

A grocery store needs to sell 3,000 cartons of 2L 2% milk per month. The sales is relatively constant throughout the month. The owner of this grocery store purchases milk from a supplier 50 miles away for $2 per carton, and it takes a day to restock. The holding cost per carton per month is $1.5, and the ordering cost per order is about $18.5 including labor, gas and depreciation. Consider a month of 30 days.
The optimal order quantity is about [removed]cartons of milk, and the average inventory is about [removed]cartons. (Please round to the closest integer and include no units.)


Given the optimal order quantity calculated above, if the average inventory is 136 cartons, then the monthly holding cost is [removed]dollars, and the total cost including the cost of supply or the total unit cost for all units, holding and ordering is [removed]dollars. (Please round to two decimal points and include no units.)


The reorder point is [removed]cartons. (Please only enter an integer and include no units.)


A cafeteria wants to introduce a new burger, with bread and beef together weighing at least 1 ounce. The cafeteria manage also wants the new burger to meet a new nutrition standard, i.e. contains at least 7 units of Vitamin A and 10 units of Vitamin B. Each ounce of beef contains 1 unit Vitamin A and 6 units of Vitamin B, while each ounce of bread contains 2 units Vitamin A and 1 units of Vitamin B. The price of beef is $0.5 per ounce and the price of bread is $0.1 per ounce.

The Low Knock Oil Company produces two grades of cutrate gasoline for industrial distribution. The grades, regular and economy, are produced by refining a blend of two types of crude oil, type X100 and type X220. Each crude oil differs not only in cost per barrel, but in composition as well. The following table indicates the percentage of crucial ingredients found in each of the crude oils and the cost per barrel for each:
CRUDE OIL TYPE 
INGREDIENT A (%) 
INGREDIENT B (%) 
COST/BARREL ($) 
X100 
35 
55 
30.00 
X220 
60 
25 
34.80 
Weekly demand for the regular grade of Low Knock gasoline is at least 25,000 barrels, and demand for the economy is at least 32,000 barrels per week. At least 45% of each barrel of regular must be ingredient A. At most 50% of each barrel of economy should contain ingredient B. While the gasoline yield from one barrel of crude depends on the type of crude and the type of processing used, we will assume for the sake of this example that one barrel of crude oil will yield 0.46 barrel of gasoline.
At the optimal production, does the company just make enough regular gasoline to meet the demand? Does the company just make enough economy gasoline to meet the demand?


To minimize the production cost, the optimal amount of X100 crude oil used in producing regular gasoline is [removed]barrels, and the optimal amount of X220 crude oil used in producing regular gasoline is [removed]barrel. (Please round to the closest integer and include no units.)


To minimize the production cost, the optimal amount of X100 crude oil used in producing economy gasoline is [removed]barrels, and the optimal amount of X220 crude oil used in producing economy gasoline is [removed]barrel. (Please round to the closest integer and include no units.)

The next four questions are based on the following information. At a car wash station, on average, there are 4 cars coming in for the service every 10 minutes. The average wash time is 2 minutes. The Poisson distribution is appropriate for the arrival rate and service times are exponentially distributed. Please convert all rates into cars per hour and answer the following questions.
The average time a car spent in the waiting line is [removed]hours, and the total time a car spent in this car wash station is [removed]hour. (Please round to two decimal points and include no units.)


The average number of cars in this car wash station is [removed]. (Please round to the closest integer and include no units.)


The probability that there are no cars in this station is [removed]. (Please round to one decimal points and include no units.)


The probability that there are exactly two cars in this station is [removed]. (Please round to three decimal points and include no units.)

To study the weight accuracy of a 50lb fertilizer bag, 12 samples of 12 bags of fertilizer in each sample were taken and the results are as follows.

Mean 
Range 
Sample 1 
47 
1.1 
Sample 2 
46 
1.31 
Sample 3 
46 
0.91 
Sample 4 
47 
1.1 
Sample 5 
48 
1.21 
Sample 6 
50 
0.82 
Sample 7 
49 
0.86 
Sample 8 
49 
1.11 
Sample 9 
51 
1.12 
Sample 10 
52 
0.99 
Sample 11 
50 
0.86 
Sample 12 
51 
1.2 
The overall average weight of a bag of fertilizer is [removed]pound, and the average range is [removed]pound. (Please round to two decimal points and include no units.)


The upper control limit for a 99.7% control chart for the mean is [removed]pound, and the lower control limit is [removed]pound. (Please round to two decimal points and include no units. Please enter the upper limit first.)


The upper control limit for a 99.7% control chart for the range is [removed]pound, and the lower control limit is [removed]pound. (Please round to two decimal points and include no units. Please enter the upper limit first.)
