Answer:
$0.70 per direct labor hour
$30 per direct labor hour
Explanation:
The computation is shown below:
a. For predetermined overhead rate using direct labor costs is
= Estimated overhead ÷ estimated direct labor cost
= $420,000 ÷ $600,000
= $0.70 per direct labor hour
b. For the predetermined overhead rate using machine hours is
= Estimated overhead ÷ estimated machine hours
= $420,000 ÷ 14,000 machine hours
= $30 per direct labor hour
Perpetual Inventory Using LIFO Beginning inventory, purchases, and sales data for DVD players are as follows: November 1 Inventory 120 units at $39 10 Sale 90 units 15 Purchase 140 units at $40 20 Sale 110 units 24 Sale 45 units 30 Purchase 160 units at $43 The business maintains a perpetual inventory system, costing by the last-in, first-out method. Determine the cost of goods sold for each sale and the inventory balance after each sale, presenting the data in the form illustrated in Exhibit 4. Under LIFO, if units are in inventory at two different costs, enter the units with the HIGHER unit cost first in the Cost of Goods Sold Unit Cost column and LOWER unit cost first in the Inventory Unit Cost column.
Answer:
COGS and inventory balance under LIFO (last in, first out):
November 10 sale
COGS = 90 x $39 = $3,510inventory balance after sale = $1,170November 20 sale
COGS = 110 x $40 = $4,400inventory balance after sale = $2,370November 24 sale
COGS = 30 x $40 = $1,200COGS = 15 x $39 = $585total COGS = $1,785inventory balance after sale = $585When calculating costs under LIFO, we must use the cost of the last units purchased for determining cost of goods sold. This method is generally used when the price of the goods tends to increase during the period.
You are given the following series of one-year interest rates: 3%, 5%,13 %, 15% Assuming that the expectations theory is the correct theory of the term structure, calculate the interest rates in the term structure for maturities of one to four years, and plot the resulting yield curve. 1. Using the point drawing tool, plot the interest rate (calculated using the data above) for each of the four terms to maturity. Properly label each point according to its corresponding term. 2. Using the 4-point curved line drawing tool, connect these points. Label your curve 'yield curve'. Carefully follow the instructions above, and only draw the required objects.
Answer:
interest rate for year 1 = 3%
interest rate for year 2 = ( 3% + 5% )/2 = 4%
interest rate for year 3 = ( 3% + 5% + 13% )/ 3 = 7%
interest rate for year 4 = ( 3% + 5% + 13% + 15%) / 4 = 9%
Explanation:
Interest rates :
interest rate for year 1 = 3%
interest rate for year 2 = ( 3% + 5% )/2 = 4%
interest rate for year 3 = ( 3% + 5% + 13% )/ 3 = 7%
interest rate for year 4 = ( 3% + 5% + 13% + 15%) / 4 = 9%
Attached below is the plot
The following transactions occurred during March, the first month of operations for Quality Galleries, Inc. * Capital Stock was issued in exchange for $360,000 cash. * Purchased $180,000 of equipment by making a $60,000 cash down payment and signing a note payable for the balance. * Made a $35,000 cash payment on the note payable from the purchase of equipment. * Sold a piece of equipment for cash of $18,000. The equipment was sold at cost, so there is no gain or loss on the sale. What are total assets of Quality Galleries at the end of March
Answer:
$445,000
Explanation:
Calculation for the total assets of Quality Galleries at the end of March
First step is to find the balance in the Cash account at the end of March
Cash account balance =$360,000 - $60,000 - $35,000 + $18,000
Cash account balance = $283,000
Now that we have know the Cash account balance the Second step is to calculate for total assets at the end of March
Total assets = $283,000+ $180,000 - $18,000
Total assets = $445,000
Therefore the total assets of Quality Galleries at the end of March will be $445,000
Which applicants would be best qualified for the jobs based on educational level?
O Applicant 2 is qualified to be a Radiologist, applicant 1 is qualified to be an Orderly, and applicants 2, 3, and 4
are qualified to be Biomedical Engineers.
O Applicant 3 is qualified to be a Radiologist, applicant 2 is qualified to be an Orderly and applicants 1 and 4 are
qualified to be Biomedical Engineers
O Applicant 1 is qualified to be a Radiologist, applicant 4 is qualified to be an Orderly, and applicants 2 and 3 are
qualified to be Biomedical Engineers.
O Applicant 4 is qualified to be a Radiologist, applicant 3 is qualified to be an Orderly, and applicants 1, 2, and
are qualified to be Biomedical Engineers
Answer:
Applicant 4 is qualified to be a Radiologist, applicant 3 is qualified to be an Orderly, and applicants 1, 2, and 4 are qualified to be Biomedical Engineers.
Explanation:
Applicant 4 is qualified to be a Radiologist, applicant 3 is qualified to be an Orderly, and applicants 1, 2, who are qualified to be Biomedical Engineers would be best qualified for the jobs based on educational level.
What is a job?Body of reporting, particularly a particular task carried out as part of one's daily duties or for a set fee. As a means of generating income and gaining access to a variety of crucial and – anti-goods, systems, and exercises, work plays a significant role in the framing of a patient's identity development.
In this, there will be an application that will be some changes with the person who is qualified. This can be with respect to the carriers that were like radiologists, Biomedical Engineers. As the person will be the one who will be educated will get the job.
Learn more about the job, Here:
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Swanson Company has identified the following activities related to indirect production costs: Activity Activity Costs Cost Drivers Machine Setup $180,000 1,500 Setup Hours Materials Handling $50,000 12,500 pounds of materials Electric Power $20,000 20,000 Kilowatt hours Swanson Company has obtained the following data concerning two products: Product 1 Product 2 Number of units produced 4,000 20,000 Direct Material Cost $20,000 $25,000 Direct Labor Cost $12,000 $20,000 Number of setup hours 100 120 Pounds of materials used 500 1,500 Kilowatt-hours 1,000 2,000 Using Activity Based Costing, what is the total production cost per unit for Product 1
Answer:
Unitary cost= $11.75
Explanation:
First, we need to calculate the predetermined overhead rate for each activity:
Predetermined manufacturing overhead rate= total estimated overhead costs for the period/ total amount of allocation base
Machine Setup= 180,000/1,500= $120 per set up hour
Materials Handling= 50,000/12,500= $4 per pound
Electric Power= 20,000/20,000= $1 per kilowatt hour
Product 1:
Number of units produced 4,000
Direct Material Cost $20,000
Direct Labor Cost $12,000
Number of setup hours 100
Pounds of materials used 500
Kilowatt-hours 1,000
Now, we can determine the total cost for Product 1:
Total cost= 20,000 + 12,000 + (120*100 + 4*500 + 1*1,000)
Total cost= $47,000
Finally, the unitary cost:
Unitary cost= 47,000/4,000
Unitary cost= $11.75
Suppose you are going to receive $13,600 per year for six years. The appropriate interest rate is 8.5 percent. a. What is the present value of the payments if they are in the form of an ordinary annuity? (Do not round intermediate calculations and round your answer to 2 decimal places, e.g., 32.16.) b. What is the present value if the payments are an annuity due? (Do not round intermediate calculations and round your answer to 2 decimal places, e.g., 32.16.) c. Suppose you plan to invest the payments for six years. What is the future value if the payments are an ordinary annuity? (Do not round intermediate calculations and round your answer to 2 decimal places, e.g., 32.16.) d. Suppose you plan to invest the payments for six years. What is the future value if the payments are an annuity due? (Do not round intermediate calculations and round your answer to 2 decimal places, e.g., 32.16.)
Answer:
a. What is the present value of the payments if they are in the form of an ordinary annuity?
present value = annual payment x annuity factor
annual payment = $13,600PV annuity factor, 8.5%, 6 periods = 4.55359present value = $61,928.82
b. What is the present value if the payments are an annuity due?
present value = annual payment x annuity due factor
annual payment = $13,600PV annuity due factor, 8.5%, 6 periods = 4.94064present value = $67,192.70
c. Suppose you plan to invest the payments for six years. What is the future value if the payments are an ordinary annuity?
future value = annual payment x annuity factor
annual payment = $13,600FV annuity factor, 8.5%, 6 periods = 7.42903future value = $101,034.81
d. Suppose you plan to invest the payments for six years. What is the future value if the payments are an annuity due?
future value = annual payment x annuity due factor
annual payment = $13,600FV annuity due factor, 8.5%, 6 periods = 8.0605future value = $109,622.80