Answer:
The answer is:
A - Non-value-added
B - Non-value-added
C- Value-added
D- Non-value-added
E - Value-added
F - Value-added
G - Non-value-added
H- Non-value-added
Explanation:
In activity-based costing, Non-value-added activities are activities that add costs to ones product without enhancing the value while value-added is a cost that enhance the quality of a product or service.
A - Non-value-added
B - Non-value-added
C- Value-added
D- Non-value-added
E - Value-added
F - Value-added
G - Non-value-added
H- Non-value-added
DIP LLC reports ordinary income (before guaranteed payments) of $120,000, rent expense of $40,000, and interest income of $4,000 for the year. In addition, DIP paid guaranteed payments to partner Percy of $20,000. If Percy owns a 40% capital and profits interest, how much income will he report for the year and what is its character?
Answer:
$24,000 ordinary income
$1,600 interest income
$20,000 guaranteed payment.
Explanation:
Calculation for what how much income will Percy report for the year and what is its character
Calculation for Percy Ordinary income: 120,000 - 40,000 - 20,000
= 60,000 x 40%
= 24,000.
Calculation for Percy Interest income:
4,000 x 40%
= 1,600
Guaranteed Payment: 20,000
Therefore what Percy will report will be: $24,000 ordinary income
$1,600 interest income
$20,000 guaranteed payment.
The smaller the required reserve ratio the larger the simple deposit multiplier. Do you agree or disagree with this statement. Explain your answer.
Answer:
Agree
Explanation:
A deposit multiplier is maximum amount of money that can be created for each unit of reserve. It is key requirement for maintaining economy's basic money supply. The simple deposit multiplier is 1 / rr * change in R. Deposit multiplier is the inverse of reserve ratio. The higher the reserve ratio the lesser will be the deposit multiplier. Reserve ratio is the minimum amount of money that must be kept in the deposit.
The Walthers Company has a semi-annual coupon bond outstanding. An increase in the market rate of interest will have which one of the following effects on this bond?
a. increase the coupon rate.
b. decrease the coupon rate.
c. increase the market price.
d. decrease the market price.
e. increase the time period.
Answer:
The answer is D.
Explanation:
An increase in the market rate of interest of a bond will decrease the market price of the bond. Market rate of interest of a bond is inversely related to the market price of the bond.
For example, A bonds is issued with a higher interest rate, the price of existing bonds will fall because the demand for this bond falls.
Zarina Corp. signed a new installment note on January 1, 2018, and deposited the proceeds of $15,000 in its bank account. The note has a two-year term, compounds 4 percent interest annually, and requires an annual installment payment on December 31. Zarina Corp.
Required:
1. Use an online application, such as the loan calculator with annual payments at mycalculators.com, to generate an amortization schedule. Enter that information into an amortization schedule with the following headings: Year, Beginning Notes Payable, Interest Expense, Repaid Principal on Notes Payable, and Ending Notes Payable.
2. Prepare the journal entry on January 1, 2018, the adjusting journal entry to accrue interest on March 31, 2018. Assuming the journal entry from requirement 3 also is recorded on June 30, September 30, and December 31, 2018, prepare the journal entry to record the first annual installment payment on December 31, 2018.
3. Calculate the amount of interest expense that should be accrued for the quarter ended March 31, 2019.
Answer:
1)
the annual installment = $7,952.94
total Interest paid = $905.88
Year Beginning Interest Repaid Ending
Notes Payable Expense Principal Notes Payable
1 $15,000 $600 $7,352.94 $7,647.06
2 $7,647.06 $305.88 $7,647.06 $0
2)
March 31, 2018, accrued interests on notes payable
Dr Interest expense 150
Cr Interest payable 150
June 30, 2018, accrued interests on notes payable
Dr Interest expense 150
Cr Interest payable 150
September 30, 2018, accrued interests on notes payable
Dr Interest expense 150
Cr Interest payable 150
December 31, 2018, accrued interests on notes payable
Dr Interest expense 150
Cr Interest payable 150
December 31, 2018, first installment on notes payable
Dr Notes payable 7,352.94
Dr Interest payable 600
Cr Cash 7,952.94
3)
March 31, 2019, accrued interests on notes payable
Dr Interest expense 76.47
Cr Interest payable 76.47
1. The Amortization schedule is:
Year Beginning Notes Interest expense Repaid Principle Ending notes
Payable on notes payable Payable
2018 15,000 600 7,353 7,647
2019 7,647 306 7,647 0
The annual payment is an annuity and can be found as:
Loan= Annuity x Present value interest factor of annuity, 4%, 2 years
15,000 = Annuity x 1.886
Annuity = 15,000 / 1.886
= $7,953
Principal repaid in first year = Amount paid - interest
= 7,953 - (15,000 x 4%)
= 7,953 - 600
= $7,353
Principal repaid in second year
= 7,953 - (4% x 7,647)
= $7,647
2.
Date Account title Debit Credit
Jan 1, 2018 Cash $15,000
Notes Payable $15,000
Date Account title Debit Credit
March 31, 2018 Interest expense $150
Interest payable $150
Working:
= Loan amount x Rate x period of loan so far
= 15,000 x 4% x 3/ 12 months
= $150
Date Account title Debit Credit
Dec 1, 2018 Interest payable $600
Notes payable $7,353
Cash $7,953
3. Interest accrued March 31,2019:
= Loan amount in second year x 4% x 3/12 months
= 7,647 x 4% x 3/12
= $76
Find out more at https://brainly.com/question/12942532.
You want to buy a new sports coupe for $74,500, and the finance office at the dealership has quoted you a loan with an APR of 6.9 percent for 36 months to buy the car.
Required:
a. What will your monthly payments be?
b. What is the effective annual rate on this loan?
Answer:
a) Monthly payments = $22,969.38
b) Effective rate of return= 7.12%
Explanation:
Loan Amortization: A loan repayment method structured such that a series of equal periodic installments will be paid for certain number of periods to offset both the loan principal amount and the accrued interest.
The monthly installment is computed as follows:
Monthly installment= Loan amount/annuity factor
Loan amount; = 74,500
Annuity factor = (1 - (1+r)^(-n))/r
r -monthly rate of interest, n- number of months
r- 6.9%/12 = 0.575 % = 0.00575, n = 36 =
Annuity factor = ( 1- (1+00575)^(-36)/0.00575= 32.434
Monthly installment = Loan amount /annuity factor
= 74,500/32.434= 22,969.38
Required monthly payments = $22,969.38
Effective annual interest rate
Effective rate of return = ((1+r)^n- 1) × 100
where r - monthly interest rate- 6.9%/12 = 0.575%
n- number of months= 12 months
Effective rate of return - (1+00575)^(12) - 1× 100= 7.12%
Effective rate of return= 7.12%