1. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-1 LIABILITIES Chapter 10

2. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-2 Defined as debts or obligations arising from past transactions or events. Maturity = 1 year or lessMaturity > 1 year Current Liabilities (Accounts Payable) Noncurrent Liabilities The Nature of Liabilities

3. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-3 Total Notes Payable Current Notes Payable Noncurrent Notes Payable When a company borrows money, a note payable is created. Current Portion of Notes Payable The portion of a note payable that is due within one year, or one operating cycle, whichever is longer. When a company borrows money, a note payable is created. Current Portion of Notes Payable The portion of a note payable that is due within one year, or one operating cycle, whichever is longer. Notes Payable

4. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-4 PROMISSORY NOTE Location Date after this date promises to pay to the order of the sum of with interest at the rate of per annum. signed title Miami, FlNov. 1, 2007 Six months Porter Company John Caldwell Security National Bank $10,000.00 12.0% treasurer Notes Payable

5. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-5 On November 1, 2007, Porter Company would make the following entry after issuing the note. Notes Payable

6. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-6 Interest expense is the compensation to the lender for giving up the use of money for a period of time. Interest expense is the compensation to the lender for giving up the use of money for a period of time. The liability is called interest payable. The liability is called interest payable. To the lender, interest is a revenue. To the lender, interest is a revenue. To the borrower, interest is an expense. To the borrower, interest is an expense. Interest expense is the compensation to the lender for giving up the use of money for a period of time. Interest expense is the compensation to the lender for giving up the use of money for a period of time. The liability is called interest payable. The liability is called interest payable. To the lender, interest is a revenue. To the lender, interest is a revenue. To the borrower, interest is an expense. To the borrower, interest is an expense. Interest Rate Up! Interest Payable

7. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-7 The interest formula includes three variables that must be considered when computing interest: Interest = Principal × Interest Rate × Time When computing interest for one year, “Time” equals 1. When the computation period is less than one year, then “Time” is a fraction. Interest Payable For example, if we needed to compute interest for 3 months, “Time” would be 3/12.

8. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-8 What entry would Porter Company make on December 31, the fiscal year-end? Interest Payable – Example $10,000  12%  2 / 12 = $200

9. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-9 Porter will pay the note on January 31, 2008. Let’s look at the entry. Interest Payable – Example $10,000  12%  1 / 12 = $100

10. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-10 Net Pay Payroll Liabilities Medicare Taxes State and Local Income Taxes FICA Taxes Federal Income Tax Voluntary Deductions Gross Pay

11. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-11 Deferred revenue is recorded. a liability account. Cash is received in advance. Cash is sometimes collected from the customer before the revenue is actually earned. Unearned Revenue Earned revenue is recorded. As the earnings process is completed..

12. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-12 Relatively small debt needs can be filled from single sources. Banks Insurance Companies Pension Plans oror Long-Term Liabilities

13. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-13 Large debt needs are often filled by issuing bonds. Long-Term Liabilities

14. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-14 With each payment, the interest portion gets smaller and the principal portion gets larger. Installment Notes Payable Long-term notes that call for a series of installment payments. Each payment covers interest for the period AND a portion of the principal.

15. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-15 Identify the unpaid principal balance. Interest expense = Unpaid Principal × Interest rate. Reduction in unpaid principal balance = Installment payment – Interest expense. Compute new unpaid principal balance. Identify the unpaid principal balance. Interest expense = Unpaid Principal × Interest rate. Reduction in unpaid principal balance = Installment payment – Interest expense. Compute new unpaid principal balance. Allocating Installment Payments Between Interest and Principal

16. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-16 On January 1, 2007, Rocket Corp. borrowed $7,581.57 from First Bank of River City. The loan was a five-year loan and had an interest rate of 10%. The annual payment is $2,000. Prepare an amortization table for Rocket Corp.’s loan. On January 1, 2007, Rocket Corp. borrowed $7,581.57 from First Bank of River City. The loan was a five-year loan and had an interest rate of 10%. The annual payment is $2,000. Prepare an amortization table for Rocket Corp.’s loan. Allocating Installment Payments Between Interest and Principal

17. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-17 Now, prepare the entry for the first payment on December 31, 2007. Allocating Installment Payments Between Interest and Principal

18. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-18 The information needed for the journal entry can be found on the amortization table. The payment amount, the interest expense, and the amount to debit to principal are all on the table. Allocating Installment Payments Between Interest and Principal

19. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-19 Bonds usually involve the borrowing of a large sum of money, called principal. Bonds usually involve the borrowing of a large sum of money, called principal. The principal is usually paid back as a lump sum at the end of the bond period. The principal is usually paid back as a lump sum at the end of the bond period. Individual bonds are often denominated with a par value, or face value, of $1,000. Individual bonds are often denominated with a par value, or face value, of $1,000. Bonds usually involve the borrowing of a large sum of money, called principal. Bonds usually involve the borrowing of a large sum of money, called principal. The principal is usually paid back as a lump sum at the end of the bond period. The principal is usually paid back as a lump sum at the end of the bond period. Individual bonds are often denominated with a par value, or face value, of $1,000. Individual bonds are often denominated with a par value, or face value, of $1,000. Bonds Payable

20. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-20 Bonds usually carry a stated rate of interest, also called a contract rate. Interest is normally paid semiannually. Interest is computed as: Bonds usually carry a stated rate of interest, also called a contract rate. Interest is normally paid semiannually. Interest is computed as: Interest = Principal × Stated Rate × Time Bonds Payable

21. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-21 Bonds are issued through an intermediary called an underwriter. Bonds can be sold on organized securities exchanges. Bond prices are usually quoted as a percentage of the face amount. For example, a $1,000 bond priced at 102 would sell for $1,020. Bonds are issued through an intermediary called an underwriter. Bonds can be sold on organized securities exchanges. Bond prices are usually quoted as a percentage of the face amount. For example, a $1,000 bond priced at 102 would sell for $1,020. Bonds Payable

22. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-22 Mortgage Bonds Convertibl e Bonds Junk Bonds Debenture Bonds Types of Bonds

23. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-23 On January 1, 2007, Rocket Corp. issues $1,500,000 of 12%, 10-year bonds payable. Interest is payable semiannually, each July 1 and January 1. Assume the bonds are issued at face value. Record the issuance of the bonds. On January 1, 2007, Rocket Corp. issues $1,500,000 of 12%, 10-year bonds payable. Interest is payable semiannually, each July 1 and January 1. Assume the bonds are issued at face value. Record the issuance of the bonds. Accounting for Bonds Payable

24. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-24 Record the interest payment on July 1, 2007. Accounting for Bonds Payable

25. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-25 Bonds Sold Between Interest Dates Bonds are often sold between interest dates. Bonds are often sold between interest dates. The selling price of the bond is computed as: The selling price of the bond is computed as: Bonds are often sold between interest dates. Bonds are often sold between interest dates. The selling price of the bond is computed as: The selling price of the bond is computed as:

26. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-26 The Present Value Concept and Bond Prices The selling price of the bond is determined by the market based on the time value of money. = = > > < < > > < < = =

27. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-27 Bonds Issued at a Discount Matrix, Inc. is attempting to issue $1,000,000 principal amount of 9% bonds. The bonds pay interest on June 30 and December 31 each year and mature in 20 years. Investors are unwilling to pay the full face amount for Matrix’s bonds because they believe the interest rate is too low. To entice investors, Matrix must lower the price of the bonds. The difference between the new lower issue price and the principal of $1,000,000 is called a discount. Let’s see how we account for these bonds. Matrix, Inc. is attempting to issue $1,000,000 principal amount of 9% bonds. The bonds pay interest on June 30 and December 31 each year and mature in 20 years. Investors are unwilling to pay the full face amount for Matrix’s bonds because they believe the interest rate is too low. To entice investors, Matrix must lower the price of the bonds. The difference between the new lower issue price and the principal of $1,000,000 is called a discount. Let’s see how we account for these bonds.

28. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-28 Bonds Issued at a Discount Matrix, Inc. issues bonds on January 1, 2007. Principal = $1,000,000 Issue price = $950,000 Stated Interest Rate = 9% Interest Dates = 6/30 and 12/31 Maturity Date = Dec. 31, 2026 (20 years) Matrix, Inc. issues bonds on January 1, 2007. Principal = $1,000,000 Issue price = $950,000 Stated Interest Rate = 9% Interest Dates = 6/30 and 12/31 Maturity Date = Dec. 31, 2026 (20 years)

29. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-29 Bonds Issued at a Discount To record the bond issue, Matrix, Inc. would make the following entry on January 1, 2007:

30. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-30 Maturity Value Carrying Value Bonds Issued at a Discount

31. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-31 Amortizing the discount over the term of the bond increases Interest Expense each interest payment period. Bonds Issued at a Discount Using the straight-line method, the discount amortization will be $1,250 every six months. $50,000 ÷ 40 periods = $1,250 Using the straight-line method, the discount amortization will be $1,250 every six months. $50,000 ÷ 40 periods = $1,250

32. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-32 Amortization of the Discount We prepare the following journal entry to record the first interest payment. $45,000 $1,000,000 × 9% = $90,000 ÷ 2 = $45,000 Interest paid every six months is calculated as follows:

33. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-33 Maturity Value Carrying Value $50,000 – $1,250 – $1,250 The carrying value will increase to exactly $1,000,000 on the maturity date. Bonds Issued at a Discount

34. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-34 To record the principal repayment, Matrix, Inc would make the following entry on December 31, 2026: Bonds Issued at a Discount

35. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-35 Bonds Issued at a Premium If bonds of other companies are yielding less than 9 percent, investors will be willing to pay more than the face amount for Matrix’s 9% bonds. The issue price of Matrix’s 9% bonds will rise because of investor demand for the 9% bonds. The difference between the higher issue price and the principal of $1,000,000 is called a premium. Let’s look at accounting for a premium. If bonds of other companies are yielding less than 9 percent, investors will be willing to pay more than the face amount for Matrix’s 9% bonds. The issue price of Matrix’s 9% bonds will rise because of investor demand for the 9% bonds. The difference between the higher issue price and the principal of $1,000,000 is called a premium. Let’s look at accounting for a premium.

36. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-36 Matrix, Inc. issues bonds on January 1, 2007. Principal = $1,000,000 Issue price = $1,050,000 Stated Interest Rate = 9% Interest Dates = 6/30 and 12/31 Maturity Date = Dec. 31, 2026 (20 years) Matrix, Inc. issues bonds on January 1, 2007. Principal = $1,000,000 Issue price = $1,050,000 Stated Interest Rate = 9% Interest Dates = 6/30 and 12/31 Maturity Date = Dec. 31, 2026 (20 years) The only change from previous Matrix example. Bonds Issued at a Premium

37. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-37 To record the bond issue, Matrix, Inc. would make the following entry on January 1, 2007: Bonds Issued at a Premium

38. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-38 Maturity Value Carrying Value Bonds Issued at a Premium

39. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-39 Amortizing the premium over the term of the bond decreases Interest Expense each interest payment period. Using the straight-line method, the premium amortization will be $1,250 every six months. $50,000 ÷ 40 periods = $1,250 Using the straight-line method, the premium amortization will be $1,250 every six months. $50,000 ÷ 40 periods = $1,250 Bonds Issued at a Premium

40. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-40 Bonds Issued at a Premium To record an interest payment, Matrix, Inc. would make the following entry on each June 30 and December 31:

41. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-41 Bonds Issued at a Premium Maturity Value Carrying Value $50,000 – $1,250 – $1,250 The carrying value will decrease to exactly $1,000,000 on the maturity date.

42. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-42 To record an the principal repayment, Matrix would make the following entry on December 31, 2026: Bonds Issued at a Premium

43. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-43 Present Value The Concept of Present Value Future Value $1,000 invested today at 10%. In 25 years it will be worth $10,834.71! Money can grow over time, because it can earn interest. In 5 years it will be worth $1,610.51.

44. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-44 How much is a future amount worth today? Present Value Future Value Interest compounding periods Today The Concept of Present Value

45. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-45 The Concept of Present Value How much is a future amount worth today? Three pieces of information must be known to solve a present value problem: o The future amount. o The interest rate (i). o The number of periods (n) the amount will be invested. How much is a future amount worth today? Three pieces of information must be known to solve a present value problem: o The future amount. o The interest rate (i). o The number of periods (n) the amount will be invested.

46. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-46 Two types of cash flows are involved with bonds: Today  Principal payment at maturity. Periodic interest payments called annuities. Maturity The Concept of Present Value

47. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-47 Gains or losses incurred as a result of retiring bonds should be reported as other income or other expense on the income statement. Early Retirement of Debt

48. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-48 Evaluating the Safety of Creditors’ Claims This ratio indicates a margin of protection for creditors. Operating Income Interest Expense Interest Coverage Ratio =

49. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-49 Devon Mfg. reports annual operating income of $100,000 and annual interest expense of $10,000. What is Devon’s interest coverage ratio? Devon Mfg. reports annual operating income of $100,000 and annual interest expense of $10,000. What is Devon’s interest coverage ratio? Liabilities – Question

50. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-50 Lease agreement transfers risks and benefits associated with ownership to lessee. Lessee records a leased asset and lease liability. Lessor retains risks and benefits associated with ownership. Lessee records rent expense as incurred. Lease Payment Obligations Operating Leases Capital Leases

51. © The McGraw-Hill Companies, Inc., 2008 McGraw-Hill/Irwin 10-51 Capital Lease Criteria