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PowerPoint Author: Catherine Lumbattis 7/e COPYRIGHT © 2011 South-Western/Cengage Learning 9 Current Liabilities, Contingencies, and the Time Value of.

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Presentation on theme: "PowerPoint Author: Catherine Lumbattis 7/e COPYRIGHT © 2011 South-Western/Cengage Learning 9 Current Liabilities, Contingencies, and the Time Value of."— Presentation transcript:

1 PowerPoint Author: Catherine Lumbattis 7/e COPYRIGHT © 2011 South-Western/Cengage Learning 9 Current Liabilities, Contingencies, and the Time Value of Money

2 Starbucks Corp. Partial Balance Sheet Liabilities and shareholders' equity Current liabilities: Commercial paper and short term borrowings $ 713.0 Accounts payable 324.9 Accrued compensation and related costs 253.6 Accrued occupancy costs 136.1 Accrued taxes 76.1 Insurance reserves 152.5 Other accrued expenses 164.4 Deferred revenue 368.4 Current portion of long term debt.7 Total current liabilities $2,189.7 (in millions) Requires payment within one year September 2008

3 Selected 2008 Liquidity Ratios Current Quick Industry Ratio Ratio Starbucks Food.80.30 Caribou Coffee Food.88.56 Green Mountain Food 2.09.76 LO1

4 Accounts Payable  Amounts owed for the purchase of inventory, goods, or services on credit  Discount payment terms offered to encourage early payment

5 Promissory Note S.J.Devona I promise to pay $1,000 plus 12% annual interest on December 31, 2011. Date: January 1, 2011 Signed : _________ Hot Coffee Inc. Total repayment = $1,120 $1,000 + ($1,000 × 12%)

6 Discounted Promissory Note In exchange for $880 received today, I promise to pay $1,000 on December 31, 2011. Date: January 1, 2011 Signed : _________ Hot Coffee, Inc. Effective interest rate on note = 13.6% ($120 interest/$880 proceeds)

7 Balance Sheet Presentation of Discounted Notes 1/1/11 12/31/11 Notes Payable $1,000 $1,000 Less: Discount on Notes Payable 120 - 0 - Net Liability $ 880 $1,000 Discount transferred to interest expense over life of note

8 Current Maturities of Long-term Debt Principal repayment on borrowings due within one year of balance sheet date Due in upcoming year

9 Taxes Payable Record expense when incurred, not when paid Record 2007 tax expense Taxes Paid 12/31/103/15/11 LO2

10 Other Accrued Liabilities Includes any amount that has been incurred dueto the passage of time but has not been paid as of the balance sheet date Examples:  Salaries and Wages  Interest Adjusting Entry: ExpenseXXX Payable XXX

11 IFRS and Current Liabilities The U.S. and international standards are generally similar but there are important differences. Differences:  International accounting standards require companies to present classified balance sheets with liabilities as either current or long term.  An unclassified balance sheet based on the order of liquidity is acceptable only when it provides more reliable information.  U.S. standards do not require a classified balance sheets. U.S. standards permit companies to list liabilities in order by size or by order of liquidity.

12 Current Liabilities on the Statement of Cash Flows Operating Activities Net income xxx Increase in current liability + Decrease in current liability – Investing Activities Financing Activities Increase in notes payable + Decrease in notes payable – LO3

13 Contingent Liabilities  Obligation involving existing condition  Outcome not known with certainty  Dependent upon some future event  Actual amount is estimated LO4

14 Contingent Liabilities  Accrue estimated amount if: Liability is probable Amount can be reasonably estimated In year criteria are met: Expense(loss)XXX Liability XXX

15 Typical Contingent Liabilities  Product warranties and guarantees  Premium or coupon offers  Lawsuits

16 Recording Contingent Liabilities Quickkey Computer sells a computer product for $5,000 with a one-year warranty. In 2010, 100 computers were sold for a total sales revenue of $500,000. Analyzing past records, Quickkey estimates that repairs will average 2% of total sales. Example:

17 Recording Contingent Liabilities Probable liability has been incurred? Amount reasonably estimable? Warranty Expense 10,000 Estimated Liability 10,000 (2% X $500,000 sales) YES Record in 2010:

18 Disclosing Contingent Liabilities IF not probable but reasonably possible OR amount not estimable Disclose in Financial Statement notes

19 Contingent Assets  Contingent gains and assets are not recorded but may be disclosed in financial statement notes  Conservatism principle applies

20 IFRS and Contingencies  International standards use the term “provision” for those items that must be reported on the balance sheet  International standards have a lower threshold for those items that must be reported so thus more items will be recorded on the balance sheet.  International standards require the amount of the recorded liability be discounted (recorded at present value).  The term “contingent liability” is only used for those items that are footnoted but not for those liabilities reported on the balance sheet.

21 Time Value of Money  Prefer payment at the present time rather than in the future due to the interest factor  Applicable to both personal and business decisions

22 Simple Interest I = P × R × T Principal Dollar amount of interest per year Time in years Interest rate as a percentage LO5

23 Example of Simple Interest Given following data: principal amount = $ 3,000 annual interest rate = 10% term of note = 2 years Calculate interest on the note.

24 Example of Simple Interest Given following data: principal amount = $ 3,000 annual interest rate = 10% term of note = 2 years Calculate interest on the note. P × R × T $3,000 ×.10 × 2 = $ 600

25 Compound Interest  Interest is calculated on principal plus previously accumulated interest Interest on interest  Compound interest amount always higher than simple interest due to interest on interest

26 Example of Interest Compounding Given following data: principal amount = $ 3,000 annual interest rate = 10% term of note = 2 years semiannual compounding of interest Calculate interest on note. LO6

27 Compound Interest Periods 4 periods @ 5% semiannual interest Year 1Year 2 10% annually 10% annually 5% + 5% semiannually 5% + 5% semiannually

28 Example of Interest Compou nding Principal Amount at Beginning Interest at Accumulated Period of Year 5% per Period at End of Period 1 $3,000$150 $3,150 2 3,150 158 3,308 3 3,308 165 3,473 4 3,473 174 3,647

29 Comparing Interest Methods Simple annual interest: $3,000 ×.10 × 2 = $600 Semiannual compounding: 1$150 2 158 3 165 4 174 Total $647

30 Compound Interest Computations Present value of an annuity Future value of an annuity Present value of a single amount Future value of a single amount

31 Future Value of Single Amount Known amount of single payment or investment Future Value + Interest =

32 Future Value of a Single Amount If you invest $2,000 today @ 10% compound interest, what will it be worth 2 years from now? Invest $2,000 Future Value = ? + Interest @ 10% per year Year 1Year 2 Example:

33 Future Value of a Single Amount: Using Formulas FV = p(1 + i) n = $2,000(1.10) 2 = $2,420

34 Future Value of a Single Amount Example: Using Tables FV = Present value × table factor = $2,000 × (2 periods @ 10%) FV = ?? PV = $2,000 Year 1Year 2

35 Future Value of $1 (n) 2% 4% 6% 8% 10% 12% 15% 11.020 1.0401.0601.0801.1001.1201.150 21.0401.082 1.124 1.1661.2101.2541.323 31.0611.1251.1911.2601.3311.4051.521 41.0821.1701.2621.3601.4641.5741.749 51.1041.2171.3381.4701.6111.7622.011 61.1261.2651.4191.5871.7721.9742.313 71.1491.3161.5041.7141.9492.2112.660 81.1721.3691.5941.8512.1442.4763.059

36 Future Value of a Single Amount: Using Tables FV = Present value × table factor = $2,000 × (2 periods @ 10%) = $2,000 × 1.210 = $2,420 PV = $2,000 Year 1Year 2 FV = $2,420

37 Present Value of Single Amount Discount Known amount of single payment in future Present Value

38 Present Value of a Single Amount If you will receive $2,000 in two years, what is it worth today (assuming you could invest at 10% compound interest)? $2,000 Discount @ 10% Year 1Year 2 Present Value = ? Example:

39 Present Value of a Single Amount: Using Formulas PV = Future value × (1 + i) –n = $2,000 × (1.10) –2 = $1,652

40 Present Value of a Single Amount: Using Tables PV = Future value × table factor = $2,000 × (2 periods @ 10%) FV = $2,000 PV = ?? Year 1 Year 2

41 Present Value of $1 (n) 2% 4% 6% 8% 10% 12% 15% 10.980 0.9620.9430.9260.9090.8930.870 20.9610.925 0.890 0.8570.8260.7970.756 30.9420.8890.8400.7940.7510.7120.658 40.9240.8550.7920.7350.6830.6360.572 50.9060.8220.7470.6810.6210.5670.497 60.8880.7900.7050.6300.5640.5070.432 70.8710.7600.6650.5830.5130.4520.376 80.8530.7310.6270.5400.4670.4040.327

42 Present Value of a Single Amount Example – Using Tables PV = Future value × table factor = $2,000 × (2 periods @ 10%) = $2,000 × 0.826 = $1,652 PV = $1,652 Year 1Year 2 FV = $2,000

43 Periods Future Value = ? + Interest Future Value of an Annuity 1 2 3 4 $0 $3,000 $3,000 $3,000 $3,000

44 Future Value of an Annuity If we invest $3,000 each year for four years at 10% compound interest, what will it be worth 4 years from now? $0 $3,000 $3,000 $3,000 $3,000 Year 1 Year 2 Year 3 Year 4 FV = ?? Example:

45 $0 $3,000 $3,000 $3,000 $3,000 Year 1 Year 2 Year 3 Year 4 FV = ?? Future Value of an Annuity FV = Payment × table factor = $3,000 × (4 periods @ 10%) Example:

46 Future Value of Annuity of $1 (n) 2% 4% 6% 8% 10% 12% 15% 11.000 1.0001.0001.0001.0001.0001.000 22.0202.040 2.060 2.0802.1002.1202.150 33.0603.1223.1843.2463.3103.3743.473 44.1224.2464.3754.5064.6414.7794.993 55.2045.4165.6375.8676.1056.3536.742 66.3086.6336.9757.3367.7168.1158.754 77.4347.8988.3948.923 9.48710.08911.067 88.5839.2149.897 10.637 11.43612.30013.727

47 Future Value of an Annuity PV = Payment × table factor = $3,000 × (4 periods @ 10%) = $3,000 × 4.641 = $13,923 $0 $3,000 $3,000 $3,000 $3,000 Year 1 Year 2 Year 3 Year 4 FV = $13,923 Example:

48 Present Value of an Annuity 1 2 3 4 $0 $4,000 $4,000 $4,000 $4,000 Periods Discount Present Value = ?

49 Present Value of an Annuity What is the value today of receiving $4,000 at the end of the next 4 years, assuming you can invest at 10% compound annual interest? $0 $4,000 $4,000 $4,000 $4,000 Year 1 Year 2 Year 3 Year 4 PV = ?? Example:

50 $0 $4,000 $4,000 $4,000 $4,000 Year 1 Year 2 Year 3 Year 4 PV = ?? Present Value of an Annuity PV = Payment × table factor = $4,000 × (4 periods @ 10%) Example:

51 Present Value of Annuity of $1 (n) 2% 4% 6% 8% 10% 12% 15% 10.980 0.9620.9430.9260.9090.8930.870 21.9421.886 1.833 1.7831.7361.6901.626 32.8842.7752.6732.5772.4872.4022.283 43.8083.6303.4653.3123.1703.0372.855 54.7134.4524.2123.9933.7913.6053.352 65.6015.2424.9174.6234.3554.1113.784 76.4726.0025.5825.2064.8684.5644.160 87.3256.7336.2105.7475.3354.9684.487

52 Present Value of an Annuity PV = Payment × table factor = $4,000 × (4 periods @ 10%) = $4,000 × 3.170 = $12,680 $0 $4,000 $4,000 $4,000 $4,000 Year 1 Year 2 Year 3 Year 4 PV = $12,680 Example:

53 Solving for Unknowns Example Assume that you have just purchased a new car for $14,420. Your bank has offered you a 5-year loan, with annual payments of $4,000 due at the end of each year. What is the interest rate being charged on the loan? LO7 Year 1 Year 2 Year 3 Year 4 Year 5 $0$4,000 $4,000 $4,000 $4,000 $4,000 Discount PV = $14,420

54 Solving for Unknowns Example PV = Payment × table factor Table factor = PV/payment Year 1 Year 2 Year 3 Year 4 Year 5 $0 $4,000 $4,000 $4,000 $4,000 $4,000 PV = $14,420 Rearrange equation to solve for unknown

55 Solving for Unknowns Example Table factor = PV/payment = $14,420/$4,000 = 3.605 Year 1 Year 2 Year 3 Year 4 Year 5 $0 $4,000 $4,000 $4,000 $4,000 $4,000 PV = $14,420

56 Present Value of Annuity of $1 (n) 2% 4% 6% 8% 10% 12% 15% 10.980 0.9620.9430.9260.9090.8930.870 21.9421.886 1.833 1.7831.7361.6901.626 32.8842.7752.6732.5772.4872.4022.283 43.8083.6303.4653.3123.1703.0372.855 54.7134.4524.2123.9933.7913.6053.352 65.6015.2424.9174.6234.3554.1113.784 76.4726.0025.5825.2064.8684.5644.160 87.3256.7336.2105.7475.3354.9684.487 The factor of 3.605 equates to an interest rate of 12%

57 Appendix Accounting Tools: Using Excel for Problems Involving Interest Calculations

58 Using Excel Functions  Many functions built into Excel®, including PV and FV calculations  Click on the PASTE function (fx) of the Excel toolbar or the Insert command

59 FV Function in Excel Find the FV of a 10% note payable for $2,000, due in 2 years and compounded annually Example: Answer: $2,420

60 PV Function in Excel How much should you invest now at 10% (compounded annually) in order to have $2,000 in 2 years? Example: Answer: $1,653 (rounded)

61 End of Chapter 9


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