Presentation is loading. Please wait.

Presentation is loading. Please wait.

©2009 McGraw-Hill Ryerson Limited 1 of 37 ©2009 McGraw-Hill Ryerson Limited 9 9 The Time Value of Money ©2009 McGraw-Hill Ryerson Limited Prepared by:

Published byWhitney Whitehead Modified over 9 years ago

Similar presentations

Presentation on theme: "©2009 McGraw-Hill Ryerson Limited 1 of 37 ©2009 McGraw-Hill Ryerson Limited 9 9 The Time Value of Money ©2009 McGraw-Hill Ryerson Limited Prepared by:"— Presentation transcript:

1 ©2009 McGraw-Hill Ryerson Limited 1 of 37 ©2009 McGraw-Hill Ryerson Limited 9 9 The Time Value of Money ©2009 McGraw-Hill Ryerson Limited Prepared by: Michel Paquet SAIT Polytechnic

2 ©2009 McGraw-Hill Ryerson Limited 2 of 37 Chapter 9 - Outline Basic Idea of Time Value of Money Application to Capital Budgeting Decision and Cost of Capital Future Value and Present Value Nominal and Effective Annual Interest Rates Annuities Summary and Conclusions

3 ©2009 McGraw-Hill Ryerson Limited 3 of 37 Learning Objectives 1.Explain the concept of the time value of money. (LO1) 2.Calculate present values, future values, and annuities based on the number of time periods involved and the going interest rate. (LO2) 3.Calculate the yield based on the time relationships between cash flows. (LO3)

4 ©2009 McGraw-Hill Ryerson Limited 4 of 37 Time Value of 0123 $1 > >> Why? because interest can be earned on the money  The connecting piece or link between present (today) and future is the interest or discount rate Basic Idea: Money has different values at different points in time. LO1

5 ©2009 McGraw-Hill Ryerson Limited 5 of 37 Capital Budgeting Decision and Cost of Capital Capital budgeting decision is about comparing current outlays with future benefits: Cost of capital is the discount rate used in this comparison process. -$1,000$60$100$200 012 3 LO1

6 ©2009 McGraw-Hill Ryerson Limited 6 of 37 Future Value and Present Value Future Value (FV) is what money today will be worth at some point in the future. Present Value (PV) is what money at some point in the future is worth today. 012 PVFV LO2

7 ©2009 McGraw-Hill Ryerson Limited 7 of 37 Figure 9-1 Relationship of present value and future value $1,000 present value $ 01234 $1,464.10 future value 10% interest Number of periods LO2

8 ©2009 McGraw-Hill Ryerson Limited 8 of 37 Future Value FV = ? n = 4 PV = $1,000 i = 10% Alternatively, FV = PV x FV IF FV IF is the future value interest factor (Appendix A) FV = $1,000(1.464) = $1,464 LO2

9 ©2009 McGraw-Hill Ryerson Limited 9 of 37 Future value of $1 (FV IF ) 1....1.0101.0201.0301.0401.0601.0801.100 2....1.0201.0401.0611.0821.1241.1661.210 3....1.0301.0611.0931.1251.1911.2601.331 4....1.0411.0821.1261.1701.2621.3601.464 5....1.0511.1041.1591.2171.3381.4691.611 10....1.1051.2191.3441.4801.7912.1592.594 20....1.2201.4861.8062.1913.2074.6616.727 An expanded table is presented in Appendix A Percent Period1%2%3%4%6%8%10% LO2

10 ©2009 McGraw-Hill Ryerson Limited 10 of 37 Calculator (Texas Instruments BA-II Plus) The first step to use a business calculator is to clear the registers. Then set P/Y to 1. 1000 PV 10 I/Y 4 N 0 PMT CPT FV = -1464.10 LO2 Future Value

11 ©2009 McGraw-Hill Ryerson Limited 11 of 37 Present Value FV = $1,464.10 n = 4 PV = ? i = 10% Alternatively, PV = FV x PV IF PV IF is the present value interest factor (Appendix B) PV = $1,464.10(0.683) = $1,000 LO2

12 ©2009 McGraw-Hill Ryerson Limited 12 of 37 Present value of $1 (PV IF ) 1..... 0.9900.9800.9710.9620.9430.9260.909 2.....0.9800.9610.9430.9250.8900.8570.826 3.....0.9710.9420.9150.8890.8400.7940.751 4.....0.9610.9240.8880.8550.7920.7350.683 5.....0.9510.9060.8630.8220.7470.6810.621 10.....0.9050.8200.7440.6760.5580.4630.386 20.....0.8200.6730.5540.4560.3120.2150.149 An expanded table is presented in Appendix B LO2 Percent Period1%2%3%4%6%8%10 %

13 ©2009 McGraw-Hill Ryerson Limited 13 of 37 Calculator (Texas Instruments BA-II Plus) 1464.1 FV 0 PMT 10 I/Y 4 N CPT PV = -1000.00 LO2 Present Value

14 ©2009 McGraw-Hill Ryerson Limited 14 of 37 Nominal and Effective Annual Interest Rates Interest is often compounded quarterly, monthly, or semiannually in the real world. A nominal annual interest rate assumes annual compounding. It must be adjusted to reflect the more frequent than annual compounding. Effective Annual Interest Rate = (1 + i/m) m – 1 where i = nominal annual interest rate m = number of compounding periods per year LO2

15 ©2009 McGraw-Hill Ryerson Limited 15 of 37 Annuities Annuity: a stream or series of equal payments to be received in the future. The payments are assumed to be received at the end of each period (unless stated otherwise). A good example of an annuity is a lease, where a fixed monthly charge is paid over a number of years. LO2

16 ©2009 McGraw-Hill Ryerson Limited 16 of 37 Figure 9-2 Compounding process for annuity Period 0Period 1Period 2Period 3Period 4 $1,000 for three periods—10% FV = $1,331 $1,000 for two periods—10% FV = $1,210 $1,000 for one period—10% FV = $1,100 $1,000 x 1.000 = $1,000 $4,641 LO2

17 ©2009 McGraw-Hill Ryerson Limited 17 of 37 Future Value – Annuity 0 1 234 $1,000 A = $1,000 FV = ? Alternatively, FV A = A x FV IFA FV IFA is the future value interest factor for an annuity (Appendix C) FV A = $1,000(4.641) = $4,641 LO2

18 ©2009 McGraw-Hill Ryerson Limited 18 of 37 Future value of an annuity of $1 (FV IFA ) 1....1.0001.0001.0001.0001.0001.0001.000 2....2.0102.0202.0302.0402.0602.0802.100 3....3.0303.0603.0913.1223.184 3.2463.310 4....4.0604.1224.1844.2464.3754.5064.641 5....5.1015.2045.3095.4165.6375.8676.105 10....10.46210.95011.46412.00613.18114.487 15.937 20....22.01924.29726.87029.77836.78645.76257.275 30....34.78540.58847.57556.08579.058113.280164.490 An expanded table is presented in Appendix C LO2 Percent Period1%2%3%4%6%8%10 %

19 ©2009 McGraw-Hill Ryerson Limited 19 of 37 Calculator (Texas Instruments BA-II Plus) 1000 PMT 0 PV 10 I/Y 4 N CPT FV = -4641.00 LO2 Future Value – Annuity

20 ©2009 McGraw-Hill Ryerson Limited 20 of 37 Present Value – Annuity PV = ? 0 1 234 $1,000 A = $1,000 Alternatively, PV A = A x PV IFA PV IFA is the present value interest factor for an annuity (Appendix D) PV A = $1,000(3.170) = $3,170 LO2

21 ©2009 McGraw-Hill Ryerson Limited 21 of 37 Present value of an annuity of $1 (PV IFA ) 1....0.9900.9800.9710.9620.9430.9260.909 2....1.9701.9421.9131.8861.8331.7831.736 3....2.9412.8842.8292.7752.6732.5772.487 4....3.9023.8083.7173.6303.4653.3123.170 5....4.8534.7134.5804.4524.2123.9933.791 8....7.6527.3257.0206.7736.2105.7475.335 10....9.4718.9838.5308.1117.3606.7106.145 20....18.04616.35114.87713.59011.4709.8188.514 30....25.80822.39619.60017.29213.76511.2589.427 An expanded table is presented in Appendix D LO2 Percent Period1%2%3%4%6%8%10 %

22 ©2009 McGraw-Hill Ryerson Limited 22 of 37 Calculator (Texas Instruments BA-II Plus) 1000 PMT 0 FV 10 I/Y 4 N CPT PV = -3169.87 LO2 Present Value – Annuity

23 ©2009 McGraw-Hill Ryerson Limited 23 of 37 Determining The Annuity Value Formula Approach: Table Approach: A = FV A /FV IFA (Appendix C) A = PV A /PV IFA (Appendix D) Calculator: FV (or PV), I/Y, N, CPT PMT LO2

24 ©2009 McGraw-Hill Ryerson Limited 24 of 37 Your uncle gives you $10,000 now. If you are able to earn 6% on these funds, how much can you withdraw at the end of each year for next 4 year? PV = $10,000A = ? 01 2 34 A = PV A /PV IFA = $10,000/3.465 = $2,886 Alternatively, 4 N 6 I/Y 10000 PV 0 FV CPT PMT = -2885.91 LO2 Determining The Annuity Value

25 ©2009 McGraw-Hill Ryerson Limited 25 of 37 Table 9-1 Relationship of present value to annuity 1....$10,000.00$600.00$2,886.00$7,714.00 2....7,714.00462.842,886.005,290.84 3....5,290.84317.452,886.002,722.29 4....2,722.29163.712,886.000 Year Beginning Balance Annual Interest (6%) + - Annual Withdrawal = Ending Balance LO2

26 ©2009 McGraw-Hill Ryerson Limited 26 of 37 Table 9-2 Payoff table for loan (amortization table) 1....$40,000$4,074$3,200 $ 874$39,126 2....39,1264,0743,130 94438,182 3....38,1824,0743,055 1,01937,163 Period Beginning Balance Annual Payment Annual Interest (8%) Repayment on Principal Ending Balance LO2

27 ©2009 McGraw-Hill Ryerson Limited 27 of 37 Determining Yield on an Investment A $10,000 investment will generate $1,490 a year for the next 10 years, what is the yield on the investment? $1,490 PV = $10,000 0110 Using a calculator 10 N -10000 PV 1490 PMT 0 FV CPT I/Y = 7.996(%) i = ? LO3

28 ©2009 McGraw-Hill Ryerson Limited 28 of 37 Formula Summary Formula Appendix Future value—–single amount.. (9-1) FV = PV(1 + i) n A Present value—–single amount. (9-3) B Future value—–annuity....... (9-4a) C Future value—–annuity in advance................. (9-4b) – Present value—annuity....... (9-5a) D LO2

29 ©2009 McGraw-Hill Ryerson Limited 29 of 37 Formula Summary Formula Appendix Present value—annuity in advance................ (9-5b) – Annuity equalling a future value.................. (9-6a) C Annuity in advance equalling a future value............ (9-6b) – Annuity equalling a present value.................. (9-7a) D Annuity in advance equalling a – present value........... (9-7b) LO2

30 ©2009 McGraw-Hill Ryerson Limited 30 of 37 Two Questions to Ask in Time Value of Money Problems First, Future Value or Present Value? Future Value: Present (Now)  Future Present Value: Future  Present (Now) Second, Single amount or Annuity? Single amount: one-time (or lump) sum Annuity: same amount per year for a number of years LO2

31 ©2009 McGraw-Hill Ryerson Limited 31 of 37 Finding Present Value (first part) A 1 A 2 A 3 A 4 A 5 $1,000$1,000$1,000$1,000$1,000 PV = ? 012345678 LO2

32 ©2009 McGraw-Hill Ryerson Limited 32 of 37 Finding Present Value (second part) A 1 A 2 A 3 A 4 A 5 $1,000$1,000$1,000$1,000$1,000 PV = ? 012345678 Each number represents the end of the period; that is, 4 represents the end of the fourth period. End of third period—Beginning of fourth period $3,993 LO2

33 ©2009 McGraw-Hill Ryerson Limited 33 of 37 Finding Present Value (final part) $3,170 $3,993A 1 A 2 A 3 A 4 A 5 Present (single amount) $1,000$1,000$1,000$1,000$1,000 value 012345678 End of third period—Beginning of fourth period LO2

34 ©2009 McGraw-Hill Ryerson Limited 34 of 37 Perpetuities Perpetuity Growing perpetuity Growing annuity (with end date) LO2

35 ©2009 McGraw-Hill Ryerson Limited 35 of 37 Canadian Mortgages: An Integrated Application A 20-year, $80,000 mortgage carries an annual interest rate of 8%. How much is the monthly payment? The first step is to calculate the effectively monthly interest rate from the semi-annual compounded annual interest rate. 0123456 FV = 1.04 PV = -1 Using a calculator, 6 N -1 PV 0 PMT 1.04 FV CPT I/Y = 0.65582(%) LO3

36 ©2009 McGraw-Hill Ryerson Limited 36 of 37 The second step is to calculate the monthly payment. 0 1240 PV = $80,000 A = ? Using a calculator, 240 N 80000 PV 0.65582 I/Y 0 FV CPT PMT = -662.69 Canadian Mortgages: An Integrated Application LO2

37 ©2009 McGraw-Hill Ryerson Limited 37 of 37 Summary and Conclusions The financial manager uses the time value of money approach to value cash flows that occur at different points in time. A dollar invested today at compound interest will grow to a larger value in future. That future value, discounted at compound interest, is equated to a present value today. Cash values may be single amounts, or a series of equal amounts (annuity). Five variables are involved in a time value of money problem. The fifth variable can be determined if given the other four.

Download ppt "©2009 McGraw-Hill Ryerson Limited 1 of 37 ©2009 McGraw-Hill Ryerson Limited 9 9 The Time Value of Money ©2009 McGraw-Hill Ryerson Limited Prepared by:"

Similar presentations

© Mcgraw-Hill Companies, 2008 Farm Management Chapter 17 Investment Analysis.

© Mcgraw-Hill Companies, 2008 Farm Management Chapter 17 Investment Analysis.
Introduction to Finance

Introduction to Finance
9 - 1 Copyright © 1999 by the Foundation of the American College of Healthcare Executives Future and present values Lump sums Annuities Uneven cash flow.

9 - 1 Copyright © 1999 by the Foundation of the American College of Healthcare Executives Future and present values Lump sums Annuities Uneven cash flow.
Chapter 4 The Time Value of Money 1. Learning Outcomes Chapter 4  Identify various types of cash flow patterns  Compute the future value and the present.

Chapter 4 The Time Value of Money 1. Learning Outcomes Chapter 4  Identify various types of cash flow patterns  Compute the future value and the present.
1 The Time Value of Money Copyright by Diane Scott Docking 2014.

1 The Time Value of Money Copyright by Diane Scott Docking 2014.
The Time Value of Money 9 Chapter Copyright © 2011 by The McGraw-Hill Companies, Inc. All rights reserved. McGraw-Hill/Irwin.

The Time Value of Money 9 Chapter Copyright © 2011 by The McGraw-Hill Companies, Inc. All rights reserved. McGraw-Hill/Irwin.
Copyright © 2009 Pearson Prentice Hall. All rights reserved. Chapter 4 Time Value of Money.

Copyright © 2009 Pearson Prentice Hall. All rights reserved. Chapter 4 Time Value of Money.
McGraw-Hill © 2004 The McGraw-Hill Companies, Inc. All rights reserved. McGraw-Hill/Irwin Discounted Cash Flow Valuation Chapter 5.

McGraw-Hill © 2004 The McGraw-Hill Companies, Inc. All rights reserved. McGraw-Hill/Irwin Discounted Cash Flow Valuation Chapter 5.
Chapter 4,5 Time Value of Money.

Chapter 4,5 Time Value of Money.
CHAPTER THREE THE INTEREST RATE FACTOR IN FINANCING.

CHAPTER THREE THE INTEREST RATE FACTOR IN FINANCING.
Discounted Cash Flow Valuation

Discounted Cash Flow Valuation
1 Chapter 11 Time Value of Money Adapted from Financial Accounting 4e by Porter and Norton.

1 Chapter 11 Time Value of Money Adapted from Financial Accounting 4e by Porter and Norton.
Learning Goals Discuss the role of time value in finance and the use of computational aids to simplify its application. Understand the concept of future.

Learning Goals Discuss the role of time value in finance and the use of computational aids to simplify its application. Understand the concept of future.
Principles of Managerial Finance 9th Edition

Principles of Managerial Finance 9th Edition
© 2003 The McGraw-Hill Companies, Inc. All rights reserved. Discounted Cash Flow Valuation (Formulas) Chapter Six.

© 2003 The McGraw-Hill Companies, Inc. All rights reserved. Discounted Cash Flow Valuation (Formulas) Chapter Six.
The Time Value of Money Mike Shaffer April 15 th, 2005 FIN 191.

The Time Value of Money Mike Shaffer April 15 th, 2005 FIN 191.
Chapter 3 The Time Value of Money. 2 Time Value of Money  The most important concept in finance  Used in nearly every financial decision  Business.

Chapter 3 The Time Value of Money. 2 Time Value of Money  The most important concept in finance  Used in nearly every financial decision  Business.
Chapter 03: Mortgage Loan Foundations: The Time Value of Money McGraw-Hill/Irwin Copyright © 2011 by the McGraw-Hill Companies, Inc. All rights reserved.

Chapter 03: Mortgage Loan Foundations: The Time Value of Money McGraw-Hill/Irwin Copyright © 2011 by the McGraw-Hill Companies, Inc. All rights reserved.
©2012 McGraw-Hill Ryerson Limited 1 of 37 Learning Objectives 1.Explain the concept of the time value of money. (LO1) 2.Calculate present values, future.

©2012 McGraw-Hill Ryerson Limited 1 of 37 Learning Objectives 1.Explain the concept of the time value of money. (LO1) 2.Calculate present values, future.
Chapter 5 Calculators Calculators Introduction to Valuation: The Time Value of Money McGraw-Hill/Irwin Copyright © 2010 by The McGraw-Hill Companies, Inc.

Chapter 5 Calculators Calculators Introduction to Valuation: The Time Value of Money McGraw-Hill/Irwin Copyright © 2010 by The McGraw-Hill Companies, Inc.

Similar presentations

Ads by Google