Time Value of Money

Time Value of Money

Outline • Meaning of Time Value • Concept of Future Value and Compounding (FV) • Concept of Present Value and Discounting (PV) • Frequency of Compounding • Present Value versus Future Value • Determining the Interest rate (r) • Determining the Time Period (n) • Future Value and Present Value of Multiple Cash Flows • Annuities and Perpetuities

Time Value of Money • Basic Problem: • How to determine value today of cash flows that are expected in the future? • Time value of money refers to the fact that a dollar in hand today is worth more than a dollar promised at some time in the future • Which would you rather have -- $1,000 today or $1,000 in 5 years? • Obviously, $1,000 today. • Money received sooner rather than later allows one to use the funds for investment or consumption purposes. This concept is referred to as the TIME VALUE OF MONEY!! • TIME allows one the opportunity to postpone consumption and earn INTEREST.

Future Value and Compounding • Future value refers to the amount of money an investment will grow to over some length of time at some given interest rate • To determine the future value of a single cash flows, we need: • present value of the cash flow (PV) • interest rate (r), and • time period (n) • FVn = PV0× (1 + r)n • Future Value Interest Factor at ‘r’ rate of interest for ‘n’ time periods • Examples on computation of future value of a single cash flow

Future Value (Graphic) If you invested $2,000 today in an account that pays 6% interest, with interest compounded annually, how much will be in the account at the end of two years if there are no withdrawals? 0 1 2 6% $2,000 FV

Future Value (Formula) FV1 = PV (1+r)n = $2,000(1.06)2 = $2,247.20 FV = future value, a value at some future point in time PV = present value, a value today which is usually designated as time 0 r = rate of interest per compounding period n = number of compounding periods Calculator Keystrokes: 1.06 (2nd yx) 2 x 2000 =

Future Value (Example) • John wants to know how large his $5,000 deposit will become at an annual compound interest rate of 8% at the end of 5 years. 0 1 2 3 4 5 8% $5,000 FV5

Future Value Solution • Calculation based on general formula: FVn = PV (1+r)n • FV5 = $5,000 (1+ 0.08)5 • = $7,346.64 • Calculator keystrokes: 1.08 2nd yx x 5000 =

Present Value and Discounting • The current value of future cash flows discounted at the appropriate discount rate over some length of time period • Discounting is the process of translating a future value or a set of future cash flows into a present value. • To compute present value of a single cash flow, we need: • Future value of the cash flow (FV) • Interest rate (r) and • Time Period (n) • PV0 = FVn / (1 + r)n • PVIF (r,n) • Examples

Present Value (Graphic) Assume that you need to have exactly $4,000saved 10 years from now. How much must you deposit today in an account that pays 6% interest, compounded annually, so that you reach your goal of $4,000? 0 5 10 6% $4,000 PV0

Present Value (Formula) PV0 = FV / (1+r)10 = $4,000/ (1.06)10 = $2,233.58 0 5 10 6% $4,000 PV0

Present Value Example Joann needs to know how large of a deposit to make today so that the money will grow to $2,500 in 5 years. Assume today’s deposit will grow at a compound rate of 4% annually. 0 1 2 3 4 5 4% $2,500 PV0

Present Value Solution • Calculation based on general formula: PV0 = FVn / (1+r)nPV0= $2,500/(1.04)5 = $2,054.81 • Calculator keystrokes: 1.04 2nd yx 5 = 2nd 1/x X 2500 =

Frequency of Compounding General Formula: FVn = PV0(1 + [r/m])mn n: Number of Years m: Compounding Periods per Year r: Annual Interest Rate FVn,m: FV at the end of Year n PV0: PV of the Cash Flow today

Frequency of Compounding Example • Suppose you deposit $1,000 in an account that pays 12% interest, compounded quarterly. How much will be in the account after eight years if there are no withdrawals? PV = $1,000 r = 12%/4 = 3% per quarter n = 8 x 4 = 32 quarters

Solution based on formula: FV= PV (1 + r)n = 1,000(1.03)32 = 2,575.10 Calculator Keystrokes: 1.03 2nd yx 32 X 1000 =

Present Value versus Future Value • Present value factors are reciprocals of future value factors • Interest rates and future value are positively related • Interest rates and present value are negatively related • Time period and future value are positively related • Time period and present value are negatively related

Determining the Interest Rate (r) • At what rate of interest should we invest our money today to get a desired amount of money after a certain number of years? • Essentially, we are trying to determine the interest rate given present value (PV), future value (FV), and time period (n) • Examples • The rate which money can be doubled/tripled

Determining the Time Period (n) • For how long should we invest money today to get a desired amount of money in the future at a given rate of interest • Determining the time period (n) for which a current amount (PV) needs to be invested to get a certain future value (FV) given a rate of interest (r). • Examples • The time period needed to double/triple our current investment

Future Value of Multiple Uneven Cash Flows • Compute the future value of each single cash flow using future value formula and add them up over all the cash flows • Example

Present Value of Multiple Uneven Cash Flows • Compute the present value of each single cash flow using present value formula and add them over all the cash flows • Examples

Annuities • A series of level/even/equal sized cash flows that occur at the end of each time period for a fixed time period • Examples of Annuities: • Car Loans • House Mortgages • Insurance Policies • Some Lotteries • Retirement Money

Present Value of an Annuity • Examples • Computing Cash Flow per period in annuity • Examples

Perpetuities • A series of level/even/equal sized cash flows that occur at the end of each period for an infinite time period • Examples of Perpetuities: • Consoles issued by British Government • Preferred Stock • Present Value of a Perpetuity

Effective Annual Rate • Compounding other than annual

Time Value of Money