Time Value
TIME VALUE
Time Value
• Interest Rates
• Compounding • Discounting
• Effective Rates
• Annuities • Perpetuities
2
Interest Rates
• Types
– Bank rate vs. Prime rate – Mortgage rates – Deposit, Loan, Credit rates
• Movement
– Demand / Supply – Inflation/ Deflation – Government intervention
3
Main Components
1. Real 2. Inflation
3. Risk
*Note:
- Risk Free (Rf) = Real + Inflation - Nominal = Rf + Risk Premium
4
Risk Free & Real Rate
• Risk Free (Rf) = Real + Inflation
• Real = [(1 + Rf) / (1 + Inflation)] - 1
• Given Rf = 10% & Inflation = 6% • Real Rate = [(1.1) / (1.06)] – 1 = 3.77%
5
Compounding
FV
r (APR) PV t
FV = PV×(1 + r)t
= Future Value
= Interest rate = Present Value = Time
Discounting
PV = FV×[1 / (1 + r)t]
6
Effective Interest Rates (EAR) m APR EAR 1 1 m
Where APR = Annual Percentage Rate (Nominal) m = Rate of Compounding
Compounding “APR” for “m” times a year = Effective Rate once a year
7
Effective Interest Rate (EAR) = [1 + r/m]m -1
Compounding period (t) Number of times compounded (m) Effective annual rate (%)
Year Quarter Month Week Day Hour Minute
1 4 12 52 365 8,760 525,600
10.00 10.38 10.47 10.506 10.515 10.517 10.5171
8
Annuities & Perpetuities
11 + r )t (1 r
PV Annuity =
FV Annuity =
(1 + r)t – 1 r
C Perpetuity : PV r
C Growing Perpetuity : PV rg
9
Future Value Annuity
FV calculated by compounding forward one period at a time
0 1 2 3 4
5
Time (years)
$0 0
$0 2,000 x 1.1
$2,200 2,000 x 1.1 $4,200 x 1.1
$4,620 2,000 $6,620 x 1.1
$7,282 2,000 $9,282 x 1.1
$10,210.2 2,000 $12,210.2
$0
$2,000
FV calculated by compounding each cash flow separately
0 1 2 3 4 5 Time (years)
$2,000
$2,000
$2,000
$2,000 x 1.1
$2,000.0 2,200.0 2,420.0 2,662.0 2.928.2
x
1.12
Using Annuity formula: $2,000 x (1.10)5 .10 = $2,000 x 6.1051 = $12,210.2 -1 x 1.14
x
1.13
Total
Time Value
• Interest Rates
• Compounding • Discounting
• Effective Rates
• Annuities • Perpetuities
2
Interest Rates
• Types
– Bank rate vs. Prime rate – Mortgage rates – Deposit, Loan, Credit rates
• Movement
– Demand / Supply – Inflation/ Deflation – Government intervention
3
Main Components
1. Real 2. Inflation
3. Risk
*Note:
- Risk Free (Rf) = Real + Inflation - Nominal = Rf + Risk Premium
4
Risk Free & Real Rate
• Risk Free (Rf) = Real + Inflation
• Real = [(1 + Rf) / (1 + Inflation)] - 1
• Given Rf = 10% & Inflation = 6% • Real Rate = [(1.1) / (1.06)] – 1 = 3.77%
5
Compounding
FV
r (APR) PV t
FV = PV×(1 + r)t
= Future Value
= Interest rate = Present Value = Time
Discounting
PV = FV×[1 / (1 + r)t]
6
Effective Interest Rates (EAR) m APR EAR 1 1 m
Where APR = Annual Percentage Rate (Nominal) m = Rate of Compounding
Compounding “APR” for “m” times a year = Effective Rate once a year
7
Effective Interest Rate (EAR) = [1 + r/m]m -1
Compounding period (t) Number of times compounded (m) Effective annual rate (%)
Year Quarter Month Week Day Hour Minute
1 4 12 52 365 8,760 525,600
10.00 10.38 10.47 10.506 10.515 10.517 10.5171
8
Annuities & Perpetuities
11 + r )t (1 r
PV Annuity =
FV Annuity =
(1 + r)t – 1 r
C Perpetuity : PV r
C Growing Perpetuity : PV rg
9
Future Value Annuity
FV calculated by compounding forward one period at a time
0 1 2 3 4
5
Time (years)
$0 0
$0 2,000 x 1.1
$2,200 2,000 x 1.1 $4,200 x 1.1
$4,620 2,000 $6,620 x 1.1
$7,282 2,000 $9,282 x 1.1
$10,210.2 2,000 $12,210.2
$0
$2,000
FV calculated by compounding each cash flow separately
0 1 2 3 4 5 Time (years)
$2,000
$2,000
$2,000
$2,000 x 1.1
$2,000.0 2,200.0 2,420.0 2,662.0 2.928.2
x
1.12
Using Annuity formula: $2,000 x (1.10)5 .10 = $2,000 x 6.1051 = $12,210.2 -1 x 1.14
x
1.13
Total