tym value of money
TRANSCRIPT
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Time Value of Money
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Topics Covered
Simple interest Compound interest Continuous Compound Interest
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The Time Value of Money
Simple Interest
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A rupee today is worth more than a rupee tomorrow.
Definition
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Simple interest
. Simple interest incurs only on the principal. While calculating simple interest we keep the interest and principal separately, i.e., the interest incurred in one year is not added to the principal while calculating interest of the next period.
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Future Value of Single Cash Flow
niPVFV )1(
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Example: Simple Interest?
Assume that you have Rs 100 today and you want to invest the amount with a bank for five years. The bank is offering an interest rate of 7 percent.
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Simple Interest We can obtain the simple interest on the investment using
the formula
niPVFV )1(
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Here FV is the simple interest accrued for the term of the investment
PV is the amount invested, i.e., Rs 100 in our example
i stands for the interest rate offered by the bank, i.e., 7 % = 0.07
n is the term of the investment, which is assumed to be 5 years
Simple Interest
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Putting these values in the formula, we get
• FV = 100 + (100 x 0.07 x 5)• FV = 100 + (7 x 5)• FV = 100 + (35)• FV = Rs 135
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The Time Value of Money
Compound Interest
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Definition
“The greatest mathematical discovery of all time is compound interest.”
Albert Einstein
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Interest is earned on both the principal and accumulated interest of past periods
Definition
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yearly compounding
F V = PV x (1 + i) n
Compound interest
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yearly compounding
F V = PV x (1 + (i / m) m x n
Such a compounding would be calculated using the following formula.
Compound interest
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Here ‘m’ refers to the compounding gap during the term of the investment. In order to calculate monthly compounding, the value of ‘m’ would be 12; however, for quarterly compounding calculation m would be equal to 4.
Compound interest
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Assume that the investor in our previous example is offered a compound return (interest) on his same investment, at the same interest rate and term. The
future value of the investment is given as under
Example
0 1 2 3 4
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Putting these values in the formula, we get
F V = PV x (1 + i) nFV = 100 x (1+0.07)5FV = 100 x (1.07)5FV = 100 x (1.40255)FV = 140.255
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The Time Value of Money
Continuous Compound Interest
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Formula
Continuous Compound Interest
F V (Continuous compounding) = PV x e i x n
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Here e is a constant the derived value of which is 2.718
Continuous Compound Interest
After putting the values F V = PV x e i x nFV = 100 x 2.718(0.07x5)FV = 100 x 1.419FV = 141.9
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