Future Value of an Annuity
The future value of an annuity is the value of a group of recurring payments at a certain date in the future, assuming a particular rate of return, or discount rate. (An ordinary annuity pays interest at the end of a particular period, rather than at the beginning, as is the case with an annuity due.) P \= PMT × ( ( 1 \+ r ) n − 1 ) r where: P \= Future value of an annuity stream PMT \= Dollar amount of each annuity payment r \= Interest rate (also known as discount rate) n \= Number of periods in which payments will be made \\begin{aligned} &\\text{P} = \\text{PMT} \\times \\frac { \\big ( (1 + r) ^ n - 1 \\big ) }{ r } \\\\ &\\textbf{where:} \\\\ &\\text{P} = \\text{Future value of an annuity stream} \\\\ &\\text{PMT} = \\text{Dollar amount of each annuity payment} \\\\ &r = \\text{Interest rate (also known as discount rate)} \\\\ &n = \\text{Number of periods in which payments will be made} \\\\ \\end{aligned} P\=PMT×r((1+r)n−1)where:P\=Future value of an annuity streamPMT\=Dollar amount of each annuity paymentr\=Interest rate (also known as discount rate)n\=Number of periods in which payments will be made So: P \= PMT × ( ( 1 \+ r ) n − 1 ) r × ( 1 \+ r ) \\begin{aligned} &\\text{P} = \\text{PMT} \\times \\frac { \\big ( (1 + r) ^ n - 1 \\big ) }{ r } \\times ( 1 + r ) \\\\ \\end{aligned} P\=PMT×r((1+r)n−1)×(1+r) If the same example as above were an annuity due, its future value would be calculated as follows: Future value \= $ 1 2 5 , 0 0 0 × ( ( 1 \+ 0 . 0 8 ) 5 − 1 ) 0 . 0 8 × ( 1 \+ 0 . 0 8 ) \= $ 7 9 1 , 9 9 1 \\begin{aligned} \\text{Future value} &= \\$125,000 \\times \\frac { \\big ( ( 1 + 0.08 ) ^ 5 - 1 \\big ) }{ 0.08 } \\times ( 1 + 0.08 ) \\\\ &= \\$791,991 \\\\ \\end{aligned} Future value\=$125,000×0.08((1+0.08)5−1)×(1+0.08)\=$791,991 All else being equal, the future value of an annuity due will be greater than the future value of an ordinary annuity because it has had an extra period to accumulate compounded interest. The future value of an annuity is the value of a group of recurring payments at a certain date in the future, assuming a particular rate of return, or discount rate.
What Is the Future Value of an Annuity?
The future value of an annuity is the value of a group of recurring payments at a certain date in the future, assuming a particular rate of return, or discount rate. The higher the discount rate, the greater the annuity's future value.
Understanding the Future Value of an Annuity
Because of the time value of money, money received or paid out today is worth more than the same amount of money will be in the future. That's because the money can be invested and allowed to grow over time. By the same logic, a lump sum of $5,000 today is worth more than a series of five $1,000 annuity payments spread out over five years.
Ordinary annuities are more common, but an annuity due will result in a higher future value, all else being equal.
Example of the Future Value of an Annuity
The formula for the future value of an ordinary annuity is as follows. (An ordinary annuity pays interest at the end of a particular period, rather than at the beginning, as is the case with an annuity due.)
P = PMT × ( ( 1 + r ) n − 1 ) r where: P = Future value of an annuity stream PMT = Dollar amount of each annuity payment r = Interest rate (also known as discount rate) n = Number of periods in which payments will be made \begin{aligned} &\text{P} = \text{PMT} \times \frac { \big ( (1 + r) ^ n - 1 \big ) }{ r } \\ &\textbf{where:} \\ &\text{P} = \text{Future value of an annuity stream} \\ &\text{PMT} = \text{Dollar amount of each annuity payment} \\ &r = \text{Interest rate (also known as discount rate)} \\ &n = \text{Number of periods in which payments will be made} \\ \end{aligned} P=PMT×r((1+r)n−1)where:P=Future value of an annuity streamPMT=Dollar amount of each annuity paymentr=Interest rate (also known as discount rate)n=Number of periods in which payments will be made
For example, assume someone decides to invest $125,000 per year for the next five years in an annuity they expect to compound at 8% per year. The expected future value of this payment stream using the above formula is as follows:
Future value = $ 1 2 5 , 0 0 0 × ( ( 1 + 0 . 0 8 ) 5 − 1 ) 0 . 0 8 = $ 7 3 3 , 3 2 5 \begin{aligned} \text{Future value} &= \$125,000 \times \frac { \big ( ( 1 + 0.08 ) ^ 5 - 1 \big ) }{ 0.08 } \\ &= \$733,325 \\ \end{aligned} Future value=$125,000×0.08((1+0.08)5−1)=$733,325
With an annuity due, where payments are made at the beginning of each period, the formula is slightly different. To find the future value of an annuity due, simply multiply the formula above by a factor of (1 + r). So:
P = PMT × ( ( 1 + r ) n − 1 ) r × ( 1 + r ) \begin{aligned} &\text{P} = \text{PMT} \times \frac { \big ( (1 + r) ^ n - 1 \big ) }{ r } \times ( 1 + r ) \\ \end{aligned} P=PMT×r((1+r)n−1)×(1+r)
If the same example as above were an annuity due, its future value would be calculated as follows:
Future value = $ 1 2 5 , 0 0 0 × ( ( 1 + 0 . 0 8 ) 5 − 1 ) 0 . 0 8 × ( 1 + 0 . 0 8 ) = $ 7 9 1 , 9 9 1 \begin{aligned} \text{Future value} &= \$125,000 \times \frac { \big ( ( 1 + 0.08 ) ^ 5 - 1 \big ) }{ 0.08 } \times ( 1 + 0.08 ) \\ &= \$791,991 \\ \end{aligned} Future value=$125,000×0.08((1+0.08)5−1)×(1+0.08)=$791,991
All else being equal, the future value of an annuity due will be greater than the future value of an ordinary annuity because it has had an extra period to accumulate compounded interest. In this example, the future value of the annuity due is $58,666 more than that of the ordinary annuity.
Related terms:
Annualized Total Return
Annualized total return gives the yearly return of a fund calculated to demonstrate the rate of return necessary to achieve a cumulative return. read more
Annuity Table
An annuity table is a tool for determining the present value of an annuity or other structured series of payments. read more
Annuities: Insurance for Retirement
An annuity is a financial product that pays out a fixed stream of payments to an individual, primarily used as an income stream for retirees. read more
Annuity Due
Annuity due is an annuity with payment due at the beginning of a period instead of at the end. See how to calculate the value of an annuity due. read more
Bond Floor
Bond floor refers to the minimum value a specific bond should trade for. The bond floor is derived from the discounted value of a bond's coupons, plus its redemption value. read more
Compound Interest , Formula, & Calculation
Compound interest is the interest on a loan or deposit that accrues on both the initial principal and the accumulated interest from previous periods. read more
Deferred Annuity
A deferred annuity is an insurance contract that promises to pay the buyer a regular stream of income, or a lump sum, at some date in the future. read more
Discount Rate
"Discount rate" has two distinct definitions. I can refer to the interest rate that the Federal Reserve charges banks for short-term loans, but it's also used in future cash flow analysis. read more
Fixed Annuity
A fixed annuity is an insurance contract that pays a guaranteed rate of interest on the owner's contributions and later provides a guaranteed income. read more
Future Value of an Annuity
The future value of an annuity is the total value of a series of recurring payments at a specified date in the future. read more