# 游戏电竞赛事博注开户

There are occasions when we need to determine the length of time (n) in a Present Value (PV) calculation. To do this, we need to know the three other components in the PV calculation: present value amount, future cash amount (FV), and the interest rate used for discounting the future cash amount (i).

### Exercise #5

What is the 游戏电竞线上外围APP v5.2 length of time involved if a future amount of $5,000 has a present value of $1,000, and the time value of money is 8% compounded annually?

The following timeline depicts the information we know, along with the unknown component (n):

**
Calculation Using the Present Value of 1 Table
**

As we had done in Part 3, we start with the PV formula: PV = FV x [ 1 ÷ (1 + i)
^{
n
}
]. We then substitute the PV of 1 factor for the expression "[ 1 ÷ (1 + i)
^{
n
}
]". Our equation now reads:

From the information we've been given, we know that the future value is $5,000, the present value is $1,000, and the annual interest rate is 8% compounded annually. Let's plug those numbers into our equation to solve for (n), the number of annual time periods:

Our equation tells us that the PV of 1 factor is
**
0.20040
**
. Since the rate for discounting is 8% compounded annually, we look at the
**
PV of 1 Table
**
in the 8% column and find the amount closest to 0.200; this would be 0.199. We see it is located in the row where
**
n = 21
**
. This tells us that the missing component, length of time, is approximately 21 years.

### Exercise #6

What is the 游戏电竞线上外围APP v5.2 length of time involved if a future amount of $10,000 has a present value of $3,000, and the time value of money is 10% per year compounded
*
semiannually
*
?

The following timeline depicts the information we know, along with the unknown component (n):

**
Calculation Using a PV of 1 Table
**

As mentioned previously, if you are furnished with a table containing present value factors, the formula PV of 1 = FV times [ 1 ÷ (1 + i)
^{
n
}
], can be restated to:

From the information we've been given, we know that the future value is $10,000 and the present value is $3,000. The annual interest rate is 10% compounded
*
semiannually
*
, which we can restate as 5% per semiannual period. When we plug in the information we know, we can solve for (n), the number of semiannual periods:

Our equation tells us that the PV factor is
**
0.30000
**
. Since the rate for discounting is 5% per semiannual period, we look at the
**
PV of 1 Table
**
in the 5% column and find the amount closest to 0.300; this would be 0.295. We see it is located in the row where
**
n = 25
**
. This tells us that the missing component, length of time, is approximately 25 semiannual periods (about 12.5 years).

### Exercise #7

What is the 游戏电竞线上外围APP v5.2 length of time involved if a future amount of $100,000 has a present value of $75,000, and the time value of money is 12% per year compounded
*
monthly
*
?

The following timeline depicts the information we know, along with the unknown component (n):

**
Calculation Using a PV of 1 Table
**

From the information we've been given, we know that the future value is $100,000 and the present value is $75,000. The annual interest rate is 12% compounded
*
monthly
*
, which we can restate as 1% per month. Let's plug in the information we know and solve for (n):

Our equation tells us that the PV factor is
**
0.750
**
. Since the rate for discounting is 1% per month, we look at the
**
PV of 1 Table
**
in the 1% column and find the amount closest to 0.750; this amount would be 0.749. We see it is located in the row where
**
n = 29
**
. This tells us that the missing component, length of time, is approximately 29 months (about 2.4 years).