0.8 Mathematics of finance  (Page 9/9)

Most of the other applications in this section's problem set are reasonably straight forward, and can be solved by taking a little extra care in interpreting them. And remember, there is often more than one way to solve a problem.

Classification of finance problems

We'd like to remind the reader that the hardest part of solving a finance problem is determining the category it falls into. So in this section, we will emphasize the classification of problems rather than finding the actual solution.

We suggest that the student read each problem carefully and look for the word or words that may give clues to the kind of problem that is presented. For instance, students often fail to distinguish a lump-sum problem from an annuity. Since the payments are made each period, an annuity problem contains words such as each, every, per etc.. One should also be aware that in the case of a lump-sum, only a single deposit is made, while in an annuity numerous deposits are made at equal spaced time intervals.

Students often confuse the present value with the future value. For example, if a car costs $15,000, then this is its present value. Surely, you cannot convince the dealer to accept $15,000 in some future time, say, in five years. Recall how we found the installment payment for that car. We assumed that two people, Mr. Cash and Mr. Credit, were buying two identical cars both costing $15, 000 each. To settle the argument that both people should pay exactly the same amount, we put Mr. Cash's cash of $15,000 in the bank as a lump-sum and Mr. Credit's monthly payments of $x$ dollars each as an annuity. Then we make sure that the future values of these two accounts are equal. As you remember, at an interest rate of 9%

the future value of Mr. Cash's lump-sum was $\$\text{15},\text{000}{\left(1+\text{.}\text{09}/\text{12}\right)}^{\text{60}}$ , and

the future value of Mr. Credit's annuity was $\frac{x\left[{\left(1+\text{.}\text{09}/\text{12}\right)}^{\text{60}}-1\right]}{\text{.}\text{09}/\text{12}}$ .

To solve the problem, we set the two expressions equal and solve for $x$ .

The present value of an annuity is found in exactly the same way. For example, suppose Mr. Credit is told that he can buy a particular car for $311.38 a month for five years, and Mr. Cash wants to know how much he needs to pay. We are finding the present value of the annuity of $311.38 per month, which is the same as finding the price of the car. This time our unknown quantity is the price of the car. Now suppose the price of the car is $y$ , then

the future value of Mr. Cash's lump-sum is $y{\left(1+\text{.}\text{09}/\text{12}\right)}^{\text{60}}$ , and

the future value of Mr. Credit's annuity is $\frac{\$\text{311}\text{.}\text{38}\left[{\left(1+\text{.}\text{09}/\text{12}\right)}^{\text{60}}-1\right]}{\text{.}\text{09}/\text{12}}$ .

Setting them equal we get,

We now list six problems that form a basis for all finance problems. Further, we classify these problems and give an equation for the solution.