Test 2 Study Guide
One 8.5*11 sheet with writing on both sides
allowed. You can put anything you like on your sheet.
Calculator is mandatory.
Big Picture Reflection
You will be asked to look at examples from the
finance segment and discuss the similarities with the following themes
from the mathematician segment:
Impossibility of checking all the cases, but finding a solution by shifting our viewpoint (Andrew Wiles' research)
A similar example from the finance segment
occurred in the derivation of the periodic payment formula -
we looked at the future value of each payment. Even
though we found a pattern,
it was impossible to use for long time periods since there were as many
terms as compounding periods. So next we stepped back,
shifted our view of it by transforming it by a common piece and then we
combined the shifted equation with the original. The overlap cancelled to
give us a general formula that was easy to use and only had a
couple of terms.
Specifically, combining the shifted equation with the original was
similar to Andrew Wiles explaining what would go wrong if there was a
solution, since each involved looking at a change in view and organization
that eventually simplified an impossible problem and made it possible to solve.
Impossibility of constructing a solution but finding a non-constructivist approach. (Andrew Wiles' research)
Thrifty Saver's account from The Simpsons
.05= 100 (1+ .023/n)n - 100(1+.0225/n)n
It was impossible to
construct a solution since the unknown compounding period appeared both
in the power and what was being raised to the power. So algebraic techniques
cannot construct a solution [even logs aren't powerful enough for this
problem]. Goal Seek in Excel also was not powerful enough to solve this
for us, and gave us an answer that did not make sense,
so we used the Equation Solver in Excel along with common sense and a
"guess and check" perspective - this is
not a constructivist proof, as it does not show us how or why it works.
Instead the computer (or we)
guesses and checks until it finds an answer [and then
we use common sense to evaluate whether that answer suffices].
Reaching numerous conclusions from a complete set of
measurements (Carolyn Gordon's research)
In the condo lab, we analyzed all the various equations and conclusions
related to paying for a lower interest rate versus taking out a smaller
loan. We found that the lower rate had the lowest 30 year interest, the
lowest monthly payment, and the largest tax savings in the first year,
while the smaller loan has the lowest loan balance for the first 6 years.
So, while we analyzed all of the possible measurements related to taxes
and savings, we could not come to a definitive conclusion on which would
be best. The lower rate option saves more money in all but the case
where someone moves within the first 6 years. So there are numerous
conclusions made from the same measurements that depend on something we
cannot measure because it occurs in the future -
whether someone will move within the first 6 years.
Viewing objects that are impossible to see by managing small pieces at a time (Jeff Weeks' research). Think about an example from
finance that fits here.
Also review the
Jane and Joan sheet,
the Ben Franklin lab,
the Condo lab and
the recent ASULearn Material Review Questions for Test 2.
You can expect to have
problems that are similar. For the ASULearn questions,
be sure that you could explain WHY each answer is true or false.
Be sure that you could explain information given on a student loan
statement or an Excel amortization table (see
class notes, condo lab chart and
Paying extra each month on option 1, ASULearn car loan practice
problem, and the student loan work
as a review of this), and that you could relate that information
to by-hand formulas that we have used and answer questions on it.
You will not be tested on Excel formulas such as =B3*$c$2, but
you might be asked how to write down how you would get a number in an
excel box using by-hand formulas, or you might be asked to use a portion
of an Excel table (and your knowledge of how it works)
in order to answer questions like how much interest you save when you pay
extra money each month (the condo lab is a good review of this - see table
3 and the questions just after that).
Make sure that you understand the "math common
sense" we have gone over in class
and the "calc keys" that will work with your calculator
for each type of problem.
For the test, you will need to
write down the setup of the formula with numbers,
explain why (in words) the formula you chose applied to this problem,
solve the problem on your calculator, and
write down "math common sense" - did your answer make sense or not and WHY?:
For example, "we have seen that it is possible to double your money
in about 20 years because it is sitting there a long time",
"it makes sense that the interest on the loan is more than the loan itself
since the bank is loaning us a large lump sum up front, and we are
taking a long time - 30 years - to pay it back. The bank could
have deposited their money in a lump sum account instead of loaning
it to us, and the money would have more than doubled in this account.
Hence, we must pay back more than double the interest."