A calculator is extremely helpful and often necessary to solve
calculator-friendly questions. Problems demanding exact values for exponents,
logarithms, or trigonometric functions will most likely need a calculator.
Computations that you can’t do easily in your head are prime candidates. Here’s
an example:
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If f(x) =
then what is f(3.4)? |
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(A) |
–18.73 |
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(B) |
–16.55 |
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(C) |
–16.28 |
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(D) |
–13.32 |
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(E) |
–8.42 |
This is a simple function question in which you are asked to evaluate f(x)
at the value 3.4. As you will learn in the Functions chapter, all you have to do
to solve this problem is plug in 3.4 for the variable x and carry out the
operations in the function. But unless you know the square root and square of
3.4 off the top of your head (which most test-takers wouldn’t), this problem is
extremely difficult to answer without a calculator.
But with a calculator, all you need to do is take the square root of 3.4,
subtract twice the square of 3.4, and then add 5. You get answer choice C,
–16.28.
Calculator-Neutral Questions
You have two choices when faced with a calculator-neutral question. A calculator
is useful for these types of problems, but it’s probably just as quick and easy
to work the problem out by hand.
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If 8x = 43
×
23, what is the value ofx? |
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(A) |
2 |
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(B) |
3 |
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(C) |
5 |
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(D) |
7 |
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(E) |
8 |
When you see the variable x as a power, you should think of logarithms. A
logarithm is the power to which you must raise a given number to equal another
number, so in this case, we need to find the exponent x, such that
8x = 43×
23. From the definition of logarithms, we know that if given
an equation of the formax =
b, thenloga b
= x. So you could type inlog8
(43×
23) on your trusty calculator and find that x = 3.
Or, you could recognize that2 and
4 are both factors of
8, and, thinking a step further, that
23
= 8 and43 = 64 = 82. Put together,
43×
23 = 82
×
8 = 83. We come to the same answer that x
= 3 and that B is the right answer.
These two processes take about the same amount of time, so choosing one over the
other is more a matter of personal preference than one of strategy. If you feel
quite comfortable with your calculator, then you might not want to risk the
possibility of making a mental math mistake and should choose the first method.
But if you’re more prone to error when working with a calculator, then you
should choose the second method.
While it’s possible to answer calculator-unfriendly questions using a
calculator, it isn’t a good idea. These types of problems often have built-in
shortcuts—if you know and understand the principle being tested, you can bypass
potentially tedious computation with a few simple calculations. Here’s a problem
that you could solve much more quickly and effectively without the use of a
calculator:
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(A) |
.3261 |
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(B) |
.5 |
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(C) |
.6467 |
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(D) |
.7598 |
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(E) |
.9238 |
If you didn’t take a moment to think about this problem, you might just rush
into it wielding your calculator, calculating the cosine and sine functions,
squaring them each and then adding them together, etc. But take a closer look:
cos2(3×
63°) + sin2(3×
63°) is a trigonometric identity. More specifically, it’s a Pythagorean
identity:sin2q + cos2q = 1 for any angle q. So, the
expression {cos2(3×
63°) + sin2(3×
63°)} 4/2 simplifies to 1 ="question_inline">4 /2 =
1/2 = .5. B is correct.
Calculator-Useless Questions
Even if you wanted to, you wouldn’t be able to use your calculator on
calculator-useless problems. For the most part, problems involving algebraic
manipulation or problems lacking actual numerical values would fall under this
category. You should be able to easily identify problems that can’t be solved
with a calculator. Quite often, the answers for these questions will be
variables rather than numbers. Take a look at the following example:
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(x + y – 1)(x + y + 1) = |
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(A) |
(x + y)2 |
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(B) |
(x + y)2 – 1 |
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(C) |
x2 – y2 |
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(D) |
x2 + x – y + y2 + 1 |
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(E) |
x2 + y2 + 1 |
This question tests you on an algebraic topic—that is, it asks you how to find
the product of two polynomials—and requires knowledge of algebraic principles
rather than calculator acumen. You’re asked to manipulate variables, not produce
a specific value. A calculator would be of no use here.
To solve this problem, you need to notice that the two polynomials are in the
format of a Difference of Two Squares:(a+ b)(a – b =
a2– b2.
In our case, a= x + y
and b= 1. As a result,
(x+
y– 1)(x + y+
1) = (x+ y)2–
1. B is correct.
The fact that the test contains all four of these question types means that you
shouldn’t get trigger-happy with your calculator. Just because you’ve got an
awesome shiny hammer doesn’t mean you should try to use it to pound in
thumbtacks. Using your calculator to try to answer every question on the test
would be just as unhelpful.
Instead of reaching instinctively for your calculator, first take a brief look
at each question and understand exactly what it’s asking you to do. That short
pause will save you a great deal of time later on. For example, what if you came
upon the question:
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If (3, y) is a point on the graph of f(x) =
 ,
then what is y? |
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(A) |
–3 |
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(B) |
–1.45 |
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(C) |
0 |
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(D) |
.182 |
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(E) |
4.87 |
A trigger-happy calculator user might immediately plug in
3 for x. But the student who takes a
moment to think about the problem will probably see that the calculation would
be much simpler if the function was simplified first. To start, factor
11 out of the denominator:
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Then, factor the numerator to its simplest form:
=x2-5x.gif)
The(x
– 4) cancels out, and the function becomes f(x = (x– 1) ⁄ 11. At this point you could shift to
the calculator and calculate f(x) = (3 – 1) ⁄ 11 =
2/ 11 = .182, which is answer D. If
you were very comfortable with math, however, you would see that you don’t even
have to work out this final calculation. 2⁄11 can’t work
out to any answer other than D, since you know that 2⁄11
isn’t a negative number (like answers A and B), won’t be equal to
zero (answer C), and also won’t be greater than 1 (answer E).