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EQUATIONS, INEQUALITIES, & VIC'S GMAT
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This essential guide covers algebra
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•
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Essential Rules
•
Formulas
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•
Detailed Examples
•
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•
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•
Inequalities
•
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•
VIC Problems
Problem Sets
•
•
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GMAT.
all its
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Master fundamental tech-
niques and nuanced strategies to help you solve for
unknown
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Equations, Inequalities, and VIC's 10-digit International Standard
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ManfiattanGM/KY'PreD the
1.
BASIC EQUATIONS In Action
2.
EXPONENTIAL EQUATIONS
27 35
QUADRATIC EQUATIONS
39
Problems
Solutions
47 49
FORMULAS
53
Solutions
FUNCTIONS
67
Problems
73
Solutions
75
INEQUALITIES
77
In Action
7.
Problems
61 63
In Action
6.
33
Problems
Solutions
In Action
5.
21
23
In Action
4.
Problems
Solutions
85 87
VIC'S
91
In Action
97 99
Problems
Solutions
8.
STRATEGIES FOR DATA SUFFICIENCY Sample Data
9.
11
Solutions
In Action
3.
Problems
Sufficiency Rephrasing
OFFICIAL GUIDE Problem Solving Data Sufficiency
List List
new standard
PROBLEM SETS
105 111
119 122 123
TABLE OF CONTENTS
Chapter
1
EQUATIONS, INEQUALITIES, & VIC's
BASIC
EQUATIONS
In This Chapter
.
.
.
-Variable Equations
•
Solving
•
Simultaneous Equations: Solving by Substitution
•
Simultaneous Equations: Solving by Combination
•
Simultaneous Equations: 3 Equations
•
Mismatch Problems
•
Combo
•
Absolute Value Equations
I
Problems: Manipulations
BASIC EQUATIONS STRATEGY
Chapter
1
BASIC EQUATIONS Algebra
Basic
is.
therefore, an essential
GMAT equations
different types of
1)
An
GMAT. Your
one of the major math topics tested on the
is
equations
are those that
BASIC
equation with
component
ability to solve
to success.
DO NOT involve exponents. There are GMAT expects you to solve:
several
equations that the
variable
1
2) Simultaneous equations with 2 or 3 variables 3)
Mismatch Equations
4)
Combos
To solve tions,
5) Equations with absolute value
Several of the preceding basic equation types probably look familiar to you. Others—
Mismatch Equations and Combos— are unique
counter to some of the rules you
that
whatever you do to one side,
particularly
basic equa-
remember
may have
attuned to the particular subtleties of
GMAT
you must also do to the other side.
favorites that run
learned in high-school algebra. Being
GMAT equations can be the difference between
an
average score and an excellent one.
Solving 1-Variable Equations Equations with one variable should be familiar to you from previous encounters with algebra.
In order to solve
of the equation. In doing
-variable equations, simply isolate the variable
1
so.
make
sure
you perform
on one side
identical operations to both sides
of the equation. Here are three examples:
3.x
+
5
= 26
Subtract 5 from both sides.
Divide both sides by
3.
x=l
w = Iw 0= 16m1
1
— 1
= I6w =
w
+
3
1 1
Subtract
w
Add
both sides.
1
to
from both
Divide both sides by
sides.
16.
16
Subtract 3 from both sides.
^=2
Multiply both sides by
9.
9
p=
18
ManfiattanGMKT'Prep the
new standard
l
I
.
Chapter
1
BASIC EQUATIONS STRATEGY Simultaneous Equations; Solving by Substitution the (AIM asks \ou to solve a system of equations with more than one You might be given two equations with two variables, or three equations with variables. In either case, there are two primary ways of solving simultaneous
Sometimes \
ariable.
three
equations: by substitution, or by combination.
Solve the following for
x and y.
x+y = 9 2x = 5y + 4
l
k
es er
substitution
when-
1
Solve the
first
equation for
x.
one variable can be
x +y = 9 x = 9-y
easiK expressed in
terms of the other
2.
Substitute this solution into the second equation wherever x appears.
2x = 5y + 4 2(9
3.
-y) = Sy + 4
Solve the second equation for >>.
2(9 18
-y) = 5y + 4 5y + 4
-2y = 14
= 7y
2=y 4.
Substitute your solution for>' into the
x+y = 9 x+2 = 9 x= 7
!ManfJattanGMfiiY'Preo 14
the
new standard
first
equation in order to solve for
x.
>
BASIC EQUATIONS STRATEGY
Chapter
1
Simultaneous Equations: Solving by Combination Alternatively,
you can solve simultaneous equations by combination. to eliminate one of the variables.
In this
method,
add or subtract the two equations Solve the following for
x and y.
x+y = 9 2x = 5y + 4 1.
Line up the terms of the equations.
Use combination whenever
x+y = 9
it
is
easy to manip-
ulate the equations so
2x - 5 v = 4
that the coefficients for
one variable are the 2. If
you plan
to
add the equations, multiply one or both of the equations so
coefficient of a variable in one equation in the other equation.
If
you plan
tions so that the coefficient
is
the
OPPOSITE
in
one equation
is
SAME
or
OPPOSITE.
of that variable's coefficient
to subtract them, multiply
of a variable
that the
one or both of the equa-
the
SAME
as that variable's
coefficient in the other equation.
-2(x
+v=
9)
2x - 5 v = 4 3.
Add
—
-2x-2y=
-11
Note that the x
2x - 5y = 4
now
coefficients are
opposites.
the equations to eliminate one of the variables.
-2x-2v=-18 + 2y-5v= 4 -ly = -14 4.
Solve the resulting equation for the
unknown
variable.
-7v = -14
5.
Substitute into one of the original equations to solve for the second variable.
x+v= 9 x +2 = 9
x= l
ManfiattanGM/KT'Prep the
new standard
15
.
Chapter
1
BASIC EQUATIONS STRATEGY Simultaneous Equations: 3 Equations The procedure for solving a system of three equations with 3 variables is exactly same You can use substitution or combination. This example uses both: Solve the following for h\
x+
Solve three simultane-
1.
The
M'
=
+
m-
13
-
2h'
first
and
i
v
= 3a -
2v
.v,
the
2
= x +y
equation
is
already solved for>\
ous equations step-bystep
Keep
y=x + w
careful track
of your work
to
careless errors.
avoid
2.
Substitute for v in the second and third equations.
Substitute for v in the second equation:
Substitute for>' in the third equation:
+ w) + w = 3x - 2 2x + 2w + w = 3x-2
2{x
13 13
-x + 3w=-2 3.
Multiply the
first
- 2w = x + (x + w) — 2w = 2x + w
3w+2jc=13
of the resulting two-variable equations by (—
1)
and combine them
with addition.
x - 3w + 2x + 3w
2 13
3jc= 15
4.
Use your
Therefore, x
5
solution for x to determine solutions for the other
3w+ 2jc= 3v^ 10= 3w = w—
y=x+ w y = 5+ y=6
13
13
1
3 \
ManfiattanGM fiJ'Preo n
=
the
new standard
two
variables.
BASIC EQUATIONS STRATEGY
Chapter
1
Mismatch Problems Consider the following
you
which you might have learned in a basic algebra course: If you need 2 equations. If you are trying variables, you need 3 equations, etc. The GMAT loves to trick rule,
are trying to solve for 2 different variables,
to solve for 3 different
you by taking advantage of your
MISMATCH
faith in this easily
problems, which are particularly
of the
test,
to the
number of given
are those in
common on
rule.
the Data Sufficiency portion
which the number of unknown variables does
Do
equations.
school algebra, because
MISMATCH problems
misapplied
it is
NOT correspond
not try to apply that old rule you learned in high-
not applicable for
many
GMAT equation problems.
must be solved on a case-by-case
All
basis. Don't assume
Solve for
a:
given the following two equations:
that the
number of equations must be equal to the
3* (1)
2y It is
+
=3
number of variables.
(2)y + z =
5
2z
tempting to say that these two equations are not sufficient to solve for
are 3 variables and only 2 equations.
However, note
you
only asks you to solve for
to solve for all three variables.
First,
solve the
first
for x, in terms of y
x,
does
x, since there
NOT ask
which IS
possible:
Then, notice that the second equation gives
equation
and
It
that the question
us a value for y
z:
+ z, which we can
substitute
into the first equation in order to solve for x.
3x
x = 2(y + x = 2(5)
2y + 2z 3x = 3(2v + 2z)
x=
x = 2y + 2z x = 2(y+z)
Now
consider an example in which 2 equations with 2
sufficient to solve a
Solve for
x given
(1)
It is
z)
10
unknowns
are actually
NOT
problem:
the following two equations:
x + 12>=15
(2)
j + 4j = 5
tempting to say that these 2 equations are surely sufficient to solve for x, since there and only 2 variables. However, notice that both equations actually
are 2 equations
express the same relationship between x and
v.
That
is,
they are the same equation!
you divide the first equation by 3, you will obtain the second equation. Alternatively, if you multiply the second equation by 3, you will obtain the first equation. If
Thus,
we have
only one equation with 2 variables.
We
do
NOT have
sufficient informa-
tion to solve for x.
ManfiattanGM AT'Prep the
new standard
it
Chapter
BASIC EQUATIONS STRATEGY
1
Combo The
Problems: Manipulations GMAT often asks you to solve for a combination of variables,
problems.
or example, a question might ask, what
1
In these cases, since
generally try to
NOT try
you are not asked
Only
called
the value of x
COMBO
+ y?
one specific variable, you should
to solve for
to solve for the individual variables right
manipulate the given equation(s) so that the
the equation.
is
COMBO
away. Instead, you should is
isolated
try to solve for the individual variables .after
on one
side of
you've exhausted
all
other avenues.
There are 3 easy manipulations that are the key To soh
combo,
G for a variable
You can use
the
acronym
to solving
most
COMBO
problems.
MUD to remember them.
isolate the
combo on one the equation.
side
of
M:
Multiply or divide the whole equation by a certain number.
U:
Unsquare or square both
D:
Distribute and factor.
sides.
Here are two examples, each of which uses one or more of the manipulations above:
If x
=
7
~
J what ,
x =
is
2x + yl
1-y—
Here, getting rid of the denominator by multiplying both sides of the equation
-y Zx+y = l
2x = l
If
V2f +
r
=
\ It It 6/
5,
what
is
is
the key to isolating the
combo
3r + 6f? Here, getting rid of the square root by squaring both sides
-
of the equation
+ r = 25 + 3r - 75
the
is
the first step. Then, multiplying the
whole equation by
ManltattanGM AT"Prep 18
by 2
on one side of the equation.
new standard
3
forms the combo
in question.
BASIC EQUATIONS STRATEGY
Chapter
1
Absolute Value Equations Equations that involve absolute value generally have tant to consider this rule
The following
value.
when
thinking about
three-step
TWO SOLUTIONS.
GMAT questions that
method should be used
It is
impor-
involve absolute
for solving equations that
include a variable inside an absolute value sign.
Solve for j, given that \y\
1.
+
7
=
15.
Isolate the expression within the absolute value brackets.
LkI
+ 7=15 lvl
=
8
Absolute value equations
2.
Remove
case, case,
the absolute value brackets and solve the equation for 2 cases.
assume the variable assume the variable
is
positive.
inside the absolute value brackets
is
negative.
CASE
y=S 3.
Check
In case
1,
to see if
we
tion (since 8
each solution
set the is
Thus, both solutions are valid. condition. For example, if
y
is
then
positive,
we it
for
negative cases.
v < v=-8
2:
>
0.
The
y=
solution,
8 meets this condi-
greater than 0).
we set the following (since —8 is less than 0).
y = — 2,
must be solved
both the positive and
valid.
following condition: v
In case 2, tion
is
first
For the second
inside the absolute value brackets
CASE \:y>0
For the
we
could discard
condition:
y
set a condition that v
valid if
that
it
this condi-
violated the pre-set
and came
this solution (since, in effect,
must be -2, a statement
y = -8 meets
to a solution that
we would
be saying that
if
does not make logical sense).
Equations that involve a variable inside the absolute value brackets generally have two solutions: one for when the expression inside the brackets is positive, and one for when the expression inside the brackets
when
the solution
is
is
negative.
The exception
to this general rule is
zero.
ManfiattanGMATPrep the
new standard
14
Chapter
1
BASIC EQUATIONS STRATEGY Absolute Value Equations with Variable Expressions \ppl\ the
same
3-step
method when
there
is
a variable expression within the absolute
\alue brackets
Solve for h\ given that
12 +
|
m-
-4
|
=30.
Again, isolate the expression within the absolute value brackets and consider both cases.
1.
Don't forget
to deter-
:
\w — 4
CASE
1
mine the \ahdit\ of
u-4=
each of your
w-
to absolute
\
solution.-*
=18
1
:
w-
CASE 2: w - 4 u--4= -18
4 >
18
solution,
w=
(since 22
22,
-4=
is
18,
valid because
which
is
it
meets the preset condition
that
greater than 0.)
any relevant preset conditions.
The second solution, w = — 14, is valid because it meets w - 4 < (since — 14 - 4 = — 18, which is less than 0.)
fyianfiattanGM AT'Prep 20
the
new standard
the preset condition that
..
IN
Problem
ACTION
1.
Chapter
1
Set
For problems #1-6, solve for .
BASIC EQUATIONS PROBLEM SET
all
unknowns.
3x - 6 = x- 6, 5
2.
3.
4.
x+2
5
4+x
9
22
-|v+
14
=20
|
|6+x| =2jc+1
5.
y = 2x + 9and7x + 3y = -51
6.
3x + v + 7z = 15 and x + 2v + (-4z) =
For problems #7-10, determine whether tions.
7.
(Do
is
1
and 5x +
2_y
+
8z
possible to solve for
jc
=
19
using the given equa-
not solve.)
^- = land -^=14 4
6a 8.
it
-
3x + 2a = 8 and 9x + 6a = 24
26+x = 8and
+ 86 + 2* = 4
9.
3a +
10.
4a + lb + 9x = 17 and 3a +
12a
2>b
+ 3x =
3
and 9a +
—+4=9 4
9
For problems #11-15, solve for the specified expression.
x+ v '
1 1
Given
that
=
1
7,
what
is
x + y?
3
12.
Given
=
that
21,
what is—? b
b 13.
Given
that lO.v
14.
Given
that 5jc
5
Given
that
1
—
+ lOy = x
+y +
81,
what
+ 9y + 4 = 2x + 3y + 31,
— = 4 and x + y = 3
,
is
x +y?
what
what
is
is
x + 2y?
z?
ManfiattanGM AT'Prey the
new standard
21
I
1
IN
ACTION ANSWER KEY 1.
Chapter
BASIC EQUATIONS SOLUTIONS
1
jc=12: 3x - 6
=
,
x- 6
5
- 6 = 5(x - 6) 3x - 6 = 5x - 30 24 = 2x 3jc
Solve by multiplying both sides by 5 to eliminate the denominator. Then, distribute
and
isolate the variable
on the
left side.
\2=x
*'•* x+2
5
4+x
9
= 5(4+;c) = 20 + 5* 4x = 2
+
2)
9x+
18
9(x
x=
Cross-multiply to eliminate the denominators.
Then, distribute and solve.
— 1
2
3.
y ={-16, -12}: First, isolate the
22
-\y +
\y+
Case
14
|
brackets.
=2
v+
1:
20
14
expression
14
>
Case
j=-12
is
x=
5:
Solve
this
y + 14
Case
less than
1:
When
positive and one in
which
it
in is
which the negative.
>+ 14 = 2
4.
2:
expression within the absolute value
Then, solve for two cases, one
is
positive and one in
is
not valid, since
it
which
it
violates the condition that
—6.
6
+x
is
positive (meaning
= 2x + + x = 2x +
6 +x 6
|
5=x
1
1
x > -6)
Case
2:
When
6
+x
is
negative (meaning x
6+x= 6+x=
~(2x+ -2x -
< -6)
1) 1
3x=-7 7
not valid!
ManhattanGMPiT'Preo the
new standard
2.*
Chapter v
IN
BASIC EQUATIONS SOLUTIONS
1
-6;
ACTION ANSWER KEY
\= -3: •
7.v
b
7.v
3(2*
-
9)
-
I3v
v
6.
= 22a
-
^ =
x= -l:y = 4:z 3.v
«
Solve
this
system by substitution. Substitute the
value given for v
27= -51 13v = -78 x = -6
in the first
ond equation. Then,
equation into the sec-
distribute,
combine
and solve. Once you get a value for
back
like terms,
x, substitute
into the first equation to obtain the value
it
of y.
2(-6) + 9 = -3
=
+ v + Iz =
(2)[3x
= -51
27 = -51
Si
2:
1
5
and x + 2v + (-4z) = -1 and 5x + 2y + 8z = 19 6x + 2y+ 14z = 30 + -x - 2 v + 4z = 1 + 18z = 31 5x
+ v + 7z= 15] + 2y-4z) = -l]
(-!)[(*
First,
combine equations
by addition. Multiply them each by a
and gle
(1)
(2)
number
as
shown
sin-
to
eliminate one variable.
(-!)[*
+ 2y + (-4z)] = -l
-x - 2y + 4z = 1 5s + 2v + 8z= 19 + 12z = 20 4x
Then, combine equations (2) and (3). In this case, you can eliminate a variable by altering only one of the equations.
(4)[5x+ 18z = 31] (-5)[4jc+ 12z
->
= 20]
-»
20x + 72z = 124 + -20x-60z = -100 12z = 24 z
=
-3+y+\4= 11 +y=
4x + 24 = 20
4x= -4
x=-l
2-variable equations to isolate the variable z.
2
3x+y + 7z = 15 3(-l) + v + 7(2)=15
4x+ 12z = 20 4x+ 12(2) = 20
Then, combine the resulting
Finally, plug the
known
value for z into a 2-variable
15
equation to get the value of
15
x.
y=4
Then, plug the
known
val-
ues of z and x into any of the original equations to get the
value of y.
ManfiattanGM/KT'Prev u
the
new standard
IN
ACTION ANSWER KEY
basic equations solutions
Chapter
1
YES:
This problem contains 3 variables and 2 equations. However, this is not enough to conclude you cannot solve for*. You must check to see if you can solve by isolating a combination of variables, as shown below: 7.
that
vx = _ land ,
6a
— Ta
.
.
= 14
4
2 x = (6Ta) and Ta = 56
x = (6
We
8.
X
56)
2
can find a value for
x.
NO:
that
This problem contains 2 variables and 2 equations. However, this is not enough to conclude you can solve for*. If one equation is merely a multiple of the other one, then you will not have
unique solution for
x.
In this case, the second equation
merely
is
3 times the first.
a
Therefore, they
cannot be combined to find the value of x.
9.
YES:
This problem contains 3 variables and 2 equations. However, this is not enough to conclude you cannot solve forx. You must check to see if you can solve by eliminating all the variables but as shown below:
that x,
(4)[3a
+ 2b + x =
S]
->
\2a
+ Sb + 4x = 32
- 12a + Sb + 2x = 4 2* = 28
x=
10.
that are,
14
YES:
This problem contains 3 variables and 3 equations. However, this is not enough to conclude you can solve for x. You must check to make sure that they are 3 unique equations. In fact, they as you can see by multiplying each equation to establish a common coefficient in the x term:
(3)[3a
+ 3b + 3x =
(81)[9a
+
x
9a + 9b + 9x = 9
3]
— + — = 9]
-»
729a + 20.25Z> + 9x = 9
9 4a + 7b + 9x= 17
you could do so by systematically combining these equations to isolate indiHowever, since you are only asked to decide whether or not you could solve for v. it
If required to solve for x,
vidual variables. is
sufficient to establish that these are 3 distinct equations.
ManhattanG MAT Prep the
new standard
25
1
Chapter i
12.
BASIC EQUATIONS SOLUTIONS
1
.v
+ r-51:
-
=
v
•
v
-
l
- 17
51
v
20:
b a + b
+
= 21
1
=21
= 20
13.
*+.>'
=
9:
10x+ lOv = *+>> + 9jc
81
+ 9y = 81
x+y = 9
14x + 2>=9: 5x + 9y + 4 = 2x + 3y 3x + 6y = 27 3(x
I5.z=
+
3
+ 2y) = 27 x + 2y = 9
12:
zx
+ zv
=4
x+y =
3
z(x+y) = 36 3z = 36
z=12
fytanfiattanGM/KT'Prep 2C
the
new standard
IN
ACTION ANSWER KEY
Chapter 2 EQUATIONS, INEQUALITIES, & VIC's
EXPONENTIAL EQUATIONS
In This Chapter
.
•
Even Exponent Equations: 2 Solutions
•
Odd
•
Same Base
•
Eliminating Roots: Square Both Sides
Exponents: or
1
Solution
Same Exponent
EXPONENTIAL EQUATIONS STRATEGY
Chapter
2
EXPONENTIAL EQUATIONS The
GMAT tests more than your knowledge of basic
equations. In fact, the
complicates equations by including exponents or roots with the
unknown
GMAT
variables.
Exponential equations take various forms. Here are some examples:
There are two keys
1)
Know
covered
the
to
RULES
in the
=
21
achieving success with exponential equations:
for exponents
Number
heart. In particular,
Vx+15
f + 3=x
3 x = -125
and
roots.
You
Properties Strategy Pack.
you should review
will recall that these rules
It is
the rules for
essential to
know
were
these rules by
Even exponents are
combining exponential expressions.
dangerous! They hide the sign of the base.
2)
Remember
that
EVEN EXPONENTS
DANGEROUS
are
because they hide the sign
of the base. In general, equations with even exponents have 2 solutions.
Even Exponent Equations: 2 Solutions Recall from the rules of exponents that even exponents are dangerous in the hands of the
GMAT test writers.
Why
are they dangerous?
Even exponents hide
the sign of the base.
As
a result,
equations that involve variables with even exponents can have both a positive and a negative solution.
Exponential equations with even exponents must be carefully analyzed, because they
some examples:
often have 2 solutions. Here are
= 9
jt
Here, x has two solutions: 3 and -3.
2 a - 5 = 12
By a
Note
2
that not all equations with
2 .x
+
3
=
3
adding 5
=
17.
to
By
BE ON THE LOOKOUT
where k
is
any positive
^+9= 2
x =
integer.
we
can rewrite
this
equation as
V 17 and -V 17.
even exponents have 2 solutions. For example: subtracting 3 from both sides,
equation as x~
Also,
both sides,
Thus, a has two solutions:
for
=
0, so
we
can rewrite
x has only one solution:
even exponential equations
These equations have
in the
this
0.
form x2
+k=
,
NO REAL solutions:
Squaring can never produce a negative number!
-9
ManfiattanGMPJPrep the
new standard
29
Chapter
2
EXPONENTIAL EQUATIONS STRATEGY
(\U
Exponentsi
1
Solution
involve only odd exponents or cube roots have only
quations thai
I
Here,
125
v
has only
(— 5)(— 5)(— 5)
24 3
solution: -5.
(3)(3)(3)(3)(3)
solution:
You can
will not
see that
work with
positive 5.
solution: 3. You can see that = 243. This wULnot work with negative
Here, v has only
y
1
= -125. This
1
1
3.
[fan equation includes some variables with odd exponents and some variables with
even exponents, Rewrite exponential
treat
it
as dangerous, as
make
nents in an equation
it
it
is
likely to
have 2 solutions.
Any even expo-
dangerous.
equations mi lhe> ha\e either the the >aine
vime have or exponent
Same Base or Same Exponent In
problems
that involve exponential expressions
imperative to
REWRITE
appears on both sides of the the bases or the exponents
.
BOTH
sides of the equation,
it
is
same base or the same exponent exponential equation. Once you do this, you can eliminate
and rewrite the remainder as an equation.
Solve the following equation for w: (4
1
on
the bases so that either the
hO = 32|H>-1 ) K
Rewrite the bases so that the same base appears on both sides of the equation. Right now, the
left
side has a base of 4 and the right side has a base of 32.
Notice that both 4 and 32 can be expressed as powers of 2.
We 2.
can rewrite 4 as 2
3
' = 32" 5 )") = (2
2 M 3
((2
)
and we can rewrite 32 as 2
2
.
1
3
=
5
(2
r
1
Eliminate the identical bases, rewrite the exponents as an equation, and solve.
=
5vv
w=
-5
6vv
—
5
^ManfJattanGM/KT'Preo N
5
Simplify the equation using the rules of exponents.
((2 )")
4.
,
Plug the rewritten bases into the original equation.
(4")
3.
2
the
new standard
EXPONENTIAL EQUATIONS STRATEGY
Chapter
2
Eliminating Roots: Square Both Sides The most
effective
way
problems
to solve
bols (variable square roots)
is
to square
Solve the following equation for
Vs- -12 s
-
-12
that involve variables underneath radical
sym-
both sides of the equation.
5:
Vs -
12
=
7
==
7
Squaring both sides of the equation eliminates the radical
==
49
symbol and allows us
to solve for 5
more
easily.
5 = 61
When
Given that
V36 -
8
= Vl2-6, what
is
6?
eliminating radi-
cals,
you may some-
times need to square
V36-8 = Vl236-8= 12-6 46-8=12
both sides of the equa-
Squaring both sides of the equation eliminates both radical
symbols and allows us
to solve for
6 more
tion
more than once.
easily.
46 = 20 6
=
5
After you've solved for the variable, check that the solution works in the original equation.
Squaring both sides can actually introduce an extraneous solution.
Remember (or zero)
number
also that the written square root
symbol only works over positive numbers zero). The square root of a negative
and only yields positive numbers (or
is
not defined in the real
Vx~ =
means x = 25
5
At the same
time, there are
For equations that involve cube Solve t he
fol lowing
vy-% -27 = v -8 -3 =
-19 =
number system.
two numbers whose square
roots, solve
by cubing both
is
25: 5 and -5.
sides of the equation:
equation for y: -3 = ^s/y-S
Cubing both
sides of the equation eliminates the radical.
v
Man fiattanGM AT Prep the
new standard
ii
x
IN ACTION
Problem
EXPONENTIAL EQUATIONS PROBLEM SET
Given
that
vt +
2.
Given
that
Vm
3.
Given
that
V V2x + 23
4.
If
is
=
4
what
6,
6.
Given
that
4
V2w — =
5
what
11,
what
,
is
is
w?
x?
which of the following could be
4 (B)u 3 + u + u 5
2x+y= — 3
2
and
=
= — 125, and d1 =
= 81, x + z + (P.
.r
Given
k and
that
is /?
(C)u
9
a negative
(D)w"
13
number?
+ w 13
(E) u
3
-
v21 \7
I
Simplify:
8.
+
-u 6
5.
If x
=
8
a positive integer,
(A)w 7
7.
2
Set
1.
m
Chapter
v
4,
+
3,
what
solve for x and
is
of
the smallest possible value
4
m
v.
are positive integers and that (x )(x
8 )
=
k m (x )
and
m = k+
1,
solve for k and m.
9.
Given
that (3*)
10.
Given
that
4
=
27,
what
x + y = 13 and
kl
is
vy
For problems #11-13, given that x
is
=x—
1,
solve for the positive values of x and
an integer greater than
1,
v.
determine whether each of
the following expressions can be an integer.
n
+x^
4
+x~2
3
+x°+x 5
11.
x
12.
x
13.
x~
For problems #14 and #15, use the following information: At a shoe sale, prices are
14.
If a bill,
15.
store's fairly drastic
defined as the square root often dollars more than the original dollar price.
customer buys a pair of discounted shoes and gets change for a twenty-dollar what is the highest possible original cost of the shoes (in whole dollars)?
A salesman
sells a
shoehorn for the sale price of 80 dollars, even though
item was not supposed to have been part of the storewide store
owner
tries to
original price.
buy
it
How much
sale.
When
this
the shoe
back, the crafty purchaser holds out for twice the
of a profit does the crafty buyer make?
ManfiattanGM AT'Prep the
new standard
33
1
IN
ACTION ANSWER KEY 1.
t
+
8 = -6 8
==
36
=
28
--
t
m
x=
-
+ 4 = 2m \5 = m
to eliminate the radical.
Square both sides
to eliminate the radicals.
Then, solve for
/.
1
11
Square both sides;
2x = 4
4.
(E): If u
5.
x 126
is
this eliminates the larger radical sign
on
the left side of the equation.
Then, subtract 23 from both
sides to isolate the variable.
Square both sides again
to
eliminate the radical. Finally, divide both sides by 2 to find
x= 2
the value of x.
a positive integer, w
8
>
w
3
Therefore, u
.
J
-
w
8
(unction rulex
each term of
it>
in
place
Sn = n +
N here
The
3
mh
term of this sequence
example, the
a function
in the
term
mpia
first
term
sequence
in this
in this
2
is
+
3
defined by the rule w +
is
sequence
is
=
first
The
5.
1
+
=
3
For
3.
The second
4.
ten terms
of the
sequence are as follows:
4,5,6,7,8,9,
Qn =
n~
The
+4
/7th
term of this sequence
example, the term
10, 11, 12, 13
first
term
sequence
in this
in this
2
is
is
defined by the rule n~ +
sequence
+4 =
The
8.
1+4 =
is
first
5.
4.
For
The second
ten terms of the
sequence are as follows: 5,8, 13,20,29,40,53,68,85, 104
Defining Rules for Sequences The important thing
to
remember about sequence problems
is
that
YOU MUST be
given
RULE in order to find a particular number in a sequence. It is tempting (BUT WRONG!) to try to solve sequence problems without the RULE. For example:
the
If
It
57 =
and 58 =
5
looks like this
However,
RULE
this
what
is
( 1 )
59 ?
a sequence that counts
deduction
is
NOT
5, 6, 8, 11, 15.
by
1
's,
so
is
tempting to say that S9
The sequence might be
Without the
rule, there is
(1) If
you
some
trial
and
error.
no way
are told that the difference
(2) If
is
be
However,
at least
it
sure.
one term, you can
between successive terms x,
7.
is
where k and x are
to follow:
always the
real
numbers
equal to the difference between successive terms.
you are
terms b,
is
to
However, there are some guidelines
same, the rule will take the form of kn +
and k
we
=
were not given the
5, 6, 7, 8, 9...
information about the form of the sequence and (2)
find the rule using
told that the difference
always the same, the rule
and c are
real
numbers.
ManfiattanGM AT'Prep 58
it
mathematically valid, because
for this particular sequence.
might also be
Given
is
6,
the
new standard
between the difference between successive will take the
2 form of an + bn +
c,
where
a,
FORMULAS STRATEGY The
difference
terms
>
20
The
is
the same.
rule for this
sequence
24
is
kn
The difference
> > >
between successive
between the difference between successive terms
+ x, 38
where k-A.
28
>
Chapter 4
is
the same.
The
rule for this sequence is
an + bn +
c.
13
51
Consider the two sequences above. Many
assume
In the first sequence,
sive term
is
form An +
that
We
are told that the difference
means
the constant. This
x.
we
between each succes-
sequence must be
that the equation for this
in the
can find the value of x by using any of the terms in the sequence. For
Set
We
first
term
4(1)+*= x=
in the
sequence (n
where
between successive
12, since 4(2)
Therefore, An
has a value of 16.
1)
12
can confirm that x
x=
x,
16
=
by using another term
12
For example, the second term that
+
k equals the difference
terms.
example:
The
sequences are of
the form kn
+
12
+
12
=
in the
20.
the rule for the
is
in the sequence.
sequence (n = 2) has a value of 20. This verifies
first
sequence above.
We
can use
this
formula to
find any term in the sequence.
The second sequence is a bit more complicated. Assume that we are told that the difference between the difference of each successive term is constant. Since the difference between the difference between successive terms is the same, we can set up a system of 2 equations for this sequence using the formula an + bn + c as follows: The
first
term
in the
The second term The
We
third term in the
=
1 1
mula It is
.
has a value of 18:
+ b(l) + c = 18. + b(2) + c = 27. + 6(3) + c - 38.
a(l) a{2)
sequence (n = 3) has a value of 38:
we
can solve
this
a(3)
system of equations for the three unknowns: a = 1,6 =
Therefore, the formula for this sequence
to find
any term
in the
rr
is
+ 6n +
11.
We
can use
BOTH
(1) information about the
ence between each successive term
form kn +
6,
and
this for-
sequence.
important to remember that you can derive a rule for a sequence only
provided with
the
1)
sequence (n = 2) has a value of 27:
have three different equations with three unknowns. Using substitution or another
method, c
sequence (n =
in the
in the
form of the sequence
sequence
x") and (2) some consecutive terms
is
if
you are
(e.g. "the differ-
constant" or "the sequence takes
in the
sequence.
ManhattanG MAT Prep the
new standard
:>'»
Chapter
FORMULAS STRATEGY
4
Sequence Problems: Alternate Method I
cm
simple additive sequences,
the next term,
each number
If
in
which the same Dumber
is
added
to
each term
to yield
you can use the following alternative method:
the sixth
in a
number
is
sequence 32,
what
is
is
mure than the previous number, and number?
three
the 100th
Instead of finding the rule tor this sequence, consider the following reasoning:
From
the sixth to th*
2s2. there 1 1
a
problem \cvms
require too
is
one hundredth term, there are 94 "jumps" of
3.
Since 94
X
3
=
an increase of 2.i>
to solve
it
Sequences and Patterns Some sequences ple,
If
S„ = 3", what
is
the units digit of 565 ? ,65
Clearly,
you cannot be expected
assume
that there is a pattern in the
3 3 3 3 3 3 3
3
to multiply out 3
!
=3 =9 = 27
Note the pattern of the units
= = = =
tiple
4 5
6 7
8
81
243
729 2,187
[repeating]...
of 4,
is
Also note
to
1.
in the pattern.
1
6,561
ManfJattanGMATPrep 60
digits in the
the
new standard
Therefore, you must
powers of 3:
in the pattern.
9, 7,
1, 3,
of SIV when n
a mul-
is
You can use
the multiples of 4 as
Since 65
more than 64
closest multiple of 4), the units digit of
always follows
GMAT.
that the units digit
always equal
"anchor points"
on the
powers of three.
2 3
For exam-
are easier to look at in terms of patterns, rather than rules.
consider the following:
is
S65
1
will
be
3,
(the
which
.
ACTION
IN
Problem 1
FORMULAS PROBLEM SET
Set
Given
that
Given
that
Given
that
A* B = 4A
\f y
u
-B, what
=
the value of (3 * 2) * 3?
is
what
*—,
x+z
is
A 2 + B 2 + 2AB, what
is
A+
For problem #4, use the following information: x e.g. 3
=> 7 = 3 + 4 + 5 + 6 +
4.
What
5.
Life expectancy
the value of
is
monthly
is
( 1
00
=>
1
is
( 1
25
=>
and
is
1
,
G
G = GMAT
1)
+
(x
+
2)
...
+ y.
50)?
where S = shoe score.
is
expressed by the formula tb
4
If
.
b
is
is
B=
average
GMAT score
is
is
his shoe size?
— where w
is
the width of
is
—
the grade of rubber
spring factor for an insole that
If Elvin's
size,
what
expectancy
his life
for spring factor in a shoe insole
maximum
Cost
7.
-
50)
and
bill,
the insole in centimeters and x the
9?
if
=> y - x + (x +
defined by the formula
electric bill in dollars,
The formula
B,
7.
twice his monthly electric
6.
Chapter 4
50,
,
on a scale of
3 centimeters
1
to 9.
What
is
wide?
doubled, by what factor has the cost
increased?
(A) 2
8.
(B) 6
(D) 16
(C) 8
(E)
If the scale
model of a cube sculpture
what
volume of the model,
is
the
V*
is .5
if the
cm
per every
volume of the
1
m of the real
real sculpture
is
sculpture,
64
m3 ?
For problems #9-10, use the following information: The "competitive edge" of a baseball
—W
3
team
is
defined by the formula
sents the
9.
where
W represents the number of wins, and L repre-
number of losses.
This year, the
GMAT All-Stars
losses that they
10.
r-,
had
last year.
tripled the
By what
number of wins and halved
the
number of
factor did their "competitive edge" increase?
The "competitive edge" of the LSAT Juveniles was 256 times as high in year A as it was in year B. If the team won one quarter as many games in year B as it did in year A, what was the percentage increase from year A to year B in the number of games it lost?
ManfiattanG MAT Prep the
new standard
61
Chapter
IN
FORMULAS PROBLEM SET
4 11.
If the radius
of
> circle
circle to the area
is
tripled.
\\
of the whole new
bat
is
the ratio of the area of half the original
circle.'
For problems --12-13. use the following sequence: A„ = 3 -
12.
What
is
ACTION
8/1.
'
I
What is! -
14.
It"
each number
number 15.
If
Sn =
is
4" + 5"'
sequence
in a
46. what
'
+
is
3,
is
three
what
is
the
the previous number,
the units digit of 5 100 ?
ManhattanGM/KT'Prep 62
more than
the rule for this sequence?
new standard
and the eighth
IN
ACTION ANSWER KEY 1.
3*2:
37: First, simplify
2. 2:
Plug the numbers
corresponding 5 variable F
4(3)
-2=12-2=10.
formula
—=
x+z
3.A + B={3,-3}: A 2 + B 2 + 2AB = 9 2 (A + B) = 9 OR A + B = -3 A +B=3
4.
Then, solve 10 *
formula, matching up the
in the grid into the in the
=
4+5
ponents,
the
we
numbers from 125
First, set the
expression
by solving 1
3+4 1
+
to 150.
Since
we
in
= 40 -
3
=
37.
each section with the
2.
formula equal to
9.
Then, factor the both sides, taking
sum of all
the
numbers from 100 to 150, and the between these two com-
are finding the difference
sum of all
the
numbers from 100 between
(1
to 124.
You can
=> 5) - (3 =>
think of
5).
5 5
+2
There are 25 numbers from 100 to 124 (124 - 100 +
sum of these numbers,
find the
number
A 2 + B 2 + 2AB. Unsquare
a simpler problem: find the difference
+2 + 3+4 +
-
4(10) - 3
both the positive and negative roots into account.
are essentially finding just the
this logically
=
3:
9
2,800: This problem contains two components: the
sum of all
Chapter 4
formulas solutions
1).
Remember
multiply by the average term: (100
to
add one before you're done! To
+ 124) + 2=112. 25 X 112 =
2,800.
5.
Size 50:
2SB
Substitute IB for G in the formula. Note that the term IB appears in both the numerator and denominator, so
50
5=50
6. 6:
Determine the Let s s
=
—w
2
they cancel out.
maximum
spring factor by setting
x — 9.
spring factor
+x 3
s
7.
=
(D): Pick is 2,
by
(3)2
+
9
numbers the cost
to see
a factor of
what happens
When
is 16/.
,
b
is
to the cost
doubled
when b is doubled. If the original value of b new cost value is 256r. The cost has increased
to 4, the
or 16.
16
hat
we
negative,
the range of possible values for a?
above equation, it seems that we should simply divide both However, because we don't know whether y is positive or
the
of the inequalit\ b\
sides
is
y.
NOT ALLOWED to divide
are
both sides of the equation by
positive, then the solution to the inequality is.v
we
are di\ iding an inequality
solution x
When >ou
must
< 3.
However,
y
if
thus, the sign flips
is
negative,
and yields the
3.
multipK or
or \anable.
tlip the
Do not multiply or divide inequalities by unknowns (unless you know the sign of the unknown). What you should do instead is move all the terms to one side of the inequality and factor:
This example leads us to the following rule:
diMiie b> a negative
number
>
by a negative number;
y.
\ou
Men of the
inequality
xv
- 3v
-*
more eonstrained:
and second inequalities so
Simplify the inequalities, so that the inequalities
9
Ka
15_-
the inequality symbols point in the
same
direction.
Then,
line
up
and combine.
the
d=6
3d
numbers we have
-2 = 6-2=4.
each answer choice.
We plug
in 2 for a, 3 for b,
4 for
c,
search of our target number: 4.
d, in
Incorrect
(A) 72
72
72
72
cd
(4)(6)
24
(B)
=
144
144
144
cd
(4)(6)
24
Incorrect
3
Incorrect
(C)
a(\44-lcd) _ 2(144 -
(2)(4)(6))
_
(2)(96)
=
(
cda 144a
-led _
cd
(144)(2)-(2)(4)(6) = (4)(6)
^
CORRECT
48
(4)(6)(2)
j40-= t
n
Incorrect
24
Just as with other VIC's, be sure to test every
answer choice
to
make
sure that only one
works.
ManfiattanGM AT'Prep the
new standard
IS
.
ACTION
IN
Problem
Chapter
VIC PROBLEM SET
7
Set
Solve each problem with a tracking chart.
1
If x, y,
and z are consecutive
Maria will be x years old
(A)x-3
T pages
(A)*» v
(C)x +
old was she 9 years ago?
(E)x + 6
(D)x-21
3
how many
per minute,
(C)il
,B)i?2.
T
How
in 12 years.
(B)x-20
If Cecil reads
which of the following must be an integer?
integers,
hours will
it
him
take
A town's oldest inhabitant If the oldest inhabitant is
is
500 pages?
(E)^I
(D) 30007
500
6
607/
to read
x years older than the sum of the ages of the Yow triplets. old, how old will one of the triplets be in 20
now J years
years? ,
M
(A)
5.
K
is
7-50
(L)
(B)KG
7.
J years. how many
Mr. and Mrs. Wiley have a child every they have a child 2 years from now,
(A)^p-+1 If b
= ,
rtjvJ+x-20 (h)
(D)
is
Their oldest child
is
now T years
If
old.
children will they have in total 9
(Qy+y
(B)JT+l then what
_7-x + 60
y + x-50
G is an integer. Which of the following cannot be odd? (C)K-G (D)2K+G (E)3(/C-G)
an even number, and
(A)K+G 6.
3(7+20)
,„, (B)
(E)^y^
(D)77-l
a?
4
wm 8.
If 77
3 _ = x
(A)x2
9.
If
5^-2
- x + 30
x -5
P N =— — T M
,
then
MT
is
andx
j*+6
(D)
«±i
**5, then //is equivalent to
(E)36+6 which of the following.'
2 3 (D) x - Sx - 3x
3 (C)x -25
2
(E).r
+ .r+10
equivalent to which of the following?
NP (B)^p
The average of A, B, and g-C
(A)^
(Q
2 3 (B)x + 3x + 3x
-x-6
(A)NP 10.
mJ ^6
MN
NP (D)^
(C)^C is D. What
(B,^£
3
(C)
is
— PT 2
(E)
the average of A and
°-^
C
3
(D)
5?
°^; J * C
(E)
9
3to/ia»aftGMATPrep the
new standard
97
— Chapter
IN
VIC PROBLEM SET
7 11.
[fa
It
(A)
—
is
whal percent of 67
1
(
-|r
(l))
^-
wins 1/ dollars in a billiards tournament and
what
1
./
(E)c + 20 dollars at each of seven county
her average prize (in dollars)?
is
2£±v
v3.
then a
(B)200&
Iessic
tairs.
1
.
\i:oc
I
12
20bt
ACTION
(B)i£lZ
\
If-
=
(A)Uv-- llv+
19)
ra
»*v a>)^t£
which of the following
9,
is
(E)M
+
^
equivalent to LI
9 (B) x-
(C)
+
1
Ijc
-
(*--7Xx
-28
-4)
9
,
tracking Chait, the
tvenge Of A and B
It
n.
numbers shown is
\
lest
5
m
variable
number
A
3
B
4
(
8
D
5
the
each answer
choice to find the one thai yields the target Dumber 3.5.
H
\
ACTION ANSWER KEY 1
Avoid selecting consecu-
(
Incorrect ti\e integers to represent
A, B, and C.
3D-C
s 3(5)^8 = 7 =35
3D
-B
A
+
C
_ 3(5)
-3 -4 +
8
+
fi
C
_ 3(5) +
Incorrect
1
a = 2Qbc 120
true, as
2 = 60, a
-s-
one
the
3+4
+ 8 _ 30
for all the vari-
ables in the problem.
Incorrect
shown
is
and c
make
that
the equation
in the tracking chart to the right.
6000% of b.
that yields the target
B 2000c = 2000 x i
c
3
20
20
3
Since
Test each answer choice to find
number 6000. Incorrect
CORRECT
= 6000
(C)
Incorrect
(D)
Incorrect
2000 (E) c
2000
+ 20 =
12. (A): If
20 dollars
3
+ 20 = 23
Incorrect
Tessie wins 10 dollars in a billiards tournament and at
each of seven county
=
18.75.
fairs,
her average prize
You might recognize
this as
variable
is
choice A.
However, you can also solve the problem by testing each answer choice. +J 7-/ = .8.75 = 11.25 (A) CORRECT ;
M
(D)™
8
A/ + 7
number
M
10
J
20
Incorrect
8
./
= 30
Incorrect
7
A/ + 7J _ 150
(E)M+y
= 90 7
Incorrect
ManfiattanGM/KY'Prep 102
have
to pick different
numbers
(A) 20c = 20 x 3 = 60 i
you do
will
Incorrect
(B): Select values for a, b,
.
want
3
(E)9
1
If
D
same value. Remember, you always
_16_
3
3D + A +
and
the
3
(D)
this/fi
2
2
2
CORRECT
the
new standard
Incorrect
.
IN
ACTION ANSWER KEY
x 2 - llx + 28
L= =
3,
—4
L=
then
.
Test each answer choice to find the one that yields the target
4 (A)I(x2 -llx+19) = -^-(9-33 +
(B)
x2 + l\x- 28 (C)
9
9 (jc
+
14. (A):
Use
=
20 -—
+
4)
_
Incorrect
14
—
is
each run 100
/
Incorrect
109
to variables A, B, C,
and
D so that Kate's
greater than Amelia's rate
the equation
Kate: 100
CORRECT
_ 70
(10)(7)
Assign values
d=rt\o
—4
9
81+28
+ 28
number
Incorrect
+ 33-28
9
7)(jc
9x2
rate
19)
(x-7)(x-4) _ (-4X-1) _ 4
(D)
7
-"* + 28 =9
*2 13. (C):
If x
Chapter
VIC SOLUTIONS
calculate
how
fast
Kate and Amelia will
feet.
= 5t = 20s
Amelia: 100 t
= 4/ = 25
variable
number
A B
10
C
12
D
3
2
s
Kate will beat Amelia by 5 seconds. Test each answer choice
to find the
one
that yields the target
number of 5.
(A)
(B)
(C)
(D)
100(AD-BC)_ 100(30-24)
AC
_
\00BC-\00DA _ 2400 - 3000
AC 20 - 36
100
100
100
Incorrect
120
AB -CD
AD-CB
CORRECT
120
=
30-24 =
-.16
Incorrect
.06
Incorrect
100
ManfiattanGMAiT'Prep the
new standard
103
Chapter
IN
VIC SOLUTIONS
7 \l:
1
irst.
Pick numbers
assign
DUmben
that translate
to represent A. ).
and
/.
variable
easih into percent*.
KHofZ- 50% of 100 -50 10% of 50
/ Decreasing
10O(10)(50)(100)-(10)(2500)(100)
1.000.000
(B)
A?-)' _
XZ-Y
(10)(100)
-50 _
100
number
=
2.5
2.5
CORRECT
9
Incorrect
.095
Incorrect
10.000
XYZ-2Y
_ (10)(50)(100) -2(50) _
100
100
XYZ-2Y
= (10)(50)(100)-2(50) =
10.000
10.000
Incorrect
QQ
Incorrect
^
m
ManfiattanGM AT'Preo 104
/
1.000.000
_ (10)(100)-50
10.000
E)
50
100
100 (C)
10
}
2.5.
Ji answer ehoiee to find the one that \ields the target
lOOATZ-AI-Z _
n u in her
A
5
Y%, or h> 50%, yields
this result b>
ACTION ANSWER KEY
the
new standard
1
Chapter 8 EQUATIONS, INEQUALITIES, &
VIC's
STRATEGIES FOR DATA SUFFICIENCY
In This Chapter
Rephrasing:
Mil)
.
.
.
Manipulations
Sample Rephrasings
for
Challenging Problems
DATA SUFFICIENCY STRATEGY
Chapter 8
MUD Manipulations
Rephrasing:
Data sufficiency problems that involve algebraic equations and inequalities can usually be solved through algebraic manipulations, such as the ones strategy guide. ers,
you
will
some
In
need
to
cases,
you
will
we have covered
in this
need to manipulate the original question;
in oth-
manipulate the statements. Sometimes, you will need to manipu-
late both.
Remember,
the major manipulations include:
Multiplication and division by
some number
Unsquaring and squaring Distributing and factoring
You can also consider combination and substitution as manipulations for combining two or more equations. Likewise, combining inequalities is also a manipulation. When you
Remember
the three
MUD manipulations.
use manipulations to rephrase, you will often uncover very simple questions that have
been disguised by the
GMAT writers to
look complicated.
lsp>q? (1) (2)
-3p < -3q p - r >q-
r
ALONE is sufficient, but statement (2) alone is not sufficient. alone is not sufficient. ALONE is sufficient, but statement BOTH statements TOGETHER are sufficient, but NEITHER statement ALONE is sufficient. EACH statement ALONE is sufficient. Statements and (2) together are NOT sufficient.
A
Statement
B
( 1 )
Statement (2)
C
D E
( 1 )
( 1 )
You can
rephrase both statements by performing simple manipulations.
Rephrase statement (1) by dividing both sides by —3. The result isp > must switch the direction of an inequality when multiplying or dividing
q, since it
by
you
a negative
number.
Rephrase statement
Now
this
question
(2)
is
by adding
simply:
r to both sides.
Is
The
result
is
p
>
q.
p>q?
(D/>> H (2)p>q Clearly, either statement
is
sufficient to
answer the question, since the rephrased stateto this data sufficiency problem is (D):
ments exactly match the question. The answer
EACH
statement
ALONE
is sufficient.
ManfiattanGM/KT' Prep the
new standard
107
DATA SUFFICIENCY STRATEGY
Chapter 8
Sometimes, rephrasing but
ma\
Consider
As you cated.
Mon
ncc
j
oomph
\anable cxpre-.-
in j
data >uftkien-
itself!
infonnation that you need to answer the question.
to the
example:
this
\\ hat
When \ou
statement ma) not uncover the answer to the question
i
you closer
gel
the \alue of r +
is
(1)
rs
(2)
s
—
—
ut = 8 +
rr
//?
- us
= 6
t
mind the variable or variable combo you are seeking how you manipulate equations and inequalities. In order we will need to isolate r + uon one variable combo r *
rephrase, always keep in
This can help guide
isolate
determine the \alue of the
to to
//.
side of an equation.
c> problem, look, tor
MJM
to
manipulate
it
Manipulate statement
mon
by moving
1 )
(
all
com-
the variables to one side and factoring out
terms.
— rt + r{s - /)
= 8 /) = 8
ut
-
u(s
-i-
r
-
us
rs
S
+u v
-
t
We
have manipulated statement (1) so that r + u is isolated. Although we still do not have a value for r + u, the information uncovered by this manipulation becomes important
On r
+
once
we
look
statement
at
its
own, statement
u.
It
simply
tells
(2)
is
insufficient because
us that s
However, when we look
at
(2).
-
t
=
it
tells
us nothing about the value of
6.
both statements together,
we
can plug the value of 5
vided by statement (2) into our rephrased statement (1) to get a value for r +
r
s
-
t
to this data sufficiency
sufficient, but
NEITHER
statement
ManfiattanG MAT Prep 108
pro-
8
+u=
The answer
t
u.
the
new standard
BOTH
problem
is
(C):
ALONE
is
sufficient.
statements
TOGETHER
are
DATA SUFFICIENCY STRATEGY
Chapter 8
Consider the following problem which involves manipulating the statements and then numbers.
testing
If
ab =
8, is
a greater than b?
(1)
-3b > -18
(2)
lb
>
8
First rephrase statement (1)
you divide both
If
by manipulating
sides of the inequality in statement (1)
forget to flip the direction of the inequality
You can
test
whether a
is
the inequality
numbers
to see
when
—36 > — 18.
by -3, you get b