Given the ascending set of positive integers { a, b, c, d, e, f}, is the median greater than the mean?
(1) a + e = (3/4)( c + d)
(2) b + f = (4/3)( c + d)
OAC
Target Test Prep is 20% off right now!
Use code FLASH20
Available with Beat the GMAT members only code
MORE DETAILS
{ a, b, c, d, e, f}, is the median greater than the mean?
This topic has expert replies
-
GMATGuruNY
- GMAT Instructor
- Posts: 15539
- Joined: Tue May 25, 2010 12:04 pm
- Location: New York, NY
- Thanked: 13060 times
- Followed by:1906 members
- GMAT Score:790
median = (c+d)/2.rsarashi wrote:Given the ascending set of positive integers { a, b, c, d, e, f}, is the median greater than the mean?
(1) a + e = (3/4)( c + d)
(2) b + f = (4/3)( c + d)
mean = (a+b+c+d+e+f)/6.
Question stem, rephrased:
Is (c+d)/2 > (a+b+c+d+e+f)/6?
(c+d)/2 > (a+b+c+d+e+f)/6
3(c+d) > a+b+c+d+e+f
3c+3d > a+b+c+d+e+f
2c+2d > a+b+e+f
c+d > (1/2)(a+b+e+f).
Questions stem, rephrased again:
Is c+d > (1/2)(a+b+e+f)?
Statement 1:
No information about b+f,
INSUFFICIENT.
Statement 2:
No information about a+e.
INSUFFICIENT.
Statements combined:
Adding together a + e = (3/4)(c + d) and b + f = (4/3)(c + d), we get:
(a+e) + (b+f) = (3/4)(c+d) + 4/3(c+d)
a+b+e+f = (3/4 + 4/3)(c+d)
a+b+e+f = (25/12)(c+d)
c+d = (12/25)(a+b+e+f).
c+d = (less than 1/2)(a+b+e+f).
Thus, it is NOT true that c+d > (1/2)(a+b+e+f), with the result that the answer to the question stem is NO.
SUFFICIENT.
The correct answer is C.
Private tutor exclusively for the GMAT and GRE, with over 20 years of experience.
Followed here and elsewhere by over 1900 test-takers.
I have worked with students based in the US, Australia, Taiwan, China, Tajikistan, Kuwait, Saudi Arabia -- a long list of countries.
My students have been admitted to HBS, CBS, Tuck, Yale, Stern, Fuqua -- a long list of top programs.
As a tutor, I don't simply teach you how I would approach problems.
I unlock the best way for YOU to solve problems.
For more information, please email me (Mitch Hunt) at [email protected].
Student Review #1
Student Review #2
Student Review #3
Followed here and elsewhere by over 1900 test-takers.
I have worked with students based in the US, Australia, Taiwan, China, Tajikistan, Kuwait, Saudi Arabia -- a long list of countries.
My students have been admitted to HBS, CBS, Tuck, Yale, Stern, Fuqua -- a long list of top programs.
As a tutor, I don't simply teach you how I would approach problems.
I unlock the best way for YOU to solve problems.
For more information, please email me (Mitch Hunt) at [email protected].
Student Review #1
Student Review #2
Student Review #3
GMAT/MBA Expert
-
[email protected]
- Elite Legendary Member
- Posts: 10392
- Joined: Sun Jun 23, 2013 6:38 pm
- Location: Palo Alto, CA
- Thanked: 2867 times
- Followed by:511 members
- GMAT Score:800
Hi rsarashi,
This is a layered question, but it can be solved with a mix of TESTing VALUES and Algebra.
We're told that the variables A, B, C, D, E, and F are ASCENDING POSITIVE INTEGERS (meaning that they are unique, A is smallest, F is largest, etc.). We're asked if the MEDIAN is greater than the MEAN. This is a YES/NO question.
1) A+E = (3/4)(C+D)
Without information about B and F, your instinct is probably to call this insufficient. We can prove it rather easily though. From this equation, since all of the variables are INTEGERS, we know that A+E must sum to an integer. By extension, (C+D) will have to be a multiple of 4.
IF....
C+D = 12, we could have...
A=1
B=2
C=5
D=7
E=8
F=9 or higher
MEDIAN = (5+7)/2 = 6
MEAN = 32/6 = 5 1/3 OR HIGHER (depending on the value of F)
Thus, the median may or may not be greater than the mean (again, depending on the value of F)
Fact 1 is INSUFFICIENT
2) B+F = (4/3)(C+D)
Here, we have a similar situation to what we had in Fact 1, but here we do not know much about the values of A and E. Here, I'm going to TEST much larger values so that we can see the potential 'swings' in the MEAN...
IF....
C+D = 120, we could have...
A=1-48
B=49
C=50
D=70
E=71 - 110
F=111
MEDIAN = (50+70)/2 = 60
MEAN = 352/6 - 438/6 = A little less than 60 to a little more than 70.
Thus, the median may or may not be greater than the mean (again, depending on the values of A and E)
Fact 2 is INSUFFICIENT
Combined, there's actually an interesting algebra pattern that we can take advantage of. The sum of ALL of the variables can be put in terms of (C+D)....
A+E = (3/4)(C+D)
C+D = (C+D)
B+F = (4/3)(C+D)
Thus, A+B+C+D+E+F = (3/4 + 1 + 4/3)(C+D)
Sum = (9/12 + 12/12 + 16/12)(C+D)
Sum = (37/12)(C+D)
The MEAN of those 6 terms = (37/12)(C+D)/6 = (37/72)(C+D)
The MEDIAN of those 6 terms = (C+D)/2 = (1/2)(C+D) = (36/72)(C+D)
Comparing the median and the mean now, we can see that the median will ALWAYS be less than the mean. Thus, the answer to the question is ALWAYS NO.
Combined, SUFFICIENT.
Final Answer: C
GMAT assassins aren't born, they're made,
Rich
This is a layered question, but it can be solved with a mix of TESTing VALUES and Algebra.
We're told that the variables A, B, C, D, E, and F are ASCENDING POSITIVE INTEGERS (meaning that they are unique, A is smallest, F is largest, etc.). We're asked if the MEDIAN is greater than the MEAN. This is a YES/NO question.
1) A+E = (3/4)(C+D)
Without information about B and F, your instinct is probably to call this insufficient. We can prove it rather easily though. From this equation, since all of the variables are INTEGERS, we know that A+E must sum to an integer. By extension, (C+D) will have to be a multiple of 4.
IF....
C+D = 12, we could have...
A=1
B=2
C=5
D=7
E=8
F=9 or higher
MEDIAN = (5+7)/2 = 6
MEAN = 32/6 = 5 1/3 OR HIGHER (depending on the value of F)
Thus, the median may or may not be greater than the mean (again, depending on the value of F)
Fact 1 is INSUFFICIENT
2) B+F = (4/3)(C+D)
Here, we have a similar situation to what we had in Fact 1, but here we do not know much about the values of A and E. Here, I'm going to TEST much larger values so that we can see the potential 'swings' in the MEAN...
IF....
C+D = 120, we could have...
A=1-48
B=49
C=50
D=70
E=71 - 110
F=111
MEDIAN = (50+70)/2 = 60
MEAN = 352/6 - 438/6 = A little less than 60 to a little more than 70.
Thus, the median may or may not be greater than the mean (again, depending on the values of A and E)
Fact 2 is INSUFFICIENT
Combined, there's actually an interesting algebra pattern that we can take advantage of. The sum of ALL of the variables can be put in terms of (C+D)....
A+E = (3/4)(C+D)
C+D = (C+D)
B+F = (4/3)(C+D)
Thus, A+B+C+D+E+F = (3/4 + 1 + 4/3)(C+D)
Sum = (9/12 + 12/12 + 16/12)(C+D)
Sum = (37/12)(C+D)
The MEAN of those 6 terms = (37/12)(C+D)/6 = (37/72)(C+D)
The MEDIAN of those 6 terms = (C+D)/2 = (1/2)(C+D) = (36/72)(C+D)
Comparing the median and the mean now, we can see that the median will ALWAYS be less than the mean. Thus, the answer to the question is ALWAYS NO.
Combined, SUFFICIENT.
Final Answer: C
GMAT assassins aren't born, they're made,
Rich
GMAT/MBA Expert
-
Jay@ManhattanReview
- GMAT Instructor
- Posts: 3008
- Joined: Mon Aug 22, 2016 6:19 am
- Location: Grand Central / New York
- Thanked: 470 times
- Followed by:34 members
We see that each statement by itself is not sufficient. While statement 1 does not tell anything about b and f, statement 2 does not tell anything about a and e.rsarashi wrote:Given the ascending set of positive integers { a, b, c, d, e, f}, is the median greater than the mean?
(1) a + e = (3/4)( c + d)
(2) b + f = (4/3)( c + d)
OAC
Let's combine both the statements.
We know that
Mean = Sum of {a, b, c, d, e, f} divided by 6 = (a+b+c+d+e+f)/6 and
Median = Mean of the middle-most values = (c+d)/2
Adding both the statements, we get
a+f+b+e = (3/4 + 4/3) (c+d)
Adding (c+d) both the side, we get
a+b+c+d+e+f = (3/4 + 4/3 + 1) (c+d)
Sum of all the six numbers = 37/12 (c+d)
Diving both the sides by 6, we get
Sum of all the six numbers/6 = [37/12]*[(c+d)/6]
Mean = [37/36]*[(c+d)/2]
Mean = 37/36*Median
=> Mean > Median. Sufficient.
The correct answer: C
Hope this helps!
Relevant book: Manhattan Review GMAT Data Sufficiency Guide
-Jay
_________________
Manhattan Review GMAT Prep
Locations: Almaty | Minsk | Aarhus | Vilnius | and many more...
Schedule your free consultation with an experienced GMAT Prep Advisor! Click here.
