A couple decides to have $4$ children. If they succeed in having $4$ children and each child is equally likely to be

Source: Official Guide

A couple decides to have $4$ children. If they succeed in having $4$ children and each child is equally likely to be a boy or a girl, what is the probability that they will have $2$ girls and $2$ boys?

A. $3/8$
B. $1/4$
C. $3/16$
D. $1/8$
E. $1/16$

The OA is A

Quote

GMATJourneyman: Junior | Next Rank: 30 Posts; Posts: 16; Joined: Wed May 24, 2023 7:40 am

Re: A couple decides to have $4$ children. If they succeed in having $4$ children and each child is equally likely t

by GMATJourneyman » Wed May 24, 2023 8:09 am

BTGmoderatorLU wrote: ↑
Fri May 19, 2023 11:16 am
Source: Official Guide

A couple decides to have $4$ children. If they succeed in having $4$ children and each child is equally likely to be a boy or a girl, what is the probability that they will have $2$ girls and $2$ boys?

A. $3/8$
B. $1/4$
C. $3/16$
D. $1/8$
E. $1/16$

The OA is A

The total number of outcomes when having 4 children, each of which can be a boy or a girl, is $2^4 = 16$.

Among these outcomes, we are interested in the ones with exactly 2 boys and 2 girls. The number of such outcomes can be obtained using the combination formula ${{n}\choose{k}} = \frac{n!}{k!(n-k)!}$, where $n$ is the total number of trials (children, in this case), $k$ is the number of successful outcomes we are interested in (girls or boys), and $!$ denotes factorial.

So the number of ways to have 2 boys and 2 girls out of 4 children is ${{4}\choose{2}} = \frac{4!}{2!(4-2)!} = 6$.

Thus, the probability is $\frac{6}{16} = \frac{3}{8}$.

So, the answer is A. $\frac{3}{8}$

Not sure that's the most efficient approach, but that's what I did.

Last edited by GMATJourneyman on Wed May 24, 2023 8:14 am, edited 1 time in total.

Quote

GMAT/MBA Expert

Brent@GMATPrepNow: GMAT Instructor; Posts: 16207; Joined: Mon Dec 08, 2008 6:26 pm; Location: Vancouver, BC; Thanked: 5254 times; Followed by:1268 members; GMAT Score:770

Re: A couple decides to have $4$ children. If they succeed in having $4$ children and each child is equally likely t

by Brent@GMATPrepNow » Fri May 26, 2023 5:52 pm

BTGmoderatorLU wrote: ↑
Fri May 19, 2023 11:16 am
Source: Official Guide

A couple decides to have $4$ children. If they succeed in having $4$ children and each child is equally likely to be a boy or a girl, what is the probability that they will have $2$ girls and $2$ boys?

A. $3/8$
B. $1/4$
C. $3/16$
D. $1/8$
E. $1/16$

The OA is A

We can solve this question using counting methods.
P(exactly 2 girls and 2 boys) = (number of 4-baby outcomes with exactly 2 girls and 2 boys)/(TOTAL number of 4-baby outcomes)

As always, we'll begin with the denominator.

TOTAL number of 4-baby arrangements
There are 2 ways to have the first baby (boy or girl)
There are 2 ways to have the second baby (boy or girl)
There are 2 ways to have the third baby (boy or girl)
There are 2 ways to have the fourth baby (boy or girl)
By the Fundamental Counting Principle (FCP), the total number of 4-baby arrangements = (2)(2)(2)(2) = 16

Number of 4-baby outcomes with exactly 2 girls and 2 boys
This portion of the question boils down to "In how many different ways can we arrange 2 G's and 2 B's (where each G represents a girl, and each B represents a boy)?"

----------ASIDE-------------------------
When we want to arrange a group of items in which some of the items are identical, we can use something called the MISSISSIPPI rule. It goes like this:

If there are n objects where A of them are alike, another B of them are alike, another C of them are alike, and so on, then the total number of possible arrangements = n!/[(A!)(B!)(C!)....]

So, for example, we can calculate the number of arrangements of the letters in MISSISSIPPI as follows:
There are 11 letters in total
There are 4 identical I's
There are 4 identical S's
There are 2 identical P's
So, the total number of possible arrangements = 11!/[(4!)(4!)(2!)]
------------BACK TO THE QUESTION---------------------------

Our goal is to arrange the letters G, G, B, and B
There are 4 letters in total
There are 2 identical G's
There are 2 identical B's
So, the total number of possible arrangements = 4!/[(2!)(2!)] = 6

So.....
P(exactly 2 girls and 2 boys) = 6/16 = 3/8

Answer: A

Brent Hanneson - Creator of GMATPrepNow.com

Quote

Post new topic Post Reply

• Page 1 of 1

5/5

5 Star (473 Reviews)

"Target Test Prep is the closest to the official version of the GMAT exam, about 99% accuracy in terms of the quality and quantity of information. The course has excellently created singular sets of focused lessons and tests for every possible topic that one could come across in the official GMAT exam."

"The TTP course maximizes the efficiency of the time you spend studying. It will take time and effort but I could almost guarantee that if you complete the course exactly as it is laid out you will get an amazing score. They also have a very responsive team willing to help with any questions you might have."

"TTP has two things that I think no other test prep company offers: A teaching approach that reinforces understanding and an attitude that will give you the mental preparedness needed to succeed on the test. TTP gives you a deep understanding of the concept you need to know while teaching you how to think."

Write a Review

FREE GMAT PREP RESOURCES

GMAT PREP DEAL TRACKER

ONLY $85
EMPOWERgmat + Free GMAT Exams
SAVE $300
Magoosh GMAT Courses
ONLY $99
GMAT Prep Now 6-Month Access Plan
$150 OFF
Target Test Prep Study Plans
50% OFF
e-GMAT Courses
SAVE $75
Manhattan GMAT Courses and Services1
100% OFF
Bloomberg GMAT Tutor