Alternate solution
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- prachi18oct
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I solved as below:
Sibling groups: ABC, DE and FG
Total ways of choosing 2 = 7C2 = 21
Ways of not choosing sibling = 3C1 * 2C1 * 2C1 (1 out of 3 sibling group and then among other 2 groups 1 ( 2 options for 2 sibling group) + 2C1 * 2C1( 1 each from 2 sibling group) = 12+ 4 = 16
Answr 16/21
Please correct me if I got it in an incorrect way.
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Let's say that the 7 people are ABCDEFG.In a room filled with 7 people, 4 people have exactly 1 sibling in the room and 3 people have exactly 2 siblings in the room. If two individuals are selected from the room at random, what is the probability that those two individuals are NOT siblings?
5/21
3/7
4/7
5/7
16/21
4 people have exactly 1 sibling:
Let's say that A and B are siblings and that C and D are siblings.
This means:
A has 1 sibling (B).
B has 1 sibling (A).
C has 1 sibling (D).
D has 1 sibling (C).
3 people have exactly 2 siblings:
Let's say that E, F and G are all siblings of each other.
This means:
E has 2 siblings (F and G).
F has 2 siblings (E and G).
G has 2 siblings (E and F).
Total number of sibling pairs = 5: AB, CD, EF, EG, FG.
Total number of pairs that can be formed from 7 people: 7C2 = 21.
P(sibling pair) = 5/21
P(not sibling pair) = 1 - 5/21 = 16/21.
The correct answer is E.
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- Brent@GMATPrepNow
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First we need to recognize that the given information tells us that the 7 people consist of:In a room filled with 7 people, 4 people have exactly 1 sibling in the room and 3 people have exactly 2 siblings in the room. If two individuals are selected from the room at random, what is the probability that those two individuals are NOT siblings?
A) 5/21
B) 3/7
C) 4/7
D) 5/7
E) 16/21
- a sibling trio
- a sibling pair
- and another sibling pair
For this question, it's easier to find the complement.
So P(not siblings) = 1 - P(they are siblings)
P(they are siblings) = [# of ways to select 2 siblings] / [total # of ways to select 2 people]
# of ways to select 2 siblings
Case a) 2 siblings from the sibling trio: from these 3 siblings, we can select 2 siblings in 3C2 ways (3 ways)
Case b) 2 siblings from first sibling pair: we can select 2 siblings in 2C2 ways (1 way)
Case c) 2 siblings from second sibling pair: we can select 2 siblings in 2C2 ways (1 way)
So, total number of ways to select 2 siblings = 3+1+1 = 5
total # of ways to select 2 people
We have 7 people and we want to select 2 of them
We can accomplish this in 7C2 ways (21 ways)
So, P(they are siblings) = 5/21
This means P(not siblings) = 1 - 5/21
= [spoiler]16/21[/spoiler]
= E
Cheers,
Brent
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Hi Nijo,
Brent's approach focuses on the use of the Combination Formula, which is probably the most "elegant" way to solve this problem. There are other ways to solve this problem though, if you're not yet comfortable with doing that type of math. Here's an option that focuses on straight "probability math"....
The first step is to organize the 7 people into family-groups:
4 people have exactly 1 sibling. We'll call those people:
A1, A2
B1, B2
A1 and A2 are siblings, etc.
3 people have exactly 2 siblings. We'll call them:
C1, C2 and C3
We're going to select 2 people from the room; what is the probability that they are NOT siblings.
Probability = (# of ways you want something to happen)/(# of total possibilities)
The total number of possibilities = (7)(6) = 42
Now let's figure out the ways that give us 2 non-siblings:
If the first person selected is:
A1, then there are 5 non-sibling options
A2, then there are 5 non-sibling options
B1, then there are 5 non-sibling options
B2, then there are 5 non-sibling options
C1, then there are 4 non-sibling options
C2, then there are 4 non-sibling options
C3, then there are 4 non-sibling options
The total number of 2 non-sibling options is 5+5+5+5+4+4+4 = 32
The probability is 32/42 = 16/21
Final Answer: E
GMAT assassins aren't born, they're made,
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Brent's approach focuses on the use of the Combination Formula, which is probably the most "elegant" way to solve this problem. There are other ways to solve this problem though, if you're not yet comfortable with doing that type of math. Here's an option that focuses on straight "probability math"....
The first step is to organize the 7 people into family-groups:
4 people have exactly 1 sibling. We'll call those people:
A1, A2
B1, B2
A1 and A2 are siblings, etc.
3 people have exactly 2 siblings. We'll call them:
C1, C2 and C3
We're going to select 2 people from the room; what is the probability that they are NOT siblings.
Probability = (# of ways you want something to happen)/(# of total possibilities)
The total number of possibilities = (7)(6) = 42
Now let's figure out the ways that give us 2 non-siblings:
If the first person selected is:
A1, then there are 5 non-sibling options
A2, then there are 5 non-sibling options
B1, then there are 5 non-sibling options
B2, then there are 5 non-sibling options
C1, then there are 4 non-sibling options
C2, then there are 4 non-sibling options
C3, then there are 4 non-sibling options
The total number of 2 non-sibling options is 5+5+5+5+4+4+4 = 32
The probability is 32/42 = 16/21
Final Answer: E
GMAT assassins aren't born, they're made,
Rich
- prachi18oct
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Hi All,
Thanks for the detailed explanations. Also, I would like to know if my way of counting the favorable outcomes was equally correct .
Please advise.
Thanks for the detailed explanations. Also, I would like to know if my way of counting the favorable outcomes was equally correct .
Please advise.
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Hi prachi18oct,
Your concepts are correct, but you got a little 'lucky' with this calculation:
3C1 * 2C1 * 2C1
Taken literally, this is a calculation to select 3 people (one from each 'family')
Your calculation is actually meant to be....
From group ABC and group DE: 3C1 * 2C1 = 6
From group ABC and group FG: 3C1 * 2C1 = 6
The other calculation (from group DE and group FG) was correct though
Luckily, the net result was the same. With different starting numbers, your original calculation would not have been correct though.
GMAT assassins aren't born, they're made,
Rich
Your concepts are correct, but you got a little 'lucky' with this calculation:
3C1 * 2C1 * 2C1
Taken literally, this is a calculation to select 3 people (one from each 'family')
Your calculation is actually meant to be....
From group ABC and group DE: 3C1 * 2C1 = 6
From group ABC and group FG: 3C1 * 2C1 = 6
The other calculation (from group DE and group FG) was correct though
Luckily, the net result was the same. With different starting numbers, your original calculation would not have been correct though.
GMAT assassins aren't born, they're made,
Rich