A certain bag of gemstones is composed of two-thirds diamonds and one-third rubies. If the probability of randomly selecting two diamonds from the bag, without replacement, is 5/12, what is the probability of selecting two rubies from the bag, without replacement?
(A) 5/36
(B) 5/24
(C) 1/12
(D) 1/6
(E) 1/4
The OA is C.
I'm really confused with this DS question. Please, can any expert assist me with it? Thanks in advanced.
A certain bag of gemstones is composed of two-thirds...
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We're told that there are twice as many diamonds as rubies in this bag, so let's designate the number of diamonds as '2x' and the number of rubies as 'x,' giving us a total of 3x.LUANDATO wrote:A certain bag of gemstones is composed of two-thirds diamonds and one-third rubies. If the probability of randomly selecting two diamonds from the bag, without replacement, is 5/12, what is the probability of selecting two rubies from the bag, without replacement?
(A) 5/36
(B) 5/24
(C) 1/12
(D) 1/6
(E) 1/4
The OA is C.
I'm really confused with this DS question. Please, can any expert assist me with it? Thanks in advanced.
Probability that the first pick is a diamond = # diamonds/# tot gems = 2x/3x
Probability that the second pick is also a diamond given that the first pick was a diamond = (2x -1)/(3x -1)
Probability that the two picks are diamonds = (2x/3x) * (2x -1)/(3x -1) = 5/12
(2/3) * (2x -1)/(3x -1) = 5/12
(4x - 2)/(9x -3) = 5/12
48x -24 = 45x - 15
3x = 9
x = 3
So we've got 2x = 2*3 = 6 diamonds, x = 3 rubies and 9 total gems.
We want the probability of selecting two rubies.
Probability that first pick is a ruby = 3/9
Probability that second pick is a ruby given that first pick was a ruby = 2/8
Probability that both picks are rubies = (3/9)(2/8) = 6/72 = 1/12. The answer is C
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Note that you could also skip the algebra and just play with scenarios. If we know that there are twice as many diamonds as rubies, we can try:DavidG@VeritasPrep wrote:We're told that there are twice as many diamonds as rubies in this bag, so let's designate the number of diamonds as '2x' and the number of rubies as 'x,' giving us a total of 3x.LUANDATO wrote:A certain bag of gemstones is composed of two-thirds diamonds and one-third rubies. If the probability of randomly selecting two diamonds from the bag, without replacement, is 5/12, what is the probability of selecting two rubies from the bag, without replacement?
(A) 5/36
(B) 5/24
(C) 1/12
(D) 1/6
(E) 1/4
The OA is C.
I'm really confused with this DS question. Please, can any expert assist me with it? Thanks in advanced.
Probability that the first pick is a diamond = # diamonds/# tot gems = 2x/3x
Probability that the second pick is also a diamond given that the first pick was a diamond = (2x -1)/(3x -1)
Probability that the two picks are diamonds = (2x/3x) * (2x -1)/(3x -1) = 5/12
(2/3) * (2x -1)/(3x -1) = 5/12
(4x - 2)/(9x -3) = 5/12
48x -24 = 45x - 15
3x = 9
x = 3
So we've got 2x = 2*3 = 6 diamonds, x = 3 rubies and 9 total gems.
We want the probability of selecting two rubies.
Probability that first pick is a ruby = 3/9
Probability that second pick is a ruby given that first pick was a ruby = 2/8
Probability that both picks are rubies = (3/9)(2/8) = 6/72 = 1/12. The answer is C
Scenario One: 2 diamonds and 1 ruby. P(selecting two diamonds) = (2/3)(1/2) = 2/6 --> not 5/12
Scenario Two: 4 diamonds and 2 rubies. P(selecting two diamonds) = (4/6)(3/5) = 12/30 --> not 5/12
Scenario Three: 6 diamonds and 3 rubies. P(selecting two diamonds) = (6/9)(5/8) = 30/72 = 5/12. Perfect! So we know there are 6 diamonds and 3 rubies.
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BTGmoderatorLU wrote:A certain bag of gemstones is composed of two-thirds diamonds and one-third rubies. If the probability of randomly selecting two diamonds from the bag, without replacement, is 5/12, what is the probability of selecting two rubies from the bag, without replacement?
(A) 5/36
(B) 5/24
(C) 1/12
(D) 1/6
(E) 1/4
The OA is C.
I'm really confused with this DS question. Please, can any expert assist me with it? Thanks in advanced.
We are given that the bag contains two-thirds diamonds and one-third rubies. We are also given that the probability of randomly selecting two diamonds from the bag, without replacement, is 5/12.
Let's represent the number of rubies in the bag by x. Since the number of diamonds is twice the number of rubies, the number of diamonds in the bag will be 2x.
The probability of choosing two diamonds from the bag, without replacement, can be represented in terms of x by (2x/3x)((2x - 1)/(3x - 1)).
We are also given that this probability is equal to 5/12. Thus:
(2x/3x)((2x - 1)/(3x - 1)) = 5/12
Since we know the bag is not empty, x must be non-zero; therefore, we can cancel the x's in the first fraction:
(2/3)((2x - 1)/(3x - 1)) = 5/12
(4x - 2)/(9x - 3) = 5/12
Cross multiply to obtain:
48x - 24 = 45x - 15
3x = 9
x = 3
Thus, there are 6 diamonds and 3 rubies in the bag. Now, the probability of choosing two rubies from the bag, without replacement, can be calculated to be (3/9)(2/8) = (1/3)(1/4) = 1/12.
Alternate Solution:
We can let T = the total number of gems, (2/3)T = the number of diamonds, and (1/3)T = the number of rubies.
Since the probability of randomly selecting two diamonds from the bag, without replacement, is 5/12, we can create the following equation:
[(2/3)T/T] x [((2/3)T - 1)/(T - 1)] = 5/12
(2/3) x ((2/3)T - 1)/(T - 1) = 5/12
((2/3)T - 1)/(T - 1) = 5/8
Cross multiplying, we have:
(16/3)T - 8 = 5T - 5
16T - 24 = 15T - 15
T = 9
We know that there are twice as many diamonds as rubies. Thus, there are 6 diamonds and 3 rubies, so the probability of selecting two rubies from the bag is:
3/9 x 2/8 = 1/3 x 1/4 = 1/12
Answer: C
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