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yach
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The probability that Mike can win is 1/4, Rob winning is 18 Apr 2006, 12:58
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The probability that Mike can win is 1/4, Rob winning is 1/3, Ben winning is 1/6. What is the probability that mike or rob will win but NOT Ben.

1/6
5/12
7/12
5/6
1



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kapslock
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The probability that Mike can win is 1/4, Rob winning is 18 Apr 2006, 13:19
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Am I making a mistake?

Probability that Mike OR Rob wins is 1/4 + 1/3 = 7/12.
Probability that Ben does NOT win = 5/6.
Thus probability that Mike or Rob wins, and Ben does not = 35/72.
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yach
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kapslock
Am I making a mistake?

Probability that Mike OR Rob wins is 1/4 + 1/3 = 7/12.
Probability that Ben does NOT win = 5/6.
Thus probability that Mike or Rob wins, and Ben does not = 35/72.
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This question is from a GMAT Challenge test. I got the same answer as you but the computer said it was 5/12. I just want to confirm that we have the right answer.
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gmatacer
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The probability that Mike can win is 1/4, Rob winning is 18 Apr 2006, 14:14
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yeah I can't reach any other answer
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vipin7um
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The probability that Mike can win is 1/4, Rob winning is 19 Apr 2006, 06:50
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yach
The probability that Mike can win is 1/4, Rob winning is 1/3, Ben winning is 1/6. What is the probability that mike or rob will win but NOT Ben.

1/6
5/12
7/12
5/6
1
Show more


There are 3 scenarios

MR(B)
M(R)(B)
(M)R(B)

where A - Probability of A winning
and (A) - Probability of A not winning

=> 1/4*1/3*5/6 + 1/4*2/3*5/6 + 3/4*1/3*5/6 = 5/12

- Vipin
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MA466
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The probability that Mike can win is 1/4, Rob winning is 19 Apr 2006, 07:12
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I also agree with Kpslock anser explanation
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MA466
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Vipin,
Could you please explain your answer? I did not unsderstand your answer. Thanks
ma466
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vipin7um
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MA466
Vipin,
Could you please explain your answer? I did not unsderstand your answer. Thanks
ma466
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There are 3 scenarios. Either Mike and Rob will win, or only Mike will win, or only Rob will win.

p(M wins) = 1/4 => p(M doesn't win) = 3/4
p(R wins) = 1/3 => p(R doesn't win) = 2/3
p(B wins) = 1/6 => p(B doesn't win) = 5/6

Scenario1 -
p(M wins) * p(R wins) * p(B doesn't win) +

Scenario2
p(M wins) * p(R doesn't win) * p(B doesn't win) +

Scenario3
p(M doesn't win) * p(R wins) * p(B doesn't win)

This is what the above expression represents.

HTH...

Thanks,
Vipin
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giddi77
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The probability that Mike can win is 1/4, Rob winning is 19 Apr 2006, 08:26
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vipin7um


There are 3 scenarios

MR(B)
M(R)(B)
(M)R(B)

where A - Probability of A winning
and (A) - Probability of A not winning

=> 1/4*1/3*5/6 + 1/4*2/3*5/6 + 3/4*1/3*5/6 = 5/12

- Vipin
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Good explanatio Vipin.
I also fell into the trap :wall :wall
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MA466
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Hi Vipin,
Thanks for your explanation but we need scenario 1 based on the question. Why do we need to consider rest of the scenarios i mean 2and3?

ma466
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vipin7um
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MA466
Hi Vipin,
Thanks for your explanation but we need scenario 1 based on the question. Why do we need to consider rest of the scenarios i mean 2and3?

ma466
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Hi MA,
Actually question says Mike OR Rob should win and Bob shouldn't win. Had it been Mike AND Rob should win, then we would have considered only Scenario1.
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rambler
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Hi! I am newbie - both to gmat and this forum.. i arrived at the solution like this:

(1/4 + 1/3) - 1/6

which is 5/12

The answers seems correct but what about the approach?
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ccax
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rambler
i arrived at the solution like this:

(1/4 + 1/3) - 1/6

which is 5/12

The answers seems correct but what about the approach?
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Well, it's interesting that you arrived at the correct solution,
but I fear you were lucky :-D

First event: The probability that Ben doesn't win is
1-1/6 = 5/6

Second event: The probability that Mike or Rob wins is
1/4 + 1/3 - (1/4 * 1/3) = 1/2

So the answer is 5/6 * 1/2 = 5/12.

Those of you who got 35/72 forgot to subtract 1/3 * 1/4 from
the addition Mike and Rob. This has to be done because this
part has been counted twice.

Just consider two events with probability 0.8 that are independent.
The probability that at least one of those occurs is
0.8 + 0.8 - 0.8*0.8 = 0.96 (and of course not 1.6).
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sherinaparvin
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I have nothing more to add to ccax post. I also arrive to the solution in the same way.

(P(M) + P(R) - P(M)(R)) * P(not B) = 5/12
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M8
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The probability that Mike can win is 1/4, Rob winning is 24 Apr 2006, 05:27
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Great explanation ccax. :)



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