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TheUltimateWinner
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yz = 0. Is x positive? (1) x > y (2) x > z 30 Dec 2019, 10:32
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C
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25% (medium)

Question Stats:

79% (01:10) correct 21% (00:45) wrong based on 28 sessions

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\(yz = 0\). Is \(x\) positive?

(1) \(x > y\)
(2) \(x > z\)
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C
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yz = 0. Is x positive? (1) x > y (2) x > z 30 Dec 2019, 11:20
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C

From yz=0, you now know that either y or z has got to be 0;

From statement (1), you know that x is bigger than y, but there is no indication if y is negative, hence it's INSUFFICIENT
Likewise from statement (2), you know that x is bigger than z, but there is no indication of whether both x and z are negative, hence it is INSUFFICIENT

However, when you put (1) and (2) together, you know that x HAS to be positive, because either y or z is 0. Hence the answer is C.
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yz = 0. Is x positive? (1) x > y (2) x > z 30 Dec 2019, 14:08
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Asad
\(yz = 0\). Is \(x\) positive?

(1) \(x > y\)
(2) \(x > z\)

I'd recommend organizing your case testing on this one with some kind of table.

First, the given info: yz = 0, so either y = 0, z = 0, or both. That means you can only test cases where this is true.

Statement 1: You now also know that x > y, so be sure to only test cases where this is true.

Code:
y     z     x     x>y?    x>0?
0    1     1     yes       yes

Is there a case where x is NOT >0? Yes:

Code:
y     z     x     x>y?    x>0?
-10   0    -3   yes       no

Since we have both a 'yes' and a 'no', the statement is insufficient.

Statement 2: Treat it similarly to statement 1.

Code:
y     z     x     x>z?    x>0?
0    1     2     yes       yes
0  -10    -3     yes       no

This statement also gives us a 'yes' and a 'no', so it's also insufficient.

Statements 1 and 2 together: We now know a lot of different things. Either y, or z, or both, equals 0. Also, x is greater than BOTH y and z, since both statements must be true.

Based on this, x has to be greater than whichever of y or z equals 0. Therefore, x is greater than 0. So, the answer to the question is 'yes'.

That makes the two statements sufficient together. The answer is (C).
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yz = 0. Is x positive? (1) x > y (2) x > z 31 Dec 2019, 20:04
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Asad
\(yz = 0\). Is \(x\) positive?

(1) \(x > y\)
(2) \(x > z\)


Forget conventional ways of solving math questions. For DS problems, the VA (Variable Approach) method is the quickest and easiest way to find the answer without actually solving the problem. Remember that equal numbers of variables and independent equations ensure a solution.
Visit https://www.mathrevolution.com/gmat/lesson for details.

The first step of the VA (Variable Approach) method is to modify the original condition and the question. We then recheck the question. We should simplify conditions if necessary.

The original condition tells one of y and z is zero.

Since we have 3 variables (x, y and z) and 1 equation, C is most likely the answer. So, we should consider conditions 1) & 2) together first. After comparing the number of variables and the number of equations, we can save time by considering conditions 1) & 2) together first.

Conditions 1) & 2)

If y = 0, then x > y = 0 and x is positive from condition 1).
If z = 0, then x > z = 0 and x is positive from condition 2).

Since both conditions together yield a unique solution, they are sufficient.

Since this question is an inequality question (one of the key question areas), CMT (Common Mistake Type) 4(A) of the VA (Variable Approach) method tells us that we should also check answers A and B.

Condition 1)

If x = 1, y = 0, z = 1, then x is positive and the answer is 'yes'.
If x = -1, y = -2, z = 0, then x is negative and the answer is 'no'.

Since condition 1) does not yield a unique solution, it is not sufficient.

Condition 2)

If x = 1, y = 1, z = 0, then x is positive and the answer is 'yes'.
If x = -1, y = 0, z = -2, then x is negative and the answer is 'no'.

Since condition 2) does not yield a unique solution, it is not sufficient.

Therefore, C is the answer.


Normally, in problems which require 2 equations, such as those in which the original conditions include 2 variables, or 3 variables and 1 equation, or 4 variables and 2 equations, each of conditions 1) and 2) provide an additional equation. In these problems, the two key possibilities are that C is the answer (with probability 70%), and E is the answer (with probability 25%). Thus, there is only a 5% chance that A, B, or D is the answer. This occurs in common mistake types 3 and 4. Since C (both conditions together are sufficient) is the most likely answer, we save time by first checking whether conditions 1) and 2) are sufficient, when taken together. Obviously, there may be cases in which the answer is A, B, D, or E, but if conditions 1) and 2) are NOT sufficient when taken together, the answer must be E.
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