99. if r and s are the roots of the equation x^2 + bx+c =0, where b and c are constants, is rs<0
1) b<0
2) c<0
can someone please clarify this. i don't get the explanation the book provide. I still confused.
thanks
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Brent@GMATPrepNow
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Let's first examine the relationship between the roots of an equation and the given equation. Here are some examples:If r and s are the roots of the equation x² + bx + c = 0, where b and c are constants, is rs < 0?
1) b < 0
2) c < 0
Example #1: x² - 5x + 6 = 0
We can rewrite this as x² + (-5x) + 6 = 0 [to make it look like the given equation x² + bx + c = 0]
So, b = -5 and c = 6
To solve the equation, we'll factor to get: (x - 3)(x - 2) = 0
So, the ROOTS of the equation are x = 2 and x = 3
NOTICE that the sum of the roots equals -b, and notice that the product of the roots = c
Example #2: x² + 6x - 7 = 0
We can rewrite this as x² + 6x + (-7) = 0 [to make it look like the given equation x² + bx + c = 0]
So, b = 6 and c = -7
To solve the equation, we'll factor to get: (x + 7)(x - 1) = 0
So, the ROOTS of the equation are x = -7 and x = 1
NOTICE that the sum of the roots equals -b, and notice that the product of the roots = c
We could keep going with more examples, but the big takeaway is as follows:
If r and s are the roots of the equation x² + bx + c = 0, then r + s = -b, and rs = c
Okay, now onto the question....
Target question: Is rs < 0?
Given: r and s are the roots of the equation x² + bx + c = 0
Statement 1: b < 0
This means that b is NEGATIVE, which also means that -b is POSITIVE
From our conclusions above, we saw that r + s = -b
So, we can now conclude that r + s = some POSITIVE VALUE.
Is this enough info to determine whether rs < 0?
NO.
Consider these two conflicting cases:
Case a: r = -1 and s = 2 (here r + s = some positive value), in which case rs < 0
Case b: r = 1 and s = 2 (here r + s = some positive value), in which case rs > 0
Since we cannot answer the target question with certainty, statement 1 is NOT SUFFICIENT
Statement 2: c < 0
From our conclusions above, we saw that rs = c
Now, statement 2 tells us that c is negative.
So, it MUST be the case that rs < 0
Since we can answer the target question with certainty, statement 2 is SUFFICIENT
Answer = B
Cheers,
Brent
Brent Hanneson - Creator of GMATPrepNow.com
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ceilidh.erickson
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Another approach, building on Brent's explanation, is this:
If the roots of the equation are r and s, we could work backwards to say:
(x - r)(x - s) = 0
Then FOIL this out:
x² - sx - rx + rs = 0
Factor out the x to get it into the format x² + bx + c = 0:
x² + (-r - s)x + rs = 0
It's clear that b = (-r - s) and c = rs. Thus, we can rephrase the question is rs < 0? as is c < 0?
Clearly, statement 2 is sufficient but statement 1 is not.
If the roots of the equation are r and s, we could work backwards to say:
(x - r)(x - s) = 0
Then FOIL this out:
x² - sx - rx + rs = 0
Factor out the x to get it into the format x² + bx + c = 0:
x² + (-r - s)x + rs = 0
It's clear that b = (-r - s) and c = rs. Thus, we can rephrase the question is rs < 0? as is c < 0?
Clearly, statement 2 is sufficient but statement 1 is not.
Ceilidh Erickson
EdM in Mind, Brain, and Education
Harvard Graduate School of Education
EdM in Mind, Brain, and Education
Harvard Graduate School of Education
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Matt@VeritasPrep
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While we're on this topic - especially since the GMAT seems to be asking more quadratic-savvy questions these days, it might be worthwhile to learn a bit more about what the coefficients do. This question asks about c, but you could also be asked about a, the leading coefficient: here's a nice primer on how to interpret that. (Trust me, this is worth reading.)
