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27 Apr 2015, 04:28
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C
Be sure to select an answer first to save it in the Error Log before revealing the correct answer (OA)!
Difficulty:
85%
(hard)
Question Stats:
54% (02:37) correct
46%
(02:34)
wrong
based on 447
sessions
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Not Attempted Yet
If a, b, and c are nonzero integers and z = b^c>, is a^z negative?
(1) abc is an odd positive number.
(2) | b + c | < | b | + | c |
Kudos for a correct solution.
(1) abc is an odd positive number.
(2) | b + c | < | b | + | c |
Kudos for a correct solution.
27 Apr 2015, 06:08
Kudos
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Bunuel
1) if \(abc = odd\) than all three numbers are odd so we can infer that \(z = odd\)
about signs:
\(abc\) can be \(+++\) or \(--+\) or \(-+-\) or \(+--\)
Insufficient because we don't know about sign of \(a\)
2) this statement possible than \(b>0\) and \(c <0\) or \(b<0\) and \(c>0\)
But we know nothing about \(z\) and \(a\)
Insufficient
1+2) we know that \(z\) is odd
and we know that \(a < 0\) because
from second statement we know that \(bc = +-\) or \(bc = -+\)
and from first statement we have two variants: \(abc= --+\) or \(abc = -+-\)
In both cases \(a <0\)
So \(a^z < 0\)
Sufficient
Answer is C
General Discussion
28 Apr 2015, 19:23
Kudos
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a, b, and c are nonzero integers
z = b^c
\(a^z < 0\) ?
\({a}^{b^c}< 0\) ?
\({a}^{bc} < 0\) ?
for the above condition to be true, \(a < 0\) and \(bc\) should be odd
Statement (1)
\(abc\) is an odd positive number;
either \(a\) and \(bc\) could be either positive or negative, and \(bc\) are odd
Not Sufficient
Statement (2)
\(| b + c | < | b | + | c |\)
the above inequality suggests that b and c has opposite signs otherwise \(| b + c | = | b | + | c |\)
so \(bc\) is negative, but no info about \(a\)
Not Sufficient
from (1) and (2)
\(bc\) is both negative and odd, so \(a\) should be negative
hence \({a}^{bc} < 0\)
Sufficient
Answer C
z = b^c
\(a^z < 0\) ?
\({a}^{b^c}< 0\) ?
\({a}^{bc} < 0\) ?
for the above condition to be true, \(a < 0\) and \(bc\) should be odd
Statement (1)
\(abc\) is an odd positive number;
either \(a\) and \(bc\) could be either positive or negative, and \(bc\) are odd
Not Sufficient
Statement (2)
\(| b + c | < | b | + | c |\)
the above inequality suggests that b and c has opposite signs otherwise \(| b + c | = | b | + | c |\)
so \(bc\) is negative, but no info about \(a\)
Not Sufficient
from (1) and (2)
\(bc\) is both negative and odd, so \(a\) should be negative
hence \({a}^{bc} < 0\)
Sufficient
Answer C
