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Updated on: 17 Oct 2024, 14:54
Originally posted by darshshah981 on 05 Oct 2019, 00:02.
Last edited by Bunuel on 17 Oct 2024, 14:54, edited 4 times in total.
Last edited by Bunuel on 17 Oct 2024, 14:54, edited 4 times in total.
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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:
65%
(hard)
Question Stats:
61% (02:20) correct
39%
(02:12)
wrong
based on 481
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If \(a_1\) and \(a_2\) are the real roots of \(x^2-px+12=0\), then which of the following statements is definitely true?
A. \(|a_1+a_2| \leq 2 \sqrt{3}\)
B. \(|a_1-a_2| \leq 2 \sqrt{3}\)
C. \(|a_1+a_2| \geq 4 \sqrt{3}\)
D. \(|a_1-a_2| \geq 4 \sqrt{3}\)
E. None of the above
Source: CAT 2019 India
A. \(|a_1+a_2| \leq 2 \sqrt{3}\)
B. \(|a_1-a_2| \leq 2 \sqrt{3}\)
C. \(|a_1+a_2| \geq 4 \sqrt{3}\)
D. \(|a_1-a_2| \geq 4 \sqrt{3}\)
E. None of the above
Source: CAT 2019 India
05 Oct 2019, 00:28
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darshshah981
\(x^2-px+12=0\)
Lets look at this quadratic equation is the form of \(ax^2+bx+c=0\)
We know that sum of the roots of a quadratic is \(-b/a\) and the product of the roots of a quadratic is \(c/a\)
Now, if the roots are real then the discriminant \(\geq\) 0, that is \(b^2 - 4ac\) \(\geq\) 0
>> \(p^2 - 4(1)(12)\) \(\geq\) 0
>> \(p^2\) \(\geq\) 48
>> |\(p\)| \(\geq\) \(\sqrt{48}\)
>> |\(p\)| \(\geq\) \(4\sqrt{3}\)
But p is the sum of the roots (a1+a2)...(Since sum of the roots of a quadratic equation is \(-b/a\))
Therefore, |\(a1+a2\)| \(\geq\) 4\(\sqrt{3}\) or C is the correct answer.
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05 Oct 2019, 08:20
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sum of roots should be greater than 0
hence \(p^2\)>48
or \(p>4\sqrt{3}\)
now p = sum of roots
hence C is the correct answer
hence \(p^2\)>48
or \(p>4\sqrt{3}\)
now p = sum of roots
hence C is the correct answer
