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Difference between revisions of "1958 AHSME Problems/Problem 41"

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By Vieta's, <math>r + s = -\frac{B}{A}</math>, <math>rs = \frac{C}{A}</math>, and <math>r^2 + s^2 = -p</math>. Note that <math>(r+s)^2 = r^2 + s^2 + 2rs</math>.
 
By Vieta's, <math>r + s = -\frac{B}{A}</math>, <math>rs = \frac{C}{A}</math>, and <math>r^2 + s^2 = -p</math>. Note that <math>(r+s)^2 = r^2 + s^2 + 2rs</math>.
  
Therefore, <math>(r + s)^2 - 2rs = r^2 + s^2</math>, or <math>-\left(\frac{B}{A}\right)^2 - 2\frac{C}{A} = -p</math>.
+
Therefore, <math>(r + s)^2 - 2rs = r^2 + s^2</math>, or <math>-\left(\frac{B}{A}\right)^2 - \frac{2C}{A} = -p</math>.
  
 
Simplifying, <math>\frac{B^2 - 2CA}{A^2} = -p</math>.  
 
Simplifying, <math>\frac{B^2 - 2CA}{A^2} = -p</math>.  
  
Finally, multiply both sides by <math>p = \frac{2CA - B^2}{A^2}</math>, making the answer <math>\fbox{C}</math>.
+
Finally, multiply both sides by <math>-1</math> to get <math>p = \frac{2CA - B^2}{A^2}</math>, making the answer <math>\fbox{C}</math>.
  
 
== See Also ==
 
== See Also ==

Latest revision as of 15:10, 22 February 2018

Problem

The roots of $Ax^2 + Bx + C = 0$ are $r$ and $s$. For the roots of $x^2+px +q =0$

to be $r^2$ and $s^2$, $p$ must equal:

$\textbf{(A)}\ \frac{B^2 - 4AC}{A^2}\qquad \textbf{(B)}\ \frac{B^2 - 2AC}{A^2}\qquad \textbf{(C)}\ \frac{2AC - B^2}{A^2}\qquad \\ \textbf{(D)}\ B^2 - 2C\qquad \textbf{(E)}\ 2C - B^2$

Solution

By Vieta's, $r + s = -\frac{B}{A}$, $rs = \frac{C}{A}$, and $r^2 + s^2 = -p$. Note that $(r+s)^2 = r^2 + s^2 + 2rs$.

Therefore, $(r + s)^2 - 2rs = r^2 + s^2$, or $-\left(\frac{B}{A}\right)^2 - \frac{2C}{A} = -p$.

Simplifying, $\frac{B^2 - 2CA}{A^2} = -p$.

Finally, multiply both sides by $-1$ to get $p = \frac{2CA - B^2}{A^2}$, making the answer $\fbox{C}$.

See Also

1958 AHSC (ProblemsAnswer KeyResources)
Preceded by
Problem 40 		Followed by
Problem 42
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All AHSME Problems and Solutions

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