Difference between revisions of "2007 iTest Problems/Problem 36"

(Created page with "== Problem == Let b be a real number randomly selected from the interval <math>[-17,17]</math>. Then, m and n are two relatively prime positive integers such that m/n is the pro...")
 
(Solution to Problem 36)
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Let b be a real number randomly selected from the interval <math>[-17,17]</math>. Then, m and n are two relatively prime positive integers such that m/n is the probability that the equation <math>x^4+25b^2=(4b^2-10b)x^2</math> has <math>\textit{at least}</math> two distinct real solutions. Find the value of <math>m+n</math>.  
 
Let b be a real number randomly selected from the interval <math>[-17,17]</math>. Then, m and n are two relatively prime positive integers such that m/n is the probability that the equation <math>x^4+25b^2=(4b^2-10b)x^2</math> has <math>\textit{at least}</math> two distinct real solutions. Find the value of <math>m+n</math>.  
  
== Solution ==
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==Solution==
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The equation has quadratic form, so complete the square to solve for x.
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<cmath>x^4 - (4b^2 - 10b)x^2 + 25b^2 = 0</cmath>
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<cmath>x^4 - (4b^2 - 10b)x^2 + (2b^2 - 5b)^2 - 4b^4 + 20b^3 = 0</cmath>
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<cmath>(x^2 - (2b^2 - 5b))^2 = 4b^4 - 20b^3</cmath>
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In order for the equation to have real solutions,
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<cmath>16b^4 - 80b^3 \ge 0</cmath>
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<cmath>b^3(b - 5) \ge 0</cmath>
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<cmath>b \le 0 \text{or } b \ge 5</cmath>
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Note that <math>2b^2 - 5b = b(2b-5)</math> is greater than or equal to <math>0</math> when <math>b \le 0</math> or <math>b \ge 5</math>.  Also, if <math>b = 0</math>, then expression leads to <math>x^4 = 0</math> and only has one unique solution, so discard <math>b = 0</math> as a solution.  The rest of the values leads to <math>b^2</math> equalling some positive value, so these values will lead to two distinct real solutions.
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Therefore, in interval notation, <math>b \in [-17,0) \cup [5,17]</math>, so the probability that the equation has at least two distinct real solutions when <math>b</math> is randomly picked from interval <math>[-17,17]</math> is <math>\frac{29}{34}</math>.  This means that <math>m+n = \boxed{63}</math>.
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==See Also==
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{{iTest box|year=2007|num-b=35|num-a=37}}
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[[Category:Intermediate Algebra Problems]]
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[[Category:Intermediate Probability Problems]]

Revision as of 21:36, 14 June 2018

Problem

Let b be a real number randomly selected from the interval $[-17,17]$. Then, m and n are two relatively prime positive integers such that m/n is the probability that the equation $x^4+25b^2=(4b^2-10b)x^2$ has $\textit{at least}$ two distinct real solutions. Find the value of $m+n$.

Solution

The equation has quadratic form, so complete the square to solve for x.

\[x^4 - (4b^2 - 10b)x^2 + 25b^2 = 0\] \[x^4 - (4b^2 - 10b)x^2 + (2b^2 - 5b)^2 - 4b^4 + 20b^3 = 0\] \[(x^2 - (2b^2 - 5b))^2 = 4b^4 - 20b^3\]

In order for the equation to have real solutions,

\[16b^4 - 80b^3 \ge 0\] \[b^3(b - 5) \ge 0\] \[b \le 0 \text{or } b \ge 5\]

Note that $2b^2 - 5b = b(2b-5)$ is greater than or equal to $0$ when $b \le 0$ or $b \ge 5$. Also, if $b = 0$, then expression leads to $x^4 = 0$ and only has one unique solution, so discard $b = 0$ as a solution. The rest of the values leads to $b^2$ equalling some positive value, so these values will lead to two distinct real solutions.

Therefore, in interval notation, $b \in [-17,0) \cup [5,17]$, so the probability that the equation has at least two distinct real solutions when $b$ is randomly picked from interval $[-17,17]$ is $\frac{29}{34}$. This means that $m+n = \boxed{63}$.

See Also

2007 iTest (Problems, Answer Key)
Preceded by:
Problem 35
Followed by:
Problem 37
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