Math, asked by Sohailkhan123, 1 year ago

X=^a+2b÷^a+2b+^a_2b÷a_2b then show that bx^ _ 2b+b= 0

Lipimishra2: bx^2 -ax+b=0 ?

Answers

Answered by mamtagargshanup40wft

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Answered by Salmonpanna2022

$\bf \underline{Given-} \\$

$\sf{x = \frac{ \sqrt{a + 2b} + \sqrt{a - 2b} }{ \sqrt{a + 2b} - \sqrt{a - 2b} } } \\$

$\bf \underline{To\: find-} \\$

$\sf{prove \: that : \: {bx}^{2} - ax + b = 0 } \\$

$\bf \underline{Solution-} \\$

$\textsf{We have,}\\$

$\sf{x = \frac{ \sqrt{a + 2b} + \sqrt{a - 2b} }{ \sqrt{a + 2b} - \sqrt{a - 2b} } } \\$

$\textsf{The denominator is : √(a+2b) - √(a-2b)}\\$

$\textsf{We know that}\\$

$\textsf{The rationalising factor of : √(p + q) - √(p-q) = √(p+q) + √(p-q).}\\$

$\textsf{Therefore, the rationalising factor of: √(a+2b) - √(a-2b) = √(a+2b) + √(a-2b).}\\$

$\textsf{On, rationalising the denominator,we get}\\$

$\sf{x = \frac{ \sqrt{a + 2b} + \sqrt{a - 2b} }{ \sqrt{a + 2b} - \sqrt{a - 2b} } \times\frac{ \sqrt{a + 2b} + \sqrt{a - 2b} }{ \sqrt{a + 2b} + \sqrt{a - 2b} } } \\$

$\sf{x = \frac{ (\sqrt{a + 2b} + \sqrt{a - 2b})( \sqrt{a + 2b} + \sqrt{a - 2b}) }{( \sqrt{a + 2b} - \sqrt{a - 2b})( \sqrt{a + 2b} + \sqrt{a - 2b} )} } \\$

$\sf{x = \frac{ (\sqrt{a + 2b} + \sqrt{a - 2b} {)}^{2} }{( \sqrt{a + 2b} - \sqrt{a - 2b})( \sqrt{a + 2b} + \sqrt{a - 2b} )} } \\$

$\textsf{★ Now, comparing the denominator with (a-b)(a+b), we get}\\$

$\sf{ \: \: \: \: \: a = \sqrt{a + 2b} \: and \: b = \sqrt{a - 2b} } \\$

$\textsf{Using identity (a+b)(a-b) = a²-b², we get}\\$

$\sf{x = \frac{ (\sqrt{a + 2b} + \sqrt{a - 2b} {)}^{2} }{( \sqrt{a + 2b} {)}^{2} - (\sqrt{a - 2b} {)}^{2} } } \\$

$\sf{x = \frac{ (\sqrt{a + 2b} + \sqrt{a - 2b} {)}^{2} }{a + 2b - (a + 2b) } } \\$

$\sf{x = \frac{ a + 2b + a - 2b + 2 \sqrt{ {a}^{2} - {4b}^{2} } }{a + 2b - (a + 2b) } } \\$

$\Rightarrow\sf{x = \frac{a + \sqrt{ {a}^{2} - {4b}^{2} } }{2b} } \\$

$\Rightarrow\sf{2bx =a + \sqrt{ {a}^{2} - {4b}^{2} } } \\$

$\Rightarrow\sf{2bx - a = \sqrt{ {a}^{2} - {4b}^{2} } } \\$

$\textsf{Squaring on both sides,we get}\\$

$\sf{(2bx - a {)}^{2} = {a}^{2} - 4 {b}^{2} } \\$

$\Rightarrow\sf{ {4b}^{2} {x}^{2} + \cancel{{a}^{2}} - 4abx - \cancel{ {a}^{2}} + {4b}^{2} =0} \\$

$\Rightarrow\sf{ {4b}^{2} {x}^{2} - 4abx + {4b}^{2} =0 \: \: \Rightarrow\sf{4( {b}^{2} {x}^{2} - abx + {4b}^{2} ) =0} } \\$

$\Rightarrow\sf{{b}^{2} {x}^{2} - abx + {4b}^{2} =0 \: \: \: \: \: \Rightarrow\sf{b( {b}{x}^{2} - ax + {b} ) =0} } \\$

$\Rightarrow\sf{{b}{x}^{2} - ax + {b} =0} \\$

$\bf \underline{Hence, proved.} \\$

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