Math, asked by shivangikapoor, 1 year ago

prove that : 1/3-√8 - 1/√8-√7+1/√7-√6-1/√6-√5+1/√5-2=5

Answers

Answered by kyutie

hope it will help you

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kyutie: hi

shivangikapoor: hi

kyutie: do you understand the ans properly?

shivangikapoor: ya

kyutie: because i have used a short method

kyutie: ok

shivangikapoor: thanks

kyutie: than

kyutie: thanks

Answered by Salmonpanna2022

Step-by-step explanation:

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

$\frac{1}{3 - \sqrt{8} } - \frac{1}{ \sqrt{8} - \sqrt{7} } + \frac{1}{ \sqrt{7} - \sqrt{6} } - \frac{1}{ \sqrt{6} - \sqrt{5}} + \frac{1}{ \sqrt{5} - 2 } \\ \\$

$\bf \underline{What \: to \: do-} \\$

1st we Rationalise all the denominator.

2nd we arrange all according to the given question and simplify and last we get the answer.

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

We have,

$\frac{1}{3 - \sqrt{8} } - \frac{1}{ \sqrt{8} - \sqrt{7} } + \frac{1}{ \sqrt{7} - \sqrt{6} } - \frac{1}{ \sqrt{6} - \sqrt{5}} + \frac{1}{ \sqrt{5} - 2 }=5 \\ \\$

Now,

Rationalising each term:

$First \: term: \: \frac{1}{3 - \sqrt{8} } \\ \\$

The denominator is 3-√8. Multiplying the numerator and denomination by 3+√8, we get

$⟹ \frac{1}{3 - \sqrt{8} } \times \frac{3 + \sqrt{8} }{3 + \sqrt{8} } \\ \\$

$⟹ \frac{3 + \sqrt{8} }{(3 - \sqrt{8} )(3 + \sqrt{8} )} \\ \\$

⬤ Applying Algebraic Identity

(a+b)(a-b) = a² - b² to the denominator

We get,

$⟹ \frac{3 + \sqrt{8} }{(3 {)}^{2} - ( \sqrt{8} {)}^{2} } \\ \\$

$⟹ \frac{3 + \sqrt{8} }{9 - 8} \\ \\$

$⟹ \frac{3 + \sqrt{8} }{1} \\ \\$

$⟹ \red{3 + \sqrt{8} } \\ \\$

$Second \: term: \: \frac{1}{ \sqrt{8} - \sqrt{7} } \\ \\$

The denominator is √8-√7. Multiplying the numerator and denomination by √8+√7, we get

$⟹ \frac{1}{ \sqrt{8} - \sqrt{7} } \times \frac{ \sqrt{8} + \sqrt{7} }{ \sqrt{8} + \sqrt{7} } \\ \\$

$⟹ \frac{ \sqrt{8} + \sqrt{7} }{( \sqrt{8} - \sqrt{7})( \sqrt{8} + \sqrt{7} )} \\ \\$

⬤ Applying Algebraic Identity

(a+b)(a-b) = a² - b² to the denominator

We get,

$⟹ \frac{ \sqrt{8} + \sqrt{7} }{( \sqrt{8} {)}^{2} - ( \sqrt{7} {)}^{2} } \\ \\$

$⟹ \frac{ \sqrt{8} + \sqrt{7} }{8 - 7} \\ \\$

$⟹ \frac{ \sqrt{8} + \sqrt{7} }{1} \\ \\$

$⟹ \red{ \sqrt{8} + \sqrt{7} } \\ \\$

$Third \: term : \: \: \frac{1}{ \sqrt{7} - \sqrt{6} } \\ \\$

The denominator is √7-√6. Multiplying the numerator and denomination by √7+√6, we get

$⟹ \frac{1}{ \sqrt{7} - \sqrt{6} } \times \frac{ \sqrt{7} + \sqrt{6} }{ \sqrt{7} + \sqrt{6} } \\ \\$

$⟹ \frac{ \sqrt{7} + \sqrt{6} }{( \sqrt{7 } - \sqrt{6} )( \sqrt{7} + \sqrt{6}) } \\ \\$

⬤ Applying Algebraic Identity

(a+b)(a-b) = a² - b² to the denominator

We get,

$⟹ \frac{ \sqrt{7} + \sqrt{6} }{( \sqrt{7} {)}^{2} - ( \sqrt{6} {)}^{2} } \\ \\$

$⟹ \frac{ \sqrt{7} + \sqrt{6} }{7 - 6} \\ \\$

$⟹ \frac{ \sqrt{7} + \sqrt{6} }{1} \\ \\$

$⟹\red{ \sqrt{7} + \sqrt{6} } \\ \\$

$Fourth \: term : \: \frac{1}{ \sqrt{6} - \sqrt{5} } \\ \\$

The denominator is √6-√5. Multiplying the numerator and denomination by √6+√5, we get

$⟹ \frac{1}{ \sqrt{6} - \sqrt{5} } \times \frac{ \sqrt{6} + \sqrt{5} }{ \sqrt{6} + \sqrt{5} } \\ \\$

$⟹ \frac{ \sqrt{6} + \sqrt{5} }{( \sqrt{6} - \sqrt{5})( \sqrt{6} + \sqrt{5} )} \\ \\$

⬤ Applying Algebraic Identity

(a+b)(a-b) = a² - b² to the denominator

We get,

$⟹ \frac{ \sqrt{6} + \sqrt{5} }{( \sqrt{6} {)}^{2} - ( \sqrt{5} {)}^{2} } \\ \\$

$⟹ \frac{ \sqrt{6} + \sqrt{5} }{6 - 5} \\ \\$

$⟹ \frac{ \sqrt{6} + \sqrt{5} }{1} \\ \\$

$⟹ \red{\sqrt{3} + \sqrt{5} } \\ \\$

$Fifth \: term: \: \: \: \frac{1}{ \sqrt{5} - 2 } \\ \\$

The denominator is √5-2. Multiplying the numerator and denomination by √5+2, we get

$⟹ \frac{1}{ \sqrt{5} - 2} \times \frac{ \sqrt{5} + 2 }{ \sqrt{5} + 2 } \\ \\$

$⟹ \frac{ \sqrt{5} + 2 }{( \sqrt{5} - 2)( \sqrt{5} + 2)} \\ \\$

⬤ Applying Algebraic Identity

(a+b)(a-b) = a² - b² to the denominator

We get,

$⟹ \frac{ \sqrt{5} + 2}{( \sqrt{5} {)}^{2} - ( 2 {)}^{2} } \\ \\$

$⟹ \frac{ \sqrt{5}+ 2}{5 - 4} \\ \\$

$⟹ \frac{ \sqrt{5} + 2 }{1} \\ \\$

$⟹ \red{ \sqrt{5} + 2} \\ \\$

Now, arranging all the rationalised denominator according to the given question and simplify that.

$⟹ \red{(3 + \sqrt{8} ) - ( \sqrt{8} + \sqrt{7} ) + ( \sqrt{7} + \sqrt{6} ) - ( \sqrt{6} + \sqrt{5} ) + ( \sqrt{5} + 2) }=5 \\ \\$

$⟹3 + \cancel{ \sqrt{8} } - \cancel{\sqrt{8} }- \cancel{\sqrt{7} } + \cancel{\sqrt{7} } + \cancel{\sqrt{6} }- \cancel{\sqrt{6}} - \cancel{\sqrt{5}} + \cancel{\sqrt{5}} + 2 =5\\ \\$

$⟹3 + 2=5 \\ \\$

$⟹5=5 \\ \\$

L.H.S = R.H.S.

Hence proved

I hope this helps..☺

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