English, asked by Anonymous, 5 months ago

State if the clause given in capital letters is dependent or independent. 4. IF YOU WORK HARD, you will succeed.

Answers

Answered by aryahikaul501

Answer:

independent

Explanation:

Answered by Anonymous

Answer:

$\star\:\:\bf\large\underline\blue{Question:-}$ ⋆

Question:−

Simplify the problem.

$\star\:\:\bf\large\underline\blue{Solution:-}$ ⋆

Solution:−

$\sqrt{a + b + 2x + 2 \sqrt{ab + (a + b)x + {x}^{2} } }$

Now, let

y = $\sqrt{ab + (a + b)x + {x}^{2} }$ y=

Therefore,

$\sqrt{a + b + 2x + 2 \sqrt{ab + (a + b)x + {x}^{2} } }$

= $\sqrt{a + b + 2x + 2 + 2 \sqrt{y} }$ =

Now, we will factorise y.

$\sqrt{ab + (a + b)x + {x}^{2} }$

= $\sqrt{ab + ax + bx + {x}^{2} }$ =

= $\sqrt{a(b + x) +x(b+ x)}$ =

= $\sqrt{(x + a)(x + b)}$ =

Now,

= $\sqrt{a + b + 2x + 2 + 2 \sqrt{y} }$ =

= $\small\sqrt{(x + a) + (x + b) + 2 \sqrt{(x + a)(x + b)} }$ =

= $\sqrt{ {( \sqrt{x + a}) }^{2} + {( \sqrt{(x + b} )}^{2} + 2 \times \sqrt{(x + a} \times \sqrt{(x + b)} }$ =

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

= $\sqrt{x + a} + \sqrt{x + b}$ =

$\star\:\:\bf\large\underline\blue{Answer:-}$ ⋆

$\sqrt{x + a } + \sqrt{x + b}$

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