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Apply the formula: $x^4+n$$=\left(x^2-\sqrt{2\sqrt{n}}x+\sqrt{n}\right)\left(x^2+\sqrt{2\sqrt{n}}x+\sqrt{n}\right)$, where $x^4+n=x^4+16$ and $n=16$
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$\frac{x^2}{\left(x^2-\sqrt{2\sqrt{16}}x+\sqrt{16}\right)\left(x^2+\sqrt{2\sqrt{16}}x+\sqrt{16}\right)}$
Learn how to solve simplification des fractions algébriques problems step by step online. (x^2)/(x^4+16). Apply the formula: x^4+n=\left(x^2-\sqrt{2\sqrt{n}}x+\sqrt{n}\right)\left(x^2+\sqrt{2\sqrt{n}}x+\sqrt{n}\right), where x^4+n=x^4+16 and n=16. Apply the formula: a^b=a^b, where a=16, b=\frac{1}{2} and a^b=\sqrt{16}. Apply the formula: a^b=a^b, where a=16, b=\frac{1}{2} and a^b=\sqrt{16}. Apply the formula: a^b=a^b, where a=16, b=\frac{1}{2} and a^b=\sqrt{16}.
