Simplificar la expresión:
[tex]\[ E=\sqrt[n]{\frac{8 n+\sqrt[n]{\frac{16^{n^2}+8^{n^2}}{4^{n^2}+2^{n^2}}}}{2^n+1}} \text{.} \][/tex]

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11-07-2024
Mathematics

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Simplificar la expresión:
[tex]\[ E=\sqrt[n]{\frac{8 n+\sqrt[n]{\frac{16^{n^2}+8^{n^2}}{4^{n^2}+2^{n^2}}}}{2^n+1}} \text{.} \][/tex]

Sagot :

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GinnyAnsweridn GinnyAnsweridn · Answer 1 · 2024-07-11T20:12:20-04:00

Para simplificar la expresión [tex]\(E = \sqrt[n]{\frac{8 n + \sqrt[n]{\frac{16^{n^2} + 8^{n^2}}{4^{n^2} + 2^{n^2}}}}{2^n + 1}}\)[/tex], seguiremos los siguientes pasos:

1. Observamos la estructura de la expresión para identificar las divisiones y potencias involucradas:
[tex]\[ E = \left( \frac{8n + \left( \frac{16^{n^2} + 8^{n^2}}{4^{n^2} + 2^{n^2}} \right)^{1/n}}{2^n + 1} \right)^{1/n} \][/tex]

2. Denotamos [tex]\(N_1 = 2^{n^2}\)[/tex], de modo que podemos reescribir la expresión interna como:
[tex]\[ \frac{16^{n^2} + 8^{n^2}}{4^{n^2} + 2^{n^2}} \][/tex]
Usando [tex]\(N_1\)[/tex], tenemos [tex]\(16^{n^2} = (2^4)^{n^2} = (2^{n^2})^4 = (N_1)^4\)[/tex], [tex]\(8^{n^2} = (2^3)^{n^2} = (2^{n^2})^3 = (N_1)^3\)[/tex], etc.

3. Reemplazando estos equivalentes, la expresión sigue siendo:
[tex]\[ \frac{(N_1)^4 + (N_1)^3}{(N_1)^2 + N_1} \][/tex]

4. Simplificamos la fracción:
[tex]\[ \frac{(2^{n^2})^4 + (2^{n^2})^3}{(2^{n^2})^2 + 2^{n^2}} = \frac{2^{4n^2} + 2^{3n^2}}{2^{2n^2} + 2^{n^2}} \][/tex]

5. Ahora re-escribimos la expresión completa sustituyendo nuevamente en [tex]\(E\)[/tex]:
[tex]\[ E = \left( \frac{8n + \left( \frac{2^{4n^2} + 2^{3n^2}}{2^{2n^2} + 2^{n^2}} \right)^{1/n}}{2^n + 1} \right)^{1/n} \][/tex]

6. Simplificamos aún más usando propiedades de las potencias y de los logaritmos, siempre que sean evidentes las simplificaciones.

El resultado de todo este proceso de simplificación es:
[tex]\[ E = \left( \frac{8n \cdot (2^{n^2} + 4^{n^2}) + (16^{n^2} + 8^{n^2})^{1/n}}{2^{n^2} + 4^{n^2}} \right)^{1/n} / (2^n + 1)^{1/n} \][/tex]

De este resultado vemos que la expresión original puede simplificarse a:
[tex]\[ \left( \frac{8n (2^{n^2} + 4^{n^2}) + (16^{n^2} + 8^{n^2})^{1/n}}{2^{n^2} + 4^{n^2}} \right)^{1/n} / \left( 2^n + 1 \right)^{1/n} \][/tex]

Y con esto hemos llegado a la forma simplificada final de la expresión dada.

Sagot :

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