4) Demostrar la existencia del límite propuesto usando la definición (Épsilon-delta) (2 puntos).

[tex]\[ \lim_{{x \to 3}} (-18 + 4x) = -6 \][/tex]

Question

01-07-2024
Mathematics

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4) Demostrar la existencia del límite propuesto usando la definición (Épsilon-delta) (2 puntos).

[tex]\[ \lim_{{x \to 3}} (-18 + 4x) = -6 \][/tex]

Sagot :

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GinnyAnswer GinnyAnswer · Answer 1 · 2024-07-01T07:08:16-04:00

Por supuesto, vamos a demostrar que el límite
[tex]\[ \lim _{x \rightarrow 3}(-18+4 x)=-6 \][/tex]
usando la definición epsilon-delta de límite.

Definición Epsilon-Delta del Límite:
Para demostrar que \(\lim_{x \rightarrow a} f(x) = L\), debemos probar que para cada \(\epsilon > 0\) existe un \(\delta > 0\) tal que si \(0 < |x - a| < \delta\), entonces \(|f(x) - L| < \epsilon\).

Para nuestro caso:
- \(f(x) = -18 + 4x\)
- \(a = 3\)
- \(L = -6\)

Queremos probar que para cada \(\epsilon > 0\) existe un \(\delta > 0\) tal que si \(0 < |x - 3| < \delta\), entonces \(|(-18 + 4x) - (-6)| < \epsilon\).

Pasos detallados:

1. Simplificar la expresión \(|f(x) - L|\):
[tex]\[ |(-18 + 4x) - (-6)| = |(-18 + 4x) + 6| = |4x - 12| = 4|x - 3| \][/tex]

2. Establecer la desigualdad:
Queremos que \(|4(x - 3)| < \epsilon\).

3. Resolver para \(|x - 3|\):
[tex]\[ 4|x - 3| < \epsilon \Rightarrow |x - 3| < \frac{\epsilon}{4} \][/tex]

4. Definir \(\delta\):
Podemos elegir \(\delta = \frac{\epsilon}{4}\).

Entonces, hemos probado que para cada \(\epsilon > 0\), si elegimos \(\delta = \frac{\epsilon}{4}\), y si \(0 < |x - 3| < \delta\), se cumple que \(|(-18 + 4x) - (-6)| < \epsilon\).

Por lo tanto, hemos demostrado que:
[tex]\[ \lim _{x \rightarrow 3}(-18+4 x)=-6 \][/tex]
usando la definición epsilon-delta del límite.

Sagot :

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