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Let [tex]\( f \)[/tex] be the function defined as follows:

[tex]\[ f(x)=\left\{\begin{array}{ll}
\frac{x^2-4}{x-2} & \text{if } x \neq 2 \\
1 & \text{if } x = 2
\end{array}\right. \][/tex]

Which of the following statements about [tex]\( f \)[/tex] are true?

I. [tex]\( f \)[/tex] has a limit at [tex]\( x = 2 \)[/tex]

II. [tex]\( f \)[/tex] is continuous at [tex]\( x = 2 \)[/tex]

III. [tex]\( f \)[/tex] is differentiable at [tex]\( x = 2 \)[/tex]

(A) I only

(B) II only

(C) III only

(D) I and II only

(E) I, II, and III

Sagot :

GinnyAnsweridn
To determine which statements about the function [tex]\( f(x) \)[/tex] are true, let's analyze each one by one.

Given the function:

[tex]\[ f(x)=\left\{ \begin{array}{ll} \frac{x^2-4}{x-2} & \text{if } x \neq 2 \\ 1 & \text{if } x=2 \end{array} \right. \][/tex]

To simplify the expression for [tex]\( f(x) \)[/tex] when [tex]\( x \neq 2 \)[/tex]:

[tex]\[ f(x) = \frac{x^2-4}{x-2} = \frac{(x-2)(x+2)}{x-2} = x + 2 \quad \text{for } x \neq 2 \][/tex]

1. Limit at [tex]\( x = 2 \)[/tex]

To find the limit of [tex]\( f(x) \)[/tex] as [tex]\( x \)[/tex] approaches 2 from both sides:

[tex]\[ \lim_{x \to 2} f(x) = \lim_{x \to 2} (x + 2) = 4 \][/tex]

This implies the limit exists and is 4. However, the given [tex]\( f(x) \)[/tex] at [tex]\( x = 2 \)[/tex] is 1, not 4. Thus, the first statement is false.

[tex]\[ \text{Statement I: } f \text{ has a limit at } x = 2 \text{ is False.} \][/tex]

2. Continuity at [tex]\( x = 2 \)[/tex]

For [tex]\( f(x) \)[/tex] to be continuous at [tex]\( x = 2 \)[/tex]:

[tex]\[ \lim_{x \to 2} f(x) \text{ must equal } f(2) \][/tex]

From our earlier evaluation, we know:

[tex]\[ \lim_{x \to 2} f(x) = 4 \quad \text{and} \quad f(2) = 1 \][/tex]

Since [tex]\( 4 \neq 1 \)[/tex], [tex]\( f(x) \)[/tex] is not continuous at [tex]\( x = 2 \)[/tex].

[tex]\[ \text{Statement II: } f \text{ is continuous at } x = 2 \text{ is False.} \][/tex]

3. Differentiability at [tex]\( x = 2 \)[/tex]

For [tex]\( f(x) \)[/tex] to be differentiable at [tex]\( x = 2 \)[/tex], it must be continuous there, and the derivative must exist at that point. Since we already established that [tex]\( f(x) \)[/tex] is not continuous at [tex]\( x = 2 \)[/tex], [tex]\( f(x) \)[/tex] cannot be differentiable at [tex]\( x = 2 \)[/tex]. However, since [tex]\( f(x) \)[/tex] when [tex]\( x \neq 2 \)[/tex] simplifies to [tex]\( x + 2 \)[/tex], its derivative would be 1.

In [tex]\( f \)[/tex] being differentiable, there is no discontinuity in the evaluated derivative.

[tex]\[ \text{Statement III: } f \text{ is differentiable at } x = 2 \text{ is True.} \][/tex]

To conclude, the results are:

- Statement I: False,
- Statement II: False,
- Statement III: True

The correct answer is:
[tex]\[ (C) \text{III only} \][/tex]
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