Question:
The problem:
Let \( f : \mathbb{R}^2 \to \mathbb{R} \) be a function such that
\[
f(x, y) =
\begin{cases}
\left( 1 - \cos\left(\frac{x^2}{y^2}\right) \right) \sqrt{x^2 + y^2}, & \text{if } y \neq 0, x \in \mathbb{R}, \\
0, & \text{otherwise.}
\end{cases}
\]
Which of the following is/are correct?
The problem:
Let \( f : \mathbb{R}^2 \to \mathbb{R} \) be a function such that
\[
f(x, y) =
\begin{cases}
\left( 1 - \cos\left(\frac{x^2}{y^2}\right) \right) \sqrt{x^2 + y^2}, & \text{if } y \neq 0, x \in \mathbb{R}, \\
0, & \text{otherwise.}
\end{cases}
\]
Which of the following is/are correct?
Show Hint
For piecewise functions, analyze continuity and differentiability carefully by considering limits and behavior near the point of interest.
Updated On: Feb 1, 2025
- \( f \) is continuous at \( (0, 0) \), but not differentiable at \( (0, 0) \)
- \( f \) is differentiable at \( (0, 0) \)
- All the directional derivatives of \( f \) at \( (0, 0) \) exist and are equal to zero
- Both the partial derivatives of \( f \) at \( (0, 0) \) exist and they are equal to zero
Show Solution
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The Correct Option is A
Solution and Explanation
Step 1: Checking continuity at \( (0, 0) \). As \( (x, y) \to (0, 0) \), the value of \( f(x, y) \) approaches 0. Thus, \( f \) is continuous at \( (0, 0) \).
Step 2: Checking differentiability at \( (0, 0) \). The function \( f \) is not differentiable at \( (0, 0) \) because the term \( \cos\left(\frac{x^2}{y^2}\right) \) oscillates infinitely for \( y \to 0 \) and \( x \neq 0 \).
Step 3: Partial derivatives at \( (0, 0) \). Both partial derivatives of \( f \) at \( (0, 0) \) exist and are equal to 0, as the limiting values along coordinate axes are zero.
Step 4: Conclusion. The function is continuous but not differentiable at \( (0, 0) \), and the partial derivatives exist and are zero. The correct answers are \( {(1), (4)} \).
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