Let \(y = f(x)\) be any curve on the X-Y plane and \(P\) be a point on the curve. Let \(C\) be a fixed point not on the curve. The length \(PC\) is either a maximum or a minimum. Then:
Show Hint
- \(PC\) is perpendicular to the tangent at \(P\)
- \(PC\) is parallel to the tangent at \(P\)
- \(PC\) meets the tangent at an angle of \(45^\circ\)
- \(PC\) meets the tangent at an angle of \(60^\circ\)
The Correct Option is A
Solution and Explanation
Step 1: The length \( PC \) is the distance from the fixed point \( C \) to the point \( P \) on the curve. We are told that \( PC \) is either a maximum or a minimum.
Step 2: For the length \( PC \) to be at a maximum or minimum, the line connecting \( P \) and \( C \) must be perpendicular to the tangent at \( P \).
Step 3: The condition for the minimum or maximum distance is that the vector \( \overrightarrow{PC} \) is perpendicular to the tangent line at \( P \).
Answer: (A) \( PC \) is perpendicular to the tangent at \( P \)
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