A wire of resistance is bent to form an equilateral triangle. Then the equivalent resistance across any two vertices will be:
JEE Physics 2025 Question with Solution
Answer
Correct answer:2
Step-by-step solution
Standard Method
Given: The total resistance of the wire is and it is bent to form an equilateral triangle.
Find: The equivalent resistance across any two vertices.
Since the wire is bent into an equilateral triangle, each side has equal resistance.
Between any two vertices, one path has resistance and the other path has two sides in series.
Now these two paths are in parallel.
Therefore,
Thus, the equivalent resistance across any two vertices is .

Common mistakes
Assuming the full lies directly between the two chosen vertices is incorrect because the wire is uniformly distributed over three equal sides. First divide the total resistance equally, so each side is .
Treating all three sides as if they are in series is wrong because current can flow through two different paths between the selected vertices. One path is , while the other is , and these two paths are in parallel.
Using the parallel formula incorrectly after finding and gives a wrong result. For parallel combination, add reciprocals first, then invert to get the equivalent resistance.
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