A uniform metallic wire carries a current . When a battery is connected across it, the mass of the wire is , density is , and resistivity is . The length of the wire is:
- A
- B
- C
- D
A uniform metallic wire carries a current . When a battery is connected across it, the mass of the wire is , density is , and resistivity is . The length of the wire is:
Correct answer:A
Standard Method
Given: Current , potential difference , mass , density , resistivity .
Find: The length of the wire.
Using Ohm's law,
For the wire,
so
and hence
Now use mass = density volume:
Therefore,
From
we get
Substituting into ,
Now substitute the values:
Thus,
Therefore, the computed length is .
However, the solution explicitly concludes "The Correct Option is A" while the numerical working gives , which matches option B. the answer is marked as A.
Detailed Algebra Check
Given: from Ohm's law and from mass and density.
Find: Express only in known quantities.
Start with
Rearrange for :
Multiply by :
But
so
Substitute and :
So the working supports option B, even though the solution labels the correct option as A.
Using Ohm's law as instead of . This gives the wrong resistance and carries the error through the whole solution. Always compute resistance from potential difference divided by current.
Confusing density with resistivity because both use the symbol in many books. Density is used in , while resistivity is used in . Keep the two quantities separate.
Writing volume as or using in the resistance formula. For a wire, volume is and resistance is . The area multiplies the length in volume but divides in resistance.
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