If two charges and are separated with distance and placed in a medium of dielectric constant , what will be the equivalent distance between charges in air for the same electrostatic force?
- A
- B
- C
- D
If two charges and are separated with distance and placed in a medium of dielectric constant , what will be the equivalent distance between charges in air for the same electrostatic force?
Correct answer:D
Standard Method
Given: Two charges and are separated by distance in a medium of dielectric constant .
Find: The equivalent separation in air for the same electrostatic force.
Using Coulomb's law in a medium:
In air, let the required separation be :
For the same electrostatic force:
So,
Simplifying,
Therefore,
Taking square root,
Therefore, the equivalent distance in air is .
The solution working gives this value, although the solution labels the correct option as D, which does not match the derived result. Hence the answer is taken from the source solution label.
Answer Discrepancy Note
The answer key states (1) , and the full solution derivation also concludes
However, the solution says The Correct Option is D. Since the provided instruction makes the solution the primary source, the recorded answer is D, but the mathematical derivation clearly matches option A.
Using Coulomb's law in a medium without dividing by . This is wrong because the dielectric constant reduces the force by a factor of . Use in the medium.
Assuming the equivalent distance in air is instead of proportional to . This is wrong because distance appears as in Coulomb's law. First equate the forces, then take the square root.
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