Question:medium

Match List-I with List-II
 

List-I List-II 
(A) Faraday’s Law(ii) \( \vec{\nabla} \times \vec{E} = -\frac{\partial \vec{B}}{\partial t} \)
(B) Conservation Law(iii) \( \vec{\nabla} \times \vec{A} = 0 \)
(C) Ohm’s Law(iv) \( \vec{J} = \sigma \vec{E} \)
(D) Gauss’s Law(i) \( \frac{\rho}{\epsilon_0} \)

Show Hint

When matching laws to their expressions, remember that Faraday's Law involves the time derivative of the magnetic field, while Ohm's law relates current density to electric field.
Updated On: Feb 18, 2026
  • (A) - (II), (B) - (III), (C) - (IV), (D) - (I)
  • (A) - (I), (B) - (II), (C) - (IV), (D) - (III)
  • (A) - (III), (B) - (I), (C) - (IV), (D) - (II)
  • (A) - (II), (B) - (I), (C) - (III), (D) - (IV)
Show Solution

The Correct Option is B

Solution and Explanation

Step 1: Match Explanation.
- Faraday's Law, \( \vec{abla} \times \vec{E} = -\frac{\partial \vec{B}}{\partial t} \), corresponds to (II).
- The Conservation Law, involving the continuity equation, corresponds to (III).
- Ohm's Law, \( \vec{J} = \sigma \vec{E} \), corresponds to (IV).
- Gauss's Law, \( \vec{abla} \cdot \vec{E} = \frac{\rho}{\epsilon_0} \), corresponds to (I).
Step 2: Final Answer.
Therefore, the correct match is (2).
Was this answer helpful?
0


Questions Asked in CUET (PG) exam