For plane electromagnetic waves propagating in the positive Z-direction, the combination which gives the correct possible direction for \( E \) and \( B \) fields respectively is:
Show Hint
- \( (-2i - 3j) \) and \( (3i - 2j) \)
- \( (3i + 4j) \) and \( (4i - 3j) \)
- \( (i - 2j) \) and \( (-2i - j) \)
- \( (-2i + 3j) \) and \( (i + 2j) \)
The Correct Option is A
Solution and Explanation
Step 1: Understanding the EM Wave Propagation For an electromagnetic wave propagating in the positive Z-direction: The electric field \( E \) is perpendicular to the direction of propagation.
The magnetic field \( B \) is also perpendicular to the propagation.
\( E, B, \) and the direction of propagation (Z) should form a right-handed coordinate system.
Step 2: Check the Cross Product Rule \[ E \times B \propto k \] Verifying for the given vectors: \[ (-2i - 3j) \times (3i - 2j)\] yields a component in the \( k \)-direction, confirming the correct orientation.
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