Phase difference between a node and an adjacent antinode in a stationary wave is:
Show Hint
\(\frac{\pi}{4} \, \text{rad}\)
\(\frac{\pi}{2} \, \text{rad}\)
\(\frac{3\pi}{4} \, \text{rad}\)
\(\pi \, \text{rad}\)
The Correct Option is B
Solution and Explanation
Step 1: A stationary wave results from the interference of two identical waves traveling in opposite directions.
Step 2: The phase difference (\( \Delta \phi \)) between a node (where displacement is zero) and an adjacent antinode (where displacement is maximum) is given by: \[ \Delta \phi = \frac{\pi}{2} { rad}. \] This indicates that the particle at an antinode is a quarter cycle ahead of the particle at the node. \bigskip
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