The INCORRECT statement is
- The separation between two successive nodes is λ
- Antinodes are formed at both ends of an open organ pipe
- In a one end closed organ pipe node is formed at the closed end
- Nodes are formed at both ends of steched string
- The separation between the successive node and antinode is \(\frac{\lambda}{4}\)
The Correct Option is A
Approach Solution - 1
The separation between two successive nodes is not equal to the wavelength \( \lambda \), but half of the wavelength \( \lambda/2 \). This is because nodes in standing waves are separated by half the wavelength, as seen in the harmonic wave pattern. Therefore, statement (A) is incorrect. The other statements are correct:
- In an open organ pipe, antinodes are indeed formed at both ends.
- In a one-end closed organ pipe, a node is formed at the closed end, and an antinode is formed at the open end.
- For a stretched string, nodes are formed at both ends.
- The separation between the successive node and antinode is \(\frac {\lambda}{4}\), which is a characteristic of standing wave patterns.
The correct option is (A) : The separation between two successive nodes is \(λ\)
Approach Solution -2
Let's analyze each statement:
1. The separation between two successive nodes is \( \lambda \):
❌ Incorrect. The distance between two successive nodes in a stationary wave is \( \frac{\lambda}{2} \), not \( \lambda \).
2. Antinodes are formed at both ends of an open organ pipe:
✅ Correct. In an open organ pipe, both ends are antinodes.
3. In a one end closed organ pipe, node is formed at the closed end:
✅ Correct. Closed end is always a node due to zero displacement.
4. Nodes are formed at both ends of stretched string:
✅ Correct. Both ends of a fixed string are nodes.
5. The separation between the successive node and antinode is \( \frac{\lambda}{4} \):
✅ Correct. This is true by wave nature.
Therefore, the INCORRECT statement is:
The separation between two successive nodes is \( \lambda \)
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