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 \( \lambda \)
Top Questions on Waves
- In an open organ pipe \( \nu_3 \) and \( \nu_6 \) are 3rd and 6th harmonic frequencies, respectively. If \( \nu_6 - \nu_3 = 2200\ \text{Hz} \), then the length of the pipe is _________ mm. (Take velocity of sound in air as \(330\ \text{m s}^{-1}\).)
- The terminal velocity of a metallic ball of radius 6 mm in a viscous fluid is 20 cm/s. The terminal velocity of another ball of same material and having radius 3 mm in the same fluid will be _________ cm/s.
- The fifth harmonic of a closed organ pipe is found to be in unison with the first harmonic of an open pipe. The ratio of lengths of closed pipe to that of the open pipe is \( \frac{5}{x} \). The value of \( x \) is ________.
Two loudspeakers (\(L_1\) and \(L_2\)) are placed with a separation of \(10 \, \text{m}\), as shown in the figure. Both speakers are fed with an audio input signal of the same frequency with constant volume. A voice recorder, initially at point \(A\), at equidistance to both loudspeakers, is moved by \(25 \, \text{m}\) along the line \(AB\) while monitoring the audio signal. The measured signal was found to undergo \(10\) cycles of minima and maxima during the movement. The frequency of the input signal is _____________ Hz.
(Speed of sound in air is \(324 \, \text{m/s}\) and \( \sqrt{5} = 2.23 \))
- 5th harmonic of a closed organ pipe matches with 1st harmonic of an open organ pipe. Find ratio of their lengths.
Questions Asked in KEAM exam
- Which among the following has the highest molar elevation constant?
- KEAM - 2025
- Colligative Properties
- The formula of Ammonium phosphomolybdate is
- KEAM - 2025
- coordination compounds
- Which is a Lewis acid?
- KEAM - 2025
- Acids and Bases
- Hardness of water is estimated by titration with
- KEAM - 2025
- Solutions
- Which of the following gases has the lowest solubility in water at 298 K?
- KEAM - 2025
- Solutions