Question:
Match List-I with List-II on the basis of two simple harmonic signals of the same frequency and various phase differences interacting with each other:
LIST-I (Lissajous Figure) LIST-II (Phase Difference) A. Right handed elliptically polarized vibrations I. Phase difference = \( \frac{\pi}{4} \) B. Left handed elliptically polarized vibrations II. Phase difference = \( \frac{3\pi}{4} \) C. Circularly polarized vibrations III. No phase difference D. Linearly polarized vibrations IV. Phase difference = \( \frac{\pi}{2} \)
Choose the correct answer from the options given below:
Match List-I with List-II on the basis of two simple harmonic signals of the same frequency and various phase differences interacting with each other:
| LIST-I (Lissajous Figure) | LIST-II (Phase Difference) | ||
|---|---|---|---|
| A. | Right handed elliptically polarized vibrations | I. | Phase difference = \( \frac{\pi}{4} \) |
| B. | Left handed elliptically polarized vibrations | II. | Phase difference = \( \frac{3\pi}{4} \) |
| C. | Circularly polarized vibrations | III. | No phase difference |
| D. | Linearly polarized vibrations | IV. | Phase difference = \( \frac{\pi}{2} \) |
Choose the correct answer from the options given below:
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For Lissajous figures with two SHMs of the same frequency:
- Phase diff \(0\) or \(\pi\) \(\rightarrow\) Straight Line
- Phase diff \(\pi/2\) or \(3\pi/2\) (and equal amplitudes) \(\rightarrow\) Circle
- Any other phase diff \(\rightarrow\) Ellipse
Updated On: Sep 24, 2025
- A - I, B - II, C - III, D - IV
- A - I, B - III, C - II, D - IV
- A - I, B - II, C - IV, D - III
- A - III, B - IV, C - I, D - II
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The Correct Option is C
Solution and Explanation
Step 1: Analyze the superposition of two perpendicular SHMs of the same frequency. The resulting figure depends on the phase difference \(\delta\).
- D. Linearly polarized vibrations: The resulting motion is along a straight line. This occurs when the phase difference is \(\delta = 0\) or \(\pi\). This matches III (No phase difference).
- C. Circularly polarized vibrations: The resulting motion is a circle. This occurs for the special case where the amplitudes are equal and the phase difference is \(\delta = \pi/2\) or \(3\pi/2\). This matches IV.
- A. & B. Elliptically polarized vibrations: For any other phase difference, the resulting motion is an ellipse.
- For phase differences between \(0\) and \(\pi\), such as \(\pi/4\) and \(3\pi/4\), the polarization is elliptical. By convention, phase differences in this range can define right and left-handedness based on the tracing direction. \(\delta = \pi/4\) corresponds to a right-handed ellipse (A matches I), and \(\delta = 3\pi/4\) to another ellipse, defined here as left-handed (B matches II).
Step 2: Formulate the correct matching sequence based on the analysis. - A \(\rightarrow\) I - B \(\rightarrow\) II - C \(\rightarrow\) IV - D \(\rightarrow\) III This sequence is A - I, B - II, C - IV, D - III, which corresponds to option (3).
Step 2: Formulate the correct matching sequence based on the analysis. - A \(\rightarrow\) I - B \(\rightarrow\) II - C \(\rightarrow\) IV - D \(\rightarrow\) III This sequence is A - I, B - II, C - IV, D - III, which corresponds to option (3).
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