Huygens' wave theory allows us to know the:

1.  wavelength of the wave.
2.  velocity of the wave.
3.  amplitude of the wave.
4.  propagation of the wavefront.

Subtopic:  Huygens' Principle |
 84%
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When the light diverges from a point source, the shape of the wavefront is:
1. Parabolic.
2. Plane.
3. Spherical.
4. Elliptical.

Subtopic:  Huygens' Principle |
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By Huygen's wave theory of light, we cannot explain the phenomenon of:

1. Interference
2. Diffraction
3. Photoelectric effect
4. Polarisation

Subtopic:  Huygens' Principle |
 73%
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Which of the following is not true?

1. The speed of light is dependent on the colour of the light.
2. The speed of violet light is less than the speed of the red light in glass.
3. The frequency of light never depends upon the property of the medium.
4. When the light diverges from a point source, the shape of the wavefront is plane.
Subtopic:  Huygens' Principle |
 74%
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On superposition of two waves \(y_{1}=3\sin\left ( \omega t-kx \right )\) and \(y_{2}=4\sin\left ( \omega t-kx+\frac{\pi }{2} \right )\) at a point, the amplitude of the resulting wave will be:
1. \(7\)
2. \(5\)
3. \(\sqrt{7}\)
4. \(6.5\)

Subtopic:  Superposition Principle |
 86%
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Two superposing waves are represented by the following equations: \(y_1=5 \sin 2 \pi(10{t}-0.1 {x}), {y}_2=10 \sin 2 \pi(10{t}-0.1 {x}).\) 
The ratio of intensities \(\dfrac{I_{max}}{I_{min}}\) will be:
1. \(1\)
2. \(9\)
3. \(4\)
4. \(16\)

Subtopic:  Superposition Principle |
 85%
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Two sources with intensity \(I_0\) and \(4I_0\) respectively interfere at a point in a medium. The maximum and the minimum possible intensity respectively would be:
1. \(2I_0, I_0\)
2. \(9I_0, 2I_0\)
3. \(4I_0, I_0\)
4. \(9I_0, I_0\)

Subtopic:  Superposition Principle |
 84%
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Two light sources are said to be coherent when their:

1. Amplitudes are equal and have a constant phase difference
2. Wavelengths are equal.
3. Intensities are equal.
4. Frequencies are equal and have a constant phase difference.
Subtopic:  Superposition Principle |
 76%
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In Young's double-slit experiment, the intensity of light at a point on the screen where the path difference is \(\lambda\) is \(K\), (\(\lambda\) being the wavelength of light used). The intensity at a point where the path difference is \(\frac{\lambda}{4}\) will be:
1. \(K\)
2. \(\frac{K}{4}\)
3. \(\frac{K}{2}\)
4. zero

Subtopic:  Superposition Principle |
 64%
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AIPMT - 2014
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Light waves of intensities \(I\) and \(9I\) interfere to produce a fringe pattern on a screen. The phase difference between the waves at point \(P\) is \(\dfrac{3\pi}{2}\) and \(2\pi\) at other point \(Q\). The ratio of intensities at \(P\) and \(Q\) is:
1. \(8:5\)
2. \(5:8\)
3. \(1:4\)
4. \(9:1\)

Subtopic:  Superposition Principle |
 61%
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