Define ‘wavefront’ of a light wave. A plane wavefront is refracted from a convex lens. Draw the shape of the refracted wavefront.
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Solution and Explanation
A wavefront of a light wave is a surface on which the phase of the wave is constant. It is a surface where every point on it has the same phase of oscillation.
- In the case of plane waves, the wavefronts are flat and the light rays are parallel to each other.
- For spherical waves, the wavefronts are spherical and radiate outward from a point source.
Refraction of a Plane Wavefront through a Convex Lens:
When a plane wavefront strikes a convex lens, the light rays are refracted (bent) due to the change in speed as they move from one medium to another. The convex lens converges the parallel light rays to a point called the focal point.
Shape of the Refracted Wavefront:
- Before refraction, the wavefront is a straight line (plane wave).
- After passing through the convex lens, the wavefronts bend and become curved.
- The refracted wavefronts now resemble part of a spherical wavefront. The light rays converge towards the focal point of the lens.
The refracted wavefronts are no longer parallel but are bent inward, becoming part of a spherical surface centered at the focal point of the lens.
Final Answer:
The plane wavefront, after passing through the convex lens, becomes curved and converges toward the focal point. The shape of the refracted wavefront is part of a spherical wavefront.
Top Questions on Optics
- A beam of light coming from a distant source is refracted by a spherical glass ball (refractive index 1.5) of radius 15 cm. Draw the ray diagram and obtain the position of the final image formed.
- A double convex lens of glass has both faces of the same radius of curvature 17 cm. Find its focal length if it is immersed in water. The refractive indices of glass and water are 1.5 and 1.33 respectively.
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Reason (R) : The speed of light reduces in an optically denser medium than air while its frequency does not change.
In the light of the above statements, choose the most appropriate answer from the options given below : - A plane wave travelling in a medium is incident on a plane surface separating this medium from a rarer medium. Draw a diagram to show refraction of the wave. Hence, verify Snell’s law.
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