Page 1 - Lesson note atmospheric refraction
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SAI INTERNATIONAL SCHOOL
PHYSICS
CLASS X
Chapter: LIGHT(Human eye and the colourful world)
MODULE-39
LESSON NOTES: Atmospheric refraction
Atmospheric refraction
Definition: The refraction of light caused by the Earth’s atmosphere is called
atmospheric refraction.
Cause:- All air in the atmosphere is not at the same temperature .The cooler air
layer of the atmosphere behave as optically denser medium and the warmer air layer
of the atmosphere behave as optically rarer medium for the ray of light. So in the
same atmosphere we have air layer of different optical densities.
The air in the upper atmosphere is optically rarer and as we come down the air in the
lower atmosphere is gradually denser. So when light rays pass through the
atmosphere the refraction of light takes place .
The following are the examples of atmospheric refraction of light.
Twinkling of stars:
The twinkling of stars is due to the atmospheric refraction of stars light. When the
light coming from star enters the Earth’s atmosphere it undergoes refraction due to
the varying optical densities of air at various altitudes. The continuously changing
atmosphere refract the light from the stars by different amounts from one moment to
the next. When the atmosphere refracts more star -light toward us, the star appears
to be bright and when the atmosphere refracts less star- light, then the star appears
to be dim. In this way the star-light reaching our eyes increases and decreases
continuously due to atmospheric refraction. And the stars appear to twinkle at night.
Planets don’t twinkle:
Planets considered to be a collection of a very large number of point sources of light.
The dimming effect produced by some of the point sources in one part of the planet
is nullified by the brighter effect produced by the point sources in its other part. Thus
on the whole the brightness of a planet always remains same hence it does not
twinkle.The continuously changing atmosphere is not able to cause variation in the
light coming from a big sized planet due to refraction, because of which the planets
do not twinkle.(see diagram from book)
2) Stars appear higher than they are
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