NCERT Solution for Class 10 Science Chapter 11
The Human Eye and the Colorful World
NCERT Books for Session 2022-2023
CBSE Board and UP Board
Exercises Questions
Page No-198
Questions No-10
Why do stars twinkle?
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NCERT Solution for Class 10 Science Chapter 11
The Human Eye and the Colorful World
NCERT Books for Session 2022-2023
CBSE Board and UP Board
Exercises Questions
Page No-198
Questions No-10
Stars emit their own light and they twinkle due to the atmospheric refraction of light. Stars are very far away from the earth. Hence, they are considered as point sources of light. When the light coming from stars enters the earth’s atmosphere, it gets refracted at different levels because of the variation in the air density at different levels of the atmosphere. When the star light refracted by the atmosphere comes more towards us, it appears brighter than when it comes less towards us. Therefore, it appears as if the stars are twinkling at night.
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Due to wind and convection currents, density of the atmospheric layers keeps on change. As a result, the position of a star keeps fluctuating from its mean position. This fluctuating image of the stars makes them appear twinkling to the observer.
Stars twinkle because of the Earth’s atmosphere and the way it affects the passage of starlight. The twinkling of stars is referred to as stellar scintillation, and it occurs due to the following reasons:
1. Atmospheric Turbulence: The Earth’s atmosphere is not completely stable; it is composed of layers of air with different temperatures and densities. As starlight passes through these layers, it encounters variations in the refractive index of the air. These variations cause the light to be refracted or bent in different directions.
2. Refraction of Starlight: The refractive index of the atmosphere changes due to temperature differences and air turbulence. As starlight passes through these changing layers, it experiences varying degrees of refraction. This refraction causes the apparent position of the star to shift slightly and rapidly, creating the twinkling effect.
3. Small Aperture of the Eye: The human eye perceives the twinkling of stars because of its relatively small aperture. The tiny aperture of the eye amplifies the effects of atmospheric turbulence, making the slight changes in the star’s position more noticeable.
4. Color Dispersion: The atmosphere can also cause a phenomenon known as atmospheric dispersion, where different colors of light are refracted by different amounts. This dispersion contributes to the variations in brightness and color of the twinkling stars.
The twinkling is more pronounced when stars are observed near the horizon because the light passes through a thicker layer of the Earth’s atmosphere. In contrast, stars directly overhead experience less twinkling because the light passes through a smaller portion of the atmosphere.
Astronomers use techniques such as adaptive optics and space-based telescopes to mitigate the effects of atmospheric turbulence and obtain clearer images of celestial objects. Adaptive optics involves adjusting the shape of a telescope’s mirror in real-time to compensate for the atmospheric distortions.
In summary, stars twinkle due to the Earth’s atmosphere causing variations in the refractive index, resulting in the rapid and random shifting of the apparent position of the star’s light as it reaches the observer.