πClass 10 Science β Chapter: The Human Eye and the Colourful World Notes
ποΈ The Human Eye
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The human eye is a sensory organ that enables us to perceive light and interpret visual information.
Structure of the Eye:
| Part | Function |
|---|---|
| Cornea | Transparent front layer; refracts light entering the eye |
| Iris | Colored part; controls pupil size and thus the amount of light |
| Pupil | Opening in the iris; regulates the light entering the eye |
| Lens | Transparent, convex; focuses light onto retina |
| Ciliary muscles | Hold the lens; change its shape to adjust focus (accommodation) |
| Retina | Layer with light-sensitive cells (rods and cones); forms the image |
| Optic Nerve | Sends visual signals from retina to the brain |
Working of the Eye:
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Light enters through the cornea, passes through the aqueous humor, pupil, and is focused by the lens on the retina.
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The retina converts light into electrical signals sent to the brain via the optic nerve.
Accommodation:
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The ability of the eye lens to adjust its focal length to focus on near and distant objects by changing its shape using ciliary muscles.
Range of Vision:
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Near Point: 25 cm (minimum distance to see clearly)
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Far Point: Infinity
Example: When reading a book, the lens bulges to decrease focal length and focus the text.
π Defects of Vision and Their Correction
| Defect | Cause | Correction |
|---|---|---|
| Myopia (Nearsightedness) | Eyeball too long or lens too curved | Concave lens |
| Hypermetropia (Farsightedness) | Eyeball too short or weak lens | Convex lens |
| Presbyopia | Age-related loss of accommodation | Bifocal lenses |
| Cataract | Clouding of the eye lens | Surgical removal and lens implant |
Example: A person with myopia cannot see a distant tree clearly. A concave lens will help them focus the image on the retina.
π Refraction of Light Through a Prism
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A prism is a transparent object with two triangular faces and three rectangular faces.
Refraction Through Prism:
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When light passes through a prism, it bends twiceβonce while entering and once while exiting.
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The overall bending is called the angle of deviation.
Example: White light incident on a glass prism splits into seven colors. Red bends the least, violet the most.
π Dispersion of Light
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Dispersion is the splitting of white light into its seven constituent colors (VIBGYOR) due to different refractive indices for different wavelengths.
Cause:
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Different colors of light travel at different speeds in a prism, leading to angular separation.
Order of Colors:
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Violet, Indigo, Blue, Green, Yellow, Orange, Red (VIBGYOR)
Example: Rainbow formation in the sky.
π¦οΈ Atmospheric Refraction
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Bending of light as it passes through layers of air with varying densities.
Phenomena Due to Atmospheric Refraction:
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Apparent Star Position: Stars appear slightly shifted from their actual position.
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Twinkling of Stars: Due to continuous variation in refractive index of the atmosphere.
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Advanced Sunrise and Delayed Sunset: The sun appears earlier and sets later due to refraction.
Example: Sun visible 2 minutes before it actually rises.
π Scattering of Light
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Scattering is the deviation of light from its path due to particles in the atmosphere.
Rayleigh Scattering:
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Intensity of scattered light β 1/Ξ»β΄ (Ξ» = wavelength)
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Shorter wavelengths (blue) scatter more than longer wavelengths (red)
Applications:
| Phenomenon | Explanation |
|---|---|
| Blue Sky | Shorter blue wavelengths scatter more |
| Red Sun at Sunrise/Sunset | Red light (longer wavelength) scatters less and travels longer |
Example: The orange hue of the sky during sunset.
π Key Equations and Facts
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No major equations, but remember the relationship for scattering:
Scattering β 1 / Ξ»β΄