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Human Eye

It is a naturally occurring optical instrument. As you all know that we have a pair of eyes and its function is to enable us to see. Without it, the whole world would have been a dark place for us.
Human Eye and Colourful World | Olympiad Preparation for Class 10

Structure of Eye

  • It is a spherical ball with a small bulge in the front part.
  • It is located in the eye socket.
  • It has two layers that cover it: scleroid and choroid.

Human Eye and Colourful World | Olympiad Preparation for Class 10

The function of the scleroid: It is the outermost covering that consists of white fibers and its function is to protect all parts of the eye.

The function of the choroid: It is a grey membrane attached to the choroid from the inner side. Its function is to darken the eye from the inside so that no internal reflection takes place.

Apart from these layers, it consists of:

It is the white part of the eye that allows light to enter. It acts as a window to the world.

  • Iris: It is a colored part of the eye. It holds the pupil and also adjusts the size of the pupil according to the intensity of light.
  • Pupil: It is black in color and absorbs all the light rays falling on it. It gets constricted when the intensity of light is high. It gets expanded when the intensity of light is low.
  • Ciliary muscles: They hold the lens. They adjust the focal length of the lens.
  • Convex lens A cellular structure resembling a convex lens (diverging lens).
  • Retina: It is the screen of an eye where an image is formed.
    It consists of two types of cells:
    (i) Cone cells: those cells which respond to colors.
    (ii) Rod cells: those cells which respond to the intensity of light.
  • Yellow spot: A point on the retina where the clearest image is formed.
    (i) Blindspot: It is that point on the retina where no image is formed.
    (ii) Optic nerve: A nerve that connects the eye to the brain.

The fluid which is present between the cornea and lens is called aqueous humor.

  • Function: It is a watery fluid present in the interior part of the eye and its function is to protect the exterior part of the eye from collapsing when there is a sudden change in the atmospheric pressure. Also, it is the fluid that flows out from the eye when we wink our eyes. So, it washes the eye and also keeps it moist.

The fluid is present between the lens and retina and is called the vitreous humor.

  • Function: It is a dense jelly-like fluid present in the posterior part of the eye and its function is to protect the posterior part of the eye from collapsing when there is a sudden change in the atmospheric pressure. It also helps in focusing the image clearly on the retina.

Adjustment of the size of the pupil according to the intensity of light: When we are exposed to bright light the iris constricts the pupil partially or we can say that the pupil shortens so that the right amount of light enters and a clear image is formed. Whereas in a dark room, Pupil expands itself to gather more light in order to obtain a clear image.
Human Eye and Colourful World | Olympiad Preparation for Class 10

Accommodation of the eye: It is the ability of the eye lens to adjust its focal length so that a clear image is formed on the retina that can be easily recognized by our brain.
In the case of far-off objects. 
In order to see a far-off object, our ciliary muscles, lens, and focal length undergo a change i.e. the ciliary muscles relax, the lens becomes thin and elongated, and the focal length increases.
In the case of nearby objects. In order to see nearby objects, the focal length of the lens and ciliary muscles undergo a change. ciliary muscles contract, the lens becomes thick and short and the focal length decreases.
Human Eye and Colourful World | Olympiad Preparation for Class 10

Eye Defects

Myopia (Short-sightedness): It is a defect in which a person is unable to see far objects clearly but can see nearby objects. The cause for this is that the ciliary muscles do not relax properly, the lens does not elongate properly due to which the focal length does not increase properly. As a result, no clear image is formed.
Eye Defect: Eyeball being too elongated, the converging power of lens is too high. Due to this, the image is formed in front of the retina and can’t be identified by the brain. Correction can be done by using spectacles containing concave lenses that diverge the rays first so that our eye lens can converge them properly on the retina.
Human Eye and Colourful World | Olympiad Preparation for Class 10

Human Eye and Colourful World | Olympiad Preparation for Class 10

Hypermetropia (Long sightedness): It is a defect in which a person is unable to see nearby objects but can see far-off objects clearly. The cause is that the ciliary muscles do not contract properly, the lens does not become thick and short due to which the focal length doesn’t decrease. As a result, the image formed is not clear and can’t be identified by the brain.
Eye Defect: Eyeballs being too short and converging power of the lens being too low. Due to this, the image is formed behind the retina. Correction can be done by using spectacles containing a convex lens that increases the ciliary power of the eye lens so that it can converge rays properly on the retina.
Human Eye and Colourful World | Olympiad Preparation for Class 10

Presbyopia: It happens with a gradual increase in age. Our ciliary muscles like other muscles weaken, i.e. they can’t contract or relax properly. As a result, a person can’t see near or far off objects clearly. Correction can be done by the use of spectacles continuing bifocal lens.
Far Point – Infinity.
Near Point- 25 cm.

Human Eye and Colourful World | Olympiad Preparation for Class 10

Refraction through prism

Prism: It is a piece of glass or any transparent material bounded by triangular and three rectangular surfaces. The rectangular surfaces are called refracting surfaces. The angle between two refracting surfaces is called refracting angle or angle of prism.
The line along which the two refracting surfaces meet is called refracting the edge. Any section of prism which is perpendicular to refracting edge is called a principal section of the edge.
The difference between refraction through a glass prism and a glass slab is as follows:
In slab, the emergent ray is parallel to the incident ray but in the case of a prism, an emergent ray is not parallel to the incident ray because the opposite faces of the prism eye are not parallel to each other.

Dispersion

It is defined as the phenomenon of splitting light into seven colors. When light (Sunlight or bulb light) is allowed to pass through a glass prism it splits into seven colors. It splits because we know white light is a combination of seven colors and each color, on entering the prism, gets refracted by a different angle due to which different color (spectrum) is obtained on the screen.
Human Eye and Colourful World | Olympiad Preparation for Class 10
The different colors obtained are Red, Orange, Yellow, Green, Blue, Indigo, Violet

  • Wavelength decreases, frequency increases – red color
  • Red color – Least Deviated
  • Violet color- Maximum Deviated
  • The seven colors can recombine to give white light.

One of the applications of dispersion is the formation of a Rainbow.
Rainbow: It is an example of dispersion (A spectrum formed by dispersion of sunlight). “It is formed due to dispersion of white sunlight by raindrops in the atmosphere. Each raindrop acts as a tiny glass prism. A Rainbow is always formed opposite the sun. White light enters these raindrops, different color rays are refracted through different angles due to which the rainbow is formed.

Atmospheric Refraction

It is due to different layers of the atmosphere having varying densities. Upper ones are rarer and layers close to Earth’s surface are denser.
Human Eye and Colourful World | Olympiad Preparation for Class 10

Twinkling of stars and apparent position.

  • When light from a star passes through the atmosphere, they mix continuously. So when the star is in line of sight, it is visible and when out of sight, it is not visible, so they appear to twinkle. But planets do not twinkle.
  • Planets are very close to us due to which the size of the apparent image is so large it falls outside the line of sight due to which they do not twinkle. The sun appears bigger during sunset and sunrise.
  • During sunset or sunrise, the rays of light travel through the maximum length of the atmosphere. Reflection is maximum. Hence, the apparent image is closer to the eyes and appears bigger.

Tyndall effect

The scattering of light by colloidal solution particles is called the Tyndall effect.
Human Eye and Colourful World | Olympiad Preparation for Class 10

Scattering

The process in which light is transmitted in all directions when it is incident on a particle that has a greater diameter is called scattering.
Human Eye and Colourful World | Olympiad Preparation for Class 10

Applications of Scattering

  • The sky appears blue: When white light passes through the atmosphere, violet, indigo, and blue colors encounter suspended particles. These waves are absorbed and then scattered and are received by our eyes.
  • The sun appears yellow: Violet, indigo, and blue colors are scattered in the upper atmosphere, so the resultant light is yellow. When this light enters our eyes, it appears yellow.
  • The sky appears dark instead of blue to an astronaut: In space, no particles are present thus, no scattering occurs. Hence, the sky appears dark.
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FAQs on Human Eye and Colourful World - Olympiad Preparation for Class 10

1. What is the structure and function of the human eye?
Ans. The human eye is a complex organ that allows us to see the world around us. It consists of several parts, including the cornea, iris, pupil, lens, retina, and optic nerve. The cornea and lens help in focusing light onto the retina, which contains light-sensitive cells called rods and cones. These cells convert light into electrical signals that are sent to the brain through the optic nerve, where they are interpreted as visual images.
2. How does the human eye perceive colors?
Ans. The human eye perceives colors through a process called color vision. This is made possible by the presence of three types of cones in the retina, which are sensitive to different wavelengths of light. One type of cone is sensitive to short wavelengths and perceives blue light, another is sensitive to medium wavelengths and perceives green light, and the third is sensitive to long wavelengths and perceives red light. When these cones are stimulated by different combinations of wavelengths, our brain interprets them as different colors.
3. What are the common eye disorders and their treatments?
Ans. There are several common eye disorders that can affect the human eye, such as myopia (nearsightedness), hyperopia (farsightedness), astigmatism, cataracts, glaucoma, and macular degeneration. The treatment for these disorders depends on the specific condition. It can range from wearing corrective glasses or contact lenses to undergoing surgical procedures like LASIK or cataract surgery. Regular eye check-ups and early detection of these disorders are crucial for effective treatment.
4. How does light enter the human eye and form an image?
Ans. Light enters the human eye through the transparent cornea, which acts as a protective outer covering. It then passes through the pupil, which is the small opening controlled by the iris. The iris adjusts the size of the pupil to regulate the amount of light entering the eye. The light then travels through the lens, which focuses it onto the retina at the back of the eye. The retina contains cells called rods and cones that convert the light into electrical signals, which are transmitted to the brain through the optic nerve. The brain then interprets these signals as visual images.
5. How does the human eye adjust to different distances?
Ans. The human eye can adjust to different distances through a process called accommodation. Accommodation is achieved by the ciliary muscles surrounding the lens. When we focus on a nearby object, the ciliary muscles contract, causing the lens to become thicker and more rounded, increasing its refractive power. This allows the eye to focus the incoming light from the near object onto the retina. Conversely, when we focus on a distant object, the ciliary muscles relax, causing the lens to become thinner and flatter, reducing its refractive power. This enables the eye to focus the incoming light from the distant object onto the retina.
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