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The human eye

Investigation : model of the human eye

This demonstration shows that:

  1. The eyeball has a spherical shape.
  2. The pupil is a small hole in the front and middle of the eye that lets light into the eye.
  3. The retina is at the back of the eyeball.
  4. The images that we see are formed on the retina.
  5. The images on the retina are upside down. The brain inverts the images so that what we see is the right way up.

You will need:

  1. a round, clear glass bowl
  2. water
  3. a sheet of cardboard covered with black paper
  4. a sheet of cardboard covered with white paper
  5. a small desk lamp with an incandescent light-bulb or a candle and a match

You will have to:

  1. Fill the glass bowl with water.
  2. Make a small hole in the middle of the black cardboard.
  3. Place the black cardboard against one side of the bowl and the white cardboard on the other side of the bowl so that it is opposite the black cardboard.
  4. Turn on the lamp (or light the candle).
  5. Place the lamp so it is shining through the hole in the black cardboard.
  6. Make the room as dark as possible.
  7. Move the white cardboard until an image of the light bulb or candle appears on it.

You now have a working model of the human eye.

  1. The hole in the black cardboard represents the pupil. The pupil is a small hole in the front of the eyeball that lets light into the eye.
  2. The round bowl of water represents the eyeball.
  3. The white cardboard represents the retina. Images are projected onto the retina and are then sent to the brain via the optic nerve.


  1. Is the image on the retina right-side up or upside down? Explain why.
  2. Draw a simple labelled diagram of the model of the eye showing which part of the eye each part of the model represents.

Structure of the eye

Eyesight begins with lenses. As light rays enter your eye, they pass first through the cornea and then through the crystalline lens . These form a double lens system and focus light rays onto the back wall of the eye, called the retina . Rods and cones are nerve cells on the retina that transform light into electrical signals. These signals are sent to the brain via the optic nerve . A cross-section of the eye is shown in [link] .

A cross-section of the human eye.

For clear vision, the image must be formed right on the retina, not in front of or behind it. To accomplish this, you may need a long or short focal length, depending on the object distance. How do we get the exact right focal length we need? Remember that the lens system has two parts. The cornea is fixed in place but the crystalline lens is flexible – it can change shape. When the shape of the lens changes, its focal length also changes. You have muscles in your eye called ciliary muscles that control the shape of the crystalline lens. When you focus your gaze on something, you are squeezing (or relaxing) these muscles. This process of accommodation changes the focal length of the lens and allows you to see an image clearly.

The lens in the eye creates a real image that is smaller than the object and is inverted

( [link] ).

Normal eye

Defects of vision

In a normal eye the image is focused on the retina.

Normal eye

If the muscles in the eye are unable to accommodate adequately, the image will not be in focus. This leads to problems with vision. There are three basic conditions that arise:

  1. short-sightedness
  2. long-sightedness
  3. astigmatism


Short-sightedness or myopia is a defect of vision which means that the image is focused in front of the retina. Close objects are seen clearly but distant objects appear blurry. This condition can be corrected by placing a diverging lens in front of the eye. The diverging lens spreads out light rays before they enter the eye. The situation for short-sightedness and how to correct it is shown in [link] .



Long-sightedness or hyperopia is a defect of vision which means that the image is focused in behind the retina. People with this condition can see distant objects clearly, but not close ones. A converging lens in front of the eye corrects long-sightedness by converging the light rays slightly before they enter the eye. Reading glasses are an example of a converging lens used to correct long-sightedness.



Astigmatism is characterised by a cornea or lens that is not spherical, but is more curved in one plane compared to another. This means that horizontal lines may be focused at a different point to vertical lines. Astigmatism causes blurred vision and is corrected by a special lens, which has different focal lengths in the vertical and horizontal planes.

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Source:  OpenStax, Siyavula textbooks: grade 11 physical science. OpenStax CNX. Jul 29, 2011 Download for free at http://cnx.org/content/col11241/1.2
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