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Suspensory ligaments

The ligaments which attach the lens to the ciliary muscles and which change the shape of the lens as the muscles relax or contract

Ciliary muscles

Muscles which contract and relax to change the shape of the lens of the eye to bring about fine focus of the light from an image on the retina.


Spreading out


Change direction when it enters at an angle

Light sensitive cells

The retina of the eye contains many light sensitive cells. They all contain chemicals which change when light falls on them, triggering an impulse in the sensory neurones which make up the optic nerve. The impulses travel along the optic nerve to the visual areas of your brain. The sensory cells then use energy produced by aerobic respiration in the mitochondria to return the chemicals to their original state.

There are two main types of sensory cells on the retina:

  • Rods: very sensitive to low light levels but do not give a clear image or colour vision. Found all over the retina except in the fovea. Used in dim light conditions for example early morning, dusk, dark rooms.
  • Cones: fewer cones than rods and they only work properly in bright light. They give colour vision and very clear, well-defined images. Found mainly in central area of retina – fovea is made up only of cones. Each cone only responds to red, blue or green light. The colour you see depends on the combination of cones stimulated. Some people are missing one or more type of cone – they are colour blind.
Rods and Cones

The sensory cells of the eye

How the eye works

For you to see clearly, the light which comes into your eye from the world around you needs to be focused on your retina.

Light comes into your eyes travelling in rays. This light must be bent (refracted) to bring it in to focus.

  • As light passes from one medium to another it is refracted – so as it passes from the air into the eye it is bent
  • As the light passes through the lens of the eye it is bent again

As a result the image which arrives on your retina is in focus and upside down.

How we see the world

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The rays of light coming into the eye from a close object for example a book you are reading tend to be travelling differently to the rays of light from an object away in the distance.

The rays of light which reach your eye from a close object tend to be spreading out – they are diverging. As a result, they need a lot of bending to bring them into focus on your retina.

The rays of light which reach your eye from a distant object are travelling in almost parallel rays. As a result they need less bending to bring them into focus on your retina.

All of the light which comes into your eye passes through the cornea and aqueous humour which bend it towards the retina. However it is the lens which makes sure you can see close up and distant objects equally well. This fine focusing is possible because the lens changes shape.

Focusing on a nearby object Focusing on a distant object
nearby object distant object
Light rays diverging so still need lots of bending when they reach the lens. Lens becomes shorter, fatter and much more convex (rounded) so it bends the light to bring it into focus on the retina. Light rays almost parallel so need little more bending to bring them into focus on the retina once they have passed through the front of the eye. Lens stretched long, thin and relatively flat so it has little effect.

How does the lens change shape? It is surrounded by circular muscles called the ciliary muscles. These muscles are attached to the lens by the suspensory ligaments. These ligaments do not stretch or give. The ciliary muscles contract or relax in response to the type of light entering the eye:

  • Light from distant objects: The ciliary muscles relax, the suspensory ligaments are pulled tight and this in turn pulls the lens long, thin and relatively flat.
  • Light from close objects: The ciliary muscles contract, the suspensory ligaments go slack and the lens becomes shorter and fatter.

Accommodation is the term used for the ability of the human eye to focus on objects at different distances away.

Accommodation in the eye

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Question 7