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Combined Science
Physics
Cambridge IGCSE

 

TOPIC 3: WAVES

3.2c Lenses

The human eye is an amazing thing. We can identify differences in the position and colour of objects to an amazing degree of precision. But how does it do this? How are we able to count people in a crowd over 1 km away?
There are two key parts that make the eye work: The light sensitive cells at the back of the eye (the 'retina'), and the lens that focuses the light correctly. In this section, we will learn how lenses work, and how they are used in cameras, telescopes and other devices.

the human eye
Figure 1: The human eye

 

Converging lenses

A lens is basically a curved piece of transparent material like glass. There are many different designs, but in this double award course we will cover converging lenses. Any lens rely on the principle that different parts of the lens refract light in different directions. A converging lens has a standard symbol as shown here:

Convex lens and symbol
Figure 2: A converging lens

 

Figure 4 below shows how a converging lens refracts light. Notice how the light is bent towards a single point, called the principal focus (also called the focal point). The distance from the centre of the lens to this principal focus is called the focal length of the lens. A thin lens will have a long focal length, and a thick lens a short focal length.

The principal axis is a line that passes through the centre of the lens at 90° to the glass.

The principal focus of a convex lens

Figure 4. A converging lens refracting light

When an object is a long way away from the lens, the light rays heading towards the lens are effectively parallel and will be refracted to the principal focus. This kind of diagram is called a ray diagram. It can be used to show how light from any object is refracted by a lens.

 

Ray Diagrams

Ray diagrams follow some very specific rules. If you follow the rules, you can work our where an image will be formed, and what this image will look like. Here is an example for you:

Convex lens ray diagram #1

Figure 5. A converging lens ray diagram

 

There are several key features in the diagram above that you will need to learn.

1. To construct the diagram, just two lines are needed:

2. The point where the lines meet shows the where an image of the object will be produced. An image is a replica of the object seen by the eye. In this case we call it a real image because the image can be projected onto a screen. It is formed by real light rays converging at a point.

3. Notice that as well as being upside down (inverted), in this example the image is larger than the original object. It has been magnified. Images can be magnified (enlarged), diminished (made smaller) or stay the same size as the original object. This depends on the focal length and the placement of the object.

 

Questions:

1. Using information from the diagram shown in figure 5, state two features of the image shown.

Any two from:

Remember if it asks for 2 features, only list 2!


2. A converging lens is used form an image of a small pencil. The principal focus F of the lens is shown in the diagram:

finding the image using a ray diagram Q2

a) The completed ray diagram should look like this:

finding the image using a ray diagram Q2

Notice that one ray goes straight through the centre of the converging lens and is not refracted - it carries on in a straight path. Another ray runs parallel to the centre line, and then is refracted through the principal focus.
Where these two lines meet, the image of the pencil tip will be found.

b) The image is formed underneath the principal axis, and so is inverted.

c) Using measurements from a print out, the image was found to be 2.8 cm compared to 6.2 cm for the object. The image has been diminished/reduced in size (by a factor of over 2, compared to the object)

 

a) The completed ray diagram should look like this with the correct symbol for the lens, and diverging rays (spreading o

 

 

 

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