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Thin Lenses-Intro Notes

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1 Thin Lenses-Intro Notes
A lens forms images by refracting (bending) light while a mirror reflects light

2 The Focal Point Light rays from an object that is very far away are nearly parallel The focal point of a lens is the place where the refracted light waves from a distant object converge (or appear to converge)

3 The focal length The focal length is the distance from the focal point to the center of the lens

4 Converging Lens A converging Lens is thicker in the middle. A converging lens will refract light waves so that they will “converge” to form an image. Also called a convex lens

5 Converging Lens A converging lens can produce a real or virtual image
When an object is located at a distance that is greater then the focal length, the image produced is real.

6 Converging Lens When the object is located at a distance that is between the lens and the focal point, the image is virtual

7 Diverging Lens A diverging lens is thinner in the middle. Rays of light that pass through a diverging lens will refract outward Also called a concave lens

8 Diverging Lens A diverging lens will produce only virtual images
The image produced will be smaller than the object The image will be inside of the focal point

9 Examples of Converging and Diverging Lenses

10 Thin-Lens Equation 1/p + 1/q = 1/f Where:
p = distance from object to lens q = distance from image to lens f = focal length

11 Signs For Lenses p is positive when the object is in front of the lens p is negative when the object is in back of the lens

12 Signs for lenses q is positive when the image is in back of the lens
q is negative when the image is in front of the lens

13 Signs for lenses f is positive for a converging lens
f is negative for a diverging lens

14 Example Problem An ant is placed 2 cm in front of a converging lens that has a focal length of 1 cm. What is another name for this lens? Where is the image located?

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