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Lenses This Presentation was used for Year 12 students.

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Presentation on theme: "Lenses This Presentation was used for Year 12 students."— Presentation transcript:

1 Lenses This Presentation was used for Year 12 students.
Note: This PowerPoint is one of over 60 that were developed and used at John Paul College, Rotorua between 1996 and 2002 by D Bradley. They were primary designed as teacher directed resources.

2 The word “lens” comes from the Latin word for lentils.
Picture of lentils.

3 Lenses Diverging Lens Or Double Concave lens Converging Lens Or
Virtual Focal point! Diverging Lens Or Double Concave lens Converging Lens Or Double Convex lens F F f f

4

5 Lens = refraction x2

6 Converging Lens Practical Activity
Equipment: meter ruler candle Converging lens (f ~ 20 cm ???) Object location do > 2f do = 2f 2f > do > f For the 3 object locations listed ~ Sketch a ray diagram ~ state the nature of the image ~ record di (so as to be able to calculate f) do = f do < f Investigate the image produced for

7 Light passes through a lens
Ray Tracing for Lenses Light passes through a lens There is a focal point on both sides of a lens Converging Lens: Ray #1: Parallel to the axis Refracts through F Ray #2: Through F Refracts parallel to axis Ray #3: Through Center of lens undeflected

8 Ray diagrams Inverted Real Enlarged Double Convex
Converging Thin Lens: do > f Inverted Real Enlarged Real Image Ray diagrams

9 Example: Camera

10 Example: Projector

11 See 5 Lens applet

12 Find the focal length of a converging lens by holding it up to a window.
(See how far away from the lens you need to hold a piece of paper to focus the image on the paper.)

13 A camera with a focal length of 50 mm takes a photograph of a 100 m tall building from 350 m away. How tall is the image on the film?

14 Converging Thin Lens: do < f
Double Convex Converging Thin Lens: do < f f f ‘ Virtual Upright Enlarged R1 R2 do di

15 Example: Magnifying Glass
Web Link: Ray tracing

16 Object distance > 2f: Image is real, smaller, and inverted
Results: Ray Tracing for Converging Lenses (in each case, draw in the 3 rays for practice) Object distance > 2f: Image is real, smaller, and inverted F 2F Object between f and 2f: Image is real, larger, inverted F 2F Object between f and lens: Image virtual, larger, upright F 2F

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