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Light and the Electromagnetic Spectrum

Light and the Electromagnetic Spectrum. Lesson 1 Unit 3: Physics – Light and Geometric Optics November 1 st , 2010. Read the first two pages of the handout and answer the questions. Light and Colour.

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Light and the Electromagnetic Spectrum

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  1. Light and the Electromagnetic Spectrum Lesson 1 Unit 3: Physics – Light and Geometric Optics November 1st, 2010

  2. Read the first two pages of the handout and answer the questions

  3. Light and Colour • White light is actually composed of a combination of many colours - all the colours of the rainbow. • If a second prism is added the colours can be recombined to produce white light. This proves that white light is made up of multiple colours

  4. Properties of Waves

  5. The Electromagnetic Spectrum

  6. The Wave Model of Light • The white light separates into thecolours of the rainbow, including red, orange, yellow,green, blue, and violet (ROY G BV). The range of different colours of light is called the visible spectrum. These waves lengths are detected by the eye.

  7. Additive Colour Theory of Light • The additive colour theory of light states that white light is composed of different colours (wavelengths) of light. • It is possible to produce white light by combining only three colours.

  8. Additive Colour Theory of Light • These three colours of light are known as primary colours.

  9. Additive Colour Theory of Light • If you mix correct amounts of all three primary colours of light, you will make white light. If you mix only two of the primary colours together, you will make a secondary colour. • The secondary colours of light for red, green, and blue are magenta, yellow, and cyan.

  10. Demonstration with computer program

  11. Subtractive Colour Theory of Light When a light wave strikes an object • Some wavelengths of lightreflect, which means that they bounce off the object. • Other wavelengths are absorbed by the object. • The colour you see when you look at an object depends on the wavelengths that are reflected

  12. The colour of a Rose R G B A red object has particles of pigment that absorb the other two primary light colours blue and green, and reflects red light.

  13. R G B A yellow rose on the other absorbs blue light and reflects both red and green light. An objects colour is determined by what colours it absorbs and which it reflects. Remember white light contains Red, Green and Blue light.

  14. Subtractive Colour Theory of Light • According to the subtractive colour theory of light, coloured matter selectively absorbs different colours or wavelengths of light. • The colours that are absorbed are “subtracted” from the reflected light that is seen by the eye. • A black object absorbs all colours • A White object reflects all colours. • A blue object reflects blue and absorbs all other colours.

  15. Subtractive Colour Theory of Light According to the subtractive colour theory of light, coloured matter selectively absorbs different colours or wavelengths of light. • The colours that are absorbed are “subtracted” from the reflected light that is seen by the eye. • A black object absorbs all colours • A White object reflects all colours. • A blue object reflects blue and absorbs all other colours.

  16. Subtractive Colour Theory of Light • The primary and secondary colours of light for the subtractive theory are opposite to the colours of the additive theory • Cyan, magenta, and yellow are the primary subtractive colours, while red, green, and blue are the secondary subtractive colours.

  17. Subtractive Colour Theory of Light • If a colour is absorbed, it will not make it to your eye. You only see the reflected colours. • Paint and pigment manufacturers mix all three of the primary subtractive colours in varying degrees to make any range of colours reflect from a surface.

  18. Primary pigments

  19. Demonstration with computer program

  20. Filters also work by using the subtractive theory • Filters contain pigments. As light is transmitted through the filter, these pigments absorb some light colours but not all. • Example: A blue filter absorbs red and green light, and transmits blue light.

  21. Filters and Subtractive Theory What light colours would a cyan filter absorb and transmit?

  22. Colour Printing • The theory of subtractive colours is applied in many situations, including colour photography and colour printing. • Example: Colour printers use three primary colours, yellow, cyan and magenta. By combining these colours as well as black these printers can produce over 1 million colours • Demonstration with computer program

  23. What Is White Light Made Of? - Lab • Purpose • To observe the components of white light • Procedure • 1. Set the prism upright on the desk so that the rectangular sides are vertical. • 2. Place the ray box about 20 cm away from the prism so that the ray shines on the prism. • 3. Slowly rotate the prism. Observe the direction of light that emerges from the prism. • 4. Hold a piece of white paper in the path of the light emerging from the prism about 50 cm away from the prism. Observe. • 5. If you do not see anything interesting, try rotating the prism again.

  24. Questions • 6. (a) What colours did you see when light from the ray box shone through the prism? • (b) What is the order of the colours? • (c) How easily could you determine where one colour ended and another colour began? • 7. Where do you think the colours came from in step 4? • 8. Where have you seen prisms or objects that remind you of prisms in your day-to-day life?

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