Chapter 27

1. Chapter 27 Light

2. The Definition of Light • The current scientific definition of Light is a photon carried on a wave front. • This definition incorporates the dual nature of light, which means that light behaves both like a particle and a wave. • Light is a form of electromagnetic radiation – that means that it does not require a medium to travel through. • All electromagnetic radiation travels at 3 x 108 m/s

3. Electromagnetic Waves • The electromagnetic spectrum is a range of waves extending from radio waves to gamma waves. • The lowest frequency of light that we can see is red in color – all waves below that are called infrared. • The highest frequency of light that we can see is violet in color and any frequencies that are higher than that are said to be ultraviolet.

4. Transparent and Opaque • Materials that transmit all of the light which they receive are said to be transparent. They let light through. • Materials which absorb light without reemission are said to be opaque – they do not let light through.

5. Shadows • A shadow is caused when an object block light from a source. • A shadow has two parts: • Umbra – total shadow – no light received. • Penumbra – partial shadow – some light received, some blocked.

6. Chapter 28 Color

7. The Colors of Light • Light is defined as the frequencies of electromagnetic radiation which stimulate the human retina. • Light ranges in color from: • Red - lowest frequency/longest wavelength • Orange • Yellow • Green • Blue • Indigo • Violet – highest frequency/shortest wavelength

8. White Light and the Color Black • White light contains all of the colors (frequencies) of visible light. • Black is the absence of light. • Vision is the process of seeing reflected light. The color that you see is reflected from an objects – all other wavelengths are absorbed.

9. Color by Transmission • The color of a transparent object depends upon the color it transmits. • The material which selectively absorbs colors of light is called a pigment. • Absorbed light warms the object – hence darker colors tend to get warm in sunlight and lighter colors tend to remain cooler.

10. Mixing Light • When red, blue and green light (primary colors) are mixed, new colors are formed (secondary colors). • All three colors form white light. • Red and Green – yellow • Red and Blue – magenta • Green and Blue - Cyan

11. Mixing Pigments • When you mix pigments (paints) you add by subtraction – that is each pigment you add to your mixture subtracts a color of light. • Primary pigments • Magenta • Yellow • Cyan • Secondary Mixtures • Yellow and Cyan – Green • Yellow and Magenta – Red • Magenta and Cyan - Blue

12. Why the sky is blue and sunsets are red… In the morning and evening the sunlight has to travel a longer path through the atmosphere which will scatter longer and longer wavelengths of light before reaching us. Hence we see red! • Tiny O and N molecules scatter incoming light. Especially in the high energy spectrum. Our eyes are not very sensitive to violet so we see a blue sky.

13. Chapter 29 Reflection and Refraction

14. Reflection • When a wave reaches a boundary between two media and is turned back – this is reflection • Total reflection –boundary with a more rigid medium • Partial reflection – less rigid medium.

15. Law of Reflection • The law of reflection states that the angle of incidence = angle of reflection Angle of reflection Angle of incidence Incident ray Reflected ray

16. Mirrors • Plane mirrors are flat mirrors which form a virtual image. • A virtual image is one which forms on the opposite side of the mirror. • Images are the same size as the object and the same vertical orientation.

17. Curved Mirrors: Concave and Convex • Concave Mirror • Curves inward • Close objects Form a virtual image which is larger than the object • Objects further away form real images which are cast on a screen • Convex Mirror • Curves outward • Close objects form a virtual image which is smaller than the object • These mirrors are used to give a wide field of view

18. Refraction • Refraction is the bending of light at a boundary. • If the speed in the new media is less than the speed in the old, the wave bends toward the normal • If the speed in the new media is more than the speed in the old, the wave bends away from the normal. Sidewalk Grass

19. Snell’s Law and the Index of Refraction • How much light bends at a boundary is given by Snell’s Law or the Index of refraction: Another way that this law is written is: n0 sin i = n sin r Where n0 is the index for the material you are moving out of and n is the index for the material you are going into.

20. Sample Problem • What is the speed of light in crown glass if its index of refraction is 1.52? • What is the angle of refraction for a wave in crown glass if its angle of incidence is 30°. Assume that it is coming from air into a cube of the glass.

21. Solution n0 sin i = n sin r 1 sin 30° = 1.52 sin r 1 sin 30°/1.52 = sin r r = 19.73°

22. Dispersion through a Prism • Dispersion through a prism is a form of refraction. • Atmospheric refraction is what causes a rainbow.

23. FIRE RAINBOW When light enters through a vertical side face of such an ice crystal and leaves from the bottom face, it refracts, or bends, in the same way that light passes through a prism. If a cirrus's crystals are aligned just right, the whole cloud lights up in a spectrum of colors