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20 Phyical Science Properties of Waves Notes Chapters 13 & 14 A. Speed of Light & Plane Mirrors Info OHT on Electromagnetic Spectrum What is Light? Demo laser - properties of light SOL Calculate the speed of light using Michelson’s method (f = 37,500 RPM with one way distance of 30 km) Demo images using mirrors and lenses image characteristics Notes SOL and Image Characteristics Practice p. 373 1-2 Demo Pin Hole Camera - demo camera and define hi, ho, di, do Activity PHC template and do lab Notes PHC - theory, include magnification and convention example(s) Practice p. 376 #1-3 Activity Symmetry and Kaleidoscope & Investigation 13.2 - straight line - 2nd law of reflection - scattering p. 391 13 - 16 p. 391 # 17,18 kaleidoscope - demo Notes First law Activity Investigation 13.3 & Practice p. 392 # 22 - 27 They try - periscope, image of image of their faces Practice p. 390 # 2 - 8 Ray Diagrams Simple, Periscope, & 2 Mirrors at Right Angles B. Curved Mirrors Demo Effect of Concave and Convex Reflecting surfaces on the path of light Define Converging, diverging, focal point, focal length, centre of curvature, radius of curvature, vertex, principle axis Notes Effect of radius of curvature on focal length (on OHT) - f = R/2 Ray Diagrams rationale steps (on OHT) rules for (on OHT) practice 5 converging scenarios & 1 diverging scenario Practice p.412 #8 – 11 (only if time permits) Activity (optional) Activity 14-1 p.408 must review image characteristics must know how to find the focal length must know where to measure distance from complete data table and questions # 1-5 for Q#5 stress how to compare numbers and why Lesson Mirror Equation (and review sign convention) Example #1 - An object 8.0 cm tall is placed 37.0 cm from a converging mirror with a focal length of 23 cm. How far away is the image formed, how large is it, what is the magnification and what are the characteristics of the images? Example #2 - The size of an image is one third that of the object when placed in front of a diverging mirror with a radius of curvature of 22.0 cm. How far away is the object from this mirror? Practice p. 404 # 1, 2b, & 3 p. 415 # 14 - 21 Illustration Spherical Aberration p. 404 Applications Demo reflecting telescope (need concurrent activity - see below) Reading - “Seeing the Edge of the Universe” p. 416 Reading - p. 405 - 407 - Solar Furnaces Practice p. 411 # 1,2,5,6,7
