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TopicSlidesMinutes 1 Displacement 927 2 Vectors 1339 3 Kinematics 1339 4 Graphs 1030 5 Energy 1030 6 Power 515 7 Springs 412 8 Shadows 39 9 Field of.

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Presentation on theme: "TopicSlidesMinutes 1 Displacement 927 2 Vectors 1339 3 Kinematics 1339 4 Graphs 1030 5 Energy 1030 6 Power 515 7 Springs 412 8 Shadows 39 9 Field of."— Presentation transcript:

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3 TopicSlidesMinutes 1 Displacement 927 2 Vectors 1339 3 Kinematics 1339 4 Graphs 1030 5 Energy 1030 6 Power 515 7 Springs 412 8 Shadows 39 9 Field of Vision 721 10 Colors 39 11 721 12 Convex mirrors 412 13 Refraction 515 14 Lenses 1030 15 Optical Power 618 Concave Mirrors

4 The law of reflection, therefore, simply states that when a ray of light is reflected from a surface, it is reflected in such a direction that the incident angle equals the reflected angle. Using the law of reflection, we can determine the location of images formed by plane mirrors. x x o o

5 Converges light Diverges light Brings it together Spreads it out Converging mirrorDiverging mirror

6 F Concave mirrors C Back of mirror Principal axis Radius of curvature f Focal length V (vertex) Center of curvature Focal point NOTE The focal length (f) is half the radius of curvature.

7 Click A ray parallel to the principal axis is reflected through the focal point (F). In order to draw images formed by curved mirrors, remember that : F C Principal axis Back of mirror V

8 Click A ray that goes through the focal point (F) is reflected parallel to the principal axis. In order to draw images formed by curved mirrors, remember that : F C Principal axis Back of mirror V

9 Click A ray that strikes the vertex (V) is reflected like a plane mirror. (Angle of incidence = Angle of reflection) In order to draw images formed by curved mirrors, remember that : F C Principal axis Back of mirror V Incident ray Reflected ray Incident ray Reflected ray

10 Click A ray that goes through C (the center of curvature) is reflected back along its own path. In order to draw images formed by curved mirrors, remember that : F C Principal axis Back of mirror V

11 F Concave mirrors C Back of mirror Principal axis Object at infinity (very far away) All rays arrive parallel to the principal axis All rays reflect through F No Image formed

12 F Concave mirrors C Back of mirror Principal axis Object Image d o is positive Object beyond C d i is positive h i is negative M is negative and  1 d o is positive h o d i d o Real

13 F Concave mirrors C Back of mirror Principal axis Object Image d i is positive h i is negative M is negative and  1 d o is positive h o Object beyond C d o is positive h o Real

14 F Concave mirrors C Back of mirror Principal axis Object Image d o is positive h o d i h i is negative M is negative and  1 Object beyond C Real

15 F Concave mirrors C Back of mirror Principal axis Object Image d o is positive h o d i h i is negative M is negative and  1 Object beyond C Real

16 F Concave mirrors C Back of mirror Principal axis Object Image d i is positive h i is negative M is negative and = 1 d o is positive h o Object at center of curvature Real

17 F Concave mirrors C Back of mirror Principal axis Object Image d i is positive h i is negative M is negative and  1 d o is positive h o Object between C and F Real

18 F Concave mirrors C Back of mirror Principal axis Parallel d o is positive h o Object at focal point No Image formed

19 Concave mirrors FC Back of mirror Principal axis Diverging d o is positive h o Object within focal length

20 Concave mirrors FC Back of mirror Principal axis Diverging d i d i is negative h i is positive M is positive and  1 Image d o is positive h o h i Object within focal length Virtual

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22 Click The diagram below represents an object placed in front of a concave mirror whose centre of curvature is at point C. Which of the following best represents the image formed by the mirror? A)B) C)D) F Concave Mirrors Slide:

23 A) Real and upright B) Real and inverted C) Virtual and upright D) Virtual and inverted E) No image is formed Click An object is placed at point P in front of a concave mirror. Which of the following are the characteristics of the image. F Image Draw F which is midway between C and mirror. Concave Mirrors Slide:

24 Image Click Concave Mirrors Slide:

25 Click Concave Mirrors Slide:

26 Normal Click Concave Mirrors Slide:

27 A real image formed in front of a curved mirror is always: Click A) Smaller than the object B) Larger than the object C) Upright D) Inverted Image Not always! Concave Mirrors Slide: Look!

28 Image Click Concave Mirrors Slide:

29 … and good luck!

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