Reflections in a plane mirror
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Transcript of Reflections in a plane mirror
![Page 1: Reflections in a plane mirror](https://reader036.fdocuments.net/reader036/viewer/2022081505/55615652d8b42a780d8b5356/html5/thumbnails/1.jpg)
Reflections in a Plane Mirror
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Geometric Optics
The use of light rays to determine the path of light when it strikes an object
Incident light: light from a source (e.g. bulb, sun) that strikes an object
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Matter Transparent Translucent Opaque
Effect on incident
lightTransmits
Transmits some
Absorbs or reflects
Effect on visibility
See through not clearCan not see
through
Example
Matter Classified by behaviour when light strikes
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Ray Model of Light
Light rays illustrate the
travel of light in a straight line
arrows show the source of the light and the direction of light travel
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Ray Diagram Terminology
Incident ray – incoming ray that strikes a surface Reflected ray – ray that bounces off a reflective
surface Normal – perpendicular line to a mirror surface
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Ray Diagram Terminology Angle of incidence
– angle between the incident ray and the normal
Angle of reflection – angle between the reflected ray and the normal
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Lab: Reflecting light off a plane mirror Nelson Science Perspective 10
textbook section 11.5 page 482-483 Work in groups of 3 For each group hand in:
Light ray diagram Observation chart Answer to all questions on page 483
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Reflection Terminology
Reflection: bouncing back of light from a surface
Mirror: any polished surface that exhibits reflection
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Types of Mirrors
Plane mirror: flat Curved mirror
a. Concave / convergingb. Convex / diverging
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Actual Mirror Scientific Mirror Symbol
Glass
Thin reflective surface
Reflective surface
Opaque side
Optics Symbol
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Reflection in a Plane Mirror
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Law of Reflection
When light reflects off a surface, the angle of incidence is always equal to the angle of reflection
i = ri = r
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Reflection in a Plane Mirror
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Law of Reflection
The incident ray, the reflected ray and the normal all lie in the same plane.
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Types of Reflection
SPECULAR REFLECTION
Reflection off a smooth surface
DIFFUSE REFLECTION
Reflection off an irregular/dull surface
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Reflection Terminology
Reflection: bouncing back of light from a surface
Mirror: any polished surface that exhibits reflection
Image: a reproduction of an original object through the use of light
Virtual image: an image formed by light that does not come from the image location (but it appears to come from the image)
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Brain and the plane mirror
1. Eyes detect reflected light from a plane mirror
2. Brain projects light rays backwards in a straight line.
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Brain and the plane mirror
Result:
•brain thinks there is a light source behind the mirror where the light rays originate
•see an image behind the mirror called a virtual image
Result:
•brain thinks there is a light source behind the mirror where the light rays originate
•see an image behind the mirror called a virtual image
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Brain and the plane mirror
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Properties of an image
Type
Size
Attitude
Real Virtual
Enlarged
Reduced
Same
Upright
Laterally Inverted
Inverted (vertical)
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Type
Real - image appears in front of the mirror (could be projected onto a screen)
Virtual - image appears behind the mirror
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Virtual image
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Size
Enlarged - image is larger than the object
Reduced - image is smaller than the object
Same - image is the same size as the object
a)
b)
c)
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Attitude
UprightInverted (vertical)
Laterally Inverted
image is right-side up
image is upside-down
image is flipped
horizontally
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Lateral Inversion
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Size Attitude Location Type
Larger, same, or smaller
Upright or inverted
Image distance Virtual or Real
Summary of Properties of an Image Using S.A.L.T.
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Lab: Locating Images in a Plane Mirror See workbook
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Locating an image in a plane mirror A. Using Object-Image Lines B. Using Light Rays (ray diagram) C. Using both Object-Image lines and
Light Rays (ray diagram)
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Object distance = Image Distance
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Solid lines Dashed lines of the same length
Using object-image lines to locate image in a plane mirror
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Locating an image in a plane mirror A. Using Object-Image Lines B. Using Light Rays (ray diagram) C. Using both Object-Image lines and
Light Rays (ray diagram)
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Using light rays to locate image in a plane mirror: Step 1
Identify the top and the bottom of the object (label these “A” and “B”)
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Using light rays to locate image in a plane mirror: Step 2
Draw an incident ray (starting at point A)
Draw a “normal” where the incident ray hits the mirror
Use a protractor to draw a reflecting ray
(Remember that i = r )
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Using light rays to locate image in a plane mirror: Step 3
Repeat step 2 with a second incident ray at a different angle
Draw an incident ray (starting at point A)
Draw a “normal” where the incident ray hits the mirror
Use a protractor to draw a reflecting ray
(Remember that i = r )
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Using light rays to locate image in a plane mirror: Step 4
Extend both reflected rays behind the mirror until they intersect (Ai)
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Using light rays to locate image in a plane mirror: Step 5
Repeat steps 2-4 for Point B
Draw the virtual image using points Ai and Bi as a guide
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Locating an Image in a Plane Mirror (Light rays)1. Pick two points on the object (opposite
sides)2. Draw 2 incident rays3. Use the law of reflection to draw the
reflected rays (draw normal, measure angle of incidence to determine angle of reflection)
4. Extend the reflected ray into the virtual side of the mirror (use dotted lines)
5. Find the intersection of the two extended reflected rays
6. Repeat for the second point7. Using the 2 intersection points to draw the
virtual image (dot the lines).
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Locating an image in a plane mirror A. Using Object-Image Lines B. Using Light Rays (ray diagram) C. Using both Object-Image lines and
Light Rays (ray diagram)
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Using object-image lines and light rays to locate image in a plane mirror: Step 1
Identify the top and the bottom of the object (label these “A” and “B”)
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Using object-image lines and light rays to locate image in a plane mirror: Step 2
Draw a line from point A that is perpendicular to the mirror
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Using object-image lines and light rays to locate image in a plane mirror: Step 3
Draw an incident ray (starting at point A)
Draw a “normal” where the incident ray hits the mirror
Use a protractor to draw a reflecting ray
(Remember that i = r )
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Using object-image lines and light rays to locate image in a plane mirror: Step 4
Extend line A to point Ai (equidistant from point A on the other side of the mirror)
Connect point Ai to your reflection ray
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Using object-image lines and light rays to locate image in a plane mirror: Step 5
Repeat steps 2-4 for Point B
Draw the virtual image using points Ai and Bi as a guide
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Properties of an image in a plane mirror S: Same size A: Upright L: Behind the mirror at the same
distance that the object is in front of the mirror
T: Virtual image