CONCAVE MIRRORS - misshoughton.netmisshoughton.net/Grade10Academic/Optics/3 Concave Mirrors.pdf ·...
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CONCAVE MIRRORS
Section 10.3 (p.419 – 430)
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Learning Goals
• I can draw ray diagrams for concave and convex mirrors.
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CONCAVE MIRRORS A concave mirror is a mirror where the
reflecting surface curves inward.
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The following are terms that you must know:
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The following are terms that you must know:
Principle Axis - The line that passes through the centre of curvature. It is also normal to the centre of the mirror.
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The following are terms that you must know:
Principle Axis - The line that passes through the centre of curvature. It is also normal to the centre of the mirror. Centre of Curvature (C) - The point where all normals meet.
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The following are terms that you must know:
Principle Axis - The line that passes through the centre of curvature. It is also normal to the centre of the mirror. Centre of Curvature (C) - The point where all normals meet.
Vertex (V) - The point where the principal axis cuts the centre of the mirror.
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The following are terms that you must know:
Principle Axis - The line that passes through the centre of curvature. It is also normal to the centre of the mirror. Centre of Curvature (C) - The point where all normals meet.
Vertex (V) - The point where the principal axis cuts the centre of the mirror. Focal Point (F) - When incident rays are near and parallel to the principal axis, their reflected rays all pass through the same point on the principal axis. This point is called the focal point. DEMO: YouTube - FieryPencil.MP4
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The following are terms that you must know:
Principle Axis - The line that passes through the centre of curvature. It is also normal to the centre of the mirror. Centre of Curvature (C) - The point where all normals meet.
Vertex (V) - The point where the principal axis cuts the centre of the mirror. Focal Point (F) - When incident rays are near and parallel to the principal axis, their reflected rays all pass through the same point on the principal axis. This point is called the focal point. Focal Length (f) - This is the distance between the vertex and the focal point.
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The following are terms that you must know:
Principle Axis - The line that passes through the centre of curvature. It is also normal to the centre of the mirror. Centre of Curvature (C) - The point where all normals meet.
Vertex (V) - The point where the principal axis cuts the centre of the mirror. Focal Point (F) - When incident rays are near and parallel to the principal axis, their reflected rays all pass through the same point on the principal axis. This point is called the focal point. Focal Length (f) - This is the distance between the vertex and the focal point. Radius of Curvature (R) - This is the distance from the vertex to the centre of curvature.
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Drawing Ray Diagrams for Concave Mirrors
Points to remember when drawing ray diagrams involving concave mirrors:
1. When an incident ray travels parallel to the principal axis, it is reflected through the focal point (F).
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Drawing Ray Diagrams for Concave Mirrors
2. When an incident ray passes through the focal point (F), the reflected ray is parallel to the principle axis.
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Drawing Ray Diagrams for Concave Mirrors
3. When an incident ray passes through the centre of curvature (C), it is reflected back onto itself.
i = r = 0
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Drawing Ray Diagrams for Concave Mirrors
4. When an incident ray strikes the vertex (V), the principal axis is its normal.
Source: www.tutorvista.com
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Characteristics of Images in Concave Mirrors
Images in concave mirrors can be very different, depending on where the object is located relative to the focal point (F).
See Lesson Worksheet: Locating images in concave mirrors
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Locating Images in Concave Mirrors
Any object can be placed in one of three regions:
a) Beyond C
b) Between C and F
c) Between F and V
C F V
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Instructions:
Draw ray diagrams to locate the image when the object is in each of the three locations listed above. Observe your image and identify the four characteristics of each image (Location, Orientation, Size, and Type)
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Part A
Object location: beyond C
C F V
object
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Part A
Object location: beyond C
C F V
object
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Part A
Object location: beyond C
C F V
object
1. Parallel to mirror – reflect through F
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Part A
Object location: beyond C
C F V
object
1. Incident ray parallel to principal axis – reflected ray goes through F
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Part A
Object location: beyond C
C F V
object
1. Incident ray parallel to principal axis – reflected ray goes through F
2. Incident ray goes through F – reflected ray is parallel to principle axis
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Part A
Object location: beyond C
C F V
object
1. Incident ray parallel to principal axis – reflected ray goes through F
2. Incident ray goes through F – reflected ray is parallel to principle axis
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Part A
Object location: beyond C
Conclusion: When the object is beyond the
centre of curvature, the image is: i) L – between C and F ii) O – inverted
iii) S – smaller than object
iv) T – real image
C F V
object
1. Incident ray parallel to principal axis – reflected ray goes through F
2. Incident ray goes through F – reflected ray is parallel to principle axis
3. Incident ray goes through C – reflected ray goes back through C
image
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Part B Object location: between C & F
Conclusion: When the object is between the centre of curvature and the focal point, the image is:
i) L – beyond C ii) O – inverted
iii) S – larger than object
iv) T – real image
C F V
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Part C: Object location: between F and V
Conclusion: When the object is between the vertex and the focal point, the image is:
i) L – behind mirror ii) O – upright
iii) S – larger than object
iv) T – virtual image
C F V
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Summary:
C F V
OBJECT
LOCATION IMAGE
Location Orientation Size Type
1. Beyond C
2. Exactly at C
3. Between C & F
4. Exactly at F
5. Between F & V
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Summary:
C F V
OBJECT
LOCATION IMAGE
Location Orientation Size Type
1. Beyond C In front Inverted Smaller Real
2. Exactly at C
3. Between C & F
4. Exactly at F
5. Between F & V
1
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Summary:
C F V
OBJECT
LOCATION IMAGE
Location Orientation Size Type
1. Beyond C In front Inverted Smaller Real
2. Exactly at C In front Inverted Same size Real
3. Between C & F
4. Exactly at F
5. Between F & V
1
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Object at Centre of Curvature - lightbulb
Source: www.physicsclassroom.com
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Summary:
C F V
OBJECT
LOCATION IMAGE
Location Orientation Size Type
1. Beyond C In front Inverted Smaller Real
2. Exactly at C In front Inverted Same size Real
3. Between C & F In front Inverted Larger Real
4. Exactly at F
5. Between F & V
1 3
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Summary:
C F V
OBJECT
LOCATION IMAGE
Location Orientation Size Type
1. Beyond C In front Inverted Smaller Real
2. Exactly at C In front Inverted Same size Real
3. Between C & F In front Inverted Larger Real
4. Exactly at F No clear image
5. Between F & V
1 3
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Summary:
C F V
OBJECT
LOCATION IMAGE
Location Orientation Size Type
1. Beyond C In front Inverted Smaller Real
2. Exactly at C In front Inverted Same size Real
3. Between C & F In front Inverted Larger Real
4. Exactly at F No clear image
5. Between F & V Behind Upright Larger Virtual
1 3 5
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CONVEX MIRRORS
A convex mirror is a mirror where the reflecting surface curves outward.
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Locating Images in Convex Mirrors
In a convex mirror, the focal point and centre of curvature are on the opposite side of where the object is placed. Therefore, we have only one region to place the object and the images will all have the same characteristics.
V F C
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Instructions: Complete the ray diagrams for the two object locations shown below and then characterize the image that is produced (remember it should be the same for both).
V F C
object
image
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V F C object
image
Conclusion: Any image produced by a convex mirror will be:
i) L – behind the mirror ii) O – upright iii) S – smaller than object iv) T – virtual image
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Success Criteria
• I have completed the practice questions.