Difference between revisions of "Spherical Geometry: Isometry Exploration"
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(Added planeillustration questions to both translation/reflection and rotation/reflection questions.) 

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+  *In the plane, translations are compositions of reflections. Draw a sketch showing how two translations across parallel lines result in a translation. (Illustrate it with a set of points or an asymmetric figure fairly close to one of the reflection lines.)  
+  *What about on the spheredoes the same thing work?  
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+  *In the plane, rotations are compositions of reflections. Draw a sketch showing how two translations across intersecting lines result in a rotation. (Illustrate it with a set of points or an asymmetric figure fairly close to one of the reflection lines.) What is the center of the resulting rotation?  
+  *What about on the spheredoes the same thing work?  
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Revision as of 18:00, 22 October 2007
Objective:
Extend concepts of reflection, rotation and translation to the sphere
 On the sphere below sketch several images of the smiley face under translation. Can we translate the image to the back of the sphere? Why or why not? What happens if our translation distance is greater than the circumference of the circle?
 Rotate the smiley face through an angle of 45 degrees about K in a counter clockwise direction.
 Reflect the smiley face across line segment r.
 Create a glidereflection using line segment r as the translation direction.

 How are translations on the sphere different from those in the plane? How are they similar?
 How are rotations on the sphere different from those in the plane? How are they similar?
 How are reflections on the sphere different from those in the plane? How are they similar?
 How are glidereflections on the sphere different from those in the plane? How are they similar?

 In the plane, translations are compositions of reflections. Draw a sketch showing how two translations across parallel lines result in a translation. (Illustrate it with a set of points or an asymmetric figure fairly close to one of the reflection lines.)
 What about on the spheredoes the same thing work?

 In the plane, rotations are compositions of reflections. Draw a sketch showing how two translations across intersecting lines result in a rotation. (Illustrate it with a set of points or an asymmetric figure fairly close to one of the reflection lines.) What is the center of the resulting rotation?
 What about on the spheredoes the same thing work?
Handin: A sheet with answers to all questions.