 Some sequences of geometric objects change in predictable ways.  Some angles have special relationships based on their position or measure.  Polygons.

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Presentation transcript:

 Some sequences of geometric objects change in predictable ways.  Some angles have special relationships based on their position or measure.  Polygons can be described uniquely by their sides and angles.

 Draw a triangle on a piece of paper.  Find the measure of each of the 3 angles in your triangle.  Compare your angle measures with those of your table group. What patterns or relationships do you observe?

 Other than by measuring, how could we prove that the measures of the angles in a triangle add up to 180 o ?

 Draw a triangle on a notecard.  Cut out the triangle.  Label each vertex of the triangle (close to the vertex)  Cut off the vertices of the triangle.  Put them together.  What do you get?

 Use the Parallel Postulate (p. 604) › Look at figure on p. 605  What do we know?  What does this tell us? l m A BC Line l is parallel to line m

 Draw a triangle on a piece of paper.  What is the sum of the angle measures of the 3 exterior angles in your triangle?  Compare your results with those of your table group, and make a conjecture.  How could you prove your conjecture? 1 2

 On a post-it, write a conjecture for what you think the rule might be for finding the measure of the exterior angles of any polygon.  How might you prove your conjecture?

 Method 1: Cut out exterior angles  Method 2: Walk-and-Turn  Method 3: Use the relation with the sum of the interior angles

 Quadrilaterals › In your groups, draw a quadrilateral. › Measure each angle. › Find the sum of the angle measures. › Record your result.  Repeat with a polygon with more than 4 sides.

SidesTotal Angle MeasureAvg. Angle Measure 3180°60°

 What pattern(s) do you notice?  What conjecture can you make?  How could you prove your conjecture?

 There are 3 approaches for determining the measure of the interior angles of a polygon: › Find the triangles with a common vertex at one vertex of the polygon › Find the triangles with a common vertex in the center of the polygon › Walk and Turn

 Section 10.3: #’s 15, 16, 22, 41, 42, 43, 47, 49  Turn in #’s 15, 16, 42, & 47