1. 10.1 Polygons
Geometry

2. Objectives: Identify, name, and describe polygons
Use the sum of the measures of the interior and exterior angles.

3. Example 1: Identifying Polygons
State whether the figure is a polygon. If it is not, explain why.
Not D – has a side that isn’t a segment – it’s an arc.
Not E– because two of the sides intersect only one other side.
Not F because some of its sides intersect more than two sides/
Figures A, B, and C are polygons.

4. Polygons are named by the number of sides they have – MEMORIZE
Type of Polygon 3
Triangle 4
Quadrilateral 5
Pentagon 6
Hexagon 7
Heptagon

5. Polygons are named by the number of sides they have – MEMORIZE
Type of Polygon 8
Octagon 9
Nonagon 10
Decagon 12
Dodecagon n
n-gon

6. Convex or concave?
Convex if no line that contains a side of the polygon contains a point in the interior of the polygon.
Concave or non-convex if a line does contain a side of the polygon containing a point on the interior of the polygon.
See how it doesn’t go on the
Inside-- convex
See how this crosses
a point on the inside?
Concave.

7. Convex or concave?
Identify the polygon and state whether it is convex or concave.
A polygon is EQUILATERAL
If all of its sides are congruent.
A polygon is EQUIANGULAR
if all of its interior angles are congruent.
A polygon is REGULAR if it is
equilateral and equiangular.

8. Identifying Regular Polygons
Heptagon is equilateral, but not equiangular, so it is NOT a regular polygon.
Remember: Equiangular & equilateral
Decide whether the following polygons are regular.
Pentagon is equilateral and equiangular, so it is a regular polygon.
Equilateral, but not equiangular, so it is NOT a regular polygon.

9. Interior angles of quadrilaterals
The sum of the measures of the interior angles of a quadrilateral is 2(180°), or 360°.

11. Theorem 6.1: Interior Angles of a Quadrilateral
The sum of the measures of the interior angles of a quadrilateral is 360°.
m1 + m2 + m3 + m4 = 360°

12. Ex. 4: Interior Angles of a Quadrilateral
80°
Find mQ and mR.
Find the value of x. Use the sum of the measures of the interior angles to write an equation involving x. Then, solve the equation. Substitute to find the value of R.
70°
2x° x°
x°+ 2x° + 70° + 80° = 360°

13. Ex. 4: Interior Angles of a Quadrilateral
80°
Ex. 4: Interior Angles of a Quadrilateral
70°
2x° x°
x°+ 2x° + 70° + 80° = 360°
3x = 360
3x = 210
x = 70
Sum of the measures of int. s of a quadrilateral is 360°
Combine like terms
Subtract 150 from each side.
Divide each side by 3.
Find m Q and mR.
mQ = x° = 70°
mR = 2x°= 140°
►So, mQ = 70° and mR = 140°

14. Practice Together

15. Practice Together

16. Practice Together

17. = 157.5
180 s – 360 = s
22.5 s = 360
S = 16