Lesson 1:.  Polygon: simple, closed, flat geometric figures whose sides are straight lines.  Names of some polygons; triangle, quadrilateral, pentagon,

Slides:

Advertisements

Similar presentations

UNDERSTANDING QUADRILATERALS BY:SHIVANI, VIII

Advertisements

Geometry Terms. Acute Angles Acute Triangle Adjacent Angles Alternate Interior Angles Alternate Exterior Angles Angle Circle Complementary Angles Congruent.

Angles of Polygons.

Lesson 1-6 Polygons Lesson 1-6: Polygons.

Objectives Classify polygons based on their sides and angles.

Classify Polygons Section 1.6.

Angles of Polygons.

Definitions and Examples of Geometric Terms

Our Lesson Polygons Confidential.

Bell Work The length of segment AB is 5 ⅙ cm and the length of segment BC is 9 ⅕ cm. What is the length of segment AC?

Chapter 10 Geometric Figures By Jilliyn and Destiney :D.

Properties of Polygons The students will be able to describe the characteristics of a figure and to identify polygons.

Geometry Review.

Geometry Review. What is a six sided polygon called?

Prepared by: David Crockett Math Department. Angles If two lines cross, we say they intersect and the point where they cross is called the point of intersection.

Lesson 1-6 Polygons Lesson 3-4: Polygons.

1-6 Classify Polygons Warm Up Lesson Presentation Lesson Quiz

Sections 1.5 & 1.6. Notecard 16 Notecard 17 Definitions: Angles Classified by measure : An acute angle has a measure between 0 o and 90 o A right angle.

Lesson (1-6): Polygons_ p: 45 A polygon is a closed figure whose sides are all segments that intersect only at their endpoints examples polygonnot a polygon:

Geometry Agenda 1. ENTRANCE 2. Go over Practice 3. Quiz The Polygon Angle-Sum Theorems 5. Practice Assignment 6. EXIT.

Polygons Lesson What is a polygon? A polygon is a simple, closed, two-dimensional figure formed by three or more line segments (sides). Closed?

5.1 The Polygon Angle-Sum Theorem

Polygon – Shape with many angles; each segment (side) must intersect exactly 2 other segments.

Lesson 2 Geometry Review.

Warm-Up Draw an example of a(n)…

Geometry Chapter 3 Parallel Lines and Perpendicular Lines Pages

CHAPTER 3: PARALLEL LINES AND PLANES Section 3-5: Angles of Polygons.

Angles-Polygons-Triangles- Quadrilaterals Angles If two lines cross we say they INTERSECT. If two lines in the same plane do not intersect, we say they.

1 Objectives Define polygon, concave / convex polygon, and regular polygon Find the sum of the measures of interior angles of a polygon Find the sum of.

Unit 8 Polygons and Quadrilaterals Polygons.

GEOMETRY – DO NOW DRAW EACH FIGURE Name each polygon based on the number of sides: a) b) c)

By Mr. Dunfee Be sure to take these notes, or you will not be able to work at the computer.

Sections 1.5 & 1.6. Warm up (Left side) Definitions: Angles Classified by measure : An acute angle has a measure between 0 o and 90 o A right angle.

Chapter 2 Introducing Geometry. Lesson 2.1 Definition – a statement that clarifies or explains the meaning of a word or a phrase. Point – an undefined.

P O L Y G O N S 2-6. DEFINITION A POLYGON is the union of segments in the same plane such that each segment intersects exactly two others at their endpoints.

1.4 Polygons. Polygon Definition: A polygon is a closed figure in a plane, formed by connecting line segments endpoint to endpoint. Each segment intersects.

Chapter 6: Quadrilaterals Fall 2008 Geometry. 6.1 Polygons A polygon is a closed plane figure that is formed by three or more segments called sides, such.

2D & 3D Geometric Shapes Characteristics&Properties.

Sections 1.5 & 1.6. Vocabulary An angle consists of two different rays with the same endpoint. The rays are the sides of the angle. The endpoint is the.

Holt Geometry 6-1 Properties and Attributes of Polygons 6-1 Properties and Attributes of Polygons Holt Geometry Warm Up Warm Up Lesson Presentation Lesson.

Quadrilaterals Sec 6.1 GOALS: To identify, name, & describe quadrilaterals To find missing measures in quadrilaterals.

Polygon Angle-Sum. A polygon is a closed plane figure with at least three sides. The sides intersect only at their endpoints and no adjacent sides are.

Lesson 3-4: Polygons 1 Polygons. Lesson 3-4: Polygons 2 These figures are not polygonsThese figures are polygons Definition:A closed figure formed by.

Lesson 3-4 Polygons. A polygon is a closed figure No, not a polygon Yes, a polygon.

POLYGONS 10/17/2007 NAMING POLYGONS

6-1 Properties and Attributes of Polygons Warm Up Lesson Presentation

Lesson 1: Polygons, Triangles, Transversals and Proportional Segments

Types of Polygons Polygon- a flat closed figure made of straight line segments Circle the figures that are polygons. Cross out the figures  that are.

Plane figure with segments for sides

Triangle Vocabulary Equilateral:

Ms. Brittany Uribe Geometry

Angles of Polygons.

Do Now: What is the distance between (1, -3) and (5, -4)?

Polygons By Beth Roberts.

Lesson 3-4 Polygons Lesson 3-4: Polygons.

3.4 The Polygon Angle-Sum Theorems

Classifying Polygons.

Polygons, Triangles and Quadrilaterals

Attributes Straight sides Closed figure 3 or more sides

Lesson 3-4 Polygons.

Polygons Section 3-1.

Classifying Polygons.

Happy Thursday! Do Now: Recall that a complete rotation around a point is 360°. Find the angle measure represented by each letter (x, y, and z).

Geometry Vocabulary.

Lesson 3-4 Polygons.

Presentation transcript:

Lesson 1:

 Polygon: simple, closed, flat geometric figures whose sides are straight lines.  Names of some polygons; triangle, quadrilateral, pentagon, hexagon, heptagon, octagon.  Polygons have the same number of vertices as they do sides  Concave polygon: a polygon with an indentation  Convex polygon: a polygon with no indentation.

 Regular polygon: all angels have equal measures and all sides have equal lengths.  Irregular polygon: any polygon that is not a regular polygon.  The name of a polygon tells the number of sides the polygon has

 3 sidestriangle  4 sidesquadrilateral  5 sidespentagon  6 sideshexagon  7 sidesheptagon  8 sidesoctagon  9 sides nonagon  10 sidesdecagon  11 sidesundecagon  12 sidesdodecagon  N sidesn-gon

 Consecutive vertices: endpoints of one side of a polygon  Consecutive sides: two adjacent sides of a polygon  Diagonal: a line segment that connects two nonconsecutive vertices.

 Right triangle: a triangle with an angle of 90 degrees  Acute triangle: all angles in the triangle have a measure less than 90 degrees  Obtuse triangle: all angle measures are more than 90 degrees  Equilateral triangle: measure of all angles are equal.  The lengths of all sides are equal  Isosceles triangle: a triangle with at least two sides of equal length.  Scalene triangle: a triangle with no two sides the same length

 The sum of the measure of the three angles in a triangle is 180 degrees  The greatest angle is opposite the longest side, and the smallest angle is opposite the shortest side.  The angles opposite sides of equal length also have equal measures.  The sides opposite of equal measures also have equal lengths.  If all the sides of a triangle have different measures, then all measures of the angles will be different.

 If all three sides of a triangle have equal length, what does that tell us about the angles?  What is the measurement of those three angles?

 Find x and y 50 y x In any triangle the angles opposite equal sides are equal. Thus x is 50 degrees. The sum of three angles in a triangle is 180 degrees, so y must be 80 degrees.

 Find x and y x 40 y 150 The 150 degree angle is supplementary to angle x. So angle x= =30 degrees. Since angle B is 40 degrees, y= =110 degrees. You can double check by adding all the angles together =180 degrees. B

 Triangle ABD is an Equilateral triangle. Find the measurement Of angle D. D Since Triangle ABD is an equilateral, all angles inside ABD are 60 degrees. Angle D is supplementary to a 60 degree angle. So =120. angle D is 120 degrees C B A

 Transversal: a line that cuts or intersects two or more lines.  If a transversal intersects two or more lines that are parallel and if the transversal is perpendicular to one of the parallel lines, it is perpendicular to all the parallel lines.  parallelnot parallel

F F N so T is not perpendicular to either F or N. T N

J P M so T is not only perpendicular to J, but also to P and M T J P M

 If the transversal is not perpendicular to the lines, two groups of equal angles are formed.  Half the angles are “large angles” that are equal angles and are greater than 90 degrees. Half the angles are “small angles” and are less than 90 degrees.

There are 2 sets of vertical angles and 2 sets of supplementary angles at each intersection

 When three or more parallel lines are cut by two transversals, the lengths of the corresponding segments of the transversals are proportional. This means that the length of the segments of one transversal are related to the lengths of the corresponding segments of the other transversals by a number called the scale factor.

 In this figure p, m and n are parallel. The left to right scalar factor for this figure is 3/2. The arrowhead tells us that the scale factor is from left to right. This means that 3/2 times the length of any segment on the left equals the length of the corresponding segment on the right 2 N P M 9/2 3 3 Segment LengthTimes Scale FactorCorresponding segment length 22x3/2=3 33x3/2=9/2

2 N P M x 8/3 5 The segments whose lengths are 2 and 8/3 are corresponding segments. Thus, 2 times the left-to-right scale factor equals 8/3 To find the scale factor we set up this equation. 2(SF)=8/3 and solve ½(2)(SF)=8/3(1/2) SF=4/3 To solve for x we set up this equation. 5(SF)=x plug in for SF 5(4/3)=x 20/3=x

2 N P M x 1 8 X=4

 Homework worksheet due tomorrow