Presentation is loading. Please wait.

Presentation is loading. Please wait.

5.7 Proving that figures are special quadrilaterals

Published byRalph Hines Modified over 5 years ago

Similar presentations

Presentation on theme: "5.7 Proving that figures are special quadrilaterals"— Presentation transcript:

1 5.7 Proving that figures are special quadrilaterals

2 Proving a Rhombus First prove that it is a parallelogram then one of the following: If a parallelogram contains a pair of consecutive sides that are congruent, then it is a rhombus (reverse of the definition). If either diagonal of a parallelogram bisects two angles of the parallelogram, then it is a rhombus.

3 Proving a Rhombus You can also prove a quadrilateral is a rhombus without first showing that it is a parallelogram. If the diagonals of a quadrilateral are perpendicular bisectors of each other, then the quadrilateral is a rhombus.

4 Proving a Rectangle First, you must prove that the quadrilateral is a parallelogram and then prove one of the following conditions: If a parallelogram contains at least one right angle, then it is a rectangle (reverse of the definition) If the diagonals of a parallelogram are congruent, then the parallelogram is a rectangle.

5 Proving a Rectangle You can also prove a quadrilateral is a rectangle without first showing that it is a parallelogram if you can prove that all four angles are right angles.

6 Proving a Kite If two disjoint pairs of consecutive sides of a quadrilateral are congruent, then it is a kite (reverse of the definition). If one of the diagonals of a quadrilateral is the perpendicular bisector of the other diagonal, then the quadrilateral is a kite.

7 Prove a Square If a quadrilateral is both a rectangle and a rhombus, then it is a square (reverse of the definition).

8 Prove an Isosceles Trapezoid
If the nonparallel sides of a trapezoid are congruent, then it is isosceles (reverse of the definition). If the lower or upper base angles of a trapezoid are congruent, then it is isosceles.

9 Prove an Isosceles Trapezoid
3. If the diagonals of a trapezoid are congruent then it is isosceles.

10 Given Opposite sides of a are ║. An alt. of a Δ is  to the side to which it is drawn. If 2 coplanar lines are  to a third line, they are ║. If both pairs of opposite sides of a quad are ║, it is a  segments form a rt. . If a contains at least one rt , it is a rect. GJMO is a . OM ║ GK OH  GK MK is altitude of Δ MKJ. MK  GK OH ║ MK OHKM is a OHK is a rt . OHKM is a rect.

Download ppt "5.7 Proving that figures are special quadrilaterals"

Similar presentations

What is the most specific name for the quadrilateral?

What is the most specific name for the quadrilateral?
Special Quadrilaterals

Special Quadrilaterals
5.7 Proving That Figures Are Special Quadrilaterals

5.7 Proving That Figures Are Special Quadrilaterals
Quadrilateral Venn Diagram

Quadrilateral Venn Diagram
5.5 Properties of Quadrilaterals Objective: After studying this section, you will be able to identify some properties of: a. parallelograms, b. rectangles,

5.5 Properties of Quadrilaterals Objective: After studying this section, you will be able to identify some properties of: a. parallelograms, b. rectangles,
Advanced Geometry. First you must prove or be given that the figure is a parallelogram, then A PARALLELOGRAM is a rectangle if… 1. It contains at least.

Advanced Geometry. First you must prove or be given that the figure is a parallelogram, then A PARALLELOGRAM is a rectangle if… 1. It contains at least.
Advanced Geometry 5.4 / 5 Four Sided Polygons /  
 Properties of Quadrilaterals Learner Objective: I will solve problems using properties 
 of special.

Advanced Geometry 5.4 / 5 Four Sided Polygons /  
 Properties of Quadrilaterals Learner Objective: I will solve problems using properties 
 of special.
5.7 Proving that figures are special quadrilaterals

5.7 Proving that figures are special quadrilaterals
Quadrilateral Proofs.

Quadrilateral Proofs.
Proving That Figures Are Special Quadrilaterals

Proving That Figures Are Special Quadrilaterals
Name That Quadrilateral  Be as specific as possible.  Trapezoid.

Name That Quadrilateral  Be as specific as possible.  Trapezoid.
Proof Geometry.  All quadrilaterals have four sides.  They also have four angles.  The sum of the four angles totals 360°.  These properties are.

Proof Geometry.  All quadrilaterals have four sides.  They also have four angles.  The sum of the four angles totals 360°.  These properties are.
Warm-Up ABCD is a parallelogram. Find the length of BC. A B C D 5x + 3 3x + 11.

Warm-Up ABCD is a parallelogram. Find the length of BC. A B C D 5x + 3 3x + 11.
Warm Up Given BCDF is a kite BC = 3x + 4y CD = 20 BF = 12 FD = x + 2y Find the PERIMETER OF BCDF Given BCDF is a kite BC = 3x + 4y CD = 20 BF = 12 FD =

Warm Up Given BCDF is a kite BC = 3x + 4y CD = 20 BF = 12 FD = x + 2y Find the PERIMETER OF BCDF Given BCDF is a kite BC = 3x + 4y CD = 20 BF = 12 FD =
5.4 Special Quadrilaterals

5.4 Special Quadrilaterals
Unit 6-1:Classifying Quadrilateral Parallelogram: A parallelogram is a quadrilateral with both pairs of opposite sides -----------------.

Unit 6-1:Classifying Quadrilateral Parallelogram: A parallelogram is a quadrilateral with both pairs of opposite sides
Midsegments of a Triangle

Midsegments of a Triangle
Properties of Quadrilaterals

Properties of Quadrilaterals
Classifying Quadrilaterals Learning Target: I can classify quadrilaterals.

Classifying Quadrilaterals Learning Target: I can classify quadrilaterals.
Honors Geometry Special Quadrilaterals. Fill in all missing angle measures for the RECTANGLE:

Honors Geometry Special Quadrilaterals. Fill in all missing angle measures for the RECTANGLE:

Similar presentations

Ads by Google