Exploring Special Lines (Pappus, Desargues, Pascal s Mystic Hexagram)

Similar documents
TImath.com. Geometry. Perspective Drawings

To Explore the Properties of Parallelogram

Properties of Special Parallelograms

One of the classes that I have taught over the past few years is a technology course for

Exploring Triangles. Exploring Triangles. Overview. Concepts Understanding area of triangles Relationships of lengths of midsegments

2.2. Special Angles and Postulates. Key Terms

Topic: Right Triangles & Trigonometric Ratios Calculate the trigonometric ratios for , and triangles.

Visa Smart Debit/Credit Certificate Authority Public Keys

Downloaded from

Technical Drawing Paper 1 - Higher Level (Plane and Solid Geometry)

(Geometry) Academic Standard: TLW use appropriate tools to perform basic geometric constructions.

Objective: Use a compass and straight edge to construct congruent segments and angles.

7th Grade Drawing Geometric Figures

HEXAGON NOTATION. (1) Salmon, in the "Notes" at the end of his Conic Sections designates by. the point of intersection of the lines ab,

Objective: Use a compass and straight edge to construct congruent segments and angles.

3 In the diagram below, the vertices of DEF are the midpoints of the sides of equilateral triangle ABC, and the perimeter of ABC is 36 cm.

Euclid s Muse MATERIALS VOCABULARY. area perimeter triangle quadrilateral rectangle line point plane. TIME: 40 minutes

3. Given the similarity transformation shown below; identify the composition:

Name Period Date LINEAR FUNCTIONS STUDENT PACKET 5: INTRODUCTION TO LINEAR FUNCTIONS

Title: Quadrilaterals Aren t Just Squares

Up and Down. - Circle Theorems 2: The Converse of the Chord Theorem -

Algebra 2. TMT 3 Algebra 2: Student Lesson 2 140

Secret Key Systems (block encoding) Encrypting a small block of text (say 128 bits) General considerations for cipher design:

Look Alikes Purpose: Objective: TExES Mathematics 4-8 Competencies. TEKS Mathematics Objectives. Terms. Materials. Transparencies.

0809ge. Geometry Regents Exam Based on the diagram below, which statement is true?

Name Date Class Period. 5.2 Exploring Properties of Perpendicular Bisectors

The Geometer s Sketchpad Unit 1. Meet Geometer s Sketchpad

Materials: Computer lab or set of calculators equipped with Cabri Geometry II and lab worksheet.

UNIT I PLANE CURVES AND FREE HAND SKETCHING CONIC SECTIONS

DATE PERIOD. Lesson Reading Guide. Line and Angle Relationships

The University of the State of New York REGENTS HIGH SCHOOL EXAMINATION GEOMETRY. Wednesday, January 29, :15 a.m. to 12:15 p.m.

Planes, Tetrahedra, and Cross Sections

0810ge. Geometry Regents Exam y # (x $ 3) 2 % 4 y # 2x $ 5 1) (0,%4) 2) (%4,0) 3) (%4,%3) and (0,5) 4) (%3,%4) and (5,0)

Using inductive reasoning and conjectures Student Activity Sheet 2; use with Exploring The language of geometry

Math 3 Geogebra Discovery - Equidistance Decemeber 5, 2014

Table of Contents. Constructions Day 1... Pages 1-5 HW: Page 6. Constructions Day 2... Pages 7-14 HW: Page 15

The Folded Rectangle Construction

Round and Round. - Circle Theorems 1: The Chord Theorem -

Tutor-USA.com Worksheet

6th FGCU Invitationdl Math Competition

Projection and Perspective For many artists and mathematicians the hardest concept to fully master is working in

6.2 Slopes of Parallel and Perpendicular Lines

Droodle for Geometry Final Exam

(Length and Area Ratio s)

TOURNAMENT ROUND. Round 1

Building Blocks of Geometry

2010 Pascal Contest (Grade 9)

Geometer s Sketchpad Version 4

Investigation and Exploration Dynamic Geometry Software

b. Draw a line and a circle that intersect at exactly one point. When this happens, the line is called a tangent.

2. Here are some triangles. (a) Write down the letter of the triangle that is. right-angled, ... (ii) isosceles. ... (2)

GEOMETRY. Workbook Common Core Standards Edition. Published by TOPICAL REVIEW BOOK COMPANY. P. O. Box 328 Onsted, MI

Extra Practice 1. Name Date. Lesson 8.1: Parallel Lines. 1. Which line segments are parallel? How do you know? a) b) c) d)

Chapter 5. Drawing a cube. 5.1 One and two-point perspective. Math 4520, Spring 2015

! 1F8B0 " 1F8B1 ARROW POINTING UPWARDS THEN NORTH WEST ARROW POINTING RIGHTWARDS THEN CURVING SOUTH WEST. 18 (M4b)

A PROOF OF EUCLID'S 47th PROPOSITION Using the Figure of The Point Within a Circle and With the Kind Assistance of President James A. Garfield.

Parallel and Perpen icular Lines. Worksheets

Graphing and Describing Reflections

CALCULATORS: Casio: ClassPad 300 Texas Instruments: TI-89, TI-89 Titanium. Using the Casio ClassPad 300

12th Bay Area Mathematical Olympiad

The problems in this booklet are organized into strands. A problem often appears in multiple strands. The problems are suitable for most students in

The Pythagorean Theorem

Draw an enlargement of this rectangle with scale factor 2 Use point A as the centre of enlargement.

Score. Please print legibly. School / Team Names. Directions: Answers must be left in one of the following forms: 1. Integer (example: 7)

Module 5. Topic: Triangle based Explorations. Mathematical Elements. Pedagogical Elements. Activities Mathematics Teaching Institute

Perpendicular and Parallel Line Segments

Constructing Perpendiculars to a Line. Finding the Right Line. Draw a line and a point labeled P not on the line, as shown above.

Angles 1. Angles 2. Which equation can be used to find the value of x? What is the m AGH? a. 180º. a. 2 x = x b. 30º. b. 2 x + x + 15 = 180

Unit 10 Arcs and Angles of Circles

Measuring and Drawing Angles and Triangles

Unit 6 Guided Notes. Task: To discover the relationship between the length of the mid-segment and the length of the third side of the triangle.

YEAR 8 SRING TERM PROJECT ROOTS AND INDICES

[2] Karol Borsuk and Wanda Szmielew. Foundations of Geometry. North Holland Publishing Co., Amsterdam, 1960.

Math Labs. Activity 1: Rectangles and Rectangular Prisms Using Coordinates. Procedure

Standards of Learning Guided Practice Suggestions. For use with the Mathematics Tools Practice in TestNav TM 8

Parallels and Euclidean Geometry

G.SRT.B.5: Quadrilateral Proofs

ONE. angles which I already know

Class 9 Coordinate Geometry

G.SRT.B.5: Quadrilateral Proofs

Crisscross Applesauce

DIRECTIONS FOR GEOMETRY HONORS CONSTRUCTION PROJECT

Meet #5 March Intermediate Mathematics League of Eastern Massachusetts

CO-ORDINATE GEOMETRY CHAPTER 3. Points to Remember :

What s a Widget? EXAMPLE A L E S S O N 1.3

CSci 127: Introduction to Computer Science

Analytic Geometry EOC Study Booklet Geometry Domain Units 1-3 & 6

Geometry Topic 4 Quadrilaterals and Coordinate Proof

Challenges from Ancient Greece

MATHEMATICS: PAPER II

Lesson Plans for Overview Notes for the Teacher Day #1

Mathworks Math Contest (MMC) For Middle School Students October 29, 2013

!"#$ %&& ' ( ) * ' ) * !"#$!%&&'

Chapter 12. A Cheerful Fact The Pythagorean Theorem

Cross Sections of Three-Dimensional Figures

What You ll Learn. Why It s Important

8WD4 Signaling Columns

Function Block DIGITAL PLL. Within +/- 5ppm / 10 years (Internal TCXO Stability) 1 External Reference Frequency Range: 10MHz +/- 100Hz

Investigating the Sine Function

C Mono Camera Module with UART Interface. User Manual

Transcription:

Exploring Special Lines (Pappus, Desargues, Pascal s Mystic Hexagram) Introduction These three lab activities focus on some of the discoveries made by famous mathematicians by investigating lines. The first activity focuses on the work by Desargues. Desargues (1591-1661) was from a wealthy family and had unlimited access to books and attended great educational institutions. Although recognized for his designs of a spiral staircase and other inventions, he is best known for his work in geometry. He is considered the inventor of projected geometry. Pappus Line is the focus of the second lab. Pappus (290-350) lived in Alexandria and was one of the famous Greek geometers. He wrote Mathematical Collection and is considered the father of projective geometry. The third lab allows students to investigate Pascal s mystic hexagram. Frenchman Blaise Pascal (1623-1662) was most famous for the Pascal triangle and his work on the cycloid. He discovered his mystic hexagram at the age of 16 and read Euclid s Elements at the age of 12. Key Words: Lines, modern geometry Ohio State Model Curriculum Objectives 1) Students will be able to compare, order, and determine equivalence of real numbers. 2) Students will be able to write inequalities for various triangular relationships. Learning Objectives 1) Students will complete basic constructions with a series of lines. 2) Students will make conjectures and test their results using geometry software. 3) Students will discuss collinear and non-collinear points. Materials Computers or calculators with Cabri geometry installed Exploring Special Lines lab worksheet Procedures Discuss the mathematicians Pappus, Desargues, and Pascal. Divide the students into groups of no more than three (two is preferable) Have students complete the lab worksheet. Monitor students progress during the activity. Use results from the lab activity as assessment. Review findings prior to the conclusion of class.

Exploring Special Line - Desargues Line Lab #1 Worksheet Team members: File Name: Date: Lab Goals Students will investigate a famous result discovered by Desargues through his work with lines. Desargues (1591-1661) was from a wealthy family and was welleducated. Although recognized for his designs of a spiral staircase and other inventions, he is best known for his work in geometry. He is considered the inventor of projected geometry. Procedures 1) Draw point A. (use point tool) 2) Construct three different lines BCD and EFG. Do not put much space between the different points. (use line tool) 3) Place points E, F, and G on lines AB, AC, and AC, respectively. (use point on object tool) 4) Construct triangle BCD and EFG. (use triangle tool and attribute tool) Make the triangle thick to stand out. 5) Construct lines BC, BD, CD, EF, FG, EG. (use line tool) 6) Find the intersection of lines BC and EF. Label the point H. Next, find the intersection of lines BD and EG. Label this point I. Finally, find the intersection

of lines CD and FG. Label this point J. (use intersection points tool and attribute tool) 7) What do you notice about the points H, I, and J? 8) Test your result from #7. Was your conjecture correct? 9) Now grab a vertex of triangle BCD and move it around. Record your observations below. 10) Repeat #9 using triangle EFG. Record your observations. Triangles BCD and EFG are defined as being homological (or in perspective). Since all three lines pass through point A, point A is described as the homological center. The line that contains points H, I, and J is the homological axis. Extension Draw a line connecting H, I, and J. Hide everything except point A, the two triangles and the homological axis (line HJ ). Experiment by moving the vertices of the triangles and making generalizations about the effects of moving each vertex. Record your thoughts. Also, describe why the triangles are described as being in perspective. Discuss why the terms homological axis and homological center are used.

Exploring Special Lines - Pappus Line Lab #2 Worksheet Team members: File Name: Date: Lab Goals Students will investigate a famous result discovered by Pappus through his work with lines. Pappus Line is the focus of this lab. Pappus (290-350) lived in Alexandria and was one of the famous Greek geometers. He wrote Mathematical Collection and is considered the founder of projective geometry. It is actually a special case of Pascal s Mystic Hexagram, which is the subject of the next lab. Procedure 1) Construct line AB. Place point C on the line. 2) Draw line DE. Place F on the line. (use line tool and use objects on line tool) (use line tool and use objects on line tool) 3) Draw lines AD, and EC. Label the intersection of those lines point G. 4) Draw lines BE and AF. Label the intersection of those lines point H. 5) Draw lines CF and DB. Label the intersection of these lines point I. (use line tool and use intersection tool)

6) Record your observations below. Focus on the points G, H, and I. What do you notice? 7) Test your results from above. Is your conjecture from #7 correct? 8) Grab the different points and move them around. Record any other observations that you see. Extension Connect the points G, H, and I. Hide the lines and watch the points as they move. Describe the locus of points as they move around the screen. Record any additional observations below.

Exploring Special Lines Pascal s Mystic Hexagram Lab #3 Worksheet Team members: File Name: Date: Lab Goals Students will investigate a famous discovery of Pascal through his work with lines - the mystic hexagram. Frenchman Blaise Pascal (1623-1662) was most famous for the Pascal triangle and his work on the cycloid. He discovered his mystic hexagram at the age of 16 and read Euclid s Elements at the age of 12. The Pappus line in lab #2 is a special case of Pascal s work. Procedure 1) Construct a circle of any size. Place six points on the circle in the following order: A, B, C, D, E, and F. (use circle tool and use points on object tool) 2) Draw lines DA and EB. Label the intersection of these lines point G. 3) Draw lines AC and BF. Label the intersection of these lines points H.

4) Draw lines CE and FD. Label the intersection of these points I. 5) Record your observations below. Focus on the points G, H, and I. What do you notice? 6) Test your conjecture from #7. Is your conjecture from #7 correct? 7) Grab the different points and move them around. Record any other observations that you see. The line HG is known as the Pascal line. Extension Connect the points G, H, and I. Hide the lines and watch the points as they move. Describe the locus of points as they move around the screen. Record any additional observations below. Draw different lines to see if you can find other Pascal lines.

2024 © hobbydocbox.com Privacy Policy | Terms of Service | Feedback