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GEOMETRY CONSTRUCTIONS CREATING PERFECT SHAPES WITHOUT NUMBERS

Geometry Constructions

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Geometry Constructions. Creating Perfect Shapes without numbers. To Err is Human. In mathematics and science when we prove ideas, we are trying to show that it works for every case. To do this we can’t just pick numbers and try it once, but it’s impossible to try it for every number. - PowerPoint PPT Presentation

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Page 1: Geometry Constructions

GEOMETRY CONSTRUCTIONSCREATING PERFECT SHAPES WITHOUT NUMBERS

Page 2: Geometry Constructions

TO ERR IS HUMANIn mathematics and science when we prove ideas, we are trying to show that it works for every case. To do this we can’t just pick numbers and try it once, but it’s impossible to try it for every number.Also, we can’t use human measurements of length and degrees. This is because humans aren’t perfect and the tools we use aren’t perfect either.

Page 3: Geometry Constructions

MATH WITHOUT THE NUMBERSThere are some proofs of geometry concepts that can be done with formal constructions.A formal geometric construction uses only a compass and a straight edge. This removes the use of human measurement and generalizes the proof to work for all possible measures.

Page 4: Geometry Constructions

TOOLS OF THE TRADEA Geometry compass is tool that is used for drawing arcs and circles. The most important part of choosing a compass is making sure it will hold it’s position.Anything with a rigid straight side can be used for a straight edge. I like to use popsicle sticks instead of rulers because they don’t have any numbers to tempt students to cheat on their constructions

Page 5: Geometry Constructions

CONSTRUCTION 1

A perpendicular bisector of a line segment, divides the segment into two equal parts with a perpendicular line.

This construction also can be used to find the midpoint of a line segment.

PERPENDICULAR BISECTOR

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PERPENDICULAR BISECTOR (MIDPOINT)

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CONSTRUCTIONS 2 AND 3

We’ll use the same idea and techniques to make a perpendicular that isn’t the bisector. For the first one the point is on the line segment. For the second one the point is not on the line segment.

PERPENDICULAR THROUGH A POINT

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PERPENDICULAR LINE THROUGH POINT ON LINE SEGMENT

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PERPENDICULAR LINE THROUGH POINT NOT ON SEGMENT

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CONSTRUCTION 4

An angle bisector divides an angle into two equal angles.

ANGLE BISECTOR

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ANGLE BISECTOR

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CONSTRUCTION 5

To make congruent angles we need to make a copy of an angle.

COPYING AN ANGLE

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MAKING CONGRUENT ANGLES PART 1

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MAKING CONGRUENT ANGLES PART 2

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CONSTRUCTION 6

An equilateral triangle has three congruent sides and three congruent angles.

EQUILATERAL TRIANGLE

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EQUILATERAL TRIANGLES

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CONSTRUCTION 7

Circum means around and scribe means write. So to circumscribe a circle around a triangle means to draw a circle around the triangle.

To do this we will be making perpendicular bisectors of the sides of the triangle.

CIRCUMSCRIBING

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CIRCUMSCRIBING A CIRCLE AROUND A TRIANGLE

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CONSTRUCTION 8

This time we’re going to construct a circle inside the triangle.

INSCRIBING

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INSCRIBING A CIRCLE IN A TRIANGLE

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CONSTRUCTION 9

Because circles have 360 degrees they are easily separated into six segments. This is why hexagons are often found in nature, like basalt columns, honeycombs and crystals.

HEXAGONS

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HEXAGONS

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HEXAGONS

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HEXAGONS

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HEXAGONS

This method can also be used for making an equilateral triangle By just connecting every other mark.

Page 26: Geometry Constructions

WHAT ELSE CAN YOU MAKE WITH YOUR COMPASS?

Flower of Life drawing from one of Leonardo DaVinci’s sketchbooks.