Presentation is loading. Please wait.

Presentation is loading. Please wait.

Lucas Numbers & Golden Triangles in the Regular Pentagon

Published byAleesha Willis Modified over 8 years ago

Similar presentations

Presentation on theme: "Lucas Numbers & Golden Triangles in the Regular Pentagon"— Presentation transcript:

1 Lucas Numbers & Golden Triangles in the Regular Pentagon
Steve Edwards Southern Polytechnic State Universtiy

2 Area of Regular Plane Figures
Standard Formula Heron’s Formula

3 Area of Pentagon with side s
Coxeter’s Geometry Weisstein’s Mathworld Koshy’s Fibonacci & Lucas Numbers

4 Euclid’s definition of Golden Ratio
When a line is cut in “extreme and mean” ratio, the ratio of the whole to the larger is the same as the ratio of the larger to the smaller.

5 Golden triangles

6 Theorem : A line drawn from one of the larger angles in a golden triangle cuts the opposite side in the golden ratio if and only if the line divides the triangle into obtuse and acute golden triangles. Create a sequence of dissections by always dividing all the larger triangles in the pentagon

7 1 3 4 2 1 3 4 7 11 3 4 7 The numbers of triangles of every type are always Lucas Numbers: 2, 1, 3, 4, 7, 11, 18, 29, 47, ...

8 The formula is also true for n non-positive.
Obtuse triangle area Acute triangle area 7 obtuse 11 acute 18 total The formula is also true for n non-positive. Ratio of areas is golden

9 Fibonacci 0, 1, 1, 2, 3, 5, 8, 13, 21, 34, 55, 89, 144, … Lucas , 1, 3, 4, 7, 11, 18, 29, 47, 76, 123, ... 2 + 5 = = 11

10 The Fibonacci numbers satisfy the well-known identity
Our area formula is For n = 1, Equate the two: A Lucas identity:

11

12

13 Formulas for the area of the regular pentagon

14

15 Penrose Tiles tile the plane in an aperiodic fashion
Kite Dart

16

17

Download ppt "Lucas Numbers & Golden Triangles in the Regular Pentagon"

Similar presentations

How to draw a perfect star. By Ellie Hughes and Scarlett Griffin.

How to draw a perfect star. By Ellie Hughes and Scarlett Griffin.
1. Prove that the sum of the interior angles of a polygon of n sides is 180 (n – 2). § 8.1 C B E D P F A Note that a polygon of n sides may be dissected.

1. Prove that the sum of the interior angles of a polygon of n sides is 180 (n – 2). § 8.1 C B E D P F A Note that a polygon of n sides may be dissected.
Honors Geometry Section 5.4 The Pythagorean Theorem

Honors Geometry Section 5.4 The Pythagorean Theorem
7/3/2015 Geometry 1 Classifying Triangles Free powerpoints at

7/3/2015 Geometry 1 Classifying Triangles Free powerpoints at
Math 112 Elementary Functions Section 2 The Law of Cosines Chapter 7 – Applications of Trigonometry.

Math 112 Elementary Functions Section 2 The Law of Cosines Chapter 7 – Applications of Trigonometry.
10-4 Perimeters and Areas of Similar Figures

10-4 Perimeters and Areas of Similar Figures
Warm Up Simplify the following: 3(-4m + 8) -6(2m – 4) + 10 Solve and graph the solution set for the following inequalities y + 5 ≤ 3 w + 6 < -5 The support.

Warm Up Simplify the following: 3(-4m + 8) -6(2m – 4) + 10 Solve and graph the solution set for the following inequalities y + 5 ≤ 3 w + 6 < -5 The support.
Keystone Geometry 1 The Pythagorean Theorem. Used to solve for the missing piece of a right triangle. Only works for a right triangle. Given any right.

Keystone Geometry 1 The Pythagorean Theorem. Used to solve for the missing piece of a right triangle. Only works for a right triangle. Given any right.
8.6:Perimeters and Areas of Similar Figures

8.6:Perimeters and Areas of Similar Figures
Areas of Regular Polygons 10-3. Honor’s On a sheet of warm up paper: Write the name of your podcast group members (don’t write your own name) Rate each.

Areas of Regular Polygons Honor’s On a sheet of warm up paper: Write the name of your podcast group members (don’t write your own name) Rate each.
1 9.1 and 9.2 The Pythagorean Theorem. 2 A B C Given any right triangle, A 2 + B 2 = C 2.

1 9.1 and 9.2 The Pythagorean Theorem. 2 A B C Given any right triangle, A 2 + B 2 = C 2.
Geometry 1 The Pythagorean Theorem. 2 A B C Given any right triangle, A 2 + B 2 = C 2.

Geometry 1 The Pythagorean Theorem. 2 A B C Given any right triangle, A 2 + B 2 = C 2.
8-1 The Pythagorean Theorem and Its Converse. Parts of a Right Triangle In a right triangle, the side opposite the right angle is called the hypotenuse.

8-1 The Pythagorean Theorem and Its Converse. Parts of a Right Triangle In a right triangle, the side opposite the right angle is called the hypotenuse.
MA.912.T.2.1 CHAPTER 9: RIGHT TRIANGLES AND TRIGONOMETRY.

MA.912.T.2.1 CHAPTER 9: RIGHT TRIANGLES AND TRIGONOMETRY.
1Geometry Lesson: Polygons, Triangles Aim: Do Now: 2) Which of the following shapes are polygons? e) a) b) c) d) f) What are polygons? How do we classify.

1Geometry Lesson: Polygons, Triangles Aim: Do Now: 2) Which of the following shapes are polygons? e) a) b) c) d) f) What are polygons? How do we classify.
5-1 Classifying Triangles

5-1 Classifying Triangles
Geometry. Kinds of triangles Geometry Kinds of triangles.

Geometry. Kinds of triangles Geometry Kinds of triangles.
AREA OF A TRIANGLE. Given two sides and an included angle:

AREA OF A TRIANGLE. Given two sides and an included angle:
Geometry: Similar Triangles. MA.912.D.11.5 Explore and use other sequences found in nature such as the Fibonacci sequence and the golden ratio. Block.

Geometry: Similar Triangles. MA.912.D.11.5 Explore and use other sequences found in nature such as the Fibonacci sequence and the golden ratio. Block.
Notes Over 9 - 3 Classifying Polygons A polygon with three sides is a _____________. Classifying triangles by angles. Acute Triangle 3 acute angles Right.

Notes Over Classifying Polygons A polygon with three sides is a _____________. Classifying triangles by angles. Acute Triangle 3 acute angles Right.

Similar presentations

Ads by Google