Part I: a) Write a sequence to represent how many shaded triangles there are at each stage. b) Based on this sequence, write a formula for the nth term of the sequence. c) Using at least two sentences, describe what is represented by each term in the sequence.

Calculus: Early Transcendentals
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ISBN:9781285741550
Author:James Stewart
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Chapter1: Functions And Models
Section: Chapter Questions
Problem 1RCC: (a) What is a function? What are its domain and range? (b) What is the graph of a function? (c) How...
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Mini Project #3 – Fractals
Purpose: My purpose for this project is for you to apply your knowledge of sequences and
series to another branch of mathematical study. Your purpose for completing this project is to
communicate to me your understanding of geometric sequences as they apply to fractals. This
is a formal assignment where I am your audience and you are expected to write in the genre of
mathematics. My expectation is that you will use proper English and complete sentences to
communicate in written form incorporating formulas and equations as necessary. The project
may be handwritten but all work must be included and shown in an organized manner. All work
should be done on another sheet of paper with answers clearly marked. Answers should be
given in exact form.
Fractal: A fractal is a geometric shape that can be split in parts that are reduced scale patterns
of the original. This pattern is repeated an infinite number of times. If you zoom in on any part
of it you will see it looks the same.
One such fractal is the Sierpinski Triangle. This fractal is created by connecting the midpoints of
the three sides of an equilateral triangle. This creates a new equilateral triangle which is then
"removed" from the original. The remaining three triangles are smaller versions of our original.
This process can then be repeated to continue to create other iterations of the figure.
The first three stages are shown here:
Stage 1
Stage 2
Stage 3
Part I:
a) Write a sequence to represent how many shaded triangles there are at each stage.
b) Based on this sequence, write a formula for the nth term of the sequence.
c) Using at least two sentences, describe what is represented by each term in the sequence.
Transcribed Image Text:Mini Project #3 – Fractals Purpose: My purpose for this project is for you to apply your knowledge of sequences and series to another branch of mathematical study. Your purpose for completing this project is to communicate to me your understanding of geometric sequences as they apply to fractals. This is a formal assignment where I am your audience and you are expected to write in the genre of mathematics. My expectation is that you will use proper English and complete sentences to communicate in written form incorporating formulas and equations as necessary. The project may be handwritten but all work must be included and shown in an organized manner. All work should be done on another sheet of paper with answers clearly marked. Answers should be given in exact form. Fractal: A fractal is a geometric shape that can be split in parts that are reduced scale patterns of the original. This pattern is repeated an infinite number of times. If you zoom in on any part of it you will see it looks the same. One such fractal is the Sierpinski Triangle. This fractal is created by connecting the midpoints of the three sides of an equilateral triangle. This creates a new equilateral triangle which is then "removed" from the original. The remaining three triangles are smaller versions of our original. This process can then be repeated to continue to create other iterations of the figure. The first three stages are shown here: Stage 1 Stage 2 Stage 3 Part I: a) Write a sequence to represent how many shaded triangles there are at each stage. b) Based on this sequence, write a formula for the nth term of the sequence. c) Using at least two sentences, describe what is represented by each term in the sequence.
Part II: Assume the original triangle in stage 1 had a side length of one.
a) Write a formula that would give the length of a side of one of the triangles at the nth stage.
If we look at the stage 1 triangle, we can find its area by multiplying one-half times the length of
its base times the length of its height. Assume again that it has a side length of one.
b) Find the height of the triangle in stage 1.
c) Find the area of the triangle in stage 1.
Part II: The stage 2 triangle has side length one-half.
a) Find the height of one of the triangles in stage 2.
b) Find the area of one of the triangles in stage 2. Be sure to simplify.
Part IV:
a) Use your knowledge of geometric sequences and your answers from (c) in Part Il and (b) in
Part III to write a formula for the area of one of the triangles at the nth stage.
b) Use your answers from (b) in Part I and (a) in Part IV to write a formula for the total area of
all the shaded triangles at the n" stage. Be sure to simplify.
c) Using at least three complete sentences:
a. Describe what is happening to the triangle as n gets infinitely large.
b. Discuss what value you believe the total shaded area will approach and why.
Transcribed Image Text:Part II: Assume the original triangle in stage 1 had a side length of one. a) Write a formula that would give the length of a side of one of the triangles at the nth stage. If we look at the stage 1 triangle, we can find its area by multiplying one-half times the length of its base times the length of its height. Assume again that it has a side length of one. b) Find the height of the triangle in stage 1. c) Find the area of the triangle in stage 1. Part II: The stage 2 triangle has side length one-half. a) Find the height of one of the triangles in stage 2. b) Find the area of one of the triangles in stage 2. Be sure to simplify. Part IV: a) Use your knowledge of geometric sequences and your answers from (c) in Part Il and (b) in Part III to write a formula for the area of one of the triangles at the nth stage. b) Use your answers from (b) in Part I and (a) in Part IV to write a formula for the total area of all the shaded triangles at the n" stage. Be sure to simplify. c) Using at least three complete sentences: a. Describe what is happening to the triangle as n gets infinitely large. b. Discuss what value you believe the total shaded area will approach and why.
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