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IM 8 Ch 6.2.1 What If I Multiply
CPM Materials modified by Mr. Deyo
Is there a different way to get the same result?
Did we give enough information?
How can we describe the position?
Common Core Standard: 8.G.3
IM 8 Ch 6.2.1 What If I Multiply
By the end of the period, I will create new images by multiplying the original images with a given scale factor.
I will demonstrate this by completing Four‑Square notes and by solving problems in a pair/group activity.
Learning TargetTitle: IM8 ‑ Ch. 6.2.1 What If I Multiply? Date:
IM 8 Ch 6.2.1 What If I Multiply
Home Work: Sec. 6.2.1Desc. Date Due
Review & Preview
3 Problems: 6‑46, 6‑47, 6‑49
IM 8 Ch 6.2.1 What If I Multiply
IM 8 Ch 6.2.1 What If I Multiply
Vocabulary1) Dilation
2) Scale Factor
3) Reduce / Enlarge
4) Similar Figures
IM 8 Ch 6.2.1 What If I Multiply
IM 8 Ch 6.2.1 What If I Multiply
6.2.1 What If I Multiply?Remember that when an object is translated, rotated, or reflected, it stays the same size and shape even though it moves. For this reason, these types of movements are called rigid transformations. In this lesson, you will explore a new transformation that changes how the object looks. As you work today, ask these questions in your team:
What parts of the shape are changing? What parts stay the same?
642. When all of the x‑ or y‑coordinates of each vertex of a shape are changed by adding or subtracting the same numbers, the shape translates (slides) to a new position on the coordinate graph. You learned in Lesson 6.1.3 that when one of the coordinates of the vertices (either the x or ycoordinate) is multiplied by –1, the shape is reflected over the yaxis or the xaxis, respectively.How do you think the shape will change when both the x‑ and y‑coordinates are multiplied by some number?
IM 8 Ch 6.2.1 What If I Multiply
c) Test your prediction by doubling the coordinates from part (a) and plotting them on your graph paper.
( , ), ( , ), ( , ), ( , )Was your prediction correct?
b) Without graphing, predict how you think the figure would change if the x‑ and y‑coordinates were multiplied by 2 and then plotted.
a) Plot the following points on graph paper: (2, 1), (3, 1), (5, 5), (2, 5). Connect the points to make a quadrilateral.
642a,b,c. How do you think the shape will change when both the x‑ and y‑coordinates are multiplied by some number? Use the directions below to help you answer this question.
IM 8 Ch 6.2.1 What If I Multiply
642d. How do you think the shape will change when both the x‑ and y‑coordinates are multiplied by some number? Use the directions below to help you answer this question.
d) With your team members, look at the figure you just graphed. Transforming a graphed shape by multiplying each coordinate by the same number is called a dilation. With your team, discuss how this figure compares to the original. Be specific about changes in side length and area!
IM 8 Ch 6.2.1 What If I Multiply
643. INVESTIGATING DILATIONSThe students in Ms. Stanley’s class were studying what happens to the graph of a shape when both coordinates are multiplied by the same number. Make some predictions for the questions they came up with: “What happens when each coordinate is multiplied by one‑half?”
“What changes when the coordinates are multiplied by 1?”
“What happens when both of the coordinates are multiplied by –1?”
“What happens when the coordinates are multiplied by –2?”
IM 8 Ch 6.2.1 What If I Multiply
1. “What happens when each coordinate is multiplied by one‑half?”
2. “What changes when the coordinates are multiplied by 1?”
3. “What happens when both of the coordinates are multiplied by –1?”
4. “What happens when the coordinates are multiplied by –2?”
643a Use the shape below to investigate the following questions. Use graph paper and the corresponding question colors to draw the dilations. https://www.desmos.com/calculator/ku5hrdnfni
(6, 8)
(2, 4) (6, 4)
IM 8 Ch 6.2.1 What If I Multiply
643b. How did the figure change in each of the investigations? Compare the side lengths, the angles, and the line relationships. Explain what your team learned about the questions you investigated.
“What happens when each coordinate is multiplied by one‑half?”
“What changes when the coordinates are multiplied by 1?”
“What happens when both of the coordinates are multiplied by –1?”
“What happens when the coordinates are multiplied by –2?”
IM 8 Ch 6.2.1 What If I Multiply
c) On graph paper, investigate your question, and see if your conjecture is supported, by multiplying the coordinates of the shape in problem 643 as you described in your question. What happened? Was your conjecture correct?
b) Write a conjecture — that is, an educated guess based on the evidence in the last two problems — to answer your question.
a) With your team, write a different question about the effect of multiplying the coordinates of a shape on a grid. This question might start with, “What happens when you multiply…”
644. In problem 643, you investigated questions about multiplying coordinates that were posed by other students.
IM 8 Ch 6.2.1 What If I Multiply
In your Learning Log, explain how multiplying the coordinates of a shape affects the shape. How does the size of the shape change (or not change)? How do the angles of the shape change (or not change)? Do these results depend on the multiplier that is chosen? Be as specific as you can and include examples to demonstrate your thinking.
645. LEARNING LOG “Dilations” Date ________
IM 8 Ch 6.2.1 What If I Multiply
646. Louis is dilating triangle ABC. He multiplied each x‑coordinate and y‑coordinate of triangle ABC by –2.
a) What are the new coordinates of the points?
b) Graph Louis' new triangle.
c) Describe how triangle ABC changed.
https://www.desmos.com/calculator/h4jzb8wz5h http://homework.cpm.org/cpmhomework/homework/category/CC/textbook/CC3/chapter/Ch6/lesson/6.2.1/problem/646
A'( , ) B'( , ) C'( , )
(3, 2)
(2, 2)
(1, 2)
IM 8 Ch 6.2.1 What If I Multiply
647. On the same set of axes, graph the two rules shown below. Then find the point(s) of intersection, if one (or more) exists.
https://www.desmos.com/calculator/9c2ocn9xrc http://homework.cpm.org/cpmhomework/homework/category/CC/textbook/CC3/chapter/Ch6/lesson/6.2.1/problem/647
y = −x + 2 y = 3x + 6x y x y
IM 8 Ch 6.2.1 What If I Multiply
648. Evaluate the expression:
6x2 − 3x + 1 for x = −2
http://homework.cpm.org/cpmhomework/homework/category/CC/textbook/CC3/chapter/Ch6/lesson/6.2.1/problem/648
IM 8 Ch 6.2.1 What If I Multiply
649. When Ms. Shreve solved an equation in class, she checked her solution and found that it did not make the equation true! Examine her work below and find her mistake. Then find the correct solution.
http://homework.cpm.org/cpmhomework/homework/category/CC/textbook/CC3/chapter/Ch6/lesson/6.2.1/problem/649
Where was the mistake?
How did you correct it?
What was the correct answer?
IM 8 Ch 6.2.1 What If I Multiply
650. Determine if the statement below is true or false. Justify your conclusion.
http://homework.cpm.org/cpmhomework/homework/category/CC/textbook/CC3/chapter/Ch6/lesson/6.2.1/problem/650
2(3 + 5x) = 6 + 5x
IM 8 Ch 6.2.1 What If I Multiply
RULE:
y = ( )x + ( )
https://www.desmos.com/calculator/wt9j72uhwihttp://homework.cpm.org/cpmhomework/homework/category/CC/textbook/CC3/chapter/Ch6/lesson/6.2.1/problem/651
x y
651. Complete the missing entries in the table below. Then write the rule. (You might need to put the input and output in number order first.)