Lesson 1 Transformers: Shifty y’s Develop Understanding

Learning Focus

Find patterns in the equations and graphs of quadratic functions.

What happens to the graph of when the equation is changed by adding, subtracting, or multiplying by a constant?

Open Up the Math: Launch, Explore, Discuss

Optima Prime is designing a robot quilt for her new grandson. She plans for the robot to have a square face. The amount of fabric that she needs for the face will depend on the area of the face, so Optima decides to model the area of the robot’s face mathematically. She knows that the area of a square with side length units (which can be inches or centimeters) is modeled by the function square units.


What is the domain of the function in this context?


Match each statement about the area to the function that models it.

  1. ___

    The length of each side is increased by units.

  2. ___

    The length of each side is multiplied by units.

  3. ___

    The area of a square is increased by square units.

  4. ___

    The area of a square is multiplied by .


Optima started thinking about the graph of (in the domain of all real numbers). Make a table that contains both negative and positive values of , and graph the function. What features do you notice?

a blank 17 by 17 grid

Optima began wondering about how changes to the equation of the function, like adding or multiplying by , affect the graph. She decided to make predictions about the effects and then check them out.


Make your own predictions of how the graphs of each of the following equations will be the same or different from the graph of .

Similarities to the graph of

Differences from the graph of


Optima decided to test her ideas using technology. She thinks that it is always a good idea to start simple, so she decides to go with . She graphs it along with in the same window. Test it yourself, and describe what you find.

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Knowing that things make a lot more sense with more representations, Optima tries a few more examples, like and , looking at both a table and a graph for each. What conclusion would you draw about the effect of adding or subtracting a number to ? Carefully record the tables and graphs of these examples, and explain why your conclusion would be true for any value of , given .

a blank 17 by 17 grid
a blank 17 by 17 grid


After her amazing success with addition in the last problem, Optima decided to look at what happens with addition and subtraction inside the parentheses, or as she says it, “Adding to the before it gets squared.” Using your technology, decide the effect of in the equations and . (Choose some specific numbers for .) Record a few examples (in both tables and graphs) and explain why this effect on the graph occurs.

a blank 17 by 17 grid
a blank 17 by 17 grid


Optima thought that problem 7 was very tricky and had hoped that multiplication was going to be more straightforward. She decides to start simple and multiply by , so she begins with . Predict what the effect is on the graph, and then test it. Why does it have this effect?


Optima is encouraged because she was able to figure out the last problem. She decides to end her investigation for the day by determining the effect of a multiplier, , in the equation . Using both positive and negative numbers, fractions, and integers, create at least two tables and matching graphs to determine the effect of a multiplier.

a blank 17 by 17 grid
a blank 17 by 17 grid

Ready for More?

Use technology to explore the behavior of the line If the point is used as an anchor point, much like is used on the graph of the parabola, will the transformations discovered for the parabola work for a line? Why or why not?



Transformation of

Adding Notation, Vocabulary, and Conventions


Line of Symmetry:

Lesson Summary

In this lesson, we explored transformations of the function . We found vertical and horizontal shifts, reflections, and vertical stretches of the parabola. We justified why changes to the equation transform the graph, using tables and our understanding of functions.


Draw a line of symmetry for the graph, state whether the graph has a maximum point or a minimum point, and provide the coordinates for that point.


Graph of a parabola with vertex at (4, 0) and passing through (3, 1) and (5, 1) x555y555000


Graph of a parabola with vertex at (-3, 5) and passing through (-4, 4) and (-2, 4) x–5–5–5y555000

Graph the linear equations, and explain your strategy.


a blank 17 by 17 grid


a blank 17 by 17 grid