Lesson 2 You Are the Imagineer Develop Understanding

Ready

1.

The black curve in the graph shows the graph of .

a sine function graphed on a coordinate plane and two horizontal lines graphed at the minimas and maximas x–2π–2π–2π–π–π–ππππy–2–2–2222000

a.

Write the equation of the green dotted line labeled .

b.

Write the equation of the purple dotted line labeled .

c.

List everything you notice about the graphs of , , and .

2.

The black curve in the graph shows the graph of .

a sine function graphed on a coordinate plane and a horizontal line drawn through the point (0,3) x–2π–2π–2π–π–π–ππππy–2–2–2–1–1–1111222333000

a.

Write the equation of the purple line labeled .

b.

Sketch in the graph of .

a sine function graphed on a coordinate plane and a horizontal line drawn through the point (0,3) x–2π–2π–2π–π–π–ππππy–2–2–2–1–1–1111222333000

c.

What is the equation of ?

d.

Would the line also be a boundary line for your sketch? Explain.

3.

The black curve in the graph shows the graph of .

a sine function graphed on a coordinate plane and a horizontal line drawn through the point (0,-3) x–2π–2π–2π–π–π–ππππy–2–2–2222000

a.

Write the equation of the purple line labeled .

b.

Sketch in the graph of .

a sine function graphed on a coordinate plane and a horizontal line drawn through the point (0,3) x–2π–2π–2π–π–π–ππππy–2–2–2–1–1–1111222333000

c.

What is the equation of ?

d.

How is the graph of different from the graph of ?

e.

Would the line also be a boundary line for your sketch? Explain.

Set

4.

a.

Fill in the values for in the table.

b.

With a smooth curve, graph

a blank coordinate plane x–2π–2π–2π–π–π–ππππy–4–4–4–2–2–2222444000

5.

or

a.

Fill in the values for in the table.

b.

Now graph

or

.

a blank coordinate plane x–2π–2π–2π–π–π–ππππy–4–4–4–2–2–2222444000

Match each equation below with the appropriate graph. Describe the features of the graph that helped you match the equations.

A.

an irregular curved line on a coordinate plane x–10–10–10–5–5–5555101010y–5–5–5555101010151515000

B.

a curved line that is repetitive but gets lower on the graph x–10–10–10–5–5–5555101010y–10–10–10–5–5–5555101010000

C.

a curved line that looks like 4 repetitive parabolas opening down x–5–5–5555y555000

D.

a curve that starts high in the left corner of the graph, dips below the x axis, goes back up to the origin and, back down below the x axis, and finally up to the top right corner x–5–5–5555y–5–5–5555101010000

E.

2 linear lines with different positive slopes connected together at (0,4) x–10–10–10–5–5–5555101010y–5–5–5555000

F.

a line that looks like a parabola in the middle and has two linear lines connected to its endsx–5–5–5555y555000

6.

Equation

Graph

Recognizable Features

Go

7.

The chart names five families of functions and the parent function. The parent is the equation in its simplest form. In the right-hand column is a list of key features of the functions in random order. Match each key feature with the correct function. A key feature may relate to more than one function.

Family

Parent(s)

Key features

Linear

a) The ends of the graph have the same behavior.

b) Each graph has a horizontal asymptote and a vertical asymptote.

c) The graph only has a horizontal asymptote.

d) These functions either have both a local maximum and minimum or neither a local maximum nor minimum.

e) The graph is usually defined in terms of its slope and -intercept.

f) The graph has either a maximum or a minimum but not both.

g) As approaches , the function values approach the -axis.

h) The ends of the graph have opposite behavior.

i) The rate of change of this graph is constant.

j) The rate of change of this graph is constantly changing.

k) This graph has a linear rate of change.

l) These functions are of degree .

m) The variable is an exponent.

n) These functions contain fractions with a polynomial in both the numerator and denominator.

p) The constant will always be the -intercept.

Quadratic

Cubic

Exponential

, , etc.

Rational