Function Expansion: Piecewise Functions: PART 1 NAME:

STORY PROBLEM:

A)  Create a story that would

match the graph at right.

Be specific about what is

happening for each part

of your story. Include

information about

domains, rates of changes

and linear equations.

B)  If you were to write equations to match each part of your story (or section of the graph), how many would you write? Explain.

C)  Write each of these equations. Explain how the equations connect to your story and to the graph.

D)  What is the domain and range for the graph shown?

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In 1-4, use the graph to find the indicated function value.

1A) f(-3) 2A) g(0)

1B) f(-2) 2B) g(2)

1C) f(0) 2C) g(3)

1D) f(2) 2D) g(5)

2E) f(x) =

3A) h(-4) 4A) g(-3)

3B) h(0) 4B) r(-1)

3C) h(2) 4C) r(0)

3D) h(4) 4D) r(5)

4E) r(x)

5. Isaac lives 3 miles away from his school. School ended at 3 pm and Isaac began his walk home with his friend Tate who lives 1 mile from school, in the direction of Isaac's house. Isaac stayed at Tate's house for a while and then started home. On the way, he stopped at the library before hurrying home. The graph shows Isaac's distance from home during the time it took him to travel from school to home.

a) How much time passed between the end of school

and Isaac's arrival home?

b) How long did Isaac stay at Tate's house?

c) How far is the library from Isaac's house?

d) Where was Isaac three hours after school ended?

e) Use function notation to write a mathematical

expression that says the same thing as question d.

f) When was Isaac walking the fastest? How fast

was he walking during that interval?

*6. Which of the graphs shown below in 8-10 is/are discontinuous?

7. Write the domain and range for the functions written in 8-10.

In 8-10, write the piecewise function for the graphs.

8. 9. *10.

Function Expansion: Piecewise Functions: PART 2 NAME:

Michelle and Sam like to go on long bike rides. Every

Saturday, they have a particular route they bike together

that takes 4 hours. At right is a piecewise function that

shows the distance they travel for each hour of their

bike ride.

1.  What part of the bike ride do they go the fastest? Slowest?

2.  What is the domain of this function?

3.  Find f(2). Explain what this means in terms of context.

4.  How far have they travelled at 3 hours? Write the answer using function notation.

5.  What is the total distance they travel on this bike ride?

6.  Sketch the graph of the bike ride as a function of distance travelled over time

(use graph paper).

Michelle also has a route that she likes to do on her own

that has the following piecewise function to represent

the average distance she travels in minutes.

7.  What is the domain for this function?

What does the domain tell us?

8.  What is the average rate of change during the interval 20 x 50?

9.  Over which interval is the greatest average rate of change?

10.  Find the value of each, then complete the sentence frame:

  1. f(30) = _____. This means….
  1. f(64) = _____. This means….
  1. f(10) = _____. When finding output values for given input values in a piecewise function, you must….

11.  A) Find the value of a B) Find the value of b

12.  Sketch a graph of the bike ride as a function of the distance travelled as function of time.

(use graph paper)

Use the following piecewise

function to answer the following

questions.

13A). Find f(8) 13B). Find f(15)

14A). Find f(10) 14B). Find f(20)

15. Find the value of c. 16. Sketch the graph (use graph paper).

17. What is the domain of g(x)? 18. What is the range of g(x)?

19A) Write and graph a continuous piecewise function that has a parabola

for -2 < x 1 and a line with a negative slope for 1 x 5.

19B) Write and graph a discontinuous piecewise function that has a parabola

for -2 < x 1 and a line with a negative slope for 1 x 5.

20. Explain why if the interval for one piece of a function is -2 x 1, then any the other piece can not include either x = -2 or x = 1?

21. A parking garage charges $3 for the first two hours that a car is parked

garage. After that, the hourly fee is $2 per hour. Write a piece-wise function

p(x) for the cost of parking a car in the garage for x hours (the graph

of p(x) is shown to the right)