Unit 2: Functions and Patterns

For Teacher Use Packet Score: Name: Period: Algebra 1 Unit 2: Functions and Patterns Note Packet Date Topic/Assignment Page Due Date Score (For Teacher Use Only) Warm-Ups 2-A Intro to Functions 2-B Tile Pattern Challenge 2-C Tile Pattern Challenge Continued 2-D Functions and Function Notation 2-E More on Functions 2-F Function Matrix Activity 2-G Types of Functions and Their Patterns 2-H Arithmetic Sequences 2-I Arithmetic Sequences Part 2 2-J Geometric Sequences (2 days of notes, 1 HW) Check for Understanding 2-K Arithmetic an Geometric Sequences 2-L Review (2 Days) Test This packet will be turned in on the day of the test for 100 points. Whenever you re absent, you can get these notes filled out from a classmate or at my website www.skookummath.weebly.com. During the unit, I ll check off homework each day to keep track of who is doing their homework, but your homework assignments won t be scored and entered into IC until this packet is collected and graded at the end of the unit. 1

Warm-Up Solve each equation below for the given variable. Record all work so that your teacher can follow your legal moves. a. 2x + 2 = 8 b. 4x 2 + x = 2x + 8 + 3x c. 3y 9 + y = 6 d. 9 (2 3y) = 6 + 2y (5 + y) Warm-Up Use the pattern you discovered last unit to complete each diamond problem. Some of these may be challenging! a. b. c. Warm-Up Use the Distributive Property to complete and simplify each expression below. a. 2(x + 5) = b. 3(2x + 1) = c. 2(x + 3) = d. 3(2x 5) = 2

Warm-Up Simplify the following expressions by combining like terms. a. x + 3x 3 + 2x 2 + 8 5x b. 2x + 4y 2 6y 2 9 + 1 x + 3x c. 2x 2 + 30y 3y 2 + 4xy 14 x d. 20 + 3xy 3xy + y 2 + 10 y 2 Warm-Up Solve each of the following equations for x. Show your steps. a. 3x 2(5x + 3) = 14 2x b. 3(x + 1) 8 = 14 2(3x 4) c. 2(x 3) + 5x = 3x + 14 d. 5x + 3(x 4) = 24 2(x + 3) Warm-Up Compute without using a calculator. a. 15 + 7 b. 8 ( 21) c. 6 ( 8) d. 9 + ( 13) e. 50 30 f. 3 ( 9) 3

Warm-Up 1. Joe s age is three times Aaron s age and Aaron is six years older than Christina. If the sum of their ages is 149, what is Christina s age? Joe s age? Aaron s age? 2. A box of fruit has three times as many nectarines as grapefruit. Together there are 36 pieces of fruit. How many pieces of each type of fruit are there? Warm-Up 1. Write an inequality that represents the solutions on each number line below. a. b. c. d. 2. Graph the following inequalities on the number lines below. a. x 5 b. x < 3 or x 2 c. 4 x < 7 4

Warm-Up Solve the following equations below for x. Show all steps. a. 3(2x 5) 2x = 2(x + 7) + 5 b. 2(x 3) + 4 = 4x 14 Warm-Up Solve each of the following inequalities for the given variable. Represent your solutions on a number line. a. 3(2p 1) > 15 b. 7 < 2k + 3 19 Warm-Up Evaluate each expression if r = 4, s = 5, and t = 6. a. r 2 + 2s b. t r s Warm-Up 1. Complete each of the Diamond Problems below. Warm-Up 5

A. B. Evaluate the expression (a+c)2 a below. 7 5 5 7 b+c when a = 2, b = 6 and c= 8. Show all work C. D. 19 7 17 7 Warm-Up 1. Christian has twice as much money as Vanessa? Gonzo has ten more dollars than Vanessa. How much money does each person have it the sum of their money is $90? 2. A board that is 100 centimeters long is cut into three pieces? The first piece and the second piece have the same length. The third piece is four more than twice the length of the first piece. Find the length of each piece. Warm-Up Simplify the following expressions by combining like terms. a. -15x + 3x + 9-2x 2 +10 + 7x 2 b. -4x +3y 2 + 7y 2 + 9x - 10 + 5x - 3 Warm-Up Solve the following equations for x. Show all steps that lead to your solution. a. 3 8 x 1 12 = 3 4 b. 5 9 5x 6 = 2 3 6

2-A: Intro to Functions 7

8

2-B: Tile Pattern Challenge 9

10

2-D: Functions and Function Notation What is a function? Opening Task: Think about it Is there another way you could represent these functions? Part 1: How can you determine whether a relation is a function? (Eureka Math Grade 9 Functions) 11

a) Table x f(x) -2 11-1 7 0 3 1-1 2-5 3-9 Does this represent a function? Why or why not? b) Set of Points c) Mapping d) Graph Does this represent a function? Why or why not? {( 2 5, 1), ( 3.5, 6), (3, 10), ( 2.1, 6), ( 1, 1 5 )} Does this represent a function? Why or why not? Does this represent a function? Why or why not? Give an example of a function and not a function for the following Choose: Choose: Table or Set of Coordinates Graph or Map Part 3: The variables of a function Domain: Range: Determine the domain and range for the functions in part 1 a)-c) a) D: b) D: c) D: R: R: R: Part 3: Function Notation Ex 1. Given the coordinate: (-2, 5) Ex 3. f(x) = 3x 2 + 1 f(x) = y Write in function notation. f(3)= input output Ex 2. Given: g(5) = 2 f(.5) = Write as a coordinate. 12

2-E: More on Functions Opening Task: Think about it Swine flu is attacking Porkopolis. The function S(t) = 9t 4 determines how many people have swine where t = time in days and S = the number of people in thousands. a) What would reasonable values for t (input values)? b) Graph the function Make a table of 4 different values. t S(t) c) Find S(4). d) Find t when S(t) = 23. What does S(4) mean? What does S(t) = 23 mean? Part 4: Discrete versus continuous functions. Discrete Functions: Domain and ranges of discrete functions: Continuous Functions: Domain and ranges of continuous functions: Ex1: Graphs 13

Ex2: Real World Situations For each of the context situations 1-3 described in the opening task from last class: 1) Tell whether it describes a discrete or continuous situation 2) Tell which variable represents the domain and which variable represents the range. 1) Discrete or Continuous? Why? 2) Discrete or Continuous? Why? 3) Discrete or Continuous? Why? Description of the domain: Description of the domain: Description of the domain: Description of the range: Description of the range: Description of the range: Bringing it all together Function? Function? Discrete/Continuous? Discrete/Continuous? Domain: Range: f(0) = f(6) = Domain: Range: 14

Function? Give a real world example of a situation modeled by a continuous function. Discrete/Continuous? Domain: f(-2) = Range: If v(t) = 3x 2 2x + 1, find the value of v(5). If h(x) = x2 9, find the value of h(5). x 5 15

Equation Word Rule Chart of Values Ordered Pairs Graph f(x) f(x) = x 2 +3 Domain: Range: To find the output, you square the input and add 3. x f(x) Domain: x Range: f(x) x f(x) 7 3-2 -6 x Domain: Range: 1-3 3-1 -4-8 0-4 page 1 16

Equation Word Rule Chart of Values Ordered Pairs Graph f(x) Domain: Range: (-1,1/4) (2,16) (1,4) (-2, 1/16) (3,64) x f(x) Domain: x Range: To find the output, square the input and subtract 1 f(x) x Domain: Range: page 2 17

2-G: Types of Functions and Their Patterns Linear Functions (arithmetic pattern) Algebraically Numerically y = f(x) = 1 x f(x) 2 x 3-2 -4-1 -3.5 0-3 1-2.5 2-2 3-1.5 Graphically I noticed I wonder Summary of important things I heard from my classmates Exponential Functions (geometric pattern) Algebraically y = f(x) = 1 2 x I noticed Numerically x f(x) -2 ¼ -1 ½ 0 1 1 2 2 4 3 8 I wonder Graphically Summary of important things I heard from my classmates 18

Quadratic Functions Algebraically y = f(x) = x 2 + 1 Numerically x f(x) -2 5-1 2 0 1 1 2 2 5 3 10 Graphically I noticed I wonder Summary of important things I heard from my classmates Identifying types of functions Type/Eqaution Pattern Look fors Vocabulary Linear x 1 2 3 4 5 y -5-1 3 7 11 Constant 1 st Difference Exponential x -1 0 1 2 3 y 2/5 2 10 50 250 Common Ratio Quadratic x 0 1 2 3 4 y -3-1 3 9 17 Constant 2 nd Difference 19

Practice: Identify the type function from the pattern given or described. Justify your answer using correct mathematical language. 1. 2. 3. 4. Bacteria can multiply at an alarming rate when each bacteria splits into two new cells, thus doubling. For example, if we start with only one bacteria which can double every hour, by the end of one day we will have over 16 million bacteria. 5. I get a $100 itunes gift card for my birthday and then start buying $1 songs. What type of function describes the amount of money, m, I have left on the card after buying s songs? 20

2-H: Arithmetic Sequences Today s Goal: Identify arithmetic sequences and write recursive and explicit formulas for arithmetic sequences. Warm-up: Find the next 3 terms in the patterns below So what is a sequence?!? A sequence is a list or an ordered arrangement of numbers, figures, or objects. The members, which are also elements, are called the terms of sequences. A general sequence can be written using the following 2 different notations: Subscript Notation: Function Notation: a 1, a 2, a 3, a 4, a 5, a 6, a 7, a 8, f(1), f(2), f(3), f(4), f(5), where a 1 or f(1) is the first term, a 2 or f(2) is the second term, and so on. The n th term is denoted with a n or f(n) Try this Find the missing terms in the sequences using correct notation. a. a1, a2, a3,, a, a56, a,, an-1, a, an+1, b. f( ), f(2), f(3),, f(98), f( ), f( ),, f( ), f( ), f(n+1), What is an arithmetic sequence? Describe how you know if a sequence is arithmetic in your own words: Let s look back at the warm-up Which of the following are arithmetic sequences? How do you know? 21

How do you write formulas of arithmetic sequences? Recursive Formulas: use terms to find the term Verbal Subscript Function Notation Previous term f(n-1) a n Next term Helpful hint: Ex1: Write the recursive formula for the following sequence; 14, 17, 20, 23, Verbal: 1) = 2) = + Subscript: 1) =, 2) = + Functions: 1) =, 2) = + IMPORTANT IDEA: A recursive formula always consists of 2 parts. 1) the value of the 1 st term 2) the formula to find the current term based on the previous term. rely on previous terms to find Arithmetic sequences have a structure so writing a formula is easy! Explicit Formulas: Do not the n th term. specific Connection Time! This structure is just like + m x Slope Intercept Form y = b Output 0-term vs. 1 st term Slope vs. common dif. Input Explicit Forms of Arithmetic Seq. a n = a 1 + d (n 1) f(n) = f(1) + d (n 1) Ex2: Write an explicit formula in both subscript and function notation for the following arithmetic sequence 76, 72, 68, 64,. Subscript Notation: Function Notation: 22

2-I: Arithmetic Sequences Part 2 Warm-up: 1. Write a recursive formula in subscript notation for the following sequence. 2 5, 4 5, 1 1 5, 1 3 5, 2. Write an explicit formula in function notation for the following sequence. 76.3, 75.5, 74.7, 73.9, Lesson Activity: Card Sort With a partner sort the cards into matching pairs. You will have 20 minutes to complete this task Good Luck! While you are working on the card sort, think about the class discussion questions. Class Discussion Questions: 1. Which pair of cards were easiest to match and why? 2. Which pair of cards were hardest to match and why? 3. How are arithmetic sequences similar to linear functions 4. How are arithmetic sequences different to linear functions 5. Is an arithmetic sequence a function? 23

2-J: Geometric Sequences (2 days of notes, 1 HW) Doctors need to know approximately how long medications stay in a person s body. A half-life is the approximate time it takes for the body to remove 1/2 of the active ingredient in a medicine. Caffeine is in medications, foods, and energy supplements. The half-life of caffeine is about 4 hours. A student drinks an energy drink that contains 16 mg of caffeine. a. Complete the table showing the amount of caffeine in the body over time Time (hr.) 0 4 8 Caffeine in body (mg) b. Create a graph showing the relationship between the time in hours and the amount of caffeine in the body c. Describe the domain and range of the relationship. d. Does this represent a continuous or discrete situation? Explain. e. What type of graph describes this relationship? What are geometric Sequences? Find the next 3 terms in the sequences below. Explain how you found these terms. a. 48, 24, 12, 6,,,, b. 7, 10, 15, 22,.,, c. 18, 14, 10, 6,,,, d. 2, 6, 18, 54,,,, Which two sequences in number 2 are geometric sequences? How do you know? 24

A geometric sequence is a sequence of numbers where each successive number is determined by multiplying by a constant value, called the common ratio. Consider the sequence 2, 6, 18, 54,,,,. a. Write the recursive form of the sequence: now = previous, starting at b. Write the recursive form in sequence notation: a n = a n-1, = 2 c. Write the recursive form in function notation: f(n) =, = 2 Practice: Find the first four terms of this sequence: f(n + 1) = f(n) 2, f(1) = 9 Explict Form of Geometric Sequences. How would you find the explicit form? 2, 6, 18, 54,. x 3 x 3 x 3 Term 1 = 2 Term 2 = 2 x 3 Term 2 is multiplied by one 3 Term 3 = 2 x 3 x 3 Term 3 is multiplied by two 3s Term 4 = 2 x 3 x 3 x 3 Term 4 is multiplied by three 3s Term n is multiplied by 3s So, f(n) = 2 (3) Does it work? Is f(1) = 2? f(2) = 6? f(3) = 18? More Practice: Write each sequence below in recursive and explicit form. For each sequence, find the given term. a. 48, 24, 12, 6, Find a 15 b. -90, -30, -10,. Find f(6) c. 6, -18, 54, -162,.. Find f(10) 25

2-K: Arithmetic and Geometric Sequences 26

27

28

2-L: Review 29

30