Lesson 7.1 Secret Codes

Similar documents
Lesson 8.1 Secret Codes

Lesson 6.1 Recursive Routines

Lesson 5.1 Solving Systems of Equations

Functions. Content Summary

The Coordinate Plane and Linear Equations Algebra 1

Lesson 8 ~ Recursive Routines

Lesson 9.1 Using the Distance Formula

Lesson 7.1 Polynomial Degree and Finite Differences

Reteaching. Relating Graphs to Events

Lesson 10.1 Solving Quadratic Equations

9.1. Solving Quadratic Equations. Investigation: Rocket Science CONDENSED LESSON

Reteaching. Relating Graphs to Events

INVESTIGATE the Math

Algebra I Practice Questions ? 1. Which is equivalent to (A) (B) (C) (D) 2. Which is equivalent to 6 8? (A) 4 3

1 x

Part 1: Integration problems from exams

Comparing Linear and Nonlinear Functions 5.5. ACTIVITY: Finding Patterns for Similar Figures. How can you recognize when a pattern

3.7 Start Thinking. 3.7 Warm Up. 3.7 Cumulative Review Warm Up

10.3 Solving Nonlinear Systems of Equations

Sample. Sample. Sample. Sample (1,2) (-1,1) (3,-1) (-3,-5) Sample (1,2) (-1,1) (3,-1) (-3,-5) Sample. (x, y) Domain: {-3, -1, 1, 3} (1,2) (-1,1)

Lesson 7.1 Polynomial Degree and Finite Differences

Applications. 12 The Shapes of Algebra. 1. a. Write an equation that relates the coordinates x and y for points on the circle.

Study Guide and Intervention. The Quadratic Formula and the Discriminant. Quadratic Formula. Replace a with 1, b with -5, and c with -14.

Functions 3: Compositions of Functions

Fixed Perimeter Rectangles

f(x) = 2x 2 + 2x - 4

Patterns and Relations Unit Review

Algebra 2 Unit 2 Practice

Lesson 3.1 Linear Equations and Arithmetic Sequences

12x y (4) 2x y (4) 5x y is the same as

Patterns, Functions, & Relations Long-Term Memory Review Review 1

Algebra I Quadratics Practice Questions

2. Jan 2010 qu June 2009 qu.8

Lesson 4.1 Interpreting Graphs

Fair Game Review. Chapter 8. Graph the linear equation. Big Ideas Math Algebra Record and Practice Journal

Derivatives 2: The Derivative at a Point

Speed (km/h) How can you determine the inverse of a function?

Getting ready for Exam 1 - review

Summary and Vocabulary

Answers Investigation 3

MCF3MI Unit 3: Solving Quadratic Equations

Lesson 8.2 Exercises, pages

Practice « «3. ` «- -2« 5. ` « « « $ «$ -7« $ 16.!2 $

Lesson 10.1 Polynomials

Attributes and Transformations of Quadratic Functions VOCABULARY. Maximum value the greatest. Minimum value the least. Parabola the set of points in a

Section 4.1 Increasing and Decreasing Functions

Precalculus Honors - AP Calculus A Information and Summer Assignment

Limits 4: Continuity

Solving Systems Using Tables and Graphs

Maintaining Mathematical Proficiency

Fair Game Review. Chapter = How many calculators are sold when the profit is $425? Solve the equation. Check your solution.

Rev Name Date. Solve each of the following equations for y by isolating the square and using the square root property.

10.4 Nonlinear Inequalities and Systems of Inequalities. OBJECTIVES 1 Graph a Nonlinear Inequality. 2 Graph a System of Nonlinear Inequalities.

Mth Quadratic functions and quadratic equations

Dœs Chase count when determining the weight and the cost?

Mathematics 10 Page 1 of 7 The Quadratic Function (Vertex Form): Translations. and axis of symmetry is at x a.

Reteaching -1. Relating Graphs to Events

= x. Algebra II Notes Quadratic Functions Unit Graphing Quadratic Functions. Math Background

Math Intermediate Algebra

Algebra 1 Skills Needed to be Successful in Algebra 2

Lesson 10.2 Radian Measure and Arc Length

Algebra 1 Skills Needed for Success in Math

Module 3, Section 4 Analytic Geometry II

( ) 2 + 2x 3! ( x x ) 2

How can you write an equation of a line when you are given the slope and a point on the line? ACTIVITY: Writing Equations of Lines

Lesson 3.1 Linear Equations and Arithmetic Sequences

Systems of Linear Inequalities

UNCORRECTED SAMPLE PAGES. 3Quadratics. Chapter 3. Objectives

Math 20-1 Functions and Equations Multiple Choice Questions

Grade 8. Functions 8.F.1-3. Student Pages

MATH HIGH SCHOOL QUADRATIC FUNCTIONS EXERCISES

Algebra 2 CPA Summer Assignment 2018

C) x m A) 260 sq. m B) 26 sq. m C) 40 sq. m D) 364 sq. m. 7) x x - (6x + 24) = -4 A) 0 B) all real numbers C) 4 D) no solution

Quadratic Functions ESSENTIAL QUESTIONS EMBEDDED ASSESSMENTS

AP Calculus AB/IB Math SL2 Unit 1: Limits and Continuity. Name:

3.1 Start Thinking. 3.1 Warm Up. 3.1 Cumulative Review Warm Up. Consider the equation y = x.

Recall that when you multiply or divide both sides of an inequality by a negative number, you must

Study Guide and Intervention. The Quadratic Formula and the Discriminant. Quadratic Formula. Replace a with 1, b with -5, and c with -14.

MATH 103 Sample Final Exam Review

Answers (Lesson 11-1)

UNIT #9 ROOTS AND IRRATIONAL NUMBERS REVIEW QUESTIONS

Study Guide and Intervention

REVIEW, pages

Final Exam Practice Problems

KEY IDEAS. Chapter 1 Function Transformations. 1.1 Horizontal and Vertical Translations Pre-Calculus 12 Student Workbook MHR 1

Graph and Write Equations of Ellipses. You graphed and wrote equations of parabolas and circles. You will graph and write equations of ellipses.

Math 115: Review for Chapter 2

MEP Pupil Text 16. The following statements illustrate the meaning of each of them.

Lesson 8T ~ Recursive Routines

Algebra 2 Semester Exam Review

Math 7/Unit 4 Practice Test: Patterns and Functions

Answers. Investigation 3. ACE Assignment Choices. Applications. = = 210 (Note: students

AQA Level 2 Further mathematics Number & algebra. Section 3: Functions and their graphs

6.4 graphs OF logarithmic FUnCTIOnS

Graphing Linear Functions The collection of all input values is called the of a function.

5.3 Modelling Periodic Behaviour

Name Please print your name as it appears on the class roster.

AP Calculus AB Information and Summer Assignment

Intermediate Algebra Math 097. Evaluates/Practice Tests. For solutions, refer to the back of the PAN.

. Show the work that leads to your answer. (c) State the equation(s) for the vertical asymptote(s) for the graph of y f( x).

Transcription:

Lesson 7. Secret Codes. Use this table to code each word. Input A B C D E F G H I J K L M Coded output M N O P Q R S T U V W X Y Input N O P Q R S T U V W X Y Z Coded output Z A B C D E F G H I J K L a. ALGEBRA b. EQUATION c. SOLVE. Use this coding grid to decode each word. a. KGUUWJ b. JSVAG c. WAFKLWAF 3. Luisa used a letter-shift code to code her name as TCQAI. a. Write the rule or create the coding grid for Luisa s code. b. Use Luisa s code to decode BWX AMKZMB. 4. Use this coding grid to answer 4a c. a. What are the possible input values? b. What are the possible output values? c. Is this code a function? Eplain wh or wh not. Coded output Coded output X YZ U V W R ST Q O P N M K L H IJ G D EF A B C X YZ U V W R ST Q O P N M K L H IJ G D EF A B C ABCDEFGHI J KLMNOPQRSTUVWXYZ Original input ABCDEFGHI J KLMNOPQRSTUVWXYZ Original input 7 Ke Curriculum Press Discovering Algebra More Practice Your Skills 49

Lesson 7. Functions and Graphs. Use the given equations to find the missing output values. a. 3 b..5 3 c. 6.8.5 Input Output Input Output Input Output 4 6 3.5.4.5.8 4.5 3. 7.5. Use the given equations to find the missing domain and range values. a. 3 5 b. 3 6 c. Domain Range Domain Range Domain Range 4 3 5 7 3 6 7 5 4 3. Find whether each graph represents a function. a. b. c. d. e. f. 5 Discovering Algebra More Practice Your Skills 7 Ke Curriculum Press

Lesson 7.3 Graphs of Real-World Situations. For each relationship, identif the independent variable and the dependent variable. Then sketch a reasonable graph for each situation and label the aes. Write a few sentences eplaining each graph. In our eplanations, use terms such as linear, nonlinear, continuous, discrete, increasing, and decreasing. a. The temperature of a carton of milk and the length of time it has been out of the refrigerator b. The number of cars on the freewa and the level of ehaust fumes in the air c. The temperature of a pot of water as it is heated d. The relationship between the cooking time for a -pound roast and the temperature of the oven e. The distance from a Ferris-wheel rider to the ground during two revolutions. Sketch a graph of a continuous function to fit each description. a. Linear and increasing, then linear and decreasing b. Neither increasing nor decreasing c. Increasing with a slower and slower rate of change d. Decreasing with a slower and slower rate of change, then increasing with a faster and faster rate of change e. Increasing with a slower and slower rate of change, then increasing with a faster and faster rate of change 3. Write an inequalit for each interval in 3a f. Include the least point in each interval and eclude the greatest point in each interval. A B C D E 6 4 4 6 a. A to B b. B to D c. A to C d. B to E e. C to E f. C to D 4. Describe each of these discrete function graphs using the words increasing, decreasing, linear, nonlinear, and rate of change. a. b. c. 7 Ke Curriculum Press Discovering Algebra More Practice Your Skills 5

Lesson 7.4 Function Notation. Find each unknown function value or -value for f() 4 7 and g() 3 5 without using our calculator. Then enter the equation for f() into Y and the equation for g() into Y.Use function notation on our calculator to check our answers. a. f() b. f() c. f( 3) d., when f() 3 e. g(6) f. g( 7) g. g(.5) h., when g() 5 i. f(3.5) j. g 3 k., when f() 3 l. 3, when g().9. Find the -coordinate corresponding to each -coordinate or vice versa for the functions f() 4 5 and g() 4(.).Check our answers with our calculator. a. f() b. f( 3) c. f() d. f() e. f(.5) f. g() g. g( ) h., when g() 4 3. Use the graph of f() to answer each question. a. What is the value of f()? 4 b. What is the value of f(3)? f() c. For what -value or -values does f() equal 3? d. For what -value or -values does f() equal? e. What are the domain and range shown on the graph? 7 4. The graph of the function h(t) shows the height of a paper airplane on its maiden voage. a. What are the dependent and independent variables? b. What are the domain and range shown on the graph? c. Use function notation to represent the plane s height after 6 seconds. Height (m) 4 h(t) 4 6 8 Time (sec) t d. Use function notation to represent the time at which the plane was 4 meters high. 5. The function f().5.5 represents the distance of a motorized to car from a motion sensor, where distance is measured in meters and time () is measured in seconds. a. Find f(3). Eplain what this means. b. How far is the car from the sensor at time? Epress our answer using function notation. c. When will the car be.5 meters from the sensor? Epress our answer using function notation. 5 Discovering Algebra More Practice Your Skills 7 Ke Curriculum Press

Lesson 7.5 Defining the Absolute-Value Function. Find the value of each epression without using a calculator. Check our results with our calculator. a. b. 9 c. 4 3 d. 7 e. 7 f. 6 g. 6 h. 4 3 i. 7 5 j. 8 k. 3 4 9 l. 3 6 m. 4 5 n. 5 3 o. 3 ( 4)(5). Find the -values that satisf each equation. a. 6 b. 3.4 c. 4.5 d. 3 e. 3 f. 3 5 g. 8 h. 5.5 i. 9 3. Evaluate both sides of each statement to determine whether to replace the bo with,,or.use our calculator to check our answers. 3 a. 7 7 b. 5 3 5 c. 6 ( 6) d. 5 5 e. ( 3) 4 3 4 f. ( 5) 3 5 3 g. 4 ( 6) 4 6 h. 3 3 i. 3 7 3 3 7 4. Find each value if f() 3 and g() 3. a. f( 4) b. f( ) c. f() d. f() e. f(5) f. f(8) g. g( 4) h. g( ) i. g() j. g() k. g(5) l. g(8) m., when f() n., when g() o., when f() 7 p., when g() 7 7 Ke Curriculum Press Discovering Algebra More Practice Your Skills 53

Lesson 7.6 Squares, Squaring, and Parabolas. The length of a rectangle is cm greater than the width. a. Complete the table b filling in the missing width, length, perimeter, and area of each rectangle. b. Let represent the width of the rectangle. Use function notation to write an equation for the perimeter. c. Is the relationship between width and perimeter linear? Eplain wh or wh not. d. Let represent the width of the rectangle. Use function notation to write an equation for the area. e. Is the relationship between width and area linear? Eplain wh or wh not. Width Length Perimeter Area (cm) (cm) (cm) (cm ) 9 6 5 4 68 88. Find the value of each epression without using a calculator. Check our results with our calculator. a. 4 b. ( 3) c.. d. (.5) e. ( 8) f. 49 g..8 h..44 i. 3 j. 36 k. (.) 3 l. 3. Solve each equation for.use a calculator graph or table to verif our answers. a. 6.3 b. 4 8 c. 6 d. 5 7 e. f. ( 3) 65 g..56 h. 8.9 i. 5 j. 9 3 k. 4 5 l..5 4. Sketch the graphs of and on the same set of aes. Describe the similarities and differences of the graphs. 54 Discovering Algebra More Practice Your Skills 7 Ke Curriculum Press

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback