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Mathematics in Action - . . Consortium for Foundation Mathematics

Mathematics in Action

An Introduction to Algebraic, Graphical, and Numerical Problem Solving
Buch | Softcover
736 Seiten
2007 | 3rd edition
Pearson (Verlag)
978-0-321-44448-6 (ISBN)
CHF 119,70 inkl. MwSt
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Designed to engage the student as an active participant in the classroom, the Mathematics in Action series presents concepts using real-life activities and reinforces those concepts with practice exercises in the text and in MyMathLab™.

The second book of a three-part series, An Introduction to Algebraic, Graphical, and Numerical Problem Solving, Third Edition, illustrates how mathematics arises naturally from everyday situations through updated and revised real-life activities and the accompanying practice exercises. Along with the activities and the exercises within the text, MathXL® and MyMathLab™ have been enhanced to create a better overall learning experience for the student.

This unique approach helps students increase their knowledge of mathematics, sharpen their problem-solving skills, and raise their overall confidence in their ability to learn. Technology integrated throughout the text helps students interpret real-life data algebraically, numerically, symbolically, and graphically. The active style of this book develops students' mathematical literacy and builds a solid foundation for future study in mathematics and other disciplines.

Chapter 1: Number Sense

 

Cluster 1: Introduction to Problem Solving with Whole Numbers

 

Activity 1.1: The Bookstore

Objectives: 1. Practice communication skills

2. Organize information

3. Write a solution in sentences

4. Develop problem-solving skills

Activity 1.2: The Classroom

Objectives: 1. Organize information

2. Develop problem-solving strategies

-Draw a picture

-Recognize patterns

-Do a simpler pattern

3. Communicate problem-solving ideas

Activity 1.3: Problem Solving and Your Calendar

Objectives: 1. Identify and use the commutative property in calculations

2. Use the distributive property to evaluate arithmetic expressions

3. Use the order of operations convention to evaluate arithmetic expressions

4. Identify and use the properties of exponents in calculation

5. Convert numbers to and from scientific notation

6. Identify, understand, and use formulas

7. Use the order of operations in formulas involving whole numbers

Project Activity 1.4: The Class Schedule

Objective: 1. Use algorithms to solve problems

What Have I Learned?

How Can I Practice?

 

Cluster 2: Problem Solving with Fractions and Decimals (Rational Numbers)

 

Activity 1.5: Delicious Recipes

Objectives: 1. Add and subtract fractions

2. Multiply and divide fractions

Activity 1.6: Course Grades and Your GPA

Objectives: 1. Solve problems using fractions and decimals

2. Recognize and calculate a weighted average

Project Activity 1.7: Income and Expenses

Objective: Solve problems with fractions and decimals

What Have I Learned?

How Can I Practice?

 

Cluster 3: Comparisons and Proportional Reasoning

Activity 1.8: Everything is Relative

Objectives: 1. Distinguish between absolute and relative measure

2. Write ratios in fraction, decimal, and relative measure

3. Determine equivalence of ratios

Activity 1.9: The Devastation of AIDS in Africa

Objectives: 1. Use proportional reasoning to apply a known ratio to a given piece of information

2. Write a proportion and then solve the resulting proportion

Activity 1.10: Who Really Did Better?

Objectives: 1. Define actual and relative change

2. Distinguish between actual and relative change

3. Calculate relative change as a percent increase or percent decrease

Activity 1.11: Going Shopping

Objectives: 1. Define growth factor

2. Determine growth factors from percent increases

3. Apply growth factors to problems involving percent increases

4. Define decay factor

5. Determine decay factors from percent decreases

6. Apply decay factors to problems involving percent decreases

Activity 1.12: Take an Additional 20% Off

Objectives: 1. Define consecutive growth and decay factors

2. Determine a consecutive growth or decay factor from two or more consecutive percent changes

3. Apply consecutive growth and/or decay factors to solve problems involving percent changes

Activity 1.13: Fuel Economy

1. Apply rates directly to solve problems

2. Use proportion equations to solve problems involving rates

3. Use unit or dimensional analysis to solve problems that involve consecutive rates

Project Activity 1.14: Take it To Heart

Objective: 1. Solve problems involving percents, formulas, and proportional

Reasoning

What Have I Learned?

How Can I Practice?

Skills Check 1

 

Cluster 4: Problem Solving with Signed Numbers

 

Activity 1.15: Celsius Thermometers

Objectives: 1. Identify signed numbers

2. Use signed numbers to represent quantities in real-world situations

3. Compare signed numbers

4. Calculate the absolute value of numbers

5. Identify and use properties of addition and subtraction of signed numbers

6. Add and subtract signed numbers using absolute value

Activity 1.16: Shedding the Extra Pounds

Objective: Multiply and divide signed numbers

Activity 1.17: Order of Operations Revisited

Objectives: 1. Use the order of operations convention to evaluate expressions involving signed numbers

2. Evaluate expressions that involve negative exponents

3. Distinguish between -54 and (-5)4

4. Write very small numbers in scientific notation

What Have I Learned?

How Can I Practice?

 

Skills Check 2

Chapter 1 Summary

Chapter 1 Gateway Review

 

Chapter 2: Variable Sense

 

Cluster 1: Interpreting and Constructing Tables and Graphs

 

Activity 2.l: Blood-Alcohol Levels

Objectives: 1. Identify input and output in situations involving two variable quantities

2. Use a table to numerically represent a relationship between two variables

3. Represent a relationship between two variables graphically

4. Identify trends in data pairs that are represented numerically and graphically

Activity 2.2: Earth's Temperature

Objectives: 1. Construct a graph of data pairs using an appropriately scaled and labeled rectangular coordinate system

2. Determine the coordinates of a point on a graph

3. Construct a table of data pairs using the data points on a graph

4. Identify points that lie in a given quadrant or on a given axis

Activity 2.3: College Expenses

Objectives: 1. Identify input variables and output variables

2. Determine possible replacement values for the input

3. Write variable rules that represent relationships between input and output variables

4. Construct tables of input/output values

5. Construct graphs from input/output tables

Activity 2.4: The Write Way to Learn Algebra

Objectives: 1. Translate verbal phrases into symbolic (algebraic) expressions

2. Distinguish between a factor and a term in an algebraic expression

3. Evaluate algebraic expressions for specified input values

Lab Activity 2.5: How Many Cups Are in That Stack?

Objectives: 1. Collect input/output data

2. Represent input/output data numerically in tables

3. Construct tables of data pairs for graphing

4. Graph input/output data pairs

Project Activity 2.6: Body Parts

Objectives: 1. Collect input/output data

2. Represent input/output data numerically in a table

3. Construct graphs from tables of data pairs

What Have I Learned?

How Can I Practice?

 

Cluster 2: Solving Equations Numerically, Graphically, and Algebraically

Activity 2.7: Fundraiser

Objectives: 1. Translate verbal rules (statements using words) to symbolic rules (equations)

2. Distinguish an algebraic expression from an equation and from a symbolic rule

3. Solve an equation numerically and graphically

4. Distinguish between a graph of distinct points and a graph of a continuous line

Activity 2.8: Let's Go Shopping

Objectives: 1. Translate verbal rules into symbolic ones

2. Solve an equation of the form ax = b, a ≠ 0, for x using an algebraic approach

3. Solve an equation of the form x + a = b for x using an algebraic approach

Activity 2.9: Are They the Same?

Objectives: 1. Translate verbal rules into symbolic (algebraic) rules

2. Write algebraic expressions that involve grouping symbols

3. Evaluate algebraic expressions containing two or more operations

4. Identify equivalent algebraic expressions by examining their outputs

Activity 2.10: Sherlock Holmes

Objective: 1. Recognize the conceptual basis for solving equations algebraically

Activity 2.11: Leasing a Copier

Objectives: 1. Model contextual situations with symbolic rules of the form y = ax + b, a ≠ 0

2. Solve equations of the form ax + b = c, a ≠ 0

Activity 2.12: How Long Can You Live?

Objectives: 1. Represent sets of data by a regression equation of the form y = ax + b, a ≠ 0

2. Solve equations of the form ax + b = c, a ≠ 0

3. Solve problems involving equations of the form ax + b = c, a ≠ 0

Activity 2.13:  The Algebra of Weather

Objectives: 1. Evaluate formulas for specified input values

2. Solve a formula for a specified variable

What Have I Learned?

How Can I Practice?

 

Cluster 3: Mathematical Modeling and Problem Solving

 

Activity 2.14: Do It Two Ways

Objectives: 1. Apply the distributive property

2. Use areas of rectangles to interpret the distributive property geometrically

3. Identify equivalent expressions

Activity 2.15: Ring It Up!

Objectives: 1. Identify the greatest common factor in an expression

2. Factor out the greatest common factor in an expression

3. Recognize like terms

4. Simplify an expression by combining like terms

Lab Activity 2.16: Math Magic

Objectives: 1. Recognize an algebraic expression as a code of instruction

2. Simplify algebraic expressions

Activity 2.17: Comparing Energy Costs

Objectives: 1. Translate verbal rules into symbolic rules

2. Write and solve equations of the form ax + b = cx + d

3. Use the distributive property to solve equations involving grouping symbols

4. Develop mathematical models to solve problems

5. Solve formulas for a specified variable

Project Activity 2.18: Summer Job Opportunities

Objective: 1. Use critical thinking skills to make decisions based on solutions of systems of two linear equations

What Have I Learned?

How Can I Practice?

 

Chapter 2 Summary

Chapter 2 Gateway Review

 

Chapter 3: Function Sense and Linear Functions

 

Cluster 1: Function Sense

 

Activity 3.1: Graphs Tell Stories

Objectives: 1. Describe in words what a graph tells you about a given situation

2. Sketch a graph that best represents a situation that is described in words

3. Identify increasing, decreasing, and constant parts of a graph

4. Identify minimum and maximum points on a graph

5. Define a function

6. Use the vertical line test to determine whether a graph represents a function

Activity 3.2: Course Grade

Objectives: 1. Represent functions numerically, graphically, and symbolically

2. Determine the symbolic rule that defines a function

3. Use function notation to represent functions symbolically

4. Identify the domain and range of a function

5. Identify the practical domain and range of a function

Activity 3.3: How Fast Did You Lose?

Objective: 1. Determine the average rate of change of an output variable with respect to the input variable

What Have I Learned?

How Can I Practice?

 

Cluster 2:  Introduction to Linear Functions

 

Activity 3.4: The Snowy Tree Cricket

Objectives: 1. Identify linear functions by a constant rate of change of the output variable with respect to the input variable

2. Determine the slope of the line drawn through two points

3. Identify increasing linear functions using slopes

Activity 3.5: Descending in an Airplane

Objectives: 1. Identify lines as having negative, zero, or undefined slopes

2. Identify a decreasing linear function from its graph or slope

3. Determine horizontal and vertical intercepts of a linear function from its graph

4. Interpret the meaning of horizontal and vertical intercepts of a line

Activity 3.6: Charity Event

Objectives: 1. Determine a symbolic rule for a linear function from contextual information

2. Identify the practical meanings of the slope and intercepts of a linear function

3. Determine the slope-intercept form of a linear function

4. Identify functions as linear by numerical, graphical, and algebraic characteristics

Activity 3.7: Software Sales

Objectives: 1. Identify the slope and vertical intercept from the equation of a line written in slope-intercept form

2. Write an equation of a line in the slope-intercept form

3. Use the y-intercept and the slope to graph a linear function

4. Determine horizontal intercepts of linear functions using an algebraic approach

5. Use intercepts to graph a linear function

What Have I Learned?

How Can I Practice?

 

Cluster 3: Problem Solving with Linear Functions

 

Activity 3.8: Predicting Population

Objectives: 1. Write an equation for a linear function given its slope and y-intercept

2. Write linear functions in slope-intercept form

3. Determine the relative error in a measurement or prediction using a linear model

4. Interpret the slope and y-intercept of linear functions in contextual situations

5. Use the slope-intercept form of linear equations to solve problems

Activity 3.9: Housing Prices

Objectives: 1. Determine the slope and y-intercept of a line algebraically and graphically

2. Determine the equation for a linear function when given two points

3. Interpret the slope and y-intercept of a linear function in contextual situations

Activity 3.10: Oxygen for Fish

Objectives: 1. Construct scatterplots from sets of data

2. Recognize when patterns of points in a scatterplot are approximately linear

3. Estimate and draw a line of best fit through a set of points in a scatterplot

4. Use a graphing calculator to determine a line of best fit by the least-squares method

5. Estimate the error of representing a set of data by a line of best fit

What Have I Learned?

How Can I Practice?

 

Cluster 4: Systems of Two Linear Equations

 

Activity 3.11: Business Checking Account

Objectives: 1. Solve a system of two linear equations numerically

2. Solve a system of two linear equations graphically

3. Solve a system of two linear equations symbolically by the substitution method

4. Recognize the connections among the three methods of solution

5. Interpret the solution to a system of two linear equations in terms of the problem's content

Activity 3.12: Healthy Lifestyle

Objectives: 1. Solve a system of two linear equations algebraically using the substitution method and the addition method

2. Solve equations containing parentheses

Activity 3.13: Modeling a Business

Objectives: 1. Solve a system of two linear equations by any method

2. Determine the break-even point of a linear system algebraically and graphically

3. Interpret break-even points in contextual situations

Activity 3.14: How Long Can You Live?

Objectives: 1. Use properties of inequalities to solve linear inequalities algebraically

2. Solve compound inequalities algebraically and graphically

3. Solve linear inequalities graphically

What Have I Learned?

How Can I Practice?

 

Chapter 3 Summary

Chapter 3 Gateway Review

 

Chapter 4: An Introduction to Nonlinear Problem Solving

Cluster 1: Mathematical Modeling Involving Polynomials

 

Activity 4.1: Fatal crashes

Objectives: 1. Identify polynomials and polynomial functions

2. Classify a polynomial as a monomial, binomial, or trinomial

3. Determine the degree of a polynomial

4. Simplify a polynomial by identifying and combining like terms

5. Add and subtract polynomials

6. Evaluate and interpret polynomials

Activity 4.2: Volume of a Storage Tank

Objectives: 1. Use properties of exponents to simplify expressions and combine powers that have the same base

2. Use the distributive property and properties of exponents to write expressions in expanded form

3. Identify the greatest common factor (GCF) in an algebraic expression

4. Factor algebraic expressions completely

5. Use the distributive property to check factored algebraic expressions

Activity 4.3: Room for Work

Objectives: 1. Expand and simplify the product of two binomials

2. Expand and simplify the product of any two polynomials

3. Recognize and expand the product of conjugate binomials: difference of squares

4. Recognize and expand the product of identical binomials: perfect-square trinomials

What Have I Learned?

How Can I Practice?

 

Cluster 2:  Problem Solving with Quadratic Equations and Functions

 

Activity 4.4: The Amazing Property of Gravity

Objectives: 1. Evaluate functions of the form y = ax2

2. Graph functions of the form y = ax2

3. Interpret the coordinates of points on the graph of y = ax2 in context

4. Solve an equation of the form ax2 = c graphically

5. Solve an equation of the form ax2 = c algebraically by taking square roots

6. Solve an equation of the form (x ± a) 2 = c algebraically by taking square roots

Activity 4.5: What Goes Up, Comes Down

Objectives: 1. Evaluate quadratic functions of the form y = ax2 + bx

2. Graph functions of the form y = ax2 + bx, a = 0

3. Identify the x-intercepts of the graph of y = ax2 + bx graphically and algebraically

4. Interpret the x-intercepts of a quadratic function in context

5. Factor a binomial of the form ax2 + bx

6. Solve an equation of the form ax2 + bx =0 using the zero-product rule

Activity 4.6: How High Did It Go?

Objectives: 1. Recognize and write a quadratic equation in standard form, ax2 + bx + c = 0

2. Factor trinomials of the form x2 + bx + c

3. Solve a factorable quadratic equation of the form x2 + bx + c = 0 using the zero-product rule

4. Identify a quadratic function from its algebraic form

Activity 4.7:  More Ups and Downs

Objectives: 1. Use the quadratic formula to solve quadratic equations

2. Identify the solutions of a quadratic equation with points on the corresponding graph

What Have I Learned?

How Can I Practice?

 

Cluster 3: Other Nonlinear Functions

 

Activity 4.8: Inflation

Objectives: 1. Recognize an exponential function as a rule for applying a growth factor or a decay factor

2. Graph exponential functions from numerical data

3. Recognize exponential functions from symbolic rules

4. Graph exponential functions from symbolic rules

Activity 4.9: Diving Under Pressure, or Don't Hold Your Breath

Objectives: 1. Recognize functions of the form y = k/x, x ≠ 0, as nonlinear

2. Recognize equations of the form xy = k as inverse variation

3. Graph an inverse variation relationship from symbolic rules

4. Solve equations of the form a/x = b, x ≠ 0

Activity 4.10: Hang Time

Objectives: 1. Recognize functions of the form y = a/x as nonlinear

2. Evaluate and solve equations that involve square roots

3. Graph square root functions from numerical data

4. Graph square root functions from symbolic rules

What Have I Learned?

How Can I Practice?

 

Chapter 4 Summary

Chapter 4 Gateway Review

 

Appendixes

Appendix A: Fractions

Appendix B: Getting Started with the TI-83/TI-84 Plus Family of Calculators

Appendix C: Algebraic Extensions

Appendix D: Decimals

Appendix E: Learning Math Opens Doors: Twelve Keys to Success

Selected Answers

Glossary

Index

Erscheint lt. Verlag 17.4.2007
Sprache englisch
Maße 216 x 276 mm
Gewicht 1311 g
Themenwelt Mathematik / Informatik Mathematik Algebra
ISBN-10 0-321-44448-5 / 0321444485
ISBN-13 978-0-321-44448-6 / 9780321444486
Zustand Neuware
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