IXL Skill Plan | Texas Essential Knowledge and Skills (TEKS): Algebraic Reasoning

Texas Essential Knowledge and Skills (TEKS): Algebraic Reasoning

Skills available for Texas Algebraic Reasoning standards

Domain

Mathematical process standards
Patterns and structure
Number and algebraic methods
Modeling from data

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1	Mathematical process standards
1 The student uses mathematical processes to acquire and demonstrate mathematical understanding.
A apply mathematics to problems arising in everyday life, society, and the workplace;		Patterns and structure 1. Write a linear function: word problems 2. Write exponential functions: word problems 3. Write linear and exponential functions: word problems Number and algebraic methods 4. Solve quadratic equations: word problems 5. Solve linear equations: word problems 6. Solve a system of equations using augmented matrices: word problems Modeling from data 7. Interpret lines of best fit: word problems 8. Interpret regression lines 9. Analyze a regression line of a data set
A apply mathematics to problems arising in everyday life, society, and the workplace;
Patterns and structure 1. Write a linear function: word problems 2. Write exponential functions: word problems 3. Write linear and exponential functions: word problems Number and algebraic methods 4. Solve quadratic equations: word problems 5. Solve linear equations: word problems 6. Solve a system of equations using augmented matrices: word problems Modeling from data 7. Interpret lines of best fit: word problems 8. Interpret regression lines 9. Analyze a regression line of a data set

B use a problem-solving model that incorporates analyzing given information, formulating a plan or strategy, determining a solution, justifying the solution, and evaluating the problem-solving process and the reasonableness of the solution;		Patterns and structure 1. Write a linear function: word problems 2. Write exponential functions: word problems 3. Write linear and exponential functions: word problems Number and algebraic methods 4. Interpret parts of quadratic expressions: word problems 5. Solve quadratic equations: word problems 6. Solve a system of equations using augmented matrices: word problems Modeling from data 7. Analyze a regression line of a data set
B use a problem-solving model that incorporates analyzing given information, formulating a plan or strategy, determining a solution, justifying the solution, and evaluating the problem-solving process and the reasonableness of the solution;
Patterns and structure 1. Write a linear function: word problems 2. Write exponential functions: word problems 3. Write linear and exponential functions: word problems Number and algebraic methods 4. Interpret parts of quadratic expressions: word problems 5. Solve quadratic equations: word problems 6. Solve a system of equations using augmented matrices: word problems Modeling from data 7. Analyze a regression line of a data set

C select tools, including real objects, manipulatives, paper and pencil, and technology as appropriate, and techniques, including mental math, estimation, and number sense as appropriate, to solve problems;		Patterns and structure 1. Identify inverse functions Number and algebraic methods 2. Approximate solutions using a table 3. Factor quadratics 4. Factor sums and differences of cubes 5. Solve a system of equations using augmented matrices 6. Divide polynomials using long division Modeling from data 7. Calculate correlation coefficients 8. Find the equation of a regression line
C select tools, including real objects, manipulatives, paper and pencil, and technology as appropriate, and techniques, including mental math, estimation, and number sense as appropriate, to solve problems;
Patterns and structure 1. Identify inverse functions Number and algebraic methods 2. Approximate solutions using a table 3. Factor quadratics 4. Factor sums and differences of cubes 5. Solve a system of equations using augmented matrices 6. Divide polynomials using long division Modeling from data 7. Calculate correlation coefficients 8. Find the equation of a regression line

D communicate mathematical ideas, reasoning, and their implications using multiple representations, including symbols, diagrams, graphs, and language as appropriate;		Patterns and structure 1. Compare linear functions: tables, graphs, and equations 2. Write a formula for a recursive sequence 3. Characteristics of quadratic functions: graphs 4. Characteristics of quadratic functions: equations 5. Rational functions: asymptotes and excluded values Modeling from data 6. Domain and range of linear functions: graphs 7. Domain and range of linear functions: word problems 8. Domain and range of exponential functions: graphs 9. Domain and range of exponential functions: equations 10. Domain and range of quadratic functions: graphs 11. Domain and range of quadratic functions: equations 12. Domain and range of absolute value functions: graphs 13. Domain and range of absolute value functions: equations 14. Domain and range of square root functions: graphs 15. Domain and range of square root functions: equations 16. Match correlation coefficients to scatter plots 17. Interpret lines of best fit: word problems 18. Interpret regression lines 19. Domain and range of logarithmic functions
D communicate mathematical ideas, reasoning, and their implications using multiple representations, including symbols, diagrams, graphs, and language as appropriate;
Patterns and structure 1. Compare linear functions: tables, graphs, and equations 2. Write a formula for a recursive sequence 3. Characteristics of quadratic functions: graphs 4. Characteristics of quadratic functions: equations 5. Rational functions: asymptotes and excluded values Modeling from data 6. Domain and range of linear functions: graphs 7. Domain and range of linear functions: word problems 8. Domain and range of exponential functions: graphs 9. Domain and range of exponential functions: equations 10. Domain and range of quadratic functions: graphs 11. Domain and range of quadratic functions: equations 12. Domain and range of absolute value functions: graphs 13. Domain and range of absolute value functions: equations 14. Domain and range of square root functions: graphs 15. Domain and range of square root functions: equations 16. Match correlation coefficients to scatter plots 17. Interpret lines of best fit: word problems 18. Interpret regression lines 19. Domain and range of logarithmic functions

E create and use representations to organize, record, and communicate mathematical ideas;		Patterns and structure 1. Write a linear function: word problems 2. Write variable expressions for arithmetic sequences 3. Write variable expressions for geometric sequences 4. Write a formula for a recursive sequence 5. Graph exponential functions 6. Match exponential functions and graphs I 7. Match exponential functions and graphs II 8. Graph quadratic functions in vertex form 9. Graph quadratic functions in standard form 10. Match quadratic functions and graphs 11. Write linear and exponential functions from tables 12. Write linear, quadratic, and exponential functions from tables 13. Compare linear and exponential growth 14. Compare linear, exponential, and quadratic growth 15. Graph an absolute value function 16. Graph square root functions 17. Graph cube root functions 18. Graph logarithmic functions 19. Graph linear functions 20. Match cubic functions and graphs Number and algebraic methods 21. Find solutions using a table 22. Approximate solutions using a table Modeling from data 23. Match correlation coefficients to scatter plots 24. Write equations for lines of best fit 25. Find the equation of a regression line 26. Analyze a regression line of a data set
E create and use representations to organize, record, and communicate mathematical ideas;
Patterns and structure 1. Write a linear function: word problems 2. Write variable expressions for arithmetic sequences 3. Write variable expressions for geometric sequences 4. Write a formula for a recursive sequence 5. Graph exponential functions 6. Match exponential functions and graphs I 7. Match exponential functions and graphs II 8. Graph quadratic functions in vertex form 9. Graph quadratic functions in standard form 10. Match quadratic functions and graphs 11. Write linear and exponential functions from tables 12. Write linear, quadratic, and exponential functions from tables 13. Compare linear and exponential growth 14. Compare linear, exponential, and quadratic growth 15. Graph an absolute value function 16. Graph square root functions 17. Graph cube root functions 18. Graph logarithmic functions 19. Graph linear functions 20. Match cubic functions and graphs Number and algebraic methods 21. Find solutions using a table 22. Approximate solutions using a table Modeling from data 23. Match correlation coefficients to scatter plots 24. Write equations for lines of best fit 25. Find the equation of a regression line 26. Analyze a regression line of a data set

F analyze mathematical relationships to connect and communicate mathematical ideas; and		Patterns and structure 1. Match exponential functions and graphs I 2. Match exponential functions and graphs II 3. Match quadratic functions and graphs 4. Identify linear, quadratic, and exponential functions from tables 5. Linear functions over unit intervals 6. Exponential functions over unit intervals 7. Composition of linear functions: find an equation 8. Composition of linear and quadratic functions: find an equation 9. Check whether two rational functions are inverses 10. Quadratic and cubic patterns 11. Match cubic functions and graphs Number and algebraic methods 12. Interpret parts of quadratic expressions: word problems Modeling from data 13. Match correlation coefficients to scatter plots
F analyze mathematical relationships to connect and communicate mathematical ideas; and
Patterns and structure 1. Match exponential functions and graphs I 2. Match exponential functions and graphs II 3. Match quadratic functions and graphs 4. Identify linear, quadratic, and exponential functions from tables 5. Linear functions over unit intervals 6. Exponential functions over unit intervals 7. Composition of linear functions: find an equation 8. Composition of linear and quadratic functions: find an equation 9. Check whether two rational functions are inverses 10. Quadratic and cubic patterns 11. Match cubic functions and graphs Number and algebraic methods 12. Interpret parts of quadratic expressions: word problems Modeling from data 13. Match correlation coefficients to scatter plots

G display, explain, and justify mathematical ideas and arguments using precise mathematical language in written or oral communication.		Patterns and structure 1. Compare linear functions: tables, graphs, and equations Number and algebraic methods 2. Interpret parts of quadratic expressions: word problems Modeling from data 3. Domain and range of linear functions: word problems 4. Interpret lines of best fit: word problems 5. Interpret regression lines
G display, explain, and justify mathematical ideas and arguments using precise mathematical language in written or oral communication.
Patterns and structure 1. Compare linear functions: tables, graphs, and equations Number and algebraic methods 2. Interpret parts of quadratic expressions: word problems Modeling from data 3. Domain and range of linear functions: word problems 4. Interpret lines of best fit: word problems 5. Interpret regression lines

2-3	Patterns and structure
AR.2 The student applies mathematical processes to connect finite differences or common ratios to attributes of functions. The student is expected to:
AR.2A Determine the patterns that identify the relationship between a function and its common ratio or related finite differences as appropriate, including linear, quadratic, cubic, and exponential functions.		Sequences 1. Identify arithmetic and geometric sequences 2. Arithmetic sequences 3. Geometric sequences 4. Evaluate recursive formulas for sequences Variable expressions 5. Write variable expressions for arithmetic sequences 6. Write variable expressions for geometric sequences 7. Write a formula for a recursive sequence 8. Sequences: mixed review Growth patterns 9. Linear functions over unit intervals 10. Exponential functions over unit intervals 11. Quadratic and cubic patterns
AR.2A Determine the patterns that identify the relationship between a function and its common ratio or related finite differences as appropriate, including linear, quadratic, cubic, and exponential functions.
Sequences 1. Identify arithmetic and geometric sequences 2. Arithmetic sequences 3. Geometric sequences 4. Evaluate recursive formulas for sequences Variable expressions 5. Write variable expressions for arithmetic sequences 6. Write variable expressions for geometric sequences 7. Write a formula for a recursive sequence 8. Sequences: mixed review Growth patterns 9. Linear functions over unit intervals 10. Exponential functions over unit intervals 11. Quadratic and cubic patterns

AR.2B Classify a function as linear, quadratic, cubic, and exponential when a function is represented tabularly using finite differences or common ratios as appropriate.		1. Identify linear and exponential functions from tables 2. Identify linear, quadratic, and exponential functions from tables
AR.2B Classify a function as linear, quadratic, cubic, and exponential when a function is represented tabularly using finite differences or common ratios as appropriate.
1. Identify linear and exponential functions from tables 2. Identify linear, quadratic, and exponential functions from tables

AR.2C Determine the function that models a given table of related values using finite differences and its restricted domain and range.		1. Write linear and exponential functions from tables 2. Write linear, quadratic, and exponential functions from tables 3. Write the equation of a linear function
AR.2C Determine the function that models a given table of related values using finite differences and its restricted domain and range.
1. Write linear and exponential functions from tables 2. Write linear, quadratic, and exponential functions from tables 3. Write the equation of a linear function

AR.2D Determine a function that models real-world data and mathematical contexts using finite differences such as the age of a tree and its circumference, figurative numbers, average velocity, and average acceleration.		1. Write a linear function: word problems 2. Write exponential functions: word problems 3. Write linear and exponential functions: word problems
AR.2D Determine a function that models real-world data and mathematical contexts using finite differences such as the age of a tree and its circumference, figurative numbers, average velocity, and average acceleration.
1. Write a linear function: word problems 2. Write exponential functions: word problems 3. Write linear and exponential functions: word problems
AR.3 The student applies mathematical processes to understand the connections among representations of functions and combinations of functions, including the constant function, f(x) = x, f(x) = x², f(x) = √x, f(x) = ¹/_x, f(x) = x³, f(x) = cubed root of x, f(x) = bx, f(x) = \|x\|, and f(x) = logb (x) where b is 10 or e; functions and their inverses; and key attributes of these functions. The student is expected to:
AR.3A Compare and contrast the key attributes, including domain, range, maxima, minima, and intercepts, of a set of functions such as a set comprised of a linear, a quadratic, and an exponential function or a set comprised of an absolute value, a quadratic, and a square root function tabularly, graphically, and symbolically.		Linear functions 1. Domain and range of linear functions: graphs 2. Compare linear functions: graphs and equations 3. Compare linear functions: tables, graphs, and equations 4. Graph linear functions Absolute value functions 5. Graph an absolute value function 6. Domain and range of absolute value functions: graphs 7. Domain and range of absolute value functions: equations 8. Transformations of absolute value functions Quadratic functions 9. Characteristics of quadratic functions: graphs 10. Characteristics of quadratic functions: equations 11. Graph quadratic functions in vertex form 12. Graph quadratic functions in standard form 13. Match quadratic functions and graphs 14. Domain and range of quadratic functions: graphs 15. Domain and range of quadratic functions: equations 16. Transformations of quadratic functions Cubic functions 17. Match cubic functions and graphs Radical functions 18. Domain and range of square root functions: graphs 19. Domain and range of square root functions: equations 20. Graph square root functions 21. Graph cube root functions Rational functions 22. Rational functions: asymptotes and excluded values Exponential functions 23. Graph exponential functions 24. Match exponential functions and graphs I 25. Match exponential functions and graphs II 26. Domain and range of exponential functions: graphs 27. Domain and range of exponential functions: equations Logarithmic functions 28. Domain and range of logarithmic functions 29. Graph logarithmic functions Compare functions 30. Compare linear and exponential growth 31. Compare linear, exponential, and quadratic growth
AR.3A Compare and contrast the key attributes, including domain, range, maxima, minima, and intercepts, of a set of functions such as a set comprised of a linear, a quadratic, and an exponential function or a set comprised of an absolute value, a quadratic, and a square root function tabularly, graphically, and symbolically.
Linear functions 1. Domain and range of linear functions: graphs 2. Compare linear functions: graphs and equations 3. Compare linear functions: tables, graphs, and equations 4. Graph linear functions Absolute value functions 5. Graph an absolute value function 6. Domain and range of absolute value functions: graphs 7. Domain and range of absolute value functions: equations 8. Transformations of absolute value functions Quadratic functions 9. Characteristics of quadratic functions: graphs 10. Characteristics of quadratic functions: equations 11. Graph quadratic functions in vertex form 12. Graph quadratic functions in standard form 13. Match quadratic functions and graphs 14. Domain and range of quadratic functions: graphs 15. Domain and range of quadratic functions: equations 16. Transformations of quadratic functions Cubic functions 17. Match cubic functions and graphs Radical functions 18. Domain and range of square root functions: graphs 19. Domain and range of square root functions: equations 20. Graph square root functions 21. Graph cube root functions Rational functions 22. Rational functions: asymptotes and excluded values Exponential functions 23. Graph exponential functions 24. Match exponential functions and graphs I 25. Match exponential functions and graphs II 26. Domain and range of exponential functions: graphs 27. Domain and range of exponential functions: equations Logarithmic functions 28. Domain and range of logarithmic functions 29. Graph logarithmic functions Compare functions 30. Compare linear and exponential growth 31. Compare linear, exponential, and quadratic growth

AR.3B Compare and contrast the key attributes of a function and its inverse when it exists, including domain, range, maxima, minima, and intercepts, tabularly, graphically, and symbolically.
AR.3B Compare and contrast the key attributes of a function and its inverse when it exists, including domain, range, maxima, minima, and intercepts, tabularly, graphically, and symbolically.


AR.3C Verify that two functions are inverses of each other tabularly and graphically such as situations involving compound interest and interest rate, velocity and braking distance, and Fahrenheit-Celsius conversions.		1. Identify inverse functions 2. Graphs of inverse functions 3. Check whether two rational functions are inverses 4. Inverses of linear functions
AR.3C Verify that two functions are inverses of each other tabularly and graphically such as situations involving compound interest and interest rate, velocity and braking distance, and Fahrenheit-Celsius conversions.
1. Identify inverse functions 2. Graphs of inverse functions 3. Check whether two rational functions are inverses 4. Inverses of linear functions

AR.3D Represent a resulting function tabularly, graphically, and symbolically when functions are combined or separated using arithmetic operations such as combining a 20% discount and a 6% sales tax on a sale to determine h(x), the total sale, f(x) = 0.8x, g(x) = 0.06(0.8x), and h(x) = f(x) + g(x).		1. Add and subtract functions 2. Multiply functions 3. Divide functions
AR.3D Represent a resulting function tabularly, graphically, and symbolically when functions are combined or separated using arithmetic operations such as combining a 20% discount and a 6% sales tax on a sale to determine h(x), the total sale, f(x) = 0.8x, g(x) = 0.06(0.8x), and h(x) = f(x) + g(x).
1. Add and subtract functions 2. Multiply functions 3. Divide functions

AR.3E Model a situation using function notation when the output of one function is the input of a second function such as determining a function h(x) = g(f(x)) = 1.06(0.8x) for the final purchase price, h(x) of an item with price x dollars representing a 20% discount, f(x) = 0.8x followed by a 6% sales tax, g(x) = 1.06x.		1. Composition of linear functions: find a value 2. Composition of linear functions: find an equation 3. Composition of linear and quadratic functions: find a value 4. Composition of linear and quadratic functions: find an equation
AR.3E Model a situation using function notation when the output of one function is the input of a second function such as determining a function h(x) = g(f(x)) = 1.06(0.8x) for the final purchase price, h(x) of an item with price x dollars representing a 20% discount, f(x) = 0.8x followed by a 6% sales tax, g(x) = 1.06x.
1. Composition of linear functions: find a value 2. Composition of linear functions: find an equation 3. Composition of linear and quadratic functions: find a value 4. Composition of linear and quadratic functions: find an equation

AR.3F Compare and contrast a function and possible functions that can be used to build it tabularly, graphically, and symbolically such as a quadratic function that results from multiplying two linear functions.
AR.3F Compare and contrast a function and possible functions that can be used to build it tabularly, graphically, and symbolically such as a quadratic function that results from multiplying two linear functions.

4-6	Number and algebraic methods
AR.4 The student applies mathematical processes to simplify and perform operations on functions represented in a variety of ways, including real-world situations. The student is expected to:
AR.4A Connect tabular representations to symbolic representations when adding, subtracting, and multiplying polynomial functions arising from mathematical and real-world situations such as applications involving surface area and volume.		1. Add and subtract polynomials 2. Multiply polynomials
AR.4A Connect tabular representations to symbolic representations when adding, subtracting, and multiplying polynomial functions arising from mathematical and real-world situations such as applications involving surface area and volume.
1. Add and subtract polynomials 2. Multiply polynomials

AR.4B Compare and contrast the results when adding two linear functions and multiplying two linear functions that are represented tabularly, graphically, and symbolically.
AR.4B Compare and contrast the results when adding two linear functions and multiplying two linear functions that are represented tabularly, graphically, and symbolically.


AR.4C Determine the quotient of a polynomial function of degree three and of degree four when divided by a polynomial function of degree one and of degree two when represented tabularly and symbolically.		1. Divide polynomials using long division
AR.4C Determine the quotient of a polynomial function of degree three and of degree four when divided by a polynomial function of degree one and of degree two when represented tabularly and symbolically.
1. Divide polynomials using long division

AR.4D Determine the linear factors of a polynomial function of degree two and of degree three when represented symbolically and tabularly and graphically where appropriate.		1. Factor quadratics 2. Factor sums and differences of cubes
AR.4D Determine the linear factors of a polynomial function of degree two and of degree three when represented symbolically and tabularly and graphically where appropriate.
1. Factor quadratics 2. Factor sums and differences of cubes
AR.5 The student applies mathematical processes to represent, simplify, and perform operations on matrices and to solve systems of equations using matrices. The student is expected to:
AR.5A Add and subtract matrices.		1. Add and subtract matrices
AR.5A Add and subtract matrices.
1. Add and subtract matrices

AR.5B Multiply matrices.		1. Multiply two matrices
AR.5B Multiply matrices.
1. Multiply two matrices

AR.5C Multiply matrices by a scalar.		1. Add and subtract matrices 2. Multiply a matrix by a scalar
AR.5C Multiply matrices by a scalar.
1. Add and subtract matrices 2. Multiply a matrix by a scalar

AR.5D Represent and solve systems of two linear equations arising from mathematical and real-world situations using matrices.		1. Solve a system of equations using augmented matrices 2. Solve a system of equations using augmented matrices: word problems
AR.5D Represent and solve systems of two linear equations arising from mathematical and real-world situations using matrices.
1. Solve a system of equations using augmented matrices 2. Solve a system of equations using augmented matrices: word problems

AR.5E Represent and solve systems of three linear equations arising from mathematical and real-world situations using matrices and technology.
AR.5E Represent and solve systems of three linear equations arising from mathematical and real-world situations using matrices and technology.

AR.6 The student applies mathematical processes to estimate and determine solutions to equations resulting from functions and real-world applications with fluency. The student is expected to:
AR.6A Estimate a reasonable input value that results in a given output value for a given function, including quadratic, rational, and exponential functions.		1. Find values using function graphs
AR.6A Estimate a reasonable input value that results in a given output value for a given function, including quadratic, rational, and exponential functions.
1. Find values using function graphs

AR.6B Solve equations arising from questions asked about functions that model real-world applications, including linear and quadratic functions, tabularly, graphically, and symbolically.		Linear functions 1. Solve linear equations: word problems Quadratic functions 2. Interpret parts of quadratic expressions: word problems 3. Solve quadratic equations: word problems
AR.6B Solve equations arising from questions asked about functions that model real-world applications, including linear and quadratic functions, tabularly, graphically, and symbolically.
Linear functions 1. Solve linear equations: word problems Quadratic functions 2. Interpret parts of quadratic expressions: word problems 3. Solve quadratic equations: word problems

AR.6C Approximate solutions to equations arising from questions asked about exponential, logarithmic, square root, and cubic functions that model real-world applications tabularly and graphically.		1. Find solutions using a table 2. Approximate solutions using a table
AR.6C Approximate solutions to equations arising from questions asked about exponential, logarithmic, square root, and cubic functions that model real-world applications tabularly and graphically.
1. Find solutions using a table 2. Approximate solutions using a table

7	Modeling from data
AR.7 The student applies mathematical processes to analyze and model data based on real-world situations with corresponding functions. The student is expected to:
AR.7A Represent domain and range of a function using interval notation, inequalities, and set (builder) notation.		Linear functions 1. Domain and range of linear functions: graphs Absolute value functions 2. Domain and range of absolute value functions: graphs 3. Domain and range of absolute value functions: equations Quadratic functions 4. Domain and range of quadratic functions: graphs 5. Domain and range of quadratic functions: equations Radical functions 6. Domain and range of square root functions: graphs 7. Domain and range of square root functions: equations Exponential and logarithmic functions 8. Domain and range of exponential functions: graphs 9. Domain and range of exponential functions: equations 10. Domain and range of logarithmic functions
AR.7A Represent domain and range of a function using interval notation, inequalities, and set (builder) notation.
Linear functions 1. Domain and range of linear functions: graphs Absolute value functions 2. Domain and range of absolute value functions: graphs 3. Domain and range of absolute value functions: equations Quadratic functions 4. Domain and range of quadratic functions: graphs 5. Domain and range of quadratic functions: equations Radical functions 6. Domain and range of square root functions: graphs 7. Domain and range of square root functions: equations Exponential and logarithmic functions 8. Domain and range of exponential functions: graphs 9. Domain and range of exponential functions: equations 10. Domain and range of logarithmic functions

AR.7B Compare and contrast between the mathematical and reasonable domain and range of functions modeling real-world situations, including linear, quadratic, exponential, and rational functions.		1. Domain and range of linear functions: graphs 2. Domain and range of linear functions: word problems
AR.7B Compare and contrast between the mathematical and reasonable domain and range of functions modeling real-world situations, including linear, quadratic, exponential, and rational functions.
1. Domain and range of linear functions: graphs 2. Domain and range of linear functions: word problems

AR.7C Determine the accuracy of a prediction from a function that models a set of data compared to the actual data using comparisons between average rates of change and finite differences such as gathering data from an emptying tank and comparing the average rate of change of the volume or the second differences in the volume to key attributes of the given model.
AR.7C Determine the accuracy of a prediction from a function that models a set of data compared to the actual data using comparisons between average rates of change and finite differences such as gathering data from an emptying tank and comparing the average rate of change of the volume or the second differences in the volume to key attributes of the given model.


AR.7D Determine an appropriate function model, including linear, quadratic, and exponential functions, for a set of data arising from real-world situations using finite differences and average rates of change.		1. Write linear and exponential functions: word problems 2. Write linear, quadratic, and exponential functions from tables
AR.7D Determine an appropriate function model, including linear, quadratic, and exponential functions, for a set of data arising from real-world situations using finite differences and average rates of change.
1. Write linear and exponential functions: word problems 2. Write linear, quadratic, and exponential functions from tables

AR.7E Determine if a given linear function is a reasonable model for a set of data arising from a real-world situation.		Correlation coefficients 1. Match correlation coefficients to scatter plots 2. Calculate correlation coefficients Lines of best fit 3. Write equations for lines of best fit 4. Interpret lines of best fit: word problems Regression lines 5. Find the equation of a regression line 6. Interpret regression lines 7. Analyze a regression line of a data set
AR.7E Determine if a given linear function is a reasonable model for a set of data arising from a real-world situation.
Correlation coefficients 1. Match correlation coefficients to scatter plots 2. Calculate correlation coefficients Lines of best fit 3. Write equations for lines of best fit 4. Interpret lines of best fit: word problems Regression lines 5. Find the equation of a regression line 6. Interpret regression lines 7. Analyze a regression line of a data set