Texarkana Independent School District



|Scope and Sequence |

|2009-2010 |

|Texarkana Independent School District |

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|I = Introduced P = Practiced M= Mastered |

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| | 111.33 Algebra II (One-Half to One Credit). | |

| |Grade 11. High School | |

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| |Grading Period | |

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| |(1)  The student uses properties and attributes of functions and applies functions to problem situations. The student is expected to: | |

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| |(A) identify the mathematical domains and ranges of functions and determine reasonable domain and range values for continuous and discrete situations | |

| |Including: | |

| |•Linear and quadratic function | |

| |•Explaining a functional relationship by using one variable to describe another variable. | |

| |• Selecting the independent or dependent quantity in an equation and justifying the selection | |

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| |(B) collect and organize data, make and interpret scatterplots, fit the graph of a function to the data, interpret the results, and proceed to model, | |

| |predict, and make decisions and critical judgments | |

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| |(2) The student understands the importance of the skills required to manipulate symbols in order to solve problems and uses the necessary algebraic skills | |

| |required to simplify algebraic expressions and solve equations and inequalities in problem situations. The student is expected to: | |

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| |(A) use tools including factoring and properties of exponents to simplify expressions and to transform and solve equations | |

| |Including investigations with and without a graphing calculator. | |

| |Solving equations including: | |

| |• Areas of rectangles and squares | |

| |• Factoring binomials and trinomials | |

| |• Apply the commutative, associative, and distributive properties to solve equations | |

| |• Substitute a value for a variable | |

| |• Using graphing calculator to determine zeros of equations | |

| |Properties of Exponents including: | |

| |•Powers of Zero (a0 = 1) | |

| |•Negative exponents (a-b = 1/ab ) | |

| |•Multiplying common bases ( ax * ay = ax +y ) | |

| |•Dividing common bases ( ax/ay = ax-y ) | |

| |• Power to power (( ax )y = axy ) | |

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| |(B)  use complex numbers to describe the solutions of quadratic equations | |

| |Including: | |

| |• Numbers of the form a + bi | |

| |• Real numbers in the form of a + 0i | |

| |• Interpretations from graph | |

| |• Analysis of discriminant | |

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| |(3)  The student formulates systems of equations and inequalities from problem situations, uses a variety of methods to solve them, and analyzes the | |

| |solutions in terms of the situations. The student is expected to: | |

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| |(A) analyze situations and formulate systems of equations in two or more unknowns or in equalities in two unknowns to solve problems | |

| |Including similarity, a constant rate of change, area, perimeter, circumference, and proportions. | |

| |Including setting up a system of two or three equations given a real world situation. | |

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| |(B)  use algebraic methods, graphs, tables, or matrices, to solve systems of equations or inequalities | |

| |Including algebraic patterns such as imaginary numbers, geometric patterns, such as fractals, and other iterations. | |

| |Including setting up and solving systems of two and three equations with and without a graphing calculator. | |

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| |(C)  interpret and determine the reasonableness of solutions to systems of equations or inequalities for given contexts | |

| |Including: | |

| |•Using the addition method to solve a system in which there is no solution, one solution, and infinite solutions | |

| |•Using the substitution method to solve a system in which there is no solution, one solution, and infinite solutions | |

| |•Using graphing calculators | |

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| |(4)  The student connects algebraic and geometric representations of functions. The student is expected to: | |

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| |(A)  identify and sketch graphs of parent functions, including linear (f(x) = x), quadratic (f(x) = x2), exponential (f(x) = ax), and logarithmic (f(x) = | |

| |logax) functions, absolute value of x (f(x) = |x|), square root of x, and reciprocal of x (f(x) = 1/x) | |

| |Including: | |

| |• Areas of rectangles and squares | |

| |•Factoring binomials and trinomials | |

| |•Apply the commutative, associative, and distributive properties to solve equations | |

| |•Substitute a value for a variable | |

| |•Using a graphing calculator | |

| |Including: | |

| |• f(x) = a3 | |

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| |(B)  extend parent functions with parameters such as a in f(x) = a/x and describe the effects of the parameter changes on the graph of parent functions | |

| |Including: | |

| |• Stretches and shrinks | |

| |• Translations | |

| |• Reflections | |

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| |(C)  describe and analyze the relationship between a function and its inverse | |

| |Including examples of functions such as linear and quadratic relationships, and non-examples such as y² = x.[pic] | |

| |Including: | |

| |•Ordered pairs (list, chart, map) | |

| |•Algebraic representation | |

| |•Graph of reflection over y = x | |

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| |(5)  The student knows the relationship between the geometric and algebraic descriptions of conic sections. The student is expected to: | |

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| |(A)  describe a conic section as the intersection of a plane and a cone | |

| |Including: | |

| |•Verbal descriptions that describe a constant rate of change and a rate of change that is not constant | |

| |•A table of values with a constant rate of change and a table of values in which the rate of change is not constant | |

| |Including: | |

| |•Parabolas | |

| |•Circles | |

| |•Ellipses | |

| |•Hyperbolas | |

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| |(B)  sketch graphs of conic sections, to relate simple parameter changes in the equation to corresponding changes in the graph | |

| |Including identifications for: | |

| |•Parabolas-focus, vertex, directrix | |

| |•Circles-center, radius | |

| |•Ellipse-foci, major and minor axis (a and b), center, (optional eccentricity) | |

| |•Hyperbolas (optional)-vertices, foci, asymptotes, eccentricity, conjugate and transverse axis (a and b) | |

| |Including properties of polygons, ratios in similar figures and solids, and angle relationships in polygons and circles. | |

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| |(C)  identify symmetries from graphs of conic sections such as tessellations. | |

| |Including: | |

| |•Real-world verbal descriptions of a constant rate of change such as earning an hourly wage or a constant speed | |

| |•Connecting the graph of a line to a description of a real-world experience | |

| |•Connecting an algebraic expression to a description of a real-world experience | |

| |•Using a graphing calculator | |

| |Including horizontal and vertical symmetry | |

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| |(D)  identify the conic section from a given equation | |

| |Including special right triangles (45-45-90 and 30-60-90) and triangles whose sides are Pythagorean triples. | |

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| |(E)  use the method of completing the square | |

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| |(6)  The student understands that quadratic functions can be represented in different ways and translates among their various representations. The student | |

| |is expected to: | |

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| |(A)  determine the reasonable domain and range values of quadratic functions, as well as interpret and determine the reasonableness of solutions to | |

| |quadratic equations and inequalities | |

| |Including algebraic expressions in which the equation is in slope-intercept form, point-slope form, and standard form with and without a graphing | |

| |calculator. | |

| |Including from: | |

| |•Graphs | |

| |•Quadratic equations | |

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| |(B)  relate representations of quadratic functions, such as algebraic, tabular, graphical, and verbal descriptions | |

| |Including algebraic expressions in which the equation is in slope-intercept form, point-slope form, and standard form with and without a graphing | |

| |calculator. | |

| |Including: | |

| |•Determine graph from equation | |

| |•Write equation given a word problem | |

| |•Write equation given a chart | |

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| |(C)  determine a quadratic function from its roots or a graph | |

| |Including algebraic expressions in which the equation is in slope-intercept form, point-slope form, and standard form with and without a graphing | |

| |calculator. | |

| |Including: | |

| |•Sum and product of roots | |

| |•Multiply the binomials to obtain standard form of equation | |

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| |(7)  The student interprets and describes the effects of changes in the parameters of quadratic functions in applied and mathematical situations. The | |

| |student is expected to: | |

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| |(A) use characteristics of the quadratic parent function to sketch the related graphs and connect between the y = ax2 + bx + c and the y = a(x - h)2 + k | |

| |symbolic representations of quadratic functions | |

| |Including: | |

| |•Real-world problems involving a constant rate of change with a constant and a constant rate of change without a constant | |

| |•Algebraic expressions in which the equation is in slope-intercept form, point-slope form, and standard form | |

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| |(B) use the parent function to investigate, describe, and predict the effects of changes in a, h, and k on the graphs of y = a(x - h)2 + k form of a | |

| |function in applied and purely mathematical situations | |

| |Including: | |

| |•Using information from concrete models to write linear equations, plot graphs, and solve equations | |

| |•Use graphs to solve linear equations and inequalities | |

| |•Algebraic expressions in which the equation is in slope-intercept form, point-slope form, and standard form | |

| |•Using a graphing calculator | |

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| |(8)  The student formulates equations and inequalities based on quadratic functions, uses a variety of methods to solve them, and analyzes the solutions in| |

| |terms of the situation. The student is expected to: | |

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| |(A)  analyze situations involving quadratic functions and formulate quadratic equations or inequalities to solve problems | |

| |Including: | |

| |•Algebraic expressions in which the equation is in slope-intercept form, point-slope form, and standard form | |

| |•Using the addition method to solve a system in which there is no solution, one solution, and infinite solutions | |

| |•Using the substitution method to solve a system in which there is no solution, one solution, and infinite solutions | |

| |Including: | |

| |•Transforming from standard to vertex form by completing the square | |

| |•Expanding vertex form to obtain standard form | |

| |Including: | |

| |•Graphs | |

| |•Tables | |

| |•Equations drawn from word problems | |

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| |(B)  analyze and interpret the solutions of quadratic equations using discriminants and solve quadratic equations using the quadratic formula | |

| |Including: | |

| |•Algebraic expressions in which the equation is in slope-intercept form, point-slope form, and standard form | |

| |•Using the addition method to solve a system in which there is no solution, one solution, and infinite solutions | |

| |•Using the substitution method to solve a system in which there is no solution, one solution, and infinite solutions | |

| |•Using a graphing calculator | |

| |Including: | |

| |•Stretch and shrink (a) | |

| |•Shift left/right (h) | |

| |•Shift up/down (k) | |

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| |(C) compare and translate between algebraic and graphical solutions of quadratic equations | |

| |Including: | |

| |•Algebraic expressions in which the equation is in slope-intercept form, point-slope form, and standard form | |

| |•Using the addition method to solve a system in which there is no solution, one solution, and infinite solutions | |

| |•Using the substitution method to solve a system in which there is no solution, one solution, and infinite solutions | |

| |•Using graphing calculators | |

| |Including determining roots (zeros, solutions, and x-intercepts) from an equation or graph. | |

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| |(D) solve quadratic equations and inequalities using graphs, tables, and algebraic methods | |

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| |(9) The student formulates equations and inequalities based on square root functions, uses a variety of methods to solve them, and analyzes the solutions in| |

| |terms of the situation. The student is expected to: | |

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| |(A)  use the parent function to investigate, describe, and predict the effects of parameter changes on the graphs of square root functions and describe | |

| |limitations on the domains and ranges | |

| |Including: | |

| |•Using rational exponents to represent radicals | |

| |•Stretch/shrink | |

| |•Translations | |

| |•Reflections | |

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| |(B)  relate representations of square root functions, such as algebraic, tabular, graphical, and verbal descriptions | |

| |Including: | |

| |•Determining graphs from equations | |

| |•Write equations given a word problem | |

| |•Write equations given a chart | |

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| |(C)  determine the reasonable domain and range values of square root functions, as well as interpret and determine the reasonableness of solutions to square| |

| |root equations and inequalities | |

| |Including investigation of extraneous solutions as well as imaginary numbers. | |

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| |(D)  determine solutions of square root equations using graphs, tables, and algebraic methods | |

| |Including graphical representations on the calculator. | |

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| |(E)  determine solutions of square root inequalities using graphs and tables | |

| |Including graphical representations on the calculator. | |

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| |(F)  analyze situations modeled by square root functions, formulate equations or inequalities, select a method, and solve problems | |

| |Including investigation of extraneous solutions. | |

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| |(G)  connect inverses of square root functions with quadratic functions | |

| |Including confirming: | |

| |•Graphically | |

| |•Algebraically | |

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| |(10)  The student formulates equations and inequalities based on rational functions, uses a variety of methods to solve them, and analyzes the solutions in | |

| |terms of the situation. The student is expected to: | |

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| |(A)  use quotients of polynomials to describe the graphs of rational functions, predict the effects of parameter changes, describe limitations on the | |

| |domains and ranges, and examine asymptotic behavior | |

| |Including analysis of a predetermined graph. | |

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| |(B)  analyze various representations of rational functions with respect to problem situations | |

| |Including: | |

| |•Graphs | |

| |•Tables | |

| |•Equations | |

| |•Verbal description | |

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| |(C)  determine the reasonable domain and range values of rational functions, as well as interpret and determine the reasonableness of solutions to rational | |

| |equations and inequalities | |

| |Including: | |

| |•Use of graphing calculator | |

| |•Solving denominator = to zero to determine vertical asymptotes (domain) | |

| |•Calculate horizontal asymptotes (range) | |

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| |(D)  determine the solutions of rational equations using graphs, tables, and algebraic methods | |

| |Including: | |

| |•Calculator applications | |

| |•Solving equations | |

| |•Finding zeros within a table | |

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| |(E)  determine solutions of rational inequalities using graphs and tables | |

| |Including: | |

| |•Calculator applications (shading) | |

| |•Check values from table | |

| |•Check algebraically (optional) | |

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| |(F)  analyze a situation modeled by a rational function, formulate an equation or inequality composed of a linear or quadratic function, and solve the | |

| |problem | |

| |Including: | |

| |•Graphs | |

| |•Tables | |

| |•Equations drawn from word problems | |

| |Examples include: | |

| |A motorboat goes 36 miles upstream on a river whose current is running at 3 miles per hour. What is the speed of the boat (assuming that it maintains a | |

| |constant speed relative to the water)? | |

| |Equation the student should derive and solve: [pic] Total trip (round trip) is 5 hours d + d = t | |

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| |(G)  use functions to model and make predictions in problem situations involving direct and inverse variation | |

| |Including: | |

| |•Finding constant of variation | |

| |•Using constant to solve for unknown | |

| |Examples include: | |

| |The cost per person to rent a chartered bus varies inversely as the number of people who ride the bus. If 40 people pay $9.50 each to ride the chartered | |

| |bus, what is the cost per person if only 25 people go? | |

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| |(11)  The student formulates equations and inequalities based on exponential and logarithmic functions, uses a variety of methods to solve them, and | |

| |analyzes the solutions in terms of the situation. The student is expected to: | |

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| |(A)  develop the definition of logarithms by exploring and describing the relationship between exponential functions and their inverses | |

| |Including converting equations from exponential form to logarithmic form and vice versa. | |

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| |(B)  use the parent functions to investigate, describe, and predict the effects of parameter changes on the graphs of exponential and logarithmic functions,| |

| |describe limitations on the domains and ranges, and examine asymptotic behavior | |

| |Including: | |

| |•Stretches/shrinks | |

| |•Translations | |

| |•Reflections | |

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| |(C)  determine the reasonable domain and range values of exponential and logarithmic functions, as well as interpret and determine the reasonableness of | |

| |solutions to exponential and logarithmic equations and inequalities | |

| |Including: | |

| |•Graphical representation | |

| |•Equation representation | |

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| |(D)  determine solutions of exponential and logarithmic equations using graphs, tables, and algebraic methods | |

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| |(E)  determine solutions of exponential and logarithmic inequalities using graphs and tables | |

| |Including: | |

| |•Finding roots on the calculator | |

| |•Finding zeros in a table | |

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| |(F)  analyze a situation modeled by an exponential function, formulate an equation or inequality, and solve the problem | |

| |Including problem of these types: | |

| |•Exponential growth and decay | |

| |•Half-life | |

| |•Compound interest | |

| |•Other examples | |

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|Additional TEKS |

|Mathematics, |Grading Period |

|Grade 8.  Middle School | |

| |1 |2 |3 |4 |5 |6 |

|(8.3) The student identifies proportional or non-proportional linear relationships in problem | | | | | | |

|situations and solves problems. The student is expected to: | | | | | | |

|(B) gather and record data and use data sets, to determine functional relationships between |I |P |P |P |P |M |

|quantities | | | | | | |

|Including: | | | | | | |

|•Students collecting data that models linear and quadratic functions | | | | | | |

|•Writing equations from a table of data | | | | | | |

|•Generating a list of data from a functional relationship | | | | | | |

|•Using a graphing calculator (specifically using the table function in the calculator). An option| | | | | | |

|would be to teach linear regression using the calculator | | | | | | |

|(C) describe functional relationships for given problem situations and write equations or |I |P |P |P |P |M |

|inequalities to answer questions arising from the situations | | | | | | |

|Including: | | | | | | |

|•Areas of circles and squares | | | | | | |

|•Perimeters of squares, equilateral triangles, and circumference | | | | | | |

|•Constant rate of change (i.e. slope) | | | | | | |

|•Literal equations (a = lw solve for l) | | | | | | |

|(D) represent relationships among quantities using concrete models, tables, graphs, diagrams, |I |P |P |P |P |M |

|verbal descriptions, equations, and inequalities | | | | | | |

|(E) interpret and make decisions, predictions, and critical judgments from functional |I |P |P |P |P |M |

|relationships | | | | | | |

|Including linear relationships (constant rate of change), quadratic relationships communicated | | | | | | |

|with concrete models, tables, graphs, diagrams, verbal descriptions, equations, and inequalities. | | | | | | |

|(A.2) The student uses the properties and attributes of functions. The student is expected to: | | | | | | |

|(B) identify mathematical domains and ranges and determine reasonable domain and range values for|I |P |P |P |P |M |

|given situations, both continuous and discrete | | | | | | |

|Including: | | | | | | |

|•Values displayed in a table | | | | | | |

|•Values displayed by an equation | | | | | | |

|•Values displayed in a graph. | | | | | | |

|•Values displayed by an inequality. | | | | | | |

|•Values from a verbal description of everyday experiences such as temperature, money, height, etc.| | | | | | |

|(C) interpret situations in terms of given graphs or create situations that fit given graphs |I |P |P |P |P |M |

|Including interpreting real-world situations in terms of graphs and also describing a real-world | | | | | | |

|situation that fits a graph. | | | | | | |

|(D) collect and organize data, make and interpret scatterplots (including recognizing positive, |I |P |P |P |P |M |

|negative, or no correlation for data approximating linear situations), and model, predict, and | | | | | | |

|make decisions and critical judgments in problem situations | | | | | | |

|Including organizing data that demonstrates a positive linear correlation, a negative linear | | | | | | |

|correlation, and no correlation with and without a graphing calculator | | | | | | |

|(A.3) The student understands how algebra can be used to express generalizations and recognizes | | | | | | |

|and uses the power of symbols to represent situations. The student is expected to: | | | | | | |

|(B) look for patterns and represent generalizations algebraically |I |P |P |P |P |M |

|Including expressions in the form of, but not limited to: | | | | | | |

|•an, an ± b, a/n, n/a, a/n ± b, n/a ± b, a ± n, n – a | | | | | | |

|•geometric sequence | | | | | | |

|•arithmetic sequence | | | | | | |

|common ratios and differences | | | | | | |

|(A.4) The student understands the importance of the skills required to manipulate symbols in order| | | | | | |

|to solve problems and uses the necessary algebraic skills required to simplify algebraic | | | | | | |

|expressions and solve equations and inequalities in problem situations. The student is expected | | | | | | |

|to: | | | | | | |

|(B) use the commutative, associative, and distributive properties to simplify algebraic |I |P |P |P |P |M |

|expressions | | | | | | |

|(C) connect equation notation with function notation, such as |I |P |P |P |P |M |

|y = x + 1 and f(x) = x + 1 | | | | | | |

|(A.5) The student understands that linear functions can be represented in different ways and | | | | | | |

|translates among their various representations. The student is expected to: | | | | | | |

| (C) use, translate, and make connections among algebraic, tabular, graphical, or verbal |I |P |P |P |P |M |

|descriptions of linear functions | | | | | | |

|Including: | | | | | | |

|•Real-world verbal descriptions of a constant rate of change such as earning an hourly wage or a | | | | | | |

|constant speed. | | | | | | |

|•Connecting the graph of a line to a description of a real-world experience. | | | | | | |

|•Connecting an algebraic expression to a description of a real-world experience. | | | | | | |

|•Using a graphing calculator. | | | | | | |

|(A.6) The student understands the meaning of the slope and intercepts of the graphs of linear | | | | | | |

|functions and zeros of linear functions and interprets and describes the effects of changes in | | | | | | |

|parameters of linear functions in real-world and mathematical situations. The student is expected | | | | | | |

|to: | | | | | | |

|(B) interpret the meaning of slope and intercepts in situations using data, symbolic |I |P |P |P |P |M |

|representations, or graphs | | | | | | |

|Including algebraic equations in slope-intercept form, point-slope form, and standard form with | | | | | | |

|and without a graphing calculator. | | | | | | |

|Such as: | | | | | | |

|•Symbolic representations including use of tables and real world applications | | | | | | |

|•Representation of slope as integers, fractions, decimals and mixed numbers | | | | | | |

|(C) investigate, describe, and predict the effects of changes in m and b on the graph of y = mx +|I |P |P |P |P |M |

|b | | | | | | |

|Including algebraic equations in which the equation is in slope-intercept form, point-slope form, | | | | | | |

|and standard form with and without a graphing calculator. | | | | | | |

|Such as: | | | | | | |

|•Transformation | | | | | | |

|•Changing slope and/or y intercept | | | | | | |

|•Doubling/halving slope | | | | | | |

|Parallel and perpendicular slope | | | | | | |

|(D) graph and write equations of lines given characteristics such as two points, a point and a |I |P |P |P |P |M |

|slope, or a slope and y-intercept | | | | | | |

|Including algebraic equations in slope-intercept form, point-slope form, and standard form with | | | | | | |

|and without a graphing calculator. | | | | | | |

|(E) determine the intercepts of the graphs of linear functions and zeros of linear functions from|I |P |P |P |P |M |

|graphs, tables, and algebraic representations | | | | | | |

|Including algebraic equations in slope-intercept form, point-slope form, and standard form with | | | | | | |

|and without a graphing calculator. | | | | | | |

|(F) interpret and predict the effects of changing slope and y-intercept in applied situations |I |P |P |P |P |M |

|•Including real-world situations that model a constant change such as a salary, commission, a ride| | | | | | |

|in a taxi, renting a car, speed, buying gasoline, etc. | | | | | | |

|Algebraic equations in slope-intercept form, point-slope form, and standard form | | | | | | |

|(G) relate direct variation to linear functions and solve problems involving proportional change |I |P |P |P |P |M |

|Including: | | | | | | |

|•Real-world situations that model a constant change such as a salary, commission, a ride in a | | | | | | |

|taxi, renting a car, speed, buying gasoline, etc. | | | | | | |

|•Algebraic equations in slope-intercept form, point-slope form, and stand form | | | | | | |

|•Using a graphing calculator | | | | | | |

|(A.7) The student formulates equations and inequalities based on linear functions, uses a variety | | | | | | |

|of methods to solve them, and analyzes the solutions in terms of the situation. The student is | | | | | | |

|expected to: | | | | | | |

|(B) investigate methods for solving linear equations and inequalities using concrete models, |I |P |P |P |P |M |

|graphs, and the properties of equality, select a method, and solve the equations and inequalities | | | | | | |

|Including: | | | | | | |

|•Using information from concrete models to write linear equations and inequalities, plot graphs, | | | | | | |

|and solve equations and inequalities | | | | | | |

|•Use graphs to solve linear equations and inequalities •Algebraic equations and inequalities in | | | | | | |

|slope-intercept form, point-slope form, and standard form | | | | | | |

|Using a graphing calculator | | | | | | |

|(C) investigate methods for solving linear equations and inequalities using concrete models, |I |P |P |P |P |M |

|graphs, and the properties of equality, select a method, and solve the equations and inequalities | | | | | | |

|Including: | | | | | | |

|•Using information from concrete models to write linear equations and inequalities, plot graphs, | | | | | | |

|and solve equations and inequalities | | | | | | |

|•Use graphs to solve linear equations and inequalities •Algebraic equations and inequalities in | | | | | | |

|slope-intercept form, point-slope form, and standard form | | | | | | |

|Using a graphing calculator | | | | | | |

|(A.8) The student formulates systems of linear equations from problem situations, uses a variety | | | | | | |

|of methods to solve them, and analyzes the solutions in terms of the situation. The student is | | | | | | |

|expected to: | | | | | | |

|(B) solve systems of linear equations using concrete models, graphs, tables, and algebraic |I |P |P |P |P |M |

|methods | | | | | | |

|Including: | | | | | | |

|•Using the addition method (aka elimination method or combinations method) to solve a system in | | | | | | |

|which there is no solution, one solution, and infinite solutions | | | | | | |

|•Using the substitution method to solve a system in which there is no solution, one solution, and | | | | | | |

|infinite solutions | | | | | | |

|•Using a graphing calculator to find the intersection of the system (i.e. the solution) | | | | | | |

|(C) interpret and determine the reasonableness of solutions to systems of linear equations |I |P |P |P |P |M |

|Including: | | | | | | |

|•Algebraic equations in slope-intercept form, point-slope form, and standard form. | | | | | | |

|•Using the addition method to solve a system in which there is no solution, one solution, and | | | | | | |

|infinite solutions. | | | | | | |

|•Using the substitution method to solve a system in which there is no solution, one solution, and | | | | | | |

|infinite solutions. | | | | | | |

|•Using graphing calculators | | | | | | |

|(A.9) The student understands that the graphs of quadratic functions are affected by the | | | | | | |

|parameters of the function and can interpret and describe the effects of changes in the parameters| | | | | | |

|of quadratic functions. Following are performance descriptions. | | | | | | |

|(C) investigate, describe, and predict the effects of changes in c on the graph of y = ax2 + c |I |P |P |P |P |M |

|Including: | | | | | | |

|•Equations in which c is a number less than 0 | | | | | | |

|•Equations in which c is a number greater than 0 | | | | | | |

|•Using a graphing calculator | | | | | | |

|(D) analyze graphs of quadratic functions and draw conclusions |I |P |P |P |P |M |

|Including: | | | | | | |

|•Naming the vertex | | | | | | |

|•Naming the zeros (roots, solutions, and x-intercepts) | | | | | | |

|•Determine whether ‘a’ is positive or negative | | | | | | |

|•Finding the domain and range | | | | | | |

|•Applying quadratics to real world applications | | | | | | |

|(A.10) The student understands there is more than one way to solve a quadratic equation and solves| | | | | | |

|it using appropriate methods. The student is expected to: | | | | | | |

|(B) make connections among the solutions (roots) of quadratic equations, the zeros of their |I |P |P |P |P |M |

|related functions, and the horizontal intercepts (x-intercepts) of the graph of the function | | | | | | |

|Including: | | | | | | |

|•Using a graphing calculator | | | | | | |

|•Factoring | | | | | | |

|•Real world problems such as area of a rectangle | | | | | | |

|•Other methods such as algebra tiles | | | | | | |

|•Use terminology (i.e. solutions, roots, zeros, and x-intercepts) | | | | | | |

|(A.11) The student understands there are situations modeled by functions that are neither linear | | | | | | |

|nor quadratic and models the situations. The student is expected to: | | | | | | |

|111.34 Geometry (One Credit).   | | | | | | |

|Grade 10. High School | | | | | | |

|(G.4) The student uses a variety of representations to describe geometric relationships and solve | | | | | | |

|problems. The student is expected to: | | | | | | |

|(G.5) The student uses a variety of representations to describe geometric relationships and solve | | | | | | |

|problems. The student is expected to: | | | | | | |

|(B) use numeric and geometric patterns to make generalizations about geometric properties, |I |P |P |P |P |M |

|including properties of polygons, ratios in similar figures and solids, and angle relationships in| | | | | | |

|polygons and circles Including properties of | | | | | | |

|polygons, ratios in similar figures and solids, and angle relationships in polygons and circles | | | | | | |

|(C) use properties of transformations and their compositions to make connections between |I |P |P |P |P |M |

|mathematics and the real world, such as tessalations | | | | | | |

|(D) identify and apply patterns from right triangles to solve meaningful problems, including |I |P |P |P |P |M |

|special right triangles (45-45-90 and 30-60-90) and triangles whose sides are Pythagorean triples | | | | | | |

|Including trigonometric ratios sine, cosine, tangent | | | | | | |

|(G.6) The student analyzes the relationship between three-dimensional geometric figures and | | | | | | |

|related two-dimensional representations and uses these representations to solve problems. The | | | | | | |

|student is expected to: | | | | | | |

|(C) use orthographic and isometric views of three-dimensional geometric figures to represent and |I |P |P |P |P |M |

|construct three-dimensional geometric figures and solve problems | | | | | | |

|Including the use of unit blocks to explore concrete models. | | | | | | |

|(G.7) The student understands that coordinate systems provide convenient and efficient ways of | | | | | | |

|representing geometric figures and uses them accordingly. The student is expected to: | | | | | | |

|(B) use slopes and equations of lines to investigate geometric relationships, including parallel |I |P |P |P |P |M |

|lines, perpendicular lines, and special segments of triangles and other polygons | | | | | | |

|(C) derive and use formulas involving length, slope, and midpoint Including: |I |P |P |P |P |M |

|•The relationship between Pythagorean theorem and the distance formula | | | | | | |

|•The application of the formulas to prove properties of figures such as rhombi, squares, | | | | | | |

|rectangles, etc… | | | | | | |

|(G.8) The student uses tools to determine measurement of geometric figures and extends measurement| | | | | | |

|concepts to find perimeter, area, and volume in problem situations. The student is expected to: | | | | | | |

|(B) find areas of sectors and arc lengths of circles using proportional reasoning |I |P |P |P |P |M |

|Including: | | | | | | |

|• [pic] | | | | | | |

|• Area of sector ═ Central Angle | | | | | | |

|Area of circle 3600 | | | | | | |

|(C) derive, extend, and use the Pythagorean Theorem Including: |I |P |P |P |P |M |

|•Distance formula | | | | | | |

|•Unknown lengths in polygons and circles | | | | | | |

|(D) find surface areas and volumes of prisms, pyramids, spheres, cones, cylinders, and composites|I |P |P |P |P |M |

|of these figures in problem situations | | | | | | |

|(G.9) The student analyzes properties and describes relationships in geometric figures. The | | | | | | |

|student is expected to: | | | | | | |

|(G.10) The student applies the concept of congruence to justify properties of figures and solve | | | | | | |

|problems. The student is expected to: | | | | | | |

|(G.11) The student applies the concepts of similarity to justify properties of figures and solve | | | | | | |

|problems. The student is expected to: | | | | | | |

|(B) use ratios to solve problems involving similar figures Including: |I |P |P |P |P |M |

|•Comparing the areas, perimeters and volumes of similar polygons and solids | | | | | | |

|•Dilations | | | | | | |

|(C) develop, apply, and justify triangle similarity relationships, such as right triangle ratios,|I |P |P |P |P |M |

|trigonometric ratios, and Pythagorean triples using a variety of methods | | | | | | |

|(D) describe the effect on perimeter, area, and volume when one or more dimensions of a figure |I |P |P |P |P |M |

|are changed and apply this idea in solving problems | | | | | | |

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