

Unit 1 (sample material)  

Reasoning
and Proof Develops student understanding of formal reasoning in geometric, algebraic, and statistical contexts and of basic principles that underlie those reasoning strategies. 
Topics
include: Inductive and deductive reasoning strategies; principles of logical reasoning—Affirming the Hypothesis and Chaining Implications; relation among angles formed by two intersecting lines or by two parallel lines and a transversal; rules for transforming algebraic expressions and equations; design of experiments including the role of randomization, control groups, and blinding; sampling distribution, randomization test, and statistical significance. 

Unit 2 (sample material)  
Inequalities
and Linear Programming Develops student ability to reason both algebraically and graphically to solve inequalities in one and two variables, introduces systems of inequalities in two variables, and develops a strategy for optimizing a linear function in two variables within a system of linear constraints on those variables. 
Topics
include: Inequalities in one and two variables, number line graphs, interval notation, systems of linear inequalities, and linear programming. 

Unit 3 (sample material)  
Similarity
and Congruence Extends student understanding of similarity and congruence and their ability to use those relations to solve problems and to prove geometric assertions with and without the use of coordinates. 
Topics
include: Connections between Law of Cosines, Law of Sines, and sufficient conditions for similarity and congruence of triangles, centers of triangles, applications of similarity and congruence in realworld contexts, necessary and sufficient conditions for parallelograms, sufficient conditions for congruence of parallelograms, and midpoint connector theorems. 

Unit 4 (sample material)  
Samples
and Variation Extends student understanding of the measurement of variability, develops student ability to use the normal distribution as a model of variation, introduces students to the binomial distribution and its use in decision making, and introduces students to the probability and statistical inference involved in control charts used in industry for statistical process control. 
Topics
include: Normal distribution, standardized scores, binomial distributions (shape, expected value, standard deviation), normal approximation to a binomial distribution, odds, statistical process control, control charts, and the Central Limit Theorem. 

Unit 5 (sample material)  
Polynomial
and Rational Functions Extends student ability to represent and draw inferences about polynomial and rational functions using symbolic expressions and manipulations. 
Topics
include: Definition and properties of polynomials, operations on polynomials; completing the square, proof of the quadratic formula, solving quadratic equations (including complex number solutions), vertex form of quadratic functions; definition and properties of rational functions, operations on rational expressions. 

Unit 6 (sample material)  
Circles
and Circular Functions Develops student understanding of relationships among special lines, segments, and angles in circles and the ability to use properties of circles to solve problems; develops student understanding of circular functions and the ability to use these functions to model periodic change; and extends student ability to reason deductively in geometric settings. 
Topics
include: Properties of chords, tangent lines, and central and inscribed angles of circles; linear and angular velocity; radian measure of angles; and circular functions as models of periodic change. 

Unit 7 (sample material)  
Recursion
and Iteration Extends student ability to represent, analyze, and solve problems in situations involving sequential and recursive change. 
Topics
include: Iteration and recursion as tools to model and analyze sequential change in realworld contexts, including compound interest and population growth; arithmetic, geometric, and other sequences; arithmetic and geometric series; finite differences; linear and nonlinear recurrence relations; and function iteration, including graphical iteration and fixed points. 

Unit 8  
Inverse
Functions Develops student understanding of inverses of functions with a focus on logarithmic functions and their use in modeling and analyzing problem situations and data patterns. 
Topics
include: Inverses of functions; logarithmic functions and their relation to exponential functions, properties of logarithms, equation solving with logarithms; and inverse trigonometric functions and their applications to solving trigonometric equations. 
CPMP
Courses 1–4 Unit Descriptions (206 KB)
Courses 1–3
and Course 4: Preparation for Calculus Unit and Lesson Objectives (1.58 MB)
Scope and Sequence (1.14
MB) of topics across Courses 1–4
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