Extending their knowledge of linear, exponential, and quadratic functions to polynomial, rational, and radical functions, students in Algebra 2 model situations and solve equations, discovering how the rules they learned in arithmetic continue to apply as they work with polynomials. Students focus on the properties and factors of polynomials, learning to find the zeros of a polynomial and graph it as a function. Students use complex numbers to solve quadratic equations and exponential expressions, and learn how to rewrite rational expressions in different forms and solve simple rational and radical equations. The trigonometric concepts students learned previously are expanded as they focus on the unit circle and apply these concepts to models of periodic phenomena. Students then extend their knowledge of function families to model functions defined as square roots or cube roots, as well as piecewise-defined functions. A detailed look at exponential and logarithmic functions is applied to showing intercepts and end behavior. Students collect data through sample surveys, experiments, and simulations, and learn about the role of randomness in this process. Quantitative reasoning is emphasized as students compare the differences between sample surveys, experiments, and observations, and explain how randomization relates to each one
Linear equations and inequalities
Relations and functions
Characteristics of linear functions
Systems of equations and inequalities
Quadratic functions and their graphs Complex numbers
Fundamental Theorem of Algebra
Radical and rational functions
Gain an understanding of linear equations and inequalities.
Demonstrate the ability to model and solve applications with systems of equations.
Interpret and construct quadratic functions. Recognize that quadratics may have real and complex solutions.
Represent algebraic expressions in multiple ways.
Model real-world problems with rational functions.