Algebra 2 + Trigonometry
Algebra 2 with Trigonometry

Algebra 2 + Trigonometry Workbook

$55.00

The Common Core Algebra II + Trigonometry Student Workbook by Kirk Weiler is a comprehensive curriculum aligned with Common Core State Standards, featuring structured lessons and homework sets that build essential skills.

This course covers key topics such as Inverse Functions, Creating Polynomial Equations, and Standard Deviation.

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Description

The Common Core Algebra II + Trigonometry Student Workbook by Kirk Weiler is a full-course curriculum. This curriculum presents mathematical concepts in a structured sequence that builds essential skills and deepens student understanding. Each lesson introduces topics progressively to ensure mastery of fundamental math principles.

This workbook is a printed collection of lessons and homework sets from the Algebra II + Trigonometry course. The answer key is sold separately as part of an annual membership.

Time to Complete:

Each lesson and homework set is structured for completion within a single day but can be adjusted as needed. 

Here are the topics covered in each unit:

Unit 1: Introduction to Functions: Composition of Functions, Inverse Functions
Unit 2: Linear Relations: Modeling, Functions, and Forms of a Line
Unit 3: Quadratic Functions and Their Algebra: Zero Product Law, Quadratic Inequalities
Unit 4: Radicals and the Quadratic Formula: Rationalizing Fractions, Solving Root Arithmetic
Unit 5: Complex Numbers: Imaginary Numbers, Discriminant of Quadratic
Unit 6: Polynomials and Rational Functions: Inverse Variation, Complex Fractions
Unit 7: Trigonometric Functions: Vertical Shifting of Sinusoidal Graphs, The Unit Circle
Unit 8: Trigonometric Algebra: Solving Equations Using Identities, Solving Trigonometric Equations
Unit 9: Trigonometric Applications: The Law of Sines and Cosines, The Ambiguous Nature
Unit 10: Exponential and Logarithmic Functions: The Number e and the Natural Logarithm
Unit 11: Probability: Introduction to Combinations, Binomial Expansions
Unit 12: Statistics: Standard Deviation, Summation Notation, The Normal Distribution
Unit 13: Sequences and Series: Arithmetic Series, Geometric Series

Questions? Take a look at our Frequently Asked Questions.

 

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Standards Alignment

Standards

Below are some of the key areas addressed in the workbook, though this is not a comprehensive list:

MP.1 – Make sense of problems and persevere in solving them.
 MP.2 – Reason abstractly and quantitatively.
 MP.3 – Construct viable arguments and critique the reasoning of others.
 MP.4 – Model with mathematics.
 MP.5 – Use appropriate tools strategically.
 MP.7 – Look for and make use of structure.
 MP.8 – Look for and express regularity in repeated reasoning.
 AI-A.APR.1 – Add, subtract, and multiply polynomials and recognize that the result is also a polynomial.
 AI-A.APR.3 – Identify zeros of polynomial functions when suitable factorizations are available.
 AI-A.REI.1a – Explain each step solving linear or quadratic equations; justify the solution method.
 AI-A.REI.3 – Solve linear equations and inequalities in one variable.
 AI-F.IF.2 – Use function notation, evaluate functions, and interpret in context.
 AI-F.IF.4 – Interpret key features of graphs and tables; sketch graphs from descriptions.
 AI-F.IF.6 – Calculate and interpret average rate of change over an interval.
 AI-F.IF.7a – Graph linear, quadratic, and exponential functions; show key features.
 AI-F.IF.8 – Write a function in different equivalent forms to reveal properties.
 AI-F.IF.8a – Find zeros, maxima, minima, and symmetry of quadratic functions.
 AI-F.LE.5 – Interpret parameters in a linear or exponential function in context.
 AI-S.ID.6 – Represent bivariate data on scatter plots; describe relationships.
 AI-S.ID.6a – Fit a function to real-world data and solve problems.
 AI-S.ID.7 – Interpret slope and intercept in context of data.
 AI-S.ID.8 – Calculate and interpret the correlation coefficient.
 AI-S.ID.9 – Distinguish between correlation and causation.
 AI-A.SSE.1b – Interpret expressions by viewing parts as a single entity.
 AI-A.SSE.2 – Recognize and use structure to rewrite expressions.
 AI-A.SSE.3 – Choose and produce equivalent forms to reveal properties.
 AI-A.SSE.3c – Use exponent properties to rewrite exponential expressions.
 AII-A.APR.3 – Identify zeros of polynomial functions when suitable factorizations are available.
 AII-A.REI.1b – Explain steps when solving rational or radical equations; justify solution.
 AII-F.IF.4 – Interpret key features of graphs and tables; sketch graphs from descriptions.
 AII-F.IF.6 – Calculate and interpret average rate of change over an interval.
 AII-F.IF.7e – Graph cube root, exponential, logarithmic, and trigonometric functions.
 AII-F.IF.8 – Write a function in different equivalent forms to reveal properties.
 AII-F.IF.8b – Use exponent properties to interpret exponential functions as growth or decay.
 AII-F.BF.4a – Find inverse of one-to-one functions algebraically and graphically.
 AII-F.LE.5 – Interpret parameters in a linear or exponential function in context.
 AII-S.ID.6 – Represent bivariate data on scatter plots; describe relationships.
 AII-S.ID.6a – Fit a function to real-world data and solve problems.
 AII-A.SSE.2 – Recognize and use structure to rewrite expressions.
 AII-A.SSE.3 – Choose and produce equivalent forms to reveal properties.
 AII-A.SSE.3c – Use exponent properties to rewrite exponential expressions.
 AII-F.IF.8b – Use exponent properties to classify functions as growth or decay.
 (+)-F.BF.3c – Determine algebraically whether a function is even or odd.
 (+)-F.BF.4b – Verify by composition that one function is the inverse of another.
 (+)-F.BF.4d – Determine an invertible function by restricting the domain.
 (+)-S.ID.6b – Informally assess the fit of a function by analyzing residuals.

CCSS equivalent standards include:

CCSS.MP1 – Make sense of problems and persevere in solving them.
 CCSS.MP2 – Reason abstractly and quantitatively.
 CCSS.MP3 – Construct viable arguments and critique the reasoning of others.
 CCSS.MP4 – Model with mathematics.
 CCSS.MP5 – Use appropriate tools strategically.
 CCSS.MP7 – Look for and make use of structure.
 CCSS.MP8 – Look for and express regularity in repeated reasoning.
 CCSS.HSA.APR.A.1 – Add, subtract, and multiply polynomials and recognize that the result is also a polynomial.
 CCSS.HSA.APR.B.3 – Identify zeros of polynomial functions when suitable factorizations are available.
 CCSS.HSA.REI.A.1 – Explain each step solving linear or quadratic equations; justify the solution method.
 CCSS.HSA.REI.B.3 – Solve linear equations and inequalities in one variable.
 CCSS.HSF.IF.A.2 – Use function notation, evaluate functions, and interpret in context.
 CCSS.HSF.IF.B.4 – Interpret key features of graphs and tables; sketch graphs from descriptions.
 CCSS.HSF.IF.B.6 – Calculate and interpret average rate of change over an interval.
 CCSS.HSF.IF.C.7.A – Graph linear and quadratic functions; show key features.
 CCSS.HSF.IF.C.8 – Write a function in different equivalent forms to reveal properties.
 CCSS.HSF.IF.C.8.A – Find zeros, maxima, minima, and symmetry of quadratic functions.
 CCSS.HSF.LE.A.5 – Interpret parameters in a linear or exponential function in context.
 CCSS.HSS.ID.B.6 – Represent bivariate data on scatter plots; describe relationships.
 CCSS.HSS.ID.B.6.A – Fit a function to real-world data and solve problems.
 CCSS.HSS.ID.C.7 – Interpret slope and intercept in context of data.
 CCSS.HSS.ID.C.8 – Calculate and interpret the correlation coefficient.
 CCSS.HSS.ID.C.9 – Distinguish between correlation and causation.
 CCSS.HSA.SSE.A.1.B – Interpret expressions by viewing parts as a single entity.
 CCSS.HSA.SSE.A.2 – Recognize and use structure to rewrite expressions.
 CCSS.HSA.SSE.B.3 – Choose and produce equivalent forms to reveal properties.
 CCSS.HSA.SSE.B.3.C – Use exponent properties to rewrite exponential expressions.
 CCSS.HSA.APR.B.3 – Identify zeros of polynomial functions when suitable factorizations are available.
 CCSS.HSA.REI.A.1 – Explain steps when solving rational or radical equations; justify solution.
 CCSS.HSF.IF.B.4 – Interpret key features of graphs and tables; sketch graphs from descriptions.
 CCSS.HSF.IF.B.6 – Calculate and interpret average rate of change over an interval.
 CCSS.HSF.IF.C.7.E – Graph cube root, exponential, logarithmic, and trigonometric functions.
 CCSS.HSF.IF.C.8 – Write a function in different equivalent forms to reveal properties.
 CCSS.HSF.IF.C.8.B – Use exponent properties to interpret exponential functions as growth or decay.
 CCSS.HSF.BF.B.4.A – Find inverse of one-to-one functions algebraically and graphically.
 CCSS.HSF.LE.A.5 – Interpret parameters in a linear or exponential function in context.
 CCSS.HSS.ID.B.6 – Represent bivariate data on scatter plots; describe relationships.
 CCSS.HSS.ID.B.6.A – Fit a function to real-world data and solve problems.
 CCSS.HSA.SSE.A.2 – Recognize and use structure to rewrite expressions.
 CCSS.HSA.SSE.B.3 – Choose and produce equivalent forms to reveal properties.
 CCSS.HSA.SSE.B.3.C – Use exponent properties to rewrite exponential expressions.
 CCSS.HSF.IF.C.8.B – Use exponent properties to classify functions as growth or decay.

Book ISBNs

Algebra 2 with Trigonometry Spiral Bound:

978-1-944719-00-5