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Keep shoppingPrecalculus
19 students
Precalculus
Learn the Fundamentals of Functions, Graphs, Trigonometry, and Analytic Geometry
Created byStephen Blatti
Last updated 4/2025
English
What you'll learn
- Functions and Graphs
- Linear and Quadratic Functions
- Polynomial and Rational Functions
- Inverse, Exponential, and Logarithmic Functions
- Trigonometric Functions
- Trigonometric Identities
- Applications of Trigonometric Functions
- Systems of Equations and Inequalities
- Conic Sections
- Sequences, Series, and Probability
Explore related topics
Course content
12 sections • 56 lectures • 10h 6m total length
Requirements
- Math equivalent to Intermediate Algebra
Description
In this Precalculus course , you will learn the foundational level mathematics needed to study differential and integral calculus. Here is an outline of the course materials:
1. Functions and Graphs
• Rectangular Coordinate System: Distance Formula, Midpoint Formula, Circle, Standard Equation of a Circle, Unit Circle
• Functions: Relations and Functions, Set Builder and Interval Notation, Domain, Range, Vertical Line Test
• Properties of Functions: Even and Odd Functions, Increasing, Decreasing and Constant Functions, Absolute and Local Extrema, Average Rate of Change, Difference Quotient
• Library of Functions: Constant, Identity, Linear, Square, Cube, Square root, Cube Root, Reciprocal, Piece-wise Defined Functions, Greatest Integer Function, Absolute Value Function
• Graph Transformations: Vertical and Horizontal Shifts, Vertical Stretching and Compressing, Horizontal Stretching and Compressing, Reflections about the x and y-axis
2. Linear and Quadratic Functions
• Linear Functions: Definition of a Linear Function, Slope-Intercept Form, Point-Slope Form, Finding Intercepts, Parallel and Perpendicular Lines
• Linear Equations and Inequalities: Equations, Linear Equations in One Variable, Properties of Equality, Solving Linear Equations, Linear Inequalities in One Variable, Properties of Inequalities, Solving Linear Inequalities, Compound Inequalities, Absolute Value Inequalities
• Quadratic Functions: Definition of a Quadratic Function, Vertex Form, Completing the Square, Vertex Formula
• Quadratic Equations and Inequalities: Quadratic Equations, Square Root Property, Solution by Factoring, Solution by Completing the Square, Solution by Quadratic Formula, Discriminant, Graphical Solutions, Quadratic Inequalities, Solving Quadratic Inequalities
• Complex Numbers: Imaginary Unit i, Square Root of a Negative Number, Definition of a Complex Number, Complex Conjugates, Complex Numbers and Radicals, Operations on Complex Numbers, Operations with Powers of i, Quadratic Equations with Complex Solutions
3. Polynomial and Rational Functions
• Polynomial Functions: Definition of a Polynomial Function, Division Algorithm, Remainder Theorem, Division of Polynomials, Synthetic Division, x-Intercepts Behavior, Leading Coefficient Test
• Real and Complex Zeros of Polynomial Functions: Factor Theorem, Fundamental Theorem of Algebra, Rational Zeros Theorem, n-Zeros Theorem, Conjugate Zeros Theorem
• Rational Functions: Definition of a Rational Function, Vertical Asymptotes, Horizontal Asymptotes, Oblique Asymptotes, Graphing Rational Functions
• Power Functions: Rational Exponents and Radical Notation, Power Functions, Root Functions, Solving Radical Equations
4. Inverse, Exponential, and Logarithmic Functions
• Operations on Functions: Sum, Difference, Product, and Quotient of the functions, Composition of Functions
• Inverse Functions:One-to-one Functions, Horizontal Line Test, Inverse of a Function, Properties of Inverse Functions
• Exponential Functions: Laws of Exponents, Definition of an Exponential Function, Properties of Exponential Functions, Compound Interest Formula
• Logarithmic Functions: Definition of a Logarithmic Function, Properties of Logarithmic Functions, Inverse Properties of Exponential and Logarithmic Functions, Continuous Compound Interest
• Properties of Logarithms: Rules of Logarithms, Change of Base Formula
• Exponential and Logarithmic Equations: One-to-One Property of Exponential Equality, One-to-One Property of Logarithmic Equality, Solve Exponential and Logarithmic Equations
5. Trigonometric Functions
• Angles and Their Measure: Degree Measure, Minutes and Seconds, Radian Measure, Arc Length, Degree and Radian Conversion, Coterminal Angles, Linear Velocity, Angular Velocity
• Trigonometric Functions - Unit Circle: Sine, Cosine, Cosecant, Secant, Tangent, Cotangent, Unit Circle, Fundamental Identities of Trigonometry: Reciprocal Identities, Quotient Identities, and Pythagorean Identities
• Graphs of Sine and Cosine Functions: Periodic Functions, Even-Odd Properties, Graphing Sinusoidal Functions, Amplitude, Period, Frequency, Phase Shift, and Vertical Translation
• Graphs of Tangent, Cotangent, Secant, and Cosecant Functions
• Inverse Trigonometric Functions: Inverse Sine, Inverse Cosine, Inverse Tangent, Inverse Cotangent, Inverse Secant, Inverse Cosecant, Composition of Inverse Trigonometric Functions
6. Analytic Trigonometry
• Trigonometric Identities: Reciprocal Identities, Quotient Identities, Pythagorean Identities, Even-Odd Identities, Cofunction Identities, Using Identities
• Sum and Difference Formulas: Using Sum and Difference Formulas
• Double-Angle and Half-Angle Formulas: Using Double-Angle, Half-Angle, and Power Reducing Formulas
• Product-to-Sum and Sum-to-Product Formulas: Using Product-to-Sum and Sum-to-Product Formulas
• Trigonometric Equations: Solving Trigonometric Equations
7. Applications of Trigonometry
• Right Triangle Trigonometry: Trigonometric Functions of Right Triangles, Solving Right Triangles, Complementary Angle Theorem
• Law of Sines: Use Law of Sines to Solve Oblique Triangles
• Law of Cosines: Use Law of Cosines to Solve Oblique Triangles
• Vectors: Basic Operations with Vectors, Unit Vectors, Dot Product, Angle Between Two Vectors
• Trigonometric Form of Complex Number: Complex Plane, Absolute Value of a Complex Number, Trigonometric Form of a Complex Number, Product and Quotient of Complex Numbers, De Moivre's Theorem, Finding nth Roots of a Complex Number
• Polar Coordinates: Polar Coordinates, Polar-Rectangular Coordinate Conversion
8. Systems of Equations and Inequalities
• Two Variable Linear Systems of Equations: Graphical Solutions, Method of Substitution, and Method of Elimination
• Nonlinear Systems of Equations: Solve Nonlinear Systems of Equations
• Partial Fractions: Partial Fraction Decomposition
• Two Variable Systems of Inequalities: Graphical Solutions for Two Variable Systems of Inequalities
• Linear Programming: Apply Linear Programming to Optimize an Objective Function
9. Matrices and Determinants
• Linear Systems and Matrices: Solve Systems of Equations with Matrices, Gaussian Elimination, Equivalent System Row Operations, Row-Echelon Form of a Matrix, Reduced Row-Echelon Form of a Matrix, and Gauss-Jordan Elimination
• Operations with Matrices: Matrix Addition and Subtraction, Matrix Scalar Multiplication, and Matrix Multiplication
• Inverse of a Matrix: Identity Matrix, Inverse of a Matrix, Find the Inverse of a Matrix, Inverse of a 2 x 2 Matrix, and Matrix System of Equations Solutions
• Determinants: Determinant of a Square Matrix, Minors and Cofactors of a Square Matrix
10. Sequences, Series, and Probability
• Sequences: Finite & Infinite Sequences, Factorials, Arithmetic & Geometric Sequences
• Series: Finite & Infinite Series, Summation Notation, Arithmetic & Geometric Series
• Counting: Fundamental Counting Principle, Permutations, and Combinatorics
• The Binomial Theorem: Binomial Formula, Pascal's Triangle, and Binomial Coefficients
• Probability: Probability of an Event, Probability of a Complementary Event, Probability of the Union of Two Events, Probability of Independent Events
• Mathematical Induction: Generalized Principle of Mathematical Induction
11. Analytic Geometry
• Conic Sections – Parabola: Equation of a Parabola, Vertex, Focus, and Directrix
• Conic Sections – Ellipse: Equation of an Ellipse, Major and Minor Axis, Vertices, Foci, and Eccentricity
• Conic Sections – Hyperbola: Equation of a Hyperbola, Transverse and Conjugate Axis, Vertices, Foci, Asymptotes, and Fundamental Rectangle
• Conic Sections - Rotation of Axes: General Form of an Equation of a Conic, Rotation of Axes to Eliminate xy Term, Rotation Formulas, Identification of Conics with the Discriminant, Rotation of Axes: Parabola, Ellipse, and Hyperbola
• Conic Sections - Polar Equations: Polar Definition of a Conic and Polar Equations of Conics with Focus at the Pole
Who this course is for:
- This course is for those interested in learning about precalculus/trigomometry and as prerequisite math for calculus