Khan

Below you will find Khan Academy practice sets linked to sections in the book. All of them are highly encouraged as practice when reviewing for tests and quizzes.

Chapter 1: Precalculus

Algebra practice: Adding and subtracting rational expressions

Algebra practice: Nested fractions

Algebra practice: Interpreting equations graphically

Appendix D: Converting between angles and degrees

Appendix D: Special trig values (do NOT use a calculator)

Appendix D: Using the Pythagorean Identity

1.2: Point-slope equation of a line

1.2: Equation of a line from a graph

1.2: Modeling real-world problems with linear functions

1.3: Evaluating composite functions from formulas

1.3: Evaluating composite functions from formulas pt. 2

1.3: Evaluating composite functions from graphs and tables

1.3: Transforming functions pt. 1

1.3: Transforming functions pt. 2

1.3: Modeling with composite functions

1.6: Understanding Inverse functions

1.6: Finding inverse functions using algebra

1.6: Connecting exponential and logarithms

1.6: Evaluating logarithms pt. 1

1.6: Evaluating logarithms pt. 2

1.6: Solving exponential and logarithm equations

Chapter 2: Limits and Derivatives

2.2: Limits from a table of values

2.2: Limits from a graph pt. 1

2.2: Limits from a graph pt. 2

2.2: Limits basics challenge

2.3: Limits of combinations of functions pt. 1

2.3: Limits of combinations of functions pt. 2

2.3: Limits by factoring

2.3: Limits by rationalizing

2.5: Continuity from a graph

2.5: Continuity from a formula

2.5: (AP/Std Honors only) Intermediate Value Theorem

2.5: Limits from equations challenge

2.6: Infinite limits from graphs

2.6: Infinite limits from equations

2.6: Horizontal asymptotes of rational functions

2.6: (AP/Std Honors only) Horizontal asymptotes of radical functions

2.6: (AP/Std Honors only) Horizontal asymptotes of trig functions

2.7: Derivatives from a graph pt. 1

2.7: Derivatives and tangent lines pt. 1

2.7: Definition of derivative in terms of limits

2.8: Derivatives and the direction of a function

2.8: Recognizing the graph of the derivative

2.8: Where is a function differentiable?

2.8: Derivatives basics challenge

Chapter 3: Differentiation Rules

3.1: Basic differentiation rules

3.1: Derivatives of polynomials

3.1: Derivatives of polynomials pt. 2

3.1: Power rule challenge

3.2: Product rule

3.2: Quotient rule

3.4: Chain rule

3.4: Chain rule pt. 2

3.4: Trig functions differentiation

3.4: Derivative rules challenge

3.5: Implicit differentiation

3.9: Related rates (basic)

3.9: Related rates (medium)

3.9: Related rates (advanced)

3.10: Basic differentials problems

Chapter 4: Applications of Differentiation

4.1: Find critical points

4.1: Closed interval method

4.1: Absolute maxima on a whole domain

4.2: Conditions for Mean Value Theorem from a graph

4.2: Conditions for Mean Value Theorem from a table

4.3: Analyzing graphs using first derivative

4.3: Find increasing/decreasing intervals

4.3: Find relative maxima and minima

4.3: Find relative maxima and minima using second derivative test

4.3: Concavity

4.3: Inflection points intro

4.3: Justification using 2nd derivative

4.3: Points of Inflection from Graphs

4.3: Connect f,f',f'' graphically

4.7: Optimization

4.9: Antiderivatives

4.9: Motion along a line

Chapter 5: Integration

5.1: Left and right Riemann sums

5.1: Left and right Riemann sums part 2

5.2: Summation notation

5.2: Summation notation part 2

5.2: Riemann sums in summation notation

5.2: Definite integrals intro

5.2: Definite integrals from a graph

5.2: Definite integrals as limits of Riemann sums

5.2: Definite integrals properties 1

5.2: Definite integrals properties 2

5.2: Definite integrals properties 3

5.3: Functions defined by integrals

5.3: Functions defined by integrals 2

5.3: Functions defined by integrals 3

5.4: Reverse power rule

5.4: Reverse power rule 2

5.4: Reverse power rule 3

5.4: Reverse power rule 4

5.4: Indefinite integrals of e and 1/x

5.4: Indefinite integrals of sin and cos

5.4: Definite integrals

5.4: Definite integrals: piecewise functions

5.4: Definite integrals in context

5.4: Definite integrals in context 2

5.4: Definite integrals in context 3

5.4: Definite integrals in context 4

5.4: Motion problems

5.4: Motion problems 2

5.5: u-substitution 1

5.5: u-substitution 2

5.5: u-substitution 3

Chapter 6: Applications of Integration

6.1: Area between curves

6.1: Area between curves 2

6.1: Area between curves 3

6.2: Volumes 1

6.2: Volumes 2

6.2: Volumes 3

6.3: Volumes 4

6.5: Average value of a function

Chapter 9: Differential Equations

9.1: Check solutions to differential equations

9.1: Set up differential equations

9.2: Slope fields 1

9.2: Slope fields 2

9.3: Separation of variables 1

9.3: Separation of variables 2

9.3: Separation of variables 3