Math 106  Calculus for Business & Economics. Math 106 course textbook (compiled by T. Matsumoto.)

• The textbook will be Applied Calculus, 2nd Edition, by Stefan Waner and Steven R. Costenoble; Brooks/Cole Pub Co; ISBN/ISSN: 0-534-36631-7.
• Content web pages associated with the Textbook (see also other algebra links below):
 

Summary of Chapter 1:  Functions and Linear Models Scaled and Shifted Functions Summary of Chapter 2:  Nonlinear Models Using and Deriving Algebraic Properties of Logarithms Linear and Exponential Regression Chapter 3:  Introduction to the Derivative:  3.1  Average Rate of Change Section 3.2:  The Derivative as Rate of Change:  A Numerical Approach Section 3.3:  The Derivative as Slope:  A Geometric Approach Section 3.4:  The Derivative as a Function:  An Algebraic Approach Section 3.6:  Limits and Continuity:  Numerical Approach Section 3.6:  Limits and Continuity:  Graphical Approach Section 3.7:  Limits and Continuity:  Algebraic Approach Graphing the Derivative Continuity & Differentiability Chapter 4:  Techniques of Differentiation:  4.1  Product and Quotient Rule Section 4.2  The Chain Rule Section 4.3:  Derivatives of Logarithmic and Exponential Functions Summary of Chapter 5:  Applications of the Derivative Section 5.1:  Maxima and Minima Section 5.2:  Applications of Maxima and Minima Section 5.4:  Related Rates Chapter 6:  The Integral: 6.1  The Indefinite Integral Section 6.2:  Substitution in the Indefinite Integral Numerical Integration Linear Approximation & Error Estimation Calculus Applied to Probability and Statistics Trigonometric Functions and Calculus Introduction to Differential Geometry and General Relativity

On-line Interactive Algebra Review Real Numbers Integer Exponents Radicals and Rational Exponents Multiplying Algebraic Expressions Factoring Algebraic Expressions Rational Expressions Equations Solving Polynomial Equations       On-Line Calculus  Tutorials Functions from the Numerical and Algebraic Viewpoints Functions from the Graphical Viewpoint Linear Functions Linear Models Linear Regression Average Rate of Change The Derivative as Rate of Change: A Numerical Approach  The Derivative as Slope: A Geometric Approach  The Derivative as a Function: An Algebraic Approach  Limits and Continuity: Numerical Approach  Limits and Continuity: Graphical Approach  Limits and Continuity: Algebraic Approach  The Product and Quotient Rule The Chain Rule Derivatives of Logarithmic and Exponential Functions  Maxima and Minima Applications of Maxima and Minima Related Rates The Indefinite Integral Substitution in the Indefinite Integral

 
• Here is some other Algebra Help that is not connected with our textbook:
• Here's a website for Interactive Algebra Practice
• Very good lessons on various Algebra topics at the Purple Math website